Cardiogenetics doi: 10.3390/cardiogenetics16020008

Authors: Antonio Concistrè Claudia Caramazza Marco D’Abbondanza Rachele Santori Giuseppe Imperoli

Endocrine disorders are increasingly recognized as major contributors to secondary cardiomyopathies, leading to profound alterations in cardiac structure and function. This comprehensive review synthesizes current evidence on the genetic basis of cardiomyopathies associated with endocrine conditions, including primary aldosteronism, Cushing’s syndrome, pheochromocytoma/paraganglioma, acromegaly, thyroid disorders, hyperparathyroidism, and diabetic cardiomyopathy. We examine the contribution of somatic and germline mutations, genetic polymorphisms, shared molecular pathways transforming growth factor-β (TGF-β)/SMAD (TGF-β/SMAD signaling, the renin–angiotensin–aldosterone system, oxidative stress, and calcium handling), sarcomeric gene modifiers, ion channel variants, and epigenetic mechanisms to disease pathogenesis. We propose a conceptual framework distinguishing three major categories of genetic involvement: (i) variants causing the primary endocrinopathy; (ii) genetic modifiers of myocardial susceptibility under conditions of hormonal excess; and (iii) direct pleiotropic effects, whereby single gene variants independently cause both endocrine and cardiac phenotypes. In addition, we discuss genotype–phenotype correlations, ethnic and population differences in genetic susceptibility, the emerging role of polygenic risk scores, and precision medicine approaches. Overall, this review provides an integrated perspective on the complex genetic architecture of endocrine-related cardiomyopathies and outlines practical considerations for genetic testing aimed at improving patient management and clinical outcomes.

Cardiogenetics doi: 10.3390/cardiogenetics16020007

Authors: Natasha Trajkovska Lenche Jovova Done Stojanov

In this study, we have performed computational PTM analysis on a panel of hypertrophic cardiomyopathy (HCM)-associated proteins: MYH7, MYBPC3, TNNT2, and TNNI3. We aimed to benchmark the prediction of PTM sites of three ML-based tools: MusiteDeep, PTMGPT2, and SiteTack, using PhosphoSitePlus as a reference for true positives. Notably, because the highest precision tool varied by protein and PTM type, our results indicate there is no single best tool for PTM prediction. Specifically, for HCM-associated proteins, MusiteDeep had the highest precision for MYBPC3 and MYH7; PTMGPT2 was best for TNNI3, and SiteTack for TNNT2. Examining PTM type and phosphorylation in particular, MusiteDeep had the highest precision, followed by PTMGPT2 and SiteTack. However, MusiteDeep did not identify acetylation sites, where PTMGPT2 outperformed SiteTack. Beyond these benchmarking results, we also report on five high-priority candidates for experimental validation in two HCM-associated proteins: MYH7 (K1451 acetylation, K129 methylation) and MYBPC3 (T705 phosphorylation, K14 acetylation, R44 methylation).

Cardiogenetics doi: 10.3390/cardiogenetics16010006

Authors: Sabrina Montuoro Emanuele Monda Gaetano Diana Emanuele Bobbio Vera Fico Marta Rubino Martina Caiazza Adelaide Fusco Annapaola Cirillo Federica Verrillo Francesca Dongiglio Giuseppe Palmiero Federica Barra Giulia Frisso Maria Giovanna Russo Paolo Calabrò Giuseppe Limongelli

Sudden cardiac death (SCD) is a major global health issue, defined as sudden natural death presumed to be of cardiac cause. While in the elderly SCD is commonly associated with coronary artery disease, in the younger population it is linked to inherited cardiomyopathies or channelopathies, even though SCD can remain unexplained even after a comprehensive autopsy in a substantial proportion of cases. In this context, genetic testing has gained importance, supported by the widespread availability of techniques such as next-generation and whole-exome/genome sequencing and their reduced costs. This state-of-the-art review summarizes the genetic bases of sudden cardiac death among cardiomyopathies, channelopathies and in sudden unexplained death presumed to be of arrhythmic cause. Among the structural causes, inherited cardiomyopathies such as hypertrophic, dilated, non-dilated left ventricular, arrhythmogenic right ventricular and restrictive ones represent major substrates for malignant ventricular arrhythmias mostly arising from variants in sarcomeric or desmosomal genes. Channelopathies (long or short QT syndrome, Brugada syndrome and catecholaminergic polymorphic ventricular tachycardia) are caused by variants in genes encoding cardiac ion channels and/or regulatory proteins, which equally predispose to high risk of life-threatening ventricular arrhythmias. In sudden arrhythmic death syndrome, with a structurally normal heart, post-mortem genetic testing (molecular autopsy) can uncover an underlying inherited condition. However, variants of uncertain significance are detected in more than half of the cases, underscoring the need for a multidisciplinary approach. Genetic testing also plays a key role in cascade screening of first-degree relatives. While monogenic variants drive risk in inherited cardiac disorders, emerging evidence suggests that polygenic contributions may modulate SCD susceptibility, highlighting future roles for polygenic risk scores in risk stratification.

Cardiogenetics doi: 10.3390/cardiogenetics16010005

Authors: Giulio La Rosa Gemma Pelargonio Francesco Santoro Sergio Conti Francesco Campo Giuseppe Sgarito

Takotsubo syndrome (TTS) is a temporary and reversible form of cardiomyopathy that clinically mimics acute coronary syndrome, typically triggered by intense physical or emotional stress. It mainly affects postmenopausal women and exhibits significant variation among individuals regarding its onset, progression, and outcomes. Although significant advances have been made since its initial description in 1990, the underlying pathophysiological mechanisms remain incompletely understood, limiting the development of effective prevention and targeted treatment strategies. A potential genetic predisposition has been suggested, supported by reports of familial clustering; however, a systematic and updated characterization of genetic and epigenetic factors associated with TTS is still lacking. This systematic and critical review aims to offer a comprehensive overview of current evidence on genetic susceptibility and epigenetic biomarkers potentially involved in the pathogenesis of TTS. Due to the heterogeneity and inconsistency of available findings, particular attention is also given to the methodological limitations of existing genetic studies. Finally, the review examines emerging multimodal approaches that may offer new perspectives for understanding the complex biological foundations of this syndrome.

Cardiogenetics doi: 10.3390/cardiogenetics16010004

Authors: Sukruth Pradeep Kundur Ali Malik Rasi Mizori Sanjay Sivalokanathan

Myocarditis is a complex inflammatory myocardial disease. Although traditionally regarded as exclusively immune-mediated, recent evidence highlights the significant role of underlying genetics on susceptibility, phenotypic variability, and long-term prognosis. This narrative review examines the evolving genetic architecture of myocarditis and its relationship to inherited cardiomyopathies, integrating mechanistic insights from molecular, imaging, and clinical studies. Variants in desmosomal genes such as desmoplakin (DSP) and plakophilin-2 (PKP2) are increasingly linked to recurrent myocarditis that may evolve into arrhythmogenic cardiomyopathy, supporting the concept of a genetically predisposed myocardium in which inflammatory stressors can act as triggers. Truncating variants in titin (TTN) and Filamin C (FLNC) are associated with fulminant or dilated phenotypes. Conversely, mutations in Lamin A/C (LMNA), Desmin (DES), and BCL2-Associated Athanogene 3 (BAG3) contribute to inflammatory myocardial remodeling and other forms of inherited cardiomyopathies. These findings collectively have the potential to redefine myocarditis as an inflammatory disorder influenced by genetic factors. Furthermore, advancements in genetic testing and multi-omics approaches show promise in enhancing diagnostic accuracy and informing management strategies.

Cardiogenetics doi: 10.3390/cardiogenetics16010003

Authors: Lorenzo Bianchi Marialaura Buscemi Domenico Coviello Massimiliano Cecconi Andrea Minghini Stefano Cornara Matteo Astuti Francesco Pentimalli Pietro Bellone Emmanuel Androulakis Alberto Somaschini

Mitral annular disjunction (MAD) is associated with an increased risk of ventricular arrhythmias and sudden cardiac death, yet its genetic background remains poorly defined. We report the case of a 50-year-old man with MAD who survived cardiac arrest and carries three variants of unknown significance (VUS) in genes involved in cardiomyopathy pathogenesis. To explore the genetic basis of non-syndromic MAD, we performed a systematic review of the literature, identifying five case reports and one retrospective cohort study. The case reports described patients with MAD harboring four pathogenic variants and ten VUS. Two pathogenic variants were linked to cardiomyopathies, involving proteins of the nuclear envelope and cytoskeleton, while two were associated with channelopathies. The retrospective cohort study identified a recurrent variant in a gene involved in intercellular adhesion segregating within a family affected by MAD. Overall, available evidence suggests that genetic factors may hypothetically modulate susceptibility to MAD, not only in connective tissue disorders but also in isolated mitral valve disease. Variants associated with arrhythmogenic cardiomyopathies and channelopathies appear to cluster in families with non-syndromic MAD and arrhythmic phenotypes, suggesting a role in the arrhythmic substrate. However, in absence of definitive functional, segregation, or longitudinal data, the contribution of genetic variants to MAD should be interpreted with caution. Further genomic studies are needed to clarify their genetic contribution and prognostic implications.

Cardiogenetics doi: 10.3390/cardiogenetics16010002

Authors: Pasquale Crea Alice Moncada Francesco Catanzariti Graziella Agnelli Michela Navarra Claudia Rubino Irene Scimè Lucio Teresi Maurizio Cusmà Piccione Luigi Colarusso Roberto Licordari Giuseppe Dattilo Gianluca Di Bella

Background: PRKAG2 cardiac syndrome is a rare autosomal dominant glycogen-storage cardiomyopathy that mimics sarcomeric hypertrophic cardiomyopathy (HCM) but features ventricular pre-excitation, progressive conduction disease and concentric hypertrophy due to intracellular glycogen accumulation. The c.905G>A (p.Arg302Gln) variant is one of the most frequently reported pathogenic substitutions. Case summary: We describe a three-generation family carrying the heterozygous PRKAG2 p.Arg302Gln variant. The proband, a 41-year-old man, presented with paroxysmal atrial fibrillation, short PR interval and abnormal intraventricular conduction associated with concentric left ventricular hypertrophy and preserved ejection fraction. Holter monitoring disclosed episodes of high-grade atrioventricular block, prompting implantation of a primary-prevention dual-chamber ICD. Two gene-positive brothers exhibited milder hypertrophy but shared sinus bradycardia, ventricular pre-excitation and supraventricular arrhythmias; one underwent catheter ablation of a posteroseptal accessory pathway. The affected mother displayed a hypertrophic phenotype complicated by sick sinus syndrome and permanent atypical atrial flutter requiring pacemaker implantation. No relevant extracardiac involvement was detected in any family member. Review and novelty: Using this family as a starting point, we provide a concise narrative review of PRKAG2 syndrome with emphasis on the Arg302Gln genotype, molecular mechanisms and emerging treatment strategies. We highlight key multimodality imaging and tissue-characterization features that help distinguish diffuse, concentric glycogen-storage hypertrophy from the often-asymmetric pattern of sarcomeric HCM. Integration of our findings with published Arg302Gln cohorts illustrates the broad phenotypic variability in conduction disease, pre-excitation and atrial arrhythmias. Conclusions: PRKAG2 p.Arg302Gln-related cardiomyopathy should be suspected in patients with otherwise unexplained left ventricular hypertrophy associated with short PR interval, pre-excitation or early brady–tachy arrhythmias. Early recognition of red-flag features, systematic genetic testing, family screening and tailored arrhythmia/device management are crucial, while emerging gene- and pathway-targeted therapies may offer future disease-modifying potential.

Cardiogenetics doi: 10.3390/cardiogenetics16010001

Authors: Olga S. Chumakova Natalia V. Milovanova Elena A. Mershina Sergey I. Kutsev Ekaterina Y. Zakharova

Hypertrophic cardiomyopathy (HCM), the most common inherited cardiac disorder, is usually caused by pathogenic variants in sarcomeric genes and is inherited in an autosomal dominant manner. Around 5% of cases are caused by variants in non-sarcomeric genes, which may involve alternative modes of inheritance. This study presents the first reported case of HCM associated with digenic contribution of heterozygous variants in two non-sarcomeric genes: ALPK3 and TRIM63. The patient was incidentally diagnosed with non-obstructive HCM in childhood and developed extreme myocardial hypertrophy with moderate heart failure at the age of 18. Rapid progressive left ventricular dysfunction promptly resulted in death at the age of 26. Genetic testing with an extended HCM panel identified no sarcomeric variants but revealed two truncating variants in the ALPK3 and TRIM63 genes. Whole-genome sequencing excluded any other causes of the disease. Heterozygous ALPK3 variants are typically associated with late-onset HCM, whereas TRIM63 variants are only considered pathogenic in a recessive state. This case, therefore, suggests a synergistic contribution of both variants to the development of a severe phenotype. The potential mechanisms of interaction between the protein products of ALPK3 and TRIM63 within the M-band of the sarcomere are discussed.

Cardiogenetics doi: 10.3390/cardiogenetics15040032

Authors: Laura Torlai Triglia Federico Barocelli Enrico Ambrosini Alberto Bettella Filippo Luca Gurgoglione Michele Bianconcini Angela Guidorossi Francesca Russo Antonio Percesepe Giampaolo Niccoli

Danon Disease (DD) is a rare X-linked autophagic vacuolar myopathy caused by pathogenic variants in the lysosome-associated membrane protein 2 (LAMP-2) gene. Alternative splicing of the terminal exon 9 leads to the creation of three different isoforms, each with essential roles in regulating autophagy. DD is characterized by cardiomyopathy, skeletal myopathy, cognitive impairment, and retinal disorders, with cardiac involvement being the primary cause of morbidity and mortality. Muscle biopsy may reveal signs of vacuolar myopathy, but the diagnosis is typically confirmed through sequencing and deletion/duplication analysis of the LAMP-2 gene using peripheral blood. Although few genotype–phenotype correlations have been described, with most being limited to isoform 2B of exon 9, the most significant prognostic indicator remains sex. The disease manifests earlier and with a more severe systemic presentation in males due to their hemizygous status, whereas in females, the typical presentation is late-onset hypertrophic or dilated cardiomyopathy, generally without extracardiac involvement. Cases of severely affected women have been described, potentially due to non-random or defective X-inactivation. The less typical and delayed clinical presentation in females can result in incorrect or missed diagnoses. The aim of this narrative review is to summarize the natural history, diagnostic criteria, management strategies, and recent advancements in the understanding of DD in women.

Cardiogenetics doi: 10.3390/cardiogenetics15040031

Authors: Jaël S. Copier Fenna Tuijnenburg Karolina Andrzejczyk Alex V. Postma Saskia N. van der Crabben Oussama Najih Caroline Pham Leander Beekman Arie O. Verkerk Ahmad S. Amin Elisabeth M. Lodder

Introduction: Clinical variability within families harbouring disease-causing genetic variants hampers clinical care and risk stratification. We studied a multigenerational family presenting with sinus bradycardia and long QT syndrome type 2 (LQTS2). The family harboured a pathogenic variant in KCNH2, which co-segregated with the observed LQTS2. We studied the genetic cause of the high occurrence of sinus bradycardia in this family. Methods: Clinical data was collected, including heart rate, QT-interval, symptoms, and echocardiographic parameters. QTc was calculated using the Bazett and the Fridericia formula. Sanger sequencing of HCN4 was performed, followed by segregation analysis of the identified variant with sinus bradycardia. The biophysiological consequences of two variants, KCNH2-p.L69P (c.206T>C) and HCN4-p.R666W (c.1996C>T), were assessed by patch-clamp experiments. Therefore, a heterologous model was generated by transfection of HEK293A or CHO-k1 cells, respectively. Results: Sanger sequencing of HCN4 identified HCN4-p.R666W (c.1996C>T), which has a stronger segregation with the observed sinus bradycardia than KCNH2-p.L69P. Patch-clamp experiments revealed that KCNH2-p.L69P and HCN4-p.R666W lead to a decrease in the corresponding current densities, which explains the LQTS and sinus bradycardia observed in the patients. Carriers of both genetic variants have a more severe LQTS2 phenotype, reflected in longer QT and higher incidence of syncope. Conclusions: We identified two (likely) pathogenic variants, KCNH2-p.L69P and HCN4-p.R666W, co-segregating with LQTS2 and sinus bradycardia, respectively. Patients carrying both variants showed a more severe phenotype. These findings highlight the importance of additional genetic testing when discordant features are present, thereby enabling more accurate diagnosis, risk prediction, and management.

Cardiogenetics doi: 10.3390/cardiogenetics15040030

Authors: Martina Caiazza Emanuele Monda Francesco Loffredo Rossana Bussani Vera Fico Emanuele Bobbio Chiara Cirillo Anna Murredda Immacolata Viscovo Alessandra Scatteia Santo Dellegrottaglie Diego Colonna Berardo Sarubbi Maria Giovanna Russo Paolo Golino Gianfranco Sinagra Giuseppe Limongelli

Background: PRKAG2-related disease is an autosomal dominant disorder caused by pathogenic variants in the PRKAG2 gene, leading to glycogen accumulation in cardiomyocytes. It is characterized by left ventricular hypertrophy (LVH), ventricular pre-excitation, and conduction disease. Due to the rarity of the condition and the frequent occurrence of private variants, functional or pathological testing is required for definitive pathogenicity classification. Case Presentation: We describe a 22-year-old male referred for evaluation after experiencing exertional dyspnea and a syncopal episode. Family history revealed sudden cardiac deaths and conduction disease requiring pacemaker implantation. The patient exhibited mild LVH on imaging, conduction abnormalities on electrophysiological study, and a heterozygous PRKAG2 variant (c.1643C>T; p.Ser548Leu), classified as likely pathogenic according to ACMG guidelines. Cascade screening identified the variant in three family members, one of whom exhibited a positive phenotype. Endomyocardial biopsy revealed glycogen accumulation, providing histopathological confirmation of PRKAG2-related disease. Conclusions: This case underscores the importance of integrating genetic, clinical, and histopathological data in variant interpretation. Endomyocardial biopsy can provide definitive evidence to reclassify a PRKAG2 variant as pathogenic, thereby guiding management and family screening.

Cardiogenetics doi: 10.3390/cardiogenetics15040028

Authors: Jil Delhez Jeanne Ougier Francisco Xavier de Araujo Raphael Martins de Abreu Camilo Corbellini

Background: Regular endurance training induces physiological changes in cardiac structure and function. The precise epigenetic mechanisms by which cardiovascular adaptations are mediated are still unclear. This review seeks to clarify the role of epigenetic regulation in exercise-induced cardiovascular adaptation. Methods: This systematic review was conducted in accordance with the PRISMA guidelines up to 30 April 2025, using the databases PubMed, VHL, and LILACS Plus. Studies were included if they focused on microRNA expression and DNA methylation in individuals with cardiovascular disease who underwent endurance training. Results: Six articles, including 384 participants with heart failure, coronary artery disease, and hypertension, were included in the final analysis. Changes in DNA methylation and microRNA expression of specific genes involved in cardiovascular structural and functional adaptation were observed. Significant improvements were found in body composition, VO2peak, systolic and diastolic blood pressure, and left ventricular function and structure. Conclusions: Endurance training has a positive impact on epigenetic mechanisms related to cardiovascular structural and functional adaptation. A clear causal link between epigenetic modifications and clinical outcomes remains to be established.

Cardiogenetics doi: 10.3390/cardiogenetics15040029

Authors: Jule Leonie Gutmann Alina Spister Lara Baticic

Congenital genetic heart defects are major contributors to pediatric morbidity and mortality, underscoring the importance of early detection and individualized therapeutic strategies. This review aimed to summarize current knowledge on a spectrum of inherited cardiovascular disorders, with a focus on their genetic etiology, molecular pathogenesis, and phenotypic presentation in children. Conditions discussed include Marfan syndrome, Noonan syndrome, various cardiomyopathies, Duchenne muscular dystrophy, DiGeorge syndrome, and the tetralogy of Fallot. These six conditions were selected to represent the spectrum of pediatric cardiovascular genetic diseases, encompassing connective tissue disorders, multisystem syndromes, primary myocardial diseases, neuromuscular cardiac involvement, and structural congenital defects, thereby illustrating how distinct genotypes lead to diverse phenotypes. For each disorder, the underlying genetic mutations, associated molecular pathways, cardiovascular involvement, clinical features, and approaches to diagnosis and management are examined. Emphasis is placed on the role of timely diagnosis, genetic counseling, and personalized treatment in improving patient outcomes. The review concludes by highlighting emerging research directions and novel therapeutic interventions aimed at enhancing care for these complex pediatric conditions.

Cardiogenetics doi: 10.3390/cardiogenetics15040027

Authors: Salman Ansari Suvasini Lakshmanan Matthew J. Budoff

Background: Polygenic risk scores (PRSs) aggregate the effects of many common genetic variants and are being investigated as tools to refine coronary artery disease (CAD) risk prediction beyond traditional clinical models. Methods and Results: We review the development of PRS from early unweighted scores to contemporary genome-wide models and summarize evidence from major studies. We identified key studies through PubMed searches using the terms “polygenic risk score,” “genetic risk prediction,” and “coronary artery disease,” supplemented by citation chaining of highly cited articles and recent reviews. Large cohorts, such as the UK Biobank, show that individuals in the highest PRS percentiles have a 3–5-fold higher risk of CAD, and may gain the greatest benefit from statin therapy. PRS can also reclassify younger adults at borderline or intermediate risk and may complement coronary artery calcium (CAC) scoring. Conclusions: PRSs hold promise for lifetime risk stratification and targeted prevention in CAD but are limited by ancestry bias in GWAS, underrepresentation of diverse populations, inconsistency in individual estimates, and lack of standardized reporting. Future research should focus on expanding multi-ancestry databases, standardizing methods, prospective validation, and effective communication strategies to support equitable and evidence-based clinical use.

Cardiogenetics doi: 10.3390/cardiogenetics15030026

Authors: Marco Spagnolin Luca Fazzini Amedeo Terzi Attilio Iacovoni Raffaele Abete Ottavio Zucchetti Michele Senni Mauro Gori

Dystrophinopathies, including Duchenne and Becker muscular dystrophies (DMD and BMD), are inherited neuromuscular disorders frequently complicated by progressive cardiac involvement, ultimately leading to advanced heart failure. While heart transplantation and long-term left ventricular assist device (LVAD) therapy represent potential therapeutic options, their application in this population raises significant ethical challenges. This review explores the ethical implications surrounding the allocation of scarce medical resources, particularly in patients with limited life expectancy and multisystem disease, as in DMD. Decisions regarding eligibility for heart transplantation must balance individual benefit, considering the impact of excluding other potential recipients. LVAD therapy, although more accessible, still demands careful patient selection due to high perioperative risk and postoperative complications. The review emphasizes the need for transparent, multidisciplinary decision-making processes that respect patient autonomy while ensuring equitable and rational distribution of healthcare resources. Ultimately, while advanced therapies may be feasible in selected cases, particularly in BMD, ethical deliberation remains central to determining their appropriateness in the context of dystrophinopathies.

Cardiogenetics doi: 10.3390/cardiogenetics15030025

Authors: Sara Giovani Adelaide Ballerini Alessia Gozzini Michele Di Lorenzo Davide Mei Silvia Passantino Mattia Zampieri Alessia Tomberli Alberto Marchi Giovanni Battista Calabri Gaia Spaziani Giulio Porcedda Elena Bennati Silvia Favilli Iacopo Olivotto Francesca Girolami

This study investigates the genetic background of pediatric-onset cardiac channelopathies, a rare group of genetic disorders causing arrhythmias and sometimes sudden death, whose genetic background remains partially unknown. The research analyzed 59 pediatric patients (<18 years of age) diagnosed with different channelopathies (LQTS, BrS, CPVT, SQTS, and conduction disorders), along with 40 of their family members, using Next-Generation Sequencing (NGS) after genetic counseling. A causative genetic variant was found in 47% of cases, mainly in the KCNQ1 (42%), RYR2 (16%), CACNA1C (10%), and SCN5A (10%) genes. Notably, a de novo large deletion in KCNH2 was detected in an LQTS patient, and a pathogenic CALM1 variant was identified in a child. A compound heterozygous KCNQ1 was consistent with Jervell and Lange-Nielsen syndrome. In light of these data, genetic testing is crucial for diagnosis, prognosis, and treatment planning; cascade screening allowed early risk identification and preventive interventions for family members. Expanding NGS technologies and research on new candidate genes may enhance personalized therapies in the future.

Cardiogenetics doi: 10.3390/cardiogenetics15030024

Authors: Irene Raso Claudia Chillemi Giorgia Prontera Arianna Laoreti Elisa Cattaneo Valeria Calcaterra Gian Vincenzo Zuccotti Savina Mannarino

Background: Ebstein’s anomaly (EA) is a rare congenital heart defect characterized by failure of tricuspid valve delamination during embryogenesis. Left ventricular (LV) hypertrabeculation results from incomplete myocardial compaction during fetal development. EA is associated with LV hypertrabeculation in 0.14% of cases, and EA is the most common congenital heart disease in LV hypertrabeculation (up to 29%), suggesting a shared embryogenetic pathway. Case Report: We describe a female patient prenatally diagnosed with EA and a large ventricular septal defect. Postnatal echocardiography confirmed EA with moderate regurgitation and revealed previously unnoticed left ventricular excessive trabeculations. Whole exome sequencing revealed a heterozygous never-described variant of unknown significance in the TNNC1 gene. Discussion: The genetic link between EA and LV hypertrabeculation remains unclear, though variants in sarcomeric or cytoskeletal genes like MYH7, TPM1, and NKX2.5—essential for cardiac development—have been implicated. A developmental hypothesis suggests that aberrant contraction during endocardial-to-mesenchymal and epicardial-to-mesenchymal transformation (5th–8th gestational weeks) may affect valve delamination and ventricular compaction via parallel signaling pathways. TNNC1 encodes troponin C1, a subunit of the troponin complex involved in muscle contraction. Its mutations are known to alter calcium sensitivity and impair cardiac contractility. Conclusions: EA and LV hypertrabeculation patients diagnosed in infancy have a greater risk of negative outcomes. Early, especially prenatal, diagnosis is crucial. Genetic analysis can provide fundamental insight into cardiac development. This new and rare variant of TNNC1 gene supports the hypothesis that early cardiomyocytes dysfunction disrupts both valve delamination and left ventricular compaction and that the two diseases share a common genetic pathway related to cardiomyocyte contraction.

Cardiogenetics doi: 10.3390/cardiogenetics15030023

Authors: Rajaa El Mansouri Hind Dehbi Rachida Habbal

Background: The renin–angiotensin system (RAS) is pivotal in regulating cardiovascular function, while cardio-genomics offers insights into genetic factors influencing cardiovascular disease (CVD) susceptibility. Aim: This study investigates the relationship between the angiotensin-converting enzyme insertion/deletion variant (ACE I/D) and the angiotensinogen gene M235T variant (AGT M235T) in Mediterranean, North African, and Middle Eastern populations. Methods: A systematic review and meta-analysis, encompassing studies until December 2023, were conducted utilizing the PubMed and Scopus databases. The study followed the PICO checklist to enroll in the review process. The meta-analysis results were obtained using CMA software V2. Results: An analysis of 12 studies (2984 participants) for ACE I/D and 7 studies (2275 participants) for AGT M235T revealed significant associations between these gene variants and increased CVD risk in Mediterranean and North African populations. Conclusions: These findings underscore the utility of cardio-genomics in delineating CVD susceptibility among these groups, emphasizing targeted interventions and personalized treatment strategies

Cardiogenetics doi: 10.3390/cardiogenetics15030022

Authors: Kristian Galanti Lorena Iezzi Maria Luana Rizzuto Daniele Falco Giada Negri Hoang Nhat Pham Davide Mansour Roberta Giansante Liborio Stuppia Lorenzo Mazzocchetti Sabina Gallina Cesare Mantini Mohammed Y. Khanji C. Anwar A. Chahal Fabrizio Ricci

Arrhythmogenic cardiomyopathies (ACMs) are a phenotypically and etiologically heterogeneous group of myocardial disorders characterized by fibrotic or fibro-fatty replacement of ventricular myocardium, electrical instability, and an elevated risk of sudden cardiac death. Initially identified as a right ventricular disease, ACMs are now recognized to include biventricular and left-dominant forms. Genetic causes account for a substantial proportion of cases and include desmosomal variants, non-desmosomal variants, and familial gene-elusive forms with no identifiable pathogenic mutation. Nongenetic etiologies, including post-inflammatory, autoimmune, and infiltrative mechanisms, may mimic the phenotype. In many patients, the disease remains idiopathic despite comprehensive evaluation. Cardiac magnetic resonance imaging has emerged as a key tool for identifying non-ischemic scar patterns and for distinguishing arrhythmogenic phenotypes from other cardiomyopathies. Emerging classifications propose the unifying concept of scarring cardiomyopathies based on shared structural substrates, although global consensus is evolving. Risk stratification remains challenging, particularly in patients without overt systolic dysfunction or identifiable genetic markers. Advances in tissue phenotyping, multi-omics, and artificial intelligence hold promise for improved prognostic assessment and individualized therapy.

Cardiogenetics doi: 10.3390/cardiogenetics15030021

Authors: Maria Chiara Meucci Rosa Lillo Margherita Calcagnino Giampaolo Tocci Eustachio Agricola Federico Biondi Claudio Di Brango Vincenzo Guido Valentina Parisi Francesca Giordana Veronica Melita Mariaelena Lombardi Angela Beatrice Scardovi Li Van Stella Truong Francesca Musella Francesco di Spigno Benedetta Matrone Ivana Pariggiano Paolo Calabrò Roberto Spoladore Stefania Luceri Stefano Carugo Francesca Graziani Francesco Burzotta

Background: Cardiac involvement is common in Fabry disease (FD) and typically manifests with left ventricular hypertrophy (LVH). Patients with FD are frequently misdiagnosed, and this is mainly related to the lack of disease awareness among clinicians. The aim of this study was to determine whether providing a targeted educational intervention on FD may enhance FD diagnosis. Methods. This research was designed as a single-arm before-and-after intervention study and evaluated the impact of providing a specific training on FD to cardiologists from different Italian centers, without experience in rare diseases. In the 12-month period after the educational intervention, the rate of FD screening and diagnosis was assessed and compared with those conducted in the two years preceding the study initiation. Results: Fifteen cardiologists participated to this study, receiving a theoretical and practical training on FD. In the two previous two years, they conducted 12 FD screening (6/year), and they did not detect any cases of FD. After the training, they performed 45 FD screenings, with an eight-fold rise in the annual screening rate. The screened population (age: 61 ± 11 years, men: 82%) was mainly composed of patients with unexplained LVH (n = 43). There were four new FD diagnoses and, among of them, three had a late-onset GLA variant. After the cascade genetic screening, 11 affected relatives and 8 heterozygous carriers were also detected. Conclusions: A targeted educational intervention for cardiologists allowed the identification of four new families with FD. Enhancing FD awareness is helpful to reduce the diagnostic and therapeutic delay.

Cardiogenetics doi: 10.3390/cardiogenetics15030020

Authors: Francesco Ravera Filippo Angelini Pier Paolo Bocchino Gianluca Marcelli Giulia Gobello Giuseppe Giannino Guglielmo Merlino Benedetta De Guidi Andrea Destefanis Giulia Margherita Brach Del Prever Carla Giustetto Guglielmo Gallone Stefano Pidello Antonella Barreca Silvia Deaglio Gaetano Maria De Ferrari Claudia Raineri Veronica Dusi

Variants in ELAC2, a gene encoding the mitochondrial RNase Z enzyme essential for mitochondrial tRNA processing, have been associated with severe pediatric-onset mitochondrial dysfunction, primarily presenting with developmental delay, hypertrophic cardiomyopathy (HCM), and lactic-acidosis. We hereby report the case of a 25-year-old young woman presenting with dilated cardiomyopathy (DCM) and peripheral sensorimotor polyneuropathy, harboring a homozygous variant in ELAC2. The same variant has been reported only once so far in a case of severe infantile-onset form of HCM and mitochondrial respiratory chain dysfunction, with in vitro data showing a moderate reduction in the RNase Z activity and supporting the current classification as C4 according to the American College of Medical Genetics (ACMG) criteria (PS3, PM2, PM3, PP4). Our extensive clinical, imaging, histological, and genetic investigations support a causal link between the identified variant and the patient’s phenotype, despite the fact that the latter might be considered atypical according to the current state of knowledge. A detailed review of the existing literature on ELAC2-related disease is also provided, highlighting the molecular mechanisms underlying tRNA maturation, mitochondrial dysfunction, and the variable phenotypic expression. Our case further expands the clinical spectrum of ELAC2-related cardiomyopathies to include a relatively late onset in young adulthood and underscores the importance of comprehensive genetic testing in unexplained cardiomyopathies with multisystem involvement.

Cardiogenetics doi: 10.3390/cardiogenetics15030019

Authors: Md Aminul Islam Jayasree Varadarajan Md Abu Sufian Bhupesh Kumar Mishra Md Ruhul Amin Rasel

Background: Leigh’s Disease is a rare mitochondrial disorder primarily affecting the central nervous system, with frequent secondary cardiac manifestations such as hypertrophic and dilated cardiomyopathies. Early detection of cardiac complications is crucial for patient management, but manual interpretation of cardiac MRI is labour-intensive and subject to inter-observer variability. Methodology: We propose an integrated deep learning framework using cardiac MRI to automate the detection of cardiac abnormalities associated with Leigh’s Disease. Four CNN architectures—Inceptionv3, a custom 3-layer CNN, DenseNet169, and EfficientNetB2—were trained on preprocessed MRI data (224 × 224 pixels), including left ventricular segmentation, contrast enhancement, and gamma correction. Morphological features (area, aspect ratio, and extent) were also extracted to aid interpretability. Results: EfficientNetB2 achieved the highest test accuracy (99.2%) and generalization performance, followed by DenseNet169 (98.4%), 3-layer CNN (95.6%), and InceptionV3 (94.2%). Statistical morphological analysis revealed significant differences in cardiac structure between Leigh’s and non-Leigh’s cases, particularly in area (212,097 vs. 2247 pixels) and extent (0.995 vs. 0.183). The framework was validated using ROC (AUC = 1.00), Brier Score (0.000), and cross-validation (mean sensitivity = 1.000, std = 0.000). Feature embedding visualisation using PCA, t-SNE, and UMAP confirmed class separability. Grad-CAM heatmaps localised relevant myocardial regions, supporting model interpretability. Conclusions: Our deep learning-based framework demonstrated high diagnostic accuracy and interpretability in detecting Leigh’s disease-related cardiac complications. Integrating morphological analysis and explainable AI provides a robust and scalable tool for early-stage detection and clinical decision support in rare diseases.

Cardiogenetics doi: 10.3390/cardiogenetics15020018

Authors: Juan Eduardo Megías-Vericat Tomás Palanques-Pastor Mireya Fernández-Sánchez Eduardo Guerrero-Hurtado Mayte Gil-Candel Antonio Solana-Altabella Octavio Ballesta-López María Centelles-Oria Javier García-Pellicer José Luis Poveda-Andrés

The standard immunosuppressive treatments in heart transplantation are calcineurin inhibitors, corticosteroids, and antimetabolite agents or inhibitors of the mammalian target of rapamycin. Pharmacogenetic studies show the impact on clinical course of genetic variability in genes that encode transporters, metabolizers, or molecular targets of immunosuppressants. The aim of this systematic review is to elucidate the role that pharmacogenetics of immunosuppressant drugs plays in clinical outcomes upon heart transplantation. PubMed, EMBASE, the Cochrane Central Register, and the Database of Abstracts of Reviews of Effects were searched without restrictions. The 64 studies analyzed followed these criteria: (1) were based on clinical data on heart transplantation patients; (2) analyzed the associations between polymorphisms and clinical response; (3) analyzed the impact of polymorphisms on immunosuppressant safety. CYP3A4/5 variants were associated with higher doses of tacrolimus, whereas POR*28 variants with lower doses—ABCB1, ABCC2, SLCO1B1, and SLC13A1—contribute to interindividual variability in drug absorption, distribution, and toxicity. An ABCC2 polymorphism (rs717620) was related to higher risk of graft rejection in pediatrics. Variations in HLA-G, TNF-α and TGF-β genes influence transplant rejection risk and immune response. Implementing pharmacogenetic screening of polymorphisms could enhance therapeutic outcomes by improving drug efficacy, reducing toxicity, and ultimately increasing heart graft survival rates. Strong evidence supports genotyping for CYP3A5 and TPMT, but further research is required for transporter genes and cytokine polymorphisms.

Cardiogenetics doi: 10.3390/cardiogenetics15020017

Authors: Michele Ciabatti Pasquale Notarstefano Chiara Zocchi Giacomo Virgili Fulvio Bellocci Iacopo Olivotto Maurizio Pieroni

Brugada syndrome (BrS) has been traditionally considered a pure electrical disorder without an underlying structural substrate. However, early ECG studies showed the presence of depolarization abnormalities in this condition, while many studies based on advanced imaging have suggested the presence of subtle structural alterations. On the other hand, electrophysiological study (EPS) and electroanatomic mapping (EAM) techniques have provided important data regarding right ventricular functional and structural arrhythmic substrate. More recently, histology and immunology shed light on the possible role of fibrotic and inflammatory substrates in BrS. Notably, a significant overlap between electro anatomical and structural features in BrS and arrhythmogenic cardiomyopathy has been proposed. In this review, we summarized the physio pathological pathways and substrate underlying BrS. A deeper knowledge of the structural abnormalities involved in the pathogenesis of this disease could improve our diagnostic and prognostic approach, while novel findings regarding the role of inflammation and immune activation could potentially lead to new therapeutic strategies for BrS.

Cardiogenetics doi: 10.3390/cardiogenetics15020016

Authors: Aino-Maija Vuorinen Lauri Lehmonen Mari Auranen Sini Weckström Sari Kivistö Miia Holmström Tiina Heliö

Mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS) syndrome is a rare disease with variable clinical manifestations. MELAS is most often caused by the human mitochondrial DNA (mtDNA) m.3243A>G variant. We describe cardiac magnetic resonance (CMR) imaging findings and clinical features of 22 subjects with the m.3243A>G mutation and endeavored to discover the role of CMR in MELAS cardiomyopathy diagnostics. The clinical symptoms, ECG findings, and laboratory tests were retrospectively collected from the electronic medical record. Ten subjects (46%) had cardiac symptoms, and eighteen subjects (82%) had some clinical symptoms or signs of MELAS. Seventeen subjects (77%) showed cardiac findings compatible with MELAS. An ECG showed a short PR interval in six subjects (27%). Two patients had a first-degree atrioventricular block. Repolarization changes in the ECG were observed in thirteen subjects (59%), whereas left ventricular hypertrophy voltage criteria were only observed in one subject. Patients with ECG abnormalities had a strong link between proBNP value and cardiac tissue composition (T1 relaxation, p < 0.02) and showed decreased CMR-based strain (p < 0.025). The CMR findings are heterogeneous in subjects with m.3243A>G. Cardiac MELAS may include left ventricular hypertrophy, which mimics sarcomericcardiomyopathy but maypredispose individuals to severe heart failure episodes triggered by acute critical situations. CMR may be used to clarify ECG findings. This study indicates that the genetic testing of MELAS should be considered in new cases of HCM or sudden heart failure phenotypes of unknown etiology.

Cardiogenetics doi: 10.3390/cardiogenetics15020015

Authors: Angelo Laconi Tatiana Fancello Giuliana Solinas Gavino Casu

Background: Early-onset atrial fibrillation (AF) exhibits distinct clinical and genetic profiles compared to AF in older adults. The increasing detection of AF among younger patients—often in the absence of traditional risk factors—has raised interest in the genetic determinants underlying the condition. This review aims to synthesize current evidence on the genetic architecture of early-onset AF, assess the clinical utility of genetic testing, and discuss future directions for integrating genetic insights into personalized management strategies. Methods: We conducted a comprehensive analysis of recent studies, including genome-wide association studies and targeted sequencing efforts, that examined rare pathogenic variants and polygenic risk scores in early-onset AF. The review also considers emerging data on atrial cardiomyopathy and evaluates current guideline recommendations for genetic testing. Results: Data indicate that rare variants, particularly in genes such as TTN, LMNA, and KCNQ1, play a significant role in early-onset AF, with evidence suggesting an association between these mutations and adverse clinical outcomes. Polygenic risk scores further complement traditional risk factors, providing a more nuanced risk stratification. Despite these advances, challenges remain in the interpretation of variants of uncertain significance, cost-effectiveness, and the need for interdisciplinary collaboration in clinical implementation. Conclusions: Integrating genetic evaluation into the diagnostic and management framework of early-onset AF holds promise for improved risk stratification and personalized therapy. Future large-scale, multi-ethnic studies and ongoing refinement of genetic risk models are essential to overcome current limitations and enhance the clinical applicability of genetic testing in this rapidly evolving field.

Cardiogenetics doi: 10.3390/cardiogenetics15020014

Authors: Laura Manuela Olarte Bermúdez Camila Karduss Preciado Julián Manuel Espitia Ángel Ana María Santos Granados Julio Cesar Martínez Lozano Carlos Alberto Pacheco Cuentas Diana Marcela Díaz Quijano

(1) Objective: Cardiovascular diseases (CVD) are one of the main entities responsible for the progressive increase in morbidity and mortality worldwide. Some of the biomarkers involved in these processes are matrix metalloproteases (MMPs) and disintegrants and metalloproteases (ADAMS), produced by multiple tissues and whose main function is the excessive degradation of the extracellular matrix (ECM). The aim of this study is to describe the existing literature on the role of MMP in the pathophysiology of CVD and its usefulness in clinical practice for the diagnostic and therapeutic approach. (2) Methods: A systematic exploratory review of the literature was carried out according to the guidelines of the Joanna Briggs Institute. The information was collected from the PubMed/Medline and Embase databases, using the search strategy “cardiovascular disease” AND “Metalloprotease”. (3) Results: Thirty eight papers that mainly mention 17 types of MMPs were included. Pathologies such as atherosclerosis, coagulation diseases, atrial fibrillation, ischemic heart disease, heart failure, hypertension, dyslipidemias, congenital cyanotic heart disease and Takotsubo cardiomyopathy were identified. (4) Conclusions: The stimulation or inhibition of these biomolecules could generate positive and/or negative effects, which impact the development and prognosis of the disease. Furthermore, they can be potential biomarkers for new diagnostic and even therapeutic approaches in the future.

Cardiogenetics doi: 10.3390/cardiogenetics15020013

Authors: Aura Siikjärvi Krista Heliö Tiina Heliö Miia Holmström

Background: Laminopathies are a heterogenous group of heritable diseases caused by variants in the Lamin A/C gene (LMNA). They manifest as cardiac and muscular myopathies, lipodystrophies, neuropathies, and progeria. Cardiac manifestations include dilated cardiomyopathy and arrhythmias. Case presentation: A Finnish woman in her 40s who was found to carry two heterozygous likely pathogenic (LP) variants in LMNA, c.1003C>T p.Arg335Trp and c.1303C>T p.Arg435Cys. She was diagnosed with dilated cardiomyopathy and received cardiac resynchronization therapy with a defibrillator. Conclusions: Double heterozygous LMNA variants are exceedingly rare. Even though the patient presented with two LP variants, the age of onset was typical, and the phenotype was not markedly more severe than in those with only one LP variant.

Cardiogenetics doi: 10.3390/cardiogenetics15020012

Authors: Maria Felicia Gagliardi Gabriella Malfatto Claudia Baratto Alessia Giglio Valeria Rella Paolo Cerea Davide Mariani Sabrina Salerno Silvia Ravaro Silvia Castelletti Gerardina Fratianni Chiara Alberio Matteo Pedrazzini Mariam Khujadze Luigi P. Badano Denisa Muraru Gianfranco Parati Franco Cecchi Sergio Caravita Lia Crotti

In hypertrophic cardiomyopathy (HCM), the presence of pathogenic/likely pathogenic (P/LP) disease-causing genetic variants may indicate a worse prognosis. Few data exist on the effects of these genetic variants on cardiopulmonary exercise test (CPET) performance in HCM patients. We analysed asymptomatic and slightly symptomatic HCM patients (NYHA I-II) whose genetic analysis and CPET were available; at baseline, left ventricular function was normal and severe left ventricular outflow trait obstruction was excluded. Out of 120 HCM patients, we excluded 13 carrying variants of uncertain significance; of the remaining 107 patients, 54 were genotype negative [gene (−)], and 53 had a P/LP variant in sarcomeric genes [gene (+)]. Patients in the two groups had similar NYHA class, cardiovascular risk factors and echocardiographic characteristics. Gene (+) patients showed a lower peak VO2% and O2 pulse % (p < 0.05). Moreover, among gene (+), patients with P/LP variants in the so called “thin-filament” genes (TNNT2, TPM1 and MYL3) had the poorest CPET results. In asymptomatic or slightly symptomatic HCM patients with similar echocardiographic characteristics, exercise tolerance is affected by the genetic background. Indeed, exercise capacity is poorer in gene (+) compared to gene (−) patients and those carrying P/LP variants in “thin-filament” genes show the worst performance.

Cardiogenetics doi: 10.3390/cardiogenetics15020011

Authors: Sandra Rodriguez-Cambranis Addy-Manuela Castillo-Espinola Claudia-Daniela Fuentelzas-Rosado Paulina Salazar-Sansores Claudia-Gabriela Nuñez-Solis Hugo-Antonio Laviada-Molina Aurea-Karina Zetina-Solorzano Felix-Julian Campos-Garcia

Ellis-van Creveld syndrome (EvC) is a rare genetic disorder (7:10,000,000) caused by biallelic pathogenic variants in EVC and EVC2, which are located in close proximity on chromosome 4p16.2 in a divergent orientation. These genes encode ciliary complex proteins essential for Hedgehog signaling. EvC is characterized by congenital heart disease (CHD), postaxial polydactyly, and rhizomelic shortening. We present a case of a female newborn from southeast Mexico carrying a novel missense variant in EVC, which is aligned with a systematic review aimed at exploring genotype–phenotype correlations in EVC-related EvC. A PRISMA-based systematic review was conducted in PubMed, Web of Science, and OVID/Medline (until December 2024). Studies reporting EVC variants in EvC were included. Data extraction and quality assessment were performed independently by four reviewers, and genotype–phenotype correlation analysis was conducted. Fifteen studies (n = 66 patients) met the inclusion criteria. The most prevalent features were postaxial polydactyly (95.5%), nail hypoplasia (68.2%), and CHD (66.7%) with atrioventricular canal as the most frequent subtype. Fifty-five distinct EVC variants across 132 alleles were identified, predominantly affecting the N-terminal region (first 699 amino acids). They were syndactyly correlated with pathogenic variants in exons 6, 12, and 13, which were proximal to the second and third coiled-coil domains. This review confirms the key clinical features of EVC-related EvC and highlights genetic heterogeneity. The correlation between syndactyly and specific exonic variants suggests potential genotype–phenotype associations, warranting further functional studies.

Cardiogenetics doi: 10.3390/cardiogenetics15020010

Authors: Chayakrit Krittanawong Song Peng Ang Fernando Alexis Padilla Yusuf Kamran Qadeer Zhen Wang Nicola Gaibazzi Samin K. Sharma Carl J. Lavie Hartzell V. Schaff Ernst R. Schwarz

Myocardial Bridging (MB) is typically a benign congenital coronary anomaly. MB can infrequently result in complications such as myocardial ischemia, arrhythmias, and sudden cardiac death. Recent studies suggest an underlying genetic component for MB involving DES, FBN1, SCN2B, or NOTCH1. The role of percutaneous coronary intervention (PCI) in managing MB, compared to optimal medical therapy (OMT), remains uncertain. Our study used the National Inpatient Sample (NIS) Database to identify patients aged 18 or older with myocardial bridging who were managed with PCI versus medical therapy. We compared the outcomes between both groups including in-hospital mortality, the trend of management of MB and other in-hospital outcomes or complications. Our results showed no statistically significant difference between both subgroups when comparing in-hospital mortality and secondary outcomes of cardiac arrest and the development of an acute kidney injury (AKI). Patients with myocardial bridging treated with PCI had a higher risk of developing cardiogenic shock, requiring LVAD, and requiring the use of intra-aortic balloon pump (IABP) compared to the medical therapy subgroup. Our study suggests the decision to perform PCI in myocardial bridging patients should be individualized such as in patients with refractory symptoms despite medical therapy or those with known high-risk features.

Cardiogenetics doi: 10.3390/cardiogenetics15010009

Authors: Andrea Greco Estefanía Martínez-Barrios José Cruzalegui Sergi Cesar Fredy Chipa Nuria Díez-Escuté Patricia Cerralbo Irene Zschaeck Paula Loredo Georgia Sarquella-Brugada Oscar Campuzano

The GPD1L gene encodes a small cytoplasmic protein that is involved in the regulation of sodium currents. Alterations in this gene have been associated with Brugada syndrome. This rare arrhythmogenic syndrome is characterized by a typical electrocardiographic pattern, incomplete penetrance, variable expressivity, and risk of sudden cardiac death. To date, few families with a clinical diagnosis of Brugada syndrome caused by a rare alteration in the GPD1L gene have been reported worldwide. The increase in data focused on genetic variants allows us to improve the interpretation of their role in Brugada syndrome. In our study, we have compiled the GPD1L variants reported so far in patients with a definitive clinical diagnosis or suspected Brugada syndrome. We performed an exhaustive update and interpretation of each variant following the guidelines of the American College of Medical Genetics and Genomics and the Association for Molecular Pathology. Our results showed that none of the variants described to date can be classified as truly harmful in Brugada syndrome. Despite this fact, more clinical and genetic data are needed to definitively rule out the GPD1L gene as a cause of Brugada syndrome. In summary, to date, there is insufficient evidence to conclude a definitive association between GPD1L and Brugada syndrome.

Cardiogenetics doi: 10.3390/cardiogenetics15010008

Authors: Raluca Sirbu Prisecaru Oana Purcar Ioan Manitiu

Ventricular arrhythmias are a common disorder, and sometimes the etiology remains unclear. Present data support cardiac fatty tissue’s potential role as a substrate for ventricular arrhythmias. Diagnosing fatty tissue based on imaging markers and histopathological evidence is often challenging. Data about the influence of individual and multiple genetic variants on epicardial adipose tissue volume remain limited. In this review, we aimed to provide a comprehensive overview of the current understanding of the genetic basis of fatty tissue and its contribution to the pathogenesis of ventricular arrhythmias and to discuss the relationship between certain genetic variants and the development of ventricular arrhythmia.

Cardiogenetics doi: 10.3390/cardiogenetics15010007

Authors: Giuseppe Sgarito Calogero Volpe Stefano Bardari Raimondo Calvanese Paolo China Giosuè Mascioli Martina Nesti Carlo Pignalberi Manlio Cipriani Massimo Zecchin

Neuromuscular diseases (NMDs) encompass various hereditary conditions affecting motor neurons, the neuromuscular junction, and skeletal muscles. These disorders are characterized by progressive muscle weakness and can manifest at different stages of life, from birth to adulthood. NMDs, such as Duchenne and Becker muscular dystrophies, myotonic dystrophy, and limb–girdle muscular dystrophies, often involve cardiac complications, including cardiomyopathies and arrhythmias. Underlying genetic mutations contribute to skeletal and cardiac muscle dysfunction, particularly in the DMD, EMD, and LMNA genes. The progressive nature of muscle deterioration significantly reduces life expectancy, mainly due to respiratory and cardiac failure. The early detection of cardiac involvement through electrocardiography (ECG) and cardiac imaging is crucial for timely intervention. Pharmacological treatment focuses on managing cardiomyopathies and arrhythmias, with an emerging interest in gene therapies aimed at correcting underlying genetic defects. Heart transplantation, though historically controversial in patients with muscular dystrophies, is increasingly recognized as a viable option for individuals with advanced heart failure and moderate muscle impairment, leading to improved survival rates. Careful patient selection and management are critical to optimizing outcomes in these complex cases.

Cardiogenetics doi: 10.3390/cardiogenetics15010006

Authors: Carlos Bertolín-Boronat Víctor Marcos-Garcés Héctor Merenciano-González María Martínez Mas Josefa Climent Alberola Nerea Perez Laura López Bueno María Esteban Argente María Valls Reig Ana Arizón Benito Alfonso Payá Rubio César Ríos-Navarro Elena de Dios Jose Gavara Manuel Jiménez-Navarro Francisco Chorro Juan Sanchis Vicente Bodi

Familial hypercholesterolemia (FH) is relatively prevalent in myocardial infarction (MI) sufferers, and its diagnosis could improve preventive treatment in family members. We aim to analyze the diagnosis of FH and the rate of genetic testing in a prospective cohort of 245 patients submitted to our Cardiac Rehabilitation Program (CRP) after MI. Baseline characteristics were registered, and basal low-density lipoprotein cholesterol (LDL-C) was calculated after correction for lipid-lowering therapies (LLT) before or during admission. Simplified Dutch Lipid Clinic Network Scores (sDLCNS) were retrospectively calculated based on personal and familial history of premature cardiovascular disease and basal LDL-C levels. Mean age was 62.19 ± 13.93 years, and most patients were male (81.6%). Mean LDL-C before admission and basal LDL-C corrected for LLT were 131.79 ± 45.34 mg/dL and 162.87 ± 44.17 mg/dL, respectively. Patients in the cohort were retrospectively categorized in the “unlikely” (<3 points; n = 162, 66.1%), “possible” (3–5 points; n = 72, 29.4%) and “probable” (6–8 points; n = 11, 4.5%) sDLCNS categories. Genetic testing for FH was requested in four (1.6%) patients, and no clinically significant genetic variants were detected. Patients who underwent genetic testing depicted significantly higher basal LDL-C (233 ± 49.09 vs. 161.71 ± 43.25 mg/dL, p = 0.001). However, the rate of individuals undergoing genetic testing was negligible even in the “possible” (n = 2, 2.8%) and “probable” (n = 1, 9.1%) sDLCNS categories. In conclusion, genetic testing for FH in our CRP after MI is largely underutilized, even in patients with a “possible” or “probable” diagnosis based on sDLCNS criteria, which represent about a third of the cohort. Strategies to improve screening for FH should be prospectively implemented.

Cardiogenetics doi: 10.3390/cardiogenetics15010005

Authors: Mariela Salar-Alcaraz Pablo Peñafiel-Verdú Francisco J. Castro-García Francisco A. Pastor-Quirante Carmen Muñoz-Esparza José M. López-Ayala Juan Martínez-Sánchez Juan J. Sánchez-Muñoz Arcadi García-Alberola María Sabater-Molina Juan R. Gimeno-Blanes

Background: An electrocardiogram (ECG) is an essential and easily available diagnostic test in the management of cardiomyopathies and channelopathies. Different strategies based on ECG have been recommended for general population and athlete screening. Objectives: The purpose of this study was to explore the value of the ECG for the diagnosis of sudden cardiac death (SCD) cases. Methods: ECGs from 50 (aged 37.6 ± 19.9 years, 37 men) resuscitated cardiac arrest (26, 52%) and SCD cases (24, 48%) were analyzed. Relevant medical history and results from clinical tests were reviewed. ECG findings were compared with the final diagnosis. Results: Final ECG classification was as follows: 9 (18%) normal, 15 (30%) unspecific, 14 (28%) suggestive, and 12 (24%) diagnostic. Amongst 13 hypertrophic cardiomyopathy patients, ECGs were diagnostic in 6 (46%) and suggestive in 1 (8%). Arrhythmogenic right ventricular cardiomyopathy was diagnosed in seven patients, two (28%) with suggestive ECG. Dilated cardiomyopathy was diagnosed in four patients, two (50%) with suggestive ECG. Six patients had Brugada syndrome: four (66%) had diagnostic ECGs, and two (33%) had suggestive ECG. Long QT syndrome was diagnosed in four cases; only one (25%) had a diagnostic ECG. Three patients had other cardiomyopathies. After the complete study, 13 (26%) patients remained with a non-conclusive diagnosis; their ECGs were unspecific or normal. Conclusion: ECG can be unspecific or normal in an important percentage of SCD cases (48%). Furthermore, a significant proportion of SCD cases after a comprehensive study remain without a definite diagnosis (26%). These findings should be considered when planning SCD preventive strategies.

Cardiogenetics doi: 10.3390/cardiogenetics15010004

Authors: Christian K. Five Nina E. Hasselberg Hilde Bjerkreim Linda T. Aaserud Anna Isotta Castrini Cecilie Bugge Eivind W. Aabel Thomas Helle-Valle Håvard Dalen Olav Kristianslund Kristina H. Haugaa

Keratoconus is a progressive eye disease that results in thinning of the cornea, leading to visual impairment. Mitral valve prolapse (MVP) is a common disorder affecting around 2–4% of the general population. Previous studies have found an overrepresentation of MVP in individuals with keratoconus, with a prevalence of 38–65%, suggesting a shared underlying mechanism. In this case-control study, patients with keratoconus were enrolled from a quality and research registry. They were examined by a 2D echocardiography to identify if they had MVP, billowing or normal mitral leaflets. Controls were matched from the population-based Trøndelag Health Study. Patients and controls underwent a detailed echocardiographic examination to detect abnormal mitral valves. We included 101 patients (age 33 [IQR 29–40], 75% male) with keratoconus and 101 matched individuals. MVP was found in 2 (2%), while billowing was found in 5 (5%) of keratoconus patients. No significant association was found between keratoconus and the prevalence of MVP or billowing compared to the control group. Moreover, no associations were found between severity of keratoconus with presence of MVP nor with billowing of the mitral valves. We could not confirm the previously reported association between keratoconus and MVP, suggesting that routine screening for MVP in keratoconus patients may not be warranted. However, we cannot rule out the possibility of an association in other gender, age and ethnic groups different than ours.

Cardiogenetics doi: 10.3390/cardiogenetics15010003

Authors: Lorena M. Vega-Prado Daniel Vázquez-Coto Francisco Villazón Lorena Suárez-Gutiérrez Ceferino Martínez-Faedo Edelmiro Menéndez-Torre María Riestra Silvia González-Martínez Gala Gutiérrez-Buey Claudia García-Lago Juan Gómez Victoria Alvarez Helena Gil Rebeca Lorca Eliecer Coto

Our aim was to determine whether rare APOE pathogenic variants (PV) and the common e2/e3/e4 polymorphism were associated with the risk of familial hypercholesterolemia (FH). A total of 431 patients who met the inclusion criteria for FH were next-generation sequenced for the main candidate genes (LDLR, APOB, PCSK9, APOE, LDLRAP1). A total of 139 patients (32%) had a pathogenic variant, including 3 with APOE p.Leu167del. Among the PV-negatives (n = 292), one was homozygous for APOE-e2 and showed a combined phenotype of high low-density lipoprotein cholesterol (LDL-C) and triglycerides (TGs). A total of 165 population controls were also genotyped for the APOE polymorphism. PV-negative patients showed a significantly higher frequency of APOE-e3e4/e4e4 compared to PV-positives (p = 0.006) and to population controls (p = 0.0002, OR = 2.63, 95% CI = 1.57–4.40). APOE-e4e4 patients had significantly higher mean LDL-C compared to the other genotypes (p = 0.047). In conclusion, APOE pathogenic variants were a rare cause of FH in our population, and the APOE-e4 allele was a significant risk factor for being diagnosed with familial hypercholesterolemia in the absence of a pathogenic variant involved in FH. In particular, the APOE-e4e4 genotype was associated with higher LDL-C levels compared to the other genotypes.

Cardiogenetics doi: 10.3390/cardiogenetics15010002

Authors: Francesco Ravera Veronica Dusi Pier Paolo Bocchino Giulia Gobello Giuseppe Giannino Daniele Melis Giulia Margherita Brach Del Prever Filippo Angelini Andrea Saglietto Carla Giustetto Guglielmo Gallone Stefano Pidello Margherita Cannillo Marco Matteo Cingolani Silvia Deaglio Walter Grosso Marra Gaetano Maria De Ferrari Claudia Raineri

Cardiac laminopathies encompass a wide range of diseases caused by defects in nuclear envelope proteins, including cardiomyopathy, atrial and ventricular arrhythmias and conduction system abnormalities. Two genes, namely LMNA and EMD, are typically associated with these disorders and are part of the routine genetic panel performed in affected patients. Yet, there are other markedly fewer known proteins, the nesprins, encoded by SYNE genes, that play a pivotal role in connecting the nuclear envelope to cytoskeletal elements. So far, SYNE gene variants have been described in association with neurodegenerative diseases; their potential association with cardiac disorders, albeit anecdotally reported, is still largely unexplored. This review focuses on the role of nesprins in cardiomyocytes and explores the potential clinical implications of SYNE variants by presenting five unrelated patients with distinct cardiac manifestations and reviewing the literature. Emerging research suggests that SYNE-related cardiomyopathies involve disrupted nuclear–cytoskeletal coupling, leading to impaired cardiac function. Understanding these mechanisms is critical for furthering insights into the broader implications of nuclear envelope proteins in cardiac health and for potentially developing targeted therapeutic strategies. Additionally, our data support the inclusion of SYNE genes in the cardiac genetic panel for cardiomyopathies and cardiac conduction disorders.

Cardiogenetics doi: 10.3390/cardiogenetics15010001

Authors: Joanna Popiolek-Kalisz Klaudia Salamon Michal Mazur Klaudia Mikolajczyk Grzegorz Kalisz

Introduction: Familial hypercholesterolemia (FH) is a genetic disorder that remains underdiagnosed and undertreated. It is characterized by high levels of low-density lipoprotein cholesterol (LDL-C), which leads to an increased cardiovascular disease risk. Pharmacotherapy of FH is based on high-dose statin therapy, often combined with ezetimibe and proprotein convertase subtilisin/kexin 9 inhibitors. The dietary approach is an important and supportive part of FH management. Methods: This review aimed to present the available evidence on dietary strategies in FH patients. The analyzed aspects included macronutrients such as fat and carbohydrate intake, as well as the role of dietary fiber, nutraceuticals (omega-3, beta-glucan, phytosterols, and red yeast fermented rice extract), and overall dietary models. Results and Conclusions: Based on the available data, the Mediterranean diet is a dietary model advised in cardiovascular prevention, including patients with FH. Regarding detailed recommendations, the current state of knowledge indicates dietary fat and saturated fatty acids intake limitation as an advised strategy. Supplementation of phytosterols and fiber can be also helpful in FH.

Cardiogenetics doi: 10.3390/cardiogenetics14040019

Authors: Brian Xiangzhi Wang

Hypertrophic cardiomyopathy (HCM), characterized by myocardial hypertrophy and an increased risk of sudden cardiac death, poses a significant health burden worldwide. Recent studies have revealed the involvement of exosome-derived microRNAs (miRNAs) in the pathogenesis of HCM, shedding light on novel regulatory mechanisms in cardiac remodeling and dysfunction. This literature review synthesizes current evidence on the role of exosome-derived miRNAs in HCM. It discusses key miRNAs identified from diverse cellular origins, including cardiomyocytes, stem cells, and conduction cells, elucidating their contributions to hypertrophic signaling pathways, fibrosis, and changes in cellular metabolism. Notable miRNAs highly expressed in exosomes such as miR-1, miR-133, and miR-208 are highlighted for their implications in HCM pathophysiology. Moreover, this review explores the diagnostic and therapeutic potential of exosome-derived miRNAs as biomarkers and therapeutic targets in HCM management. The studies summarized in this review demonstrate that exosome-derived miRNAs play a crucial role in orchestrating the molecular events underlying HCM, offering new insights into disease mechanisms and potential therapeutic avenues. Understanding the intricate interplay between exosome-mediated miRNA communication and HCM pathophysiology holds promise for the development of personalized diagnostic tools and targeted therapies to improve patient outcomes in HCM.

Cardiogenetics doi: 10.3390/cardiogenetics14040018

Authors: Emanuele Monda Gaetano Diana Daniele Bruno Marta Rubino Giuseppe Palmiero Federica Verrillo Chiara Cirillo Annapaola Cirillo Adelaide Fusco Martina Caiazza Santo Dellegrottaglie Diego Colonna Berardo Sarubbi Pietro Buono Maria Giovanna Russo Giuseppe Limongelli

Background: The aim of this study was to evaluate the performance of the diagnostic pathway proposed by the European Society of Cardiology (ESC) guidelines for identifying the underlying aetiology of sudden cardiac death (SCD) through the screening of first-degree family members of patients with SCD who either had a negative autopsy or no autopsy performed. Methods: To be eligible for enrolment, patients had to meet the following inclusion criteria: a family history of SCD in a first-degree relative under the age of 50 years; the SCD decedents must not have undergone an autopsy, or if an autopsy was performed, non-cardiac and structural cardiac causes must have been excluded. Patients underwent a comprehensive assessment, including the evaluation of family and medical history, electrocardiography (ECG) and ECG with high precordial leads, Holter ECG monitoring, echocardiography, cardiac magnetic resonance imaging, and exercise stress testing. A sodium channel blocker test (i.e., flecainide test) was performed when other clinical investigations were negative and the suspicion of Brugada syndrome was high. Results: Forty-one patients from 25 different families fulfilled the inclusion criteria and represented the final study cohort. After the comprehensive diagnostic work-up, a total of seven patients from five different families (5/25, 20%) were diagnosed with an inherited cardiac condition: two families with arrhythmogenic right ventricular cardiomyopathy, one with dilated cardiomyopathy, one with non-dilated left ventricular cardiomyopathy, and one with long QT syndrome. Conclusions: The comprehensive cardiologic work-up of relatives of mainly young SCD victims results in the diagnosis of inherited cardiac conditions in one-fifth of cases.

Cardiogenetics doi: 10.3390/cardiogenetics14040017

Authors: Alessandra P. Porretta Etienne Pruvot Zahurul A. Bhuiyan

Since the first description of catecholaminergic polymorphic ventricular tachycardia (CPVT) in the 1970s, new insights have progressively unraveled the understanding of this inherited arrhythmia syndrome. The identification of new distinct clinical entities related to RYR2, the gene encoding the cardiac ryanodine receptor, has allowed significant refinement in the diagnosis of previously labeled “atypical” CPVT cases. Among RYR2-ryanodinopathies, the characterization of calcium release deficiency syndrome (CRDS) is still in its infancy and represents a diagnostic challenge due to the need for functional studies which may confirm the loss-of-function nature of the RYR2 variant. The present review summarizes current evidence on CRDS. First, by providing an overview on RYR2 structure and function, we will elucidate the different pathophysiological underpinnings of CRDS and CPVT. Second, by retrieving in detail reported CRDS variants and their clinical phenotypes, we will provide, if any, genetic and clinical red flags that should raise suspicion for CRDS in daily clinical practice. Finally, we will discuss available therapies to provide clinicians with practical therapeutic options for CRDS management.

Cardiogenetics doi: 10.3390/cardiogenetics14040016

Authors: Ogechi Agogbuo Sri Harsha Kanuri Luis Salinas Mohamed Goweba Khashayar Vahdat Oscar Chastian Larry Frase

Vascular Ehler–Danlos disease (vEDS), a rare subtype of a rare disease, is a life-threatening disease, with an increased risk for spontaneous vascular or visceral rupture. These patients have fatal complications ranging from vascular aneurysms, dissection, and rupture of systemic vessels to frequent thromboembolic events, the common causes of death in these individuals with a shortened life span. In the present case, a 28-year-old male with history of shoulder dislocations and spontaneous colon perforation presented to the primary care clinic with right lower extremity swelling and pain. His history includes presentation to the emergency department with left lower leg swelling with compartment syndrome one year prior. A CT angiogram of lower extremities and abdomen revealed acute arterial extravasation of the left posterior tibial artery, indicating a ruptured aneurysm along with aneurysms of the splenic artery and left common iliac artery. He was treated with a saphenous vein graft, but was associated with post-operative complications that necessitated below-knee amputation. CT angiogram of his right leg revealed occlusion of the anterior tibial and peroneal arteries with aneurysms, and, ultimately, he was referred to a tertiary care center for aneurysm embolization. This case report emphasizes the frequent vascular complications encountered in vascular EDS patients, and thus advocates for close and regular monitoring for early referral and surgical management of their vascular anomalies. Finally, genetic counseling and screening of asymptomatic family members should be routinely implemented in these patients.

Cardiogenetics doi: 10.3390/cardiogenetics14040015

Authors: Ornella Guardamagna Renato Bonardi Raffaele Buganza Francesco Martino Livia Pisciotta Luisa de Sanctis Pier Paolo Bassareo

Tangier disease (TD) is an extremely rare inherited disorder involving lipoprotein metabolism and high-density lipoprotein (HDL) recycling in particular. TD is linked with a mutation of the ABCA1 gene codifying for the transport protein ABCA1 which, in normal conditions, enables the efflux of cholesterol through the cell membrane to HDL and apolipoprotein A1. As such, early cardiovascular events and neuropathy are common in these patients, mostly in homozygous carriers. Here, we describe the unique case of a homozygous TD patient whose diagnosis was made in later life. He was affected by the A1046D protein mutation and suffered from mild neurological symptoms and asymptomatic atherosclerosis.

Cardiogenetics doi: 10.3390/cardiogenetics14040014

Authors: Tetiana Berezina Oleksandr O. Berezin Michael Lichtenauer Alexander E. Berezin

Background: Patients with heart failure (HF) with improved ejection fraction (HFimpEF) demonstrate better clinical outcomes when compared with individuals without restoration of cardiac function. The identification of predictors for HFimpEF may play a crucial role in the individual management of HF with reduced ejection fraction (HFrEF). Cell-free nuclear (cf-nDNA) DNA is released from damaged cells and contributes to impaired cardiac structure and function and inflammation. The purpose of the study was to elucidate whether cf-nDNA is associated with HFimpEF. Methods: The study prescreened 1416 patients with HF using a local database. Between October 2021 and August 2022, we included 452 patients with chronic HFrEF after prescription of optimal guideline-based therapy and identified 177 HFimpEF individuals. Circulating biomarkers were measured at baseline and after 6 months. Detection of cf-nDNA was executed with real-time quantitative PCR (qPCR) using NADH dehydrogenase, ND2, and beta-2-microglobulin. Results: We found that HFimpEF was associated with a significant decrease in the levels of cf-nDNA when compared with the patients from persistent HFrEF cohort. The presence of ischemia-induced cardiomyopathy (odds ration [OR] = 0.75; p = 0.044), type 2 diabetes mellitus (OR = 0.77; p = 0.042), and digoxin administration (OR = 0.85; p = 0.042) were negative factors for HFimpEF, whereas NT-proBNP ≤ 1940 pmol/mL (OR = 1.42, p = 0.001), relative decrease in NT-proBNP levels (>35% vs. ≤35%) from baseline (OR = 1.52; p = 0.001), and cf-nDNA ≤ 7.5 μmol/L (OR = 1.56; p = 0.001) were positive predictors for HFimpEF. Conclusions: We established that the levels of cf-nDNA ≤ 7.5 μmol/L independently predicted HFimpEF and improved the discriminative ability of ischemia-induced cardiomyopathy, IV NYHA class, and single-measured NT-proBNP and led to a relative decrease in NT-proBNP levels ≤35% from baseline in individuals with HFrEF.

Cardiogenetics doi: 10.3390/cardiogenetics14040013

Authors: Eric F. Jotch Mark S. Kindy

Patients affected by familial hypercholesterolemia possess elevated low-density lipoprotein cholesterol and therefore have greater risk for cardiovascular disease. About 90% of familial hypercholesterolemia cases are associated with aberrant LDLR. Over 3500 LDLR variants have been identified, 15% of which are considered “pathogenic.” Given the genetic diversity of LDLR variants, specific variants rarely receive attention. However, investigators have proposed the critical evaluation of individual variants as a method to clarify knowledge and to resolve discrepancies in the literature. This article reviews p.(Val429Met) (rs28942078) in the areas of pathology, epidemiology, lipid-lowering therapy, and genetic testing. The p.(Val429Met) variant is associated with a missense point substitution in exon 9 of chromosome 19. Biochemical studies have found severely reduced low-density lipoprotein receptor protein in autologous and heterologous expression systems. Additionally, there are inconsistencies regarding the functional classification of p.(Val429Met). Considered to be of European origin, p.(Val429Met) is found in extant populations due to founder effects. Evidence from clinical trials have also demonstrated variable responses to newer lipid-lowering therapies in patients with a p.(Val429Met) variant. Proper clinical detection and adequate genetic testing have been shown to greatly improve outcomes. Future research may be aimed at resolving discrepancies to better comprehend the implications of familial hypercholesterolemia.

Cardiogenetics doi: 10.3390/cardiogenetics14030012

Authors: Antea Krsek Lara Baticic Vlatka Sotosek

Over the past three decades, significant progress has been made in elucidating the intricate connection between genetic predispositions and cardiovascular diseases (CVDs). Through extensive investigation, numerous genetic variants linked to various cardiovascular conditions have been discovered, shedding crucial light on the underlying biological mechanisms and pathways. These discoveries have not only revolutionized risk assessment for patients but have also paved the way for personalized treatment strategies, allowing healthcare providers to tailor interventions according to individual genetic profiles. Furthermore, genetic testing has facilitated cascade screening, enabling the early identification and intervention of potential cardiovascular issues among at-risk biological family members. This review aims to comprehensively summarize the current state of knowledge regarding inherited risk and novel insights from human genome and epigenome research, as well as therapeutic opportunities in CVDs with special emphasis on inherited cardiomyopathies and inherited arrhythmic syndromes. The newest translational trials for CVDs and pharmaceutical approaches are discussed, including gene therapy options for heart failure and cardiomyopathies.

Cardiogenetics doi: 10.3390/cardiogenetics14030011

Authors: Cameron J. Leong Sohat Sharma Jayant Seth Archan Dave Abdul Aziz Abdul Ghafoor Zachary Laksman

The emergence of gene therapy offers opportunities for treating a myriad of genetic disorders and complex diseases that previously had limited or no treatment options. The key basic strategies for gene therapy involve either the addition, inhibition, or introduction of a new gene, with a crucial component being the use of a delivery vector to effectively target cells. Particularly promising is the application of gene therapy for the treatment of inherited arrhythmia syndromes, conditions associated with significant mortality and morbidity that have limited treatment options, and a paucity of disease modifying therapy. This review aims to summarize the utility of gene therapy for the treatment of inherited arrhythmia syndromes by exploring the current state of knowledge, limitations, and future directions.

Cardiogenetics doi: 10.3390/cardiogenetics14030010

Authors: Matteo Bianco Noemi Giordano Valentina Gazzola Carloalberto Biolè Giulia Nangeroni Maurizio Lazzero Giulia Margherita Brach del Prever Fiorenza Mioli Giulia Gobello Amir Hassan Mousavi Monica Guidante Silvia Deaglio Daniela Francesca Giachino Alessandra Chinaglia

Cardiomyopathies have evolved from being considered rare and idiopathic to being increasingly linked to genetic factors. This shift was enabled by advancements in understanding genetic variants and the widespread use of next generation sequencing (NGS). Current guidelines emphasize the importance of evidence-based gene panels that can offer “clinically actionable results”, which provide diagnostic and prognostic insights. They also advise against indiscriminate family screening after finding variants of uncertain significance (VUS) and recommend collaboration among multidisciplinary teams for an accurate variant pathogenicity assessment. This article presents an innovative “cardiogenetic clinic” approach involving cardiologists and medical geneticists to provide genetic testing and family screening. This study attempts to improve the diagnostic process for suspected genetic cardiomyopathies; this includes direct patient recruitment during cardiology appointments, NGS analysis, and combined consultations with cardiologists and geneticists to assess the results and screen the families. The study cohort of 170 patients underwent genetic testing, which identified 78 gene variants. Positive results (C4 or C5 variants) occurred in 20 (19.8%) cases, with rates varying by cardiomyopathy phenotype, while 57 (73.1%) of the variants found were classified as C3-VUS, causing a significant management issue. This model shortened the time to results, increased patient adherence, and improved patients’ diagnoses. Family screening was pondered depending on the relevance of the detected variants, showing this method’s potential to impact patient management.

Cardiogenetics doi: 10.3390/cardiogenetics14020009

Authors: Sanjay Sivalokanathan

Sarcoidosis is a multifaceted and multisystemic inflammatory disorder, the etiology of which remains unknown. However, it has been suggested that an intricate interplay between genetic, environmental, and inflammatory factors may contribute to the development and progression of sarcoidosis. Although 30–50% of patients demonstrate extra-pulmonary manifestations, cardiac involvement is rare, affecting only 2–5% of cases. Diagnosis is often challenging, relying on the careful application of clinical judgment, histopathological evidence, and imaging biomarkers. In this literature review, we aim to provide a comprehensive overview of the current understanding of the genetic basis of sarcoidosis, the contribution to the pathogenesis of the disorder, and discuss the potential link between certain genetic variants and the development of cardiac sarcoidosis.

Cardiogenetics doi: 10.3390/cardiogenetics14020008

Authors: Ovidiu Nicolae Penes Bernard Weber Anca Lucia Pop Mihaela Bodnarescu-Cobanoglu Valentin Nicolae Varlas Aleksandru Serkan Kucukberksun Dragos Cretoiu Roxana Georgiana Varlas Cornelia Zetu

Genome-wide association studies (GWAS) have successfully revealed numerous susceptibility loci for obesity. The PREDATORR study (2014) shows that in Romania, 346% of adults aged 20–79 y/o are overweight, and 31.4% are obese with a high risk of cardiometabolic complications, a number that puts almost 67% of Romania’s population in the abnormal weight group. Our study aims to investigate the current status of the genetic foundation in metabolic disease associated with obesity, applied to a pilot group of patients specifically examining the impact of known polymorphisms and their haplotype of six food intake-regulating genes, namely leptin (LEP), leptin receptor (LEP-R), serotonin receptor (5HTR2A), ghrelin (GHRL), neuropeptide Y (NPY), and fat-mass and obesity-associated protein (FTO) with the following polymorphisms: LEP A-2548G, LEPR A-223G, 5HTR2A G-1439A, GHRL G-72T, NPY T-29063C, FTO A-T, and body mass index (BMI). A notable link between the LEP-2548 rs7799039 gene’s AG genotype and the risk of obesity was observed, particularly pronounced in males aged 40–49, with an approximately seven-fold increased likelihood of obesity. The 5HTR2A rs6311 AA genotype was associated with a higher BMI, which was not statistically significant. The FTO rs9939609 gene’s AA genotype emerged as a significant predictor of obesity risk. Besides these significant findings, no substantial associations were observed with the LEPR, 5HTR2A, GHRL, and NPY genes. Haplotype association analysis showed a suggestive indication of GRGMLA (rs7799039, rs1137101, rs6311, rs696217, rs16139, rs9939609 sequence) haplotype with a susceptibility effect towards obesity predisposition. Linkage disequilibrium (LD) analysis showed statistically significant associations between LEP and LEPR gene (p = 0.04), LEP and GHRL gene (p = 0.0047), and GHRL and FTO gene (p = 0.03). Our study, to the best of our knowledge, is one of the very few on the Romanian population, and aims to be a starting point for further research on the targeted interventional strategies to reduce cardiometabolic risks.

Cardiogenetics doi: 10.3390/cardiogenetics14020007

Authors: Erin Haase Chandana Kulkarni Peyton Moore Akash Ramanathan Mohanakrishnan Sathyamoorthy

Introduction: This paper explores the potential influence of a single nucleotide variant in the ANK-2 gene on COVID-19 myocarditis-related ventricular tachycardia. Case Description: A 53-year-old female with a history of Crohn’s disease and asthma developed COVID-19. Shortly after infection, she experienced symptoms of chest pressure, palpitations, and shortness of breath, leading to the eventual diagnosis of myocarditis complicated by recurrent ventricular tachycardia. Treatment with mechanistically driven anti-arrhythmic therapy and beta-blockers suppressed this highly symptomatic ventricular tachycardia. Genetic testing to further risk stratify and influence long term care identified a single nucleotide variant in the ANK-2 gene, which is known to be associated with arrhythmic risk. Discussion: This case study highlights the use of rationally selected anti-arrhythmic therapy, mexiletine, in the management of ventricular tachycardia associated with COVID-19 myocarditis and the presence of a single nucleotide variant in ANK-2, raising the possibility of its contribution to VT susceptibility and severity. Our patient demonstrated significant improvement with administered therapeutics, including the resolution of myocarditis and ventricular tachycardia. The normalization of the QT interval during the resolution phase further supports the potential influence of the genetic variant in ANK-2 on potassium channel activity.

Cardiogenetics doi: 10.3390/cardiogenetics14020006

Authors: Gabriela Dostalova Jaroslav Januska Michaela Veselá Petra Reková Anna Taborska Martin Pleva David Zemanek Aleš Linhart

Anderson–Fabry Disease (AFD) is a rare, X-linked lysosomal storage disorder caused by a mutation in the α-Galactosidase A gene resulting in α-Galactosidase A enzyme (α-Gal A) deficiency. The metabolic defect leads to the progressive accumulation of glycosphingolipids and the structural and functional impairment of affected organs. Due to the inheritance pattern, male patients are hemizygous with more severe manifestations of the disease as compared to females who, in most cases, are heterozygous with delayed and variable clinical presentation caused by uneven X-chromosome inactivation. Fabry disease cases are often identified by targeted screening programs in high-risk groups, such as in patients with end-stage renal disease, premature stroke, or unexplained cardiomyopathy. Here, we describe a unique case of a homozygous female patient identified by a nationwide screening program in hypertrophic cardiomyopathy patients. Before the systematic screening, the patient had a diagnosis of hypertrophic obstructive cardiomyopathy and was treated accordingly, including with alcohol septal ablation to reduce the obstructive gradient. The confirmation of Fabry disease led to the discovery of the same variant in several members of her family. The identified variant was c.644A>G, p.Asn215Ser (p.N215S), which is known to cause predominant cardiac involvement with late onset of the disease. This variant is amenable to oral therapy with the small-molecule chaperone migalastat, which was started and then interrupted due to the recurrence of the patient’s migraine and then re-initiated again after two years. During this period, the patient received enzyme replacement therapy with agalsidase beta but developed progressively worsening venous access. Our case illustrates the importance of the systematic screening of patients with clinical evidence of hypertrophic cardiomyopathy in whom the routine diagnostic process fails to discover Fabry disease, in particular variants with late-onset cardiac manifestations. Many of the late-onset variants are amenable to orally active therapy with migalastat, which significantly improves the comfort of the treatment. Its long-term results are being analyzed by a large international “Follow-me” registry, which was designed to verify the validity of pivotal trials with migalastat in Fabry disease.

Cardiogenetics doi: 10.3390/cardiogenetics14020005

Authors: Tomoyuki Takura

Medical economics is essential in cardiac genetics for the clinical application and development of research results. However, related economic evaluations are unclear, and limited systematic reviews are available on the cost-effectiveness of drug selection based on the CYP2C19 LOF allele. This review analyzed research in the MEDLINE database from January 2012 to June 2023 using more evidence than a well-designed cohort study, owing to the lack of relevant research in the database. For example, cost-effectiveness analyses are often reported as simulation assays, and were included in this analysis. No conditions related to patient background or antiplatelet drug therapy were selected. This review was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement (2020). Twenty-one cardiac genetic studies were selected, of which nineteen involved antiplatelet therapy after PCI. A universal group consisting of clopidogrel and other drugs was used as the baseline and compared with the drug selection groups based on the CYP2C19 LOF allele. The incremental cost–effectiveness ratio was generally below 50,000 (US$/Qaly), and drug selection based on the CYP2C19 LOF allele was the most cost-effective, followed by universal clopidogrel. Although cardiac genetic and economic data are rudimentary, this review indicates that antiplatelet therapy (drug selection based on the CYP2C19 LOF allele) after PCI is generally cost-effective.

Cardiogenetics doi: 10.3390/cardiogenetics14010004

Authors: Tetz Lee Alaa Omar Jonathan Bella

It has become evident that acute COVID-19 infection can lead to cardiovascular complications. While the exact mechanisms by which COVID-19 affects the cardiovascular system have yet to be fully elucidated, several mechanisms have been proposed, including direct myocardial effects on the virus and systemic inflammation as an indirect result. The cardiovascular complications of COVID-19 have been characterized and described using noninvasive cardiac imaging. The impact of COVID-19 on the cardiovascular system extends beyond the acute phase of the infection and well beyond recovery or the convalescent period. However, the underlying mechanisms of post-viral long-COVID symptoms have yet to be elucidated. It is evident that COVID-19 has become endemic and is here to stay. Future studies are needed (1) to understand the long-term effects of the cardiovascular complications of COVID-19, future cardiovascular events and the impact of mutating variants on cardiovascular complications through data collection and analysis, (2) to identify the most important diagnostic criteria for prognosis of COVID-19 and to understand the disease mechanism through biomarkers and advanced cardiac imaging, including echocardiography and (3) to develop novel strategies to manage and treat these cardiovascular complications using the knowledge gained.

Cardiogenetics doi: 10.3390/cardiogenetics14010003

Authors: Alberto Palladino Luigia Passamano Marianna Scutifero Salvatore Morra Esther Picillo Andrea Antonio Papa Gerardo Nigro Luisa Politano

Background. Pompe disease is a rare, severe, autosomal recessive genetic disorder caused by GAA gene mutations, which cause α-1,4-glucosidase enzyme deficiency. There are two forms of Pompe disease based on the age of onset, the infantile and the adult form (LOPD). Cardiac involvement, previously recognized only in infantile cases, is now also reported in adults. Cardiomyopathy remains an exceptional finding while heart rhythm disorders appear to be more frequent. Methods. We retrospectively evaluated cardiac involvement in 12 patients with late-onset Pompe disease (LOPD) followed for an overall period of 143 years (mean 12.7 ± 7.7) using ECG, Holter ECG, and echocardiography. Results. The mean age of patients (M8:F4) at the first visit was 40.7 ± 16.1 (range 14–63) and 53.7 ± 16.9 (range 21–76) at last visit. Conduction delay was present in three patients; one patient developed ascending aorta ectasia but had a history of hypertension, and one patient showed right heart enlargement on echocardiography, probably due to pulmonary hypertension. No patient died during the FU, nor developed cardiomyopathy. Ectopic supraventricular beats and repeated episodes of ablation-resistant atrial fibrillation were observed in only one patient (8.3%) who required PMK implantation. Conclusions. Benefitting from the long follow-up, this study allows us to state that primary myocardial involvement is rare in patients with LOPD, while rhythm disorders are more frequent and require monitoring to avoid the risk of possible life-threatening complications.

Cardiogenetics doi: 10.3390/cardiogenetics14010002

Authors: Sheefah Dhuny Henry Wu Manova David Rajkumar Chinnadurai

The links between chronic kidney disease (CKD) and cardiac conditions such as coronary heart disease or valvular disease are well established in the literature. However, the relationship between hypertrophic cardiomyopathy (HCM) and CKD is not as frequently described or researched. HCM is the most common form of inherited cardiac disease. It is mainly transmitted in an autosomal dominant fashion and caused by mutations in genes encoding sarcomere proteins. HCM is estimated to affect 0.2% of the general population and has an annual mortality rate of between approximately 0.5 and 1%. Our review article aims to summarize the genetics of HCM; discuss the potential clinical mimics that occur concurrently with HCM and CKD, potential interlinks that associate between these two conditions, the role of renal dysfunction as a poor prognostic indicator in HCM; and based on currently available evidence, recommend a management approach that may be suitable when clinicians are faced with this clinical scenario.

Cardiogenetics doi: 10.3390/cardiogenetics14010001

Authors: Mila Glavaški Aleksandra Ilić Lazar Velicki

Hypertrophic cardiomyopathy (HCM) is among the most common forms of cardiomyopathies, with a prevalence of 1:200 to 1:500 people. HCM is caused by variants in genes encoding cardiac sarcomeric proteins, of which a majority reside in MYH7, MYBPC3, and TNNT2. Up to 40% of the HCM cases do not have any known HCM variant. Genotype–phenotype associations in HCM remain incompletely understood. This study involved two visits of 46 adult patients with a confirmed diagnosis of HCM. In total, 174 genes were analyzed on the Next-Generation Sequencing platform, and transthoracic echocardiography was performed. Gene-specific discriminative echocardiogram findings were identified using the computer vision library Fast AI. This was accomplished with the generation of deep learning models for the classification of ultrasonic images based on the underlying genotype and a later analysis of the most decisive image regions. Gene-specific echocardiogram findings were identified: for variants in the MYH7 gene (vs. variant not detected), the most discriminative structures were the septum, left ventricular outflow tract (LVOT) segment, anterior wall, apex, right ventricle, and mitral apparatus; for variants in MYBPC3 gene (vs. variant not detected) these were the septum, left ventricle, and left ventricle/chamber; while for variants in the TNNT2 gene (vs. variant not detected), the most discriminative structures were the septum and right ventricle.

Cardiogenetics doi: 10.3390/cardiogenetics13040016

Authors: Georgia Sarquella-Brugada Oscar Campuzano

Inherited arrhythmogenic syndromes (IASs) are a heterogeneous group of rare cardiac entities of genetic origin [...]

Cardiogenetics doi: 10.3390/cardiogenetics13040015

Authors: Yuliya Paulenka Christopher Lee Mays Tawayha Sam Dow Kajal Shah Stanislav Henkin Wassim Mosleh

Thoracic aortic aneurysms (TAAs) are commonly seen in cardiovascular practice. Acquired and genetic conditions contribute to TAA formation. The natural history of genetically mediated TAA underscores the importance of early detection, regular monitoring, and prompt treatment to prevent complications, including dissection or rupture. The prognosis is poor in the event of acute dissection, with high rates of in-hospital mortality. Healthcare providers need to remain vigilant in their efforts to identify and surveil TAA to reduce the risk of complications. In this manuscript, we review the natural history of TAA, discuss the most common causes leading to the development of TAA, assess the value and limitations of diagnostic modalities, and review the management and long-term surveillance of patients with aortic disease.

Cardiogenetics doi: 10.3390/cardiogenetics13040014

Authors: Pedro Garcia Brás Isabel Cardoso José Viegas Diana Antunes Sílvia Rosa

Arrhythmogenic cardiomyopathy (ACM) may present with sudden cardiac arrest (SCA), and demonstration of a pathogenic variant in ACM-related genes is crucial for its definitive diagnosis. A 42-year-old female patient with family history of sudden cardiac death (SCD) was referred to the cardiomyopathy clinic after two episodes of aborted SCA. In the second episode, the patient was transported under cardiopulmonary resuscitation (downtime of 57 min) until extracorporeal membrane oxygenation was implanted. A thorough diagnostic work-up led to a diagnosis of biventricular ACM. Genetic testing revealed a previously undescribed variant in ACM patients in the MYH6 gene, c.3673G>T p.(Glu 1225*), which inserts a premature stop codon. This was considered a possible pathogenic variant originating a truncated protein, previously undescribed in ACM. The patient’s 23-year-old daughter was positive for the MYH6 variant and had ECG abnormalities suggestive of ACM. This case details the complex differential diagnosis of SCA and explores the current recommendations for the diagnosis of biventricular ACM. The identification of a MYH6 variant in a patient with ACM, recurrent SCA, and family history of SCD appears to support the hypothesis of the pathogenicity of MYH6 variants in ACM, in which the association of phenotype with sarcomere variants is still unclear.

Cardiogenetics doi: 10.3390/cardiogenetics13040013

Authors: Anna-Gaëlle Giguet-Valard Astrid Monfort Hugues Lucron Helena Mosbah Franck Boccara Camille Vatier Corinne Vigouroux Pascale Richard Karim Wahbi Remi Bellance Elisabeth Sarrazin Jocelyn Inamo

The likely pathogenic variant c.407A>T p.Asp136Val of the LMNA gene has been recently described in a young woman presenting with atypical progeroid syndrome, associated with severe aortic valve stenosis. We further describe the cardiovascular involvement associated with the syndrome in her family. We identified seven members with a general presentation suggestive of progeroid syndrome. All of them presented heart conduction abnormalities: degenerative cardiac diseases such as coronary artery disease (two subjects) and aortic stenosis (three subjects) occurred in the 3rd–5th decade, and a young patient developed a severe dilated cardiomyopathy, leading to death at 15 years of age. The likely pathogenic variant was found in all the patients who consented to carry out the genetic test. This diverse family cardiologic phenotype emphasizes the complex molecular background at play in lamin-involved cardiac diseases, and the need for early and thorough cardiac evaluations in patients with laminopathic progeroid syndromes.

Cardiogenetics doi: 10.3390/cardiogenetics13030012

Authors: Arie Verkerk Ronald Wilders

Patients carrying the heterozygous A414G mutation in the HCN4 gene, which encodes the HCN4 protein, demonstrate moderate to severe bradycardia of the heart. Tetramers of HCN4 subunits compose the ion channels in the sinus node that carry the hyperpolarization-activated ‘funny’ current (If), also named the ‘pacemaker current’. If plays an essential modulating role in sinus node pacemaker activity. To assess the mechanism by which the A414G mutation results in sinus bradycardia, we first performed voltage clamp measurements on wild-type (WT) and heterozygous mutant HCN4 channels expressed in Chinese hamster ovary (CHO) cells. These experiments were performed at physiological temperature using the amphotericin-perforated patch-clamp technique. Next, we applied the experimentally observed mutation-induced changes in the HCN4 current of the CHO cells to If of the single human sinus node cell model developed by Fabbri and coworkers. The half-maximal activation voltage V1/2 of the heterozygous mutant HCN4 current was 19.9 mV more negative than that of the WT HCN4 current (p < 0.001). In addition, the voltage dependence of the heterozygous mutant HCN4 current (de)activation time constant showed a −11.9 mV shift (p < 0.001) compared to the WT HCN4 current. The fully-activated current density, the slope factor of the activation curve, and the reversal potential were not significantly affected by the heterozygous A414G mutation. In the human sinus node computer model, the cycle length was substantially increased, almost entirely due to the shift in the voltage dependence of steady-state activation, and this increase was more prominent under vagal tone. The introduction of a passive atrial load into the model sinus node cell further reduced the beating rate, demonstrating that the bradycardia of the sinus node was even more pronounced by interactions between the sinus node and atria. In conclusion, the experimentally identified A414G-induced changes in If can explain the clinically observed sinus bradycardia in patients carrying the A414G HCN4 gene mutation.

Cardiogenetics doi: 10.3390/cardiogenetics13030011

Authors: Fares Awa Mays Tawayha Wassim Mosleh

The field of genetics in cardiovascular disease has introduced new possibilities for understanding the fundamental causes of aortic diseases [...]

Cardiogenetics doi: 10.3390/cardiogenetics13030010

Authors: Shirley Lo-A-Njoe Eline Verberne Lars van der Veken Eric Arends J. van Tintelen Alex Postma Mieke van Haelst

Ebstein anomaly is a rare heterogeneous congenital heart defect (CHD) with a largely unknown etiology. We present a 6-year-old girl with Ebstein anomaly, atrial septum defect, hypoplastic right ventricle, and persistent left superior vena cava who has a de novo intragenic ~403 kb deletion of the GDP-mannose 4,6-dehydratase (GMDS) gene. GMDS is located on chromosome 6p25.3 and encodes the rate limiting enzyme in GDP-fucose synthesis, which is used to fucosylate many proteins, including Notch1, which plays a critical role during mammalian cardiac development. The GMDS locus has sporadically been associated with Ebstein anomaly (large deletion) and tetralogy of Fallot (small deletion). Given its function and the association with CHD, we hypothesized that loss-of-function of, or alterations in, GMDS could play a role in the development of Ebstein anomaly. We collected a further 134 cases with Ebstein anomaly and screened them for genomic aberrations of the GMDS locus. No additional GMDS genomic aberrations were identified. In conclusion, we describe a de novo intragenic GMDS deletion associated with Ebstein anomaly. Together with previous reports, this second case suggests that GMDS deletions could be a rare cause for congenital heart disease, in particular Ebstein anomaly.

Cardiogenetics doi: 10.3390/cardiogenetics13020009

Authors: Felice Borrelli Maria Losi Grazia Canciello Gaetano Todde Errico Perillo Leopoldo Ordine Giulia Frisso Giovanni Esposito Raffaella Lombardi

Hypertrophic cardiomyopathy (HCM) is the most common heritable cardiovascular disorder and is characterized by left ventricular hypertrophy (LVH), which is unexplained by abnormal loading conditions. HCM is inherited as an autosomal dominant trait and, in about 40% of patients, the causal mutation is identified in genes encoding sarcomere proteins. According to the results of genetic screening, HCM patients are currently categorized in two main sub-populations: sarcomeric-positive (Sarc+) patients, in whom the causal mutation is identified in a sarcomeric gene; and sarcomeric-negative (Sarc−) patients, in whom a causal mutation has not been identified. In rare cases, Sarc− HCM cases may be caused by pathogenic variants in non-sarcomeric genes. The aim of this review is to describe the differences in the phenotypic expression and clinical outcomes of Sarc+ and Sarc− HCM and to briefly discuss the current knowledge about HCM caused by rare non-sarcomeric mutations.

Cardiogenetics doi: 10.3390/cardiogenetics13020008

Authors: Gaetano Todde Grazia Canciello Felice Borrelli Errico Perillo Giovanni Esposito Raffaella Lombardi Maria Losi

Left ventricular outflow obstruction (LVOTO) and diastolic dysfunction are the main pathophysiological characteristics of hypertrophic cardiomyopathy (HCM)LVOTO, may be identified in more than half of HCM patients and represents an important determinant of symptoms and a predictor of worse prognosis. This review aims to clarify the LVOTO mechanism in, diagnosis of, and therapeutic strategies for patients with obstructive HCM.

Cardiogenetics doi: 10.3390/cardiogenetics13020007

Authors: Muzamil Khawaja Yusuf Kamran Qadeer Rehma Siddiqui Mihail G. Chelu Noppawit Aiumtrakul June K. Pickett Ramon Brugada Josep Brugada Pedro Brugada Chayakrit Krittanawong

Brugada syndrome (BrS) is an inherited cardiac channelopathy with variable expressivity that can lead to sudden cardiac arrest (SCA). Studies worldwide suggest that BrS and Brugada pattern (BrP) have low prevalences in general. However, studies also note that BrS is most prevalent among certain Asian populations. Among the different global regions, the highest prevalence is believed to be in Southeast Asia, followed by the Middle East, South Asia, East Asia, Europe, and North America. It is not only important to recognize such varying degrees of BrS prevalence within Asia but also to understand that there may be significant differences in terms of presenting symptoms, occult risk factors, and the impact on clinical outcomes. The importance of identifying such differences lies in the necessity to develop improved risk assessment strategies to guide secondary prevention and treatment for these patients. Specifically, the decision to pursue placement of an implantable cardiac defibrillator (ICD) can be lifesaving for high-risk BrS patients. However, there remains a significant lack of consensus on how to best risk stratify BrS patients. While the current guidelines recommend ICD implantation in patients with spontaneous Type 1 ECG pattern BrS who present with syncope, there may still exist additional clinical factors that may serve as better predictors or facilitate more refined risk stratification before malignant arrhythmias occur. This carries huge relevance given that BrS patients often do not have any preceding symptoms prior to SCA. This review seeks to delineate the differences in BrS presentation and prevalence within the Asian continent in the hope of identifying potential risk factors to guide better prognostication and management of BrS patients in the future.

Cardiogenetics doi: 10.3390/cardiogenetics13020006

Authors: Sofia Kruchinova Vladimir Shvartz Alim Namitokov Milana Gendugova Maria Karibova Elena Kosmacheva

(1) Background. One of the causes of myocardial infarction (MI) with nonobstructive coronary arteries (MINOCA) is thrombus formation in situ followed by lysis, resulting in a morphologically normal angiogram but with an underlying prothrombotic state that is potentially predisposed to recurrence. Recent studies have shown that a subset of MINOCA patients may have thrombophilic conditions at screening. Objective: To compare the prothrombotic trend in MINOCA patients with that of subjects with MI and obstructive coronary arteries (MIOCA) by testing for known congenital thrombophilias and markers of coagulation activation. (2) Materials and methods. Screening included congenital thrombophilias (factor V Leiden; assessment of protein C, protein S, and antithrombin III) and eight genes. Of these, four genes represented the folate pathway enzymes: MTHFR 677 C>T (rs1801133), MTHFR 1298 A>C (rs1801131), MTR 2756 A>G (rs1805087), and MTRR 66 A>G (rs1801394). The other four genes represented the blood coagulation system: F13 (163 G>T) rs5985, F1 (−455 G>A) rs1800790, GP IIb–IIIa (1565 T>C) rs5918, and PAI-I (−675 5G>4G) rs1799889. Additionally, we examined the levels of homocysteine and lipoprotein (LP) (a). (3) Results. Our study included 269 patients: 114 MINOCA patients and 155 MIOCA patients with lesions of one coronary artery. The frequencies of polymorphisms in the genes of the blood coagulation system and the folate pathway did not differ between the groups. The following genes were associated with in-hospital mortality in the MINOCA group: MTHFR 1298 A>C rs1801131 (OR 8.5; 95% CI 1.67–43.1) and F1 (−455 G>A) rs1800790 (OR 5.8; 95% CI 1.1–27.8). In the MIOCA group, the following genes were associated with in-hospital mortality: MTHFR 1298 A>C rs1801131 (OR 9.1; 95% CI 2.8–28.9), F1 (−455 G>A) rs1800790 (OR 11.4; 95% CI 3.6–35.9), GP IIb–IIIa (1565 T>C) rs5918 (OR 10.5; 95% CI 3.5–30.8), and PAI-I (−675 5G>4G) rs1799889 (OR 12.9; 95% CI 4.2–39.7). We evaluated long-term outcomes (case fatality rate, recurrent MI, and stroke) over a period of 12 months in both groups. The variables associated with these outcomes were laboratory parameters, such as protein C deficiency, hyperhomocysteinemia, and a content of LP (a) > 30 mg/dL. However, we did not reveal the prognostic value of polymorphisms of the studied genes representing the blood coagulation system and the folate pathway. (4) Conclusion. We established no statistically significant differences between the MINOCA and MIOCA groups in the prevalence of congenital thrombophilias and the prevalence of folate pathway enzyme genes and blood coagulation system genes. The MTHFR 1298 A>C (rs1801131) and F1 (−455 G>A) rs1800790 genes were associated with in-hospital mortality in both groups. More significant prognostic factors in both groups during the one-year period were protein C deficiency, hyperhomocysteinemia, and LP (a) > 30 mg/dL.

Cardiogenetics doi: 10.3390/cardiogenetics13010005

Authors: Jeanne Ishimwe Jane Ferguson Annet Kirabo

Salt sensitivity is a trait in which high dietary sodium (Na+) intake causes an increase in blood pressure (BP). We previously demonstrated that in the gut, elevated dietary Na+ causes dysbiosis. The mechanistic interplay between excess dietary Na+-induced alteration in the gut microbiome and sex differences is less understood. The goal of this study was to identify novel metabolites in sex differences and blood pressure in response to a high dietary Na+ intake. We performed stool and plasma metabolomics analysis and measured the BP of human volunteers with salt intake above or below the American Heart Association recommendations. We also performed RNA sequencing on human monocytes treated with high salt in vitro. The relationship between BP and dietary Na+ intake was different in women and men. Network analysis revealed that fatty acids as top subnetworks differentially changed with salt intake. We found that women with high dietary Na+ intake have high levels of arachidonic acid related metabolism, suggesting a role in sex differences of the blood pressure response to Na+. The exposure of monocytes to high salt in vitro upregulates the transcription of fatty acid receptors and arachidonic acid-related genes. These findings provide potentially novel insights into metabolic changes underlying gut dysbiosis and inflammation in salt sensitivity of BP.

Cardiogenetics doi: 10.3390/cardiogenetics13010004

Authors: Kadiam C. Venkata Subbaiah

Arrhythmogenic cardiomyopathy (ACM) is an inherited multifaceted cardiac disease that causes sudden cardiac death, especially in young adults and athletes [...]

Cardiogenetics doi: 10.3390/cardiogenetics13010003

Authors: Tetiana Berezina Mykola Kopytsya Olga Petyunina Alexander Berezin Zeljko Obradovic Lukas Schmidbauer Michael Lichtenauer Alexander Berezin

Cell-free nuclear (cf-nDNA) and mitochondrial (cf-mDNA) DNA are released from damaged cells in type 2 diabetes mellitus (T2DM) patients, contributing to adverse cardiac remodeling, vascular dysfunction, and inflammation. The purpose of this study was to correlate the presence and type of cf-DNAs with HF in T2DM patients. A total of 612 T2DM patients were prescreened by using a local database, and 240 patients (120 non-HF and 120 HF individuals) were ultimately selected. The collection of medical information, including both echocardiography and Doppler imagery, as well as the assessment of biochemistry parameters and the circulating biomarkers, were performed at baseline. The N-terminal brain natriuretic pro-peptide (NT-proBNP) and cf-nDNA/cf-mtDNA levels were measured via an ELISA kit and real-time quantitative PCR tests, respectively. We found that HF patients possessed significantly higher levels of cf-nDNA (9.9 ± 2.5 μmol/L vs. 5.4 ± 2.7 μmol/L; p = 0.04) and lower cf-mtDNA (15.7 ± 3.3 μmol/L vs. 30.4 ± 4.8 μmol/L; p = 0.001) than those without HF. The multivariate log regression showed that the discriminative potency of cf-nDNA >7.6 μmol/L (OR = 1.07; 95% CI = 1.03–1.12; p = 0.01) was higher that the NT-proBNP (odds ratio [OR] = 1.10; 95% confidence interval [CI] = 1.04–1.19; p = 0.001) for HF. In conclusion, we independently established that elevated levels of cf-nDNA, originating from NT-proBNP, were associated with HF in T2DM patients.

Cardiogenetics doi: 10.3390/cardiogenetics13010002

Authors: Cardiogenetics Editorial Office Cardiogenetics Editorial Office

High-quality academic publishing is built on rigorous peer review [...]

Cardiogenetics doi: 10.3390/cardiogenetics13010001

Authors: Ekaterina Polyakova Evgeny Mikhaylov Sarkis Minasian Mikhail Galagudza Evgeny Shlyakhto

Background: Leptin is an obesity-associated adipokine that has been implicated in cardiac protection against ischemia-reperfusion injury (IRI). In this study, concentration-dependent effects of leptin on myocardial IRI were investigated in the isolated rat heart. In addition, we analyzed myocardial miRNAs expression in order to investigate their potential involvement in leptin-mediated cardioprotection. Methods: The effect of leptin on IRI was examined in Langendorff-perfused rat hearts preconditioned with two leptin concentrations (1.0 nM and 3.1 nM) for 60 min. The hearts were subjected to 30 min global ischemia and 120 min reperfusion with buffer containing leptin in the respective concentration. Heart function and arrhythmia incidence were analyzed. Infarct size was assessed histochemically. Expression of miRNA-144, -208a, -378, and -499 was analyzed in the ventricular myocardium using RT-PCR. Results: The addition of 1.0 nM leptin to the buffer exerted an infarct-limiting effect, preserved post-ischemic ventricular function, and prevented reperfusion arrhythmia compared to 3.1 nM leptin. Myocardial expression of miRNA-208a was decreased after heart exposure to 1.0 nM leptin and significantly elevated in the hearts perfused with leptin at 3.1 nM. Conclusion: Acute administration of leptin at low dose (1.0 nM) results in cardiac protection against IRI. This effect is associated with reduced myocardial expression of miRNA-208a.

Cardiogenetics doi: 10.3390/cardiogenetics12040027

Authors: Emanuele Monda Martina Caiazza Giuseppe Limongelli

Mutations in gene encoding filamin C (FLNC) have been historically associated with hypertrophic cardiomyopathy (HCM) and myofibrillar myopathy [...]

Cardiogenetics doi: 10.3390/cardiogenetics12040026

Authors: Lexie Kolton Charlie Robin Jianfeng Xu Jun Wei Rupa Patil Jason Robin

BACKGROUND. Spontaneous coronary artery dissection (SCAD) is a cause of myocardial infarction, especially in younger women without cardiovascular risk factors. Patient management and diagnostics are still largely based on retrospective and observational studies. Most patients with SCAD report chest pain and have elevated biomarkers with ECG findings. SCAD can lead to cardiogenic shock, ventricular arrhythmias and cardiac arrest, and is commonly associated with fibromuscular dysplasia (FMD). Genetic associations are still in their infancy with this disease process. METHODS. An Invitae 29 gene aortopathy panel was performed on a mother with a thoracic aortic aneurysm and her daughter who presented with SCAD and was noted to have FMD. RESULTS. The patient and her mother were both noted to have a heterozygous mutation of the Biglycan (BGN) gene (Variant c.1030T > G (p.Tyr344His)) of undetermined significance. An extensive literature review was performed, including a review of the UK Biobank. This is the first case to our knowledge showing a possible link between the BGN mutation and SCAD/FMD. CONCLUSIONS. The BGN mutation has been recognized to be correlated with aortic aneurysm and aortic dissection. It has not yet been explored to be associated with SCAD/FMD. This paper highlights the potential link between the BGN gene and SCAD/FMD. Further research looking at this association is warranted.

Cardiogenetics doi: 10.3390/cardiogenetics12030025

Authors: Jan Hysing Charlotte Gibbs Øystein Lunde Holla Jacob Thalamus Kristina H. Haugaa

Most ECGs in European hospitals are recorded with equipment giving computer measured intervals and interpretation of the recording. In addition to measurements of interval and QRS axis, this interpretation frequently provides the Bazett’s-corrected QTc time. The introduction of computer-corrected QTc revealed QTc prolongation to be a frequent condition among medical patients. Nevertheless, the finding is frequently overlooked by the treating physician. The authors combine experience from a local hospital with a review of the current literature in this field in order to elucidate the importance of this risk factor both as congenital long QT syndrome and as acquired QT prolongation.

Cardiogenetics doi: 10.3390/cardiogenetics12030024

Authors: Felix-Julian Campos-Garcia Addy-Manuela Castillo-Espinola Carolina-Elizabeth Medina-Escobedo Juan Zenteno Julio-Cesar Lara-Riegos Hector Rubio-Zapata David Cruz-Robles Ana-Isabel Velazquez-Ibarra

22q11.2 deletion syndrome is a phenotypic spectrum that encompasses DiGeorge syndrome (OMIM: 188400) and velocardiofacial syndrome (OMIM: 192430). It is caused by a 1.5–3.0 Mb hemizygous deletion of locus 22q11.2, which leads to characteristic facies, conotruncal cardiovascular malformations, velopharyngeal insufficiency, T-lymphocyte dysfunction due to thymic aplasia, and parathyroid hypoplasia, and, less frequently, neurological manifestations such as delayed psychomotor development or schizophrenia. This study aimed to describe a screening method for the diagnosis of 22q11.2 deletion syndrome in patients with Conotruncal Congenital Heart Disease (CCHD), using qPCR to detect the copy number of the TBX1 gene in a single DNA sample. A total of 23 patients were included; 21 with a biallelic prediction of the TBX1 copy number gene and 2 with a monoallelic prediction who were suspected to be positive and subjected to MLPA confirmation. One patient (4.34%) with truncus arteriosus CCHD was confirmed to have 22q11.2 deletion syndrome. We propose this approach as a possible newborn screening method for 22q11.2 deletion syndrome in CCHD patients.

Cardiogenetics doi: 10.3390/cardiogenetics12030023

Authors: Mita Singh Ana Gomes Paul Hill Ansuman Saha

Coronary artery embolism is a rare cause of acute myocardial infarction, attributed to approximately 10% of all paradoxical embolisms. It is a condition that should be considered in patients who present with chest pain and have a low overall risk of coronary heart disease. A major risk of coronary artery embolism is the existence of a patent foramen ovale (PFO), which can be shown on bubble transthoracic echocardiography. Here we describe a case report of a 68-year-old Caucasian lady who presented with recurrent episodes of myocardial infarction secondary to a paradoxical coronary artery embolism which was likely due to a PFO. We emphasize the need for more research on the role of PFO percutaneous device closure compared to just medical therapy in those with recurrent episodes of acute myocardial infarction secondary to paradoxical coronary artery embolism. This, in turn, should provide clearer guidance in managing such patients with high risk of mortality.

Cardiogenetics doi: 10.3390/cardiogenetics12030022

Authors: Yizel Becerril Alarcón Fernando Bastida González Isidro Roberto Camacho Beiza Eduardo Dávila González José Alfonso Cruz Ramos Alejandra Donají Benítez Arciniega Roxana Valdés Ramos Alexandra Estela Soto Piña

Breast cancer (BC) and cardiometabolic diseases share a multifactorial and modifiable etiology, modulated by complex molecular pathways. Glutathione S-transferase (GST) plays a critical role, providing protection against xenobiotics and regulating levels of enzymes and proteins in the cell. GST variants have a significant impact on susceptibility to diseases whose pathogenesis involves oxidative stress, as is the case in many inflammatory diseases such as BC and cardiometabolic pathologies. However, the expression of these polymorphic variants has not been studied in BC. This study aimed to evaluate the presence of GST mRNA isoforms and their association with clinical and cardiometabolic parameters in women with BC. This was a case-control study, and a total of 57 participants were recruited. Concentrations of glucose and lipids in blood were measured in all the participants. GST variants (GSTT1, GSTM1 and GSTP1 Ile105Val polymorphism) were evaluated in all the participants by real-time PCR analysis. There was a significant association (p < 0.05) between the frequency of GSTP1 and LDL-c in the BC group. However, the control group showed significant associations between blood pressure with GSTT1 and GSTP1 variants with total cholesterol (TC), LDL-c, VLDL-c and triacylglycerols (TG). Therefore, GSTT1 and GSTP1 variants could be emerging biomarkers to discriminate between BC cases related or not to cardiometabolic disease factors.

Cardiogenetics doi: 10.3390/cardiogenetics12030021

Authors: Bandar Alghamdi Intisar Aljohani Bandar Alotaibi Muhammad Ahmed Kholod Almazmomi Salman Aloufi Jowhra Alshamrani

Epigenetics is defined as the study of inheritable changes in the gene expressions and phenotypes that occurs without altering the normal DNA sequence. These changes are mainly due to an alteration in chromatin or its packaging, which changes the DNA accessibility. DNA methylation, histone modification, and noncoding or microRNAs can best explain the mechanism of epigenetics. There are various DNA methylated enzymes, histone-modifying enzymes, and microRNAs involved in the cause of various CVDs (cardiovascular diseases) such as cardiac hypertrophy, heart failure, and hypertension. Moreover, various CVD risk factors such as diabetes mellitus, hypoxia, aging, dyslipidemia, and their epigenetics are also discussed together with CVDs such as CHD (coronary heart disease) and PAH (pulmonary arterial hypertension). Furthermore, different techniques involved in epigenetic chromatin mapping are explained. Among these techniques, the ChIP-on-chip guide is explained with regard to its role in cardiac hypertrophy, a final form of heart failure. This review focuses on different epigenetic factors that are involved in causing cardiovascular diseases.

Cardiogenetics doi: 10.3390/cardiogenetics12030020

Authors: Adam Wolf Faria Khimani Mohanakrishnan Sathyamoorthy

Thoracic aortic aneurysms and dissections often have inter-related pathologies that are increasingly recognized to have a genetic basis. A patient with a vascular history consisting of a spontaneous aorto-iliac dissection and thoracic aortic aneurysm belonged to a family with a significant self-reported history of aneurysmal disease. Suspecting a genetic component, genetic investigation was undertaken. Three variants of unknown significance were found in the ZNF469 gene, which is responsible for the production of a collagen-related zinc finger protein involved in multiple aspects of the development and regulation of major extracellular matrix components. This is the first report to associate this gene with vasculopathy, and further investigation by our group is underway to understand the role it plays in the development of aneurysmal diseases.

Cardiogenetics doi: 10.3390/cardiogenetics12020019

Authors: Francesca Girolami Silvia Passantino Adelaide Ballerini Alessia Gozzini Giulio Porcedda Iacopo Olivotto Silvia Favilli

Restrictive cardiomyopathy (RCM) is a rare disease of the myocardium caused by mutations in several genes including TNNT2, DES, TNNI3, MYPN and FLNC. Individuals affected by RCM often develop heart failure at a young age, requiring early heart transplantation. A 7-year-old patient was referred for genetic testing following a diagnosis of restrictive cardiomyopathy. Clinical exome sequencing analysis identified a likely pathogenic mutation in the FLNC gene [(NM_001458.5 c.6527_6547dup p.(Arg2176_2182dup)]. Its clinical relevance was augmented by the fact that this variant was absent in the parents and was thus interpreted as de novo. Genetic testing is a powerful tool to clarify the diagnosis, guide intervention strategies and enable cascade testing in patients with pediatric-onset RCM.

Cardiogenetics doi: 10.3390/cardiogenetics12020018

Authors: Elías Cuesta-Llavona Rebeca Lorca Beatriz Díaz-Molina José L. Lambert-Rodríguez Julián R. Reguero Sara Iglesias Belén Alonso Alejandro Junco-Vicente Vanesa Alonso Eliecer Coto Juan Gómez

In this study we performed a next generation sequencing of 210 genes in 140 patients with cardiac failure requiring a heart transplantation. We identified a total of 48 candidate variants in 47 patients. Forty-three patients (90%) presented a single variant, and fourpatients (10%) were carriers of two variants. After refining the classification, we identified a pathogenic or likely pathogenic variant in 13 patients (10% of our cohort). In 34 additional cases (25%) the variants were classified as of unknown significance (VUS). In reference to the cause of cardiac failure in the 13 carriers of pathogenic variants, 5 were of dilated non-ischemic cause, 4 hypertrophic and 1 restrictive cardiomyopathy. In the ischemic cases (n = 3) no family history of cardiac disease was recorded, while nineof the non-ischemic had other relatives who were also diagnosed. In conclusion, the NGS of a cardiac transplanted cohort identified a definite or very likely genetic cause in 10% of the cases. Most of them had a family history of cardiac disease, and were thus previously studied as part of a routine screening by a genetic counselor. Pathogenic variants in cases without a family history of cardiac disease were mainly of ischemic origin.

Cardiogenetics doi: 10.3390/cardiogenetics12020017

Authors: Francesca Dongiglio Giuseppe Palmiero Emanuele Monda Marta Rubino Federica Verrillo Martina Caiazza Annapaola Cirillo Adelaide Fusco Erica Vetrano Michele Lioncino Gaetano Diana Francesco Di Fraia Giuseppe Cerciello Fiore Manganelli Olga Vriz Giuseppe Limongelli

The nutritional assessment is gaining clinical relevance since cardiac cachexia and malnutrition are emerging as novel markers of functional status and prognosis in many cardiovascular disorders, including cardiac amyloidosis (CA). This study aimed to evaluate the prognostic role of different nutritional indices for cardiovascular mortality in patients with CA and subgroups. Fifty CA patients (26 AL and 24 ATTR wild-type) were retrospectively analyzed. All patients underwent a comprehensive clinical and laboratory evaluation. Conventional body mass index (cBMI), modified BMI (mBMI), new BMI (nBMI) and prognostic nutritional index (PNI) were analyzed. Multivariate regression analysis was performed to identify the association between nutritional and other clinical-laboratory parameters with cardiovascular death. Compared to ATTRwt patients, those with AL showed lower mBMI values. No significant difference was observed for the other nutritional indices. During a median follow-up of 11.2 months, a lower mBMI quartile was associated with worse survival, in both groups. In multivariate analysis, mBMI emerged as an independent predictor for cardiovascular death. This study showed that mBMI is a novel index of malnutrition and an independent risk factor for cardiovascular mortality in patients with CA in both AL and ATTRwt form.

Cardiogenetics doi: 10.3390/cardiogenetics12020016

Authors: Flavia Fusco Nunzia Borrelli Rosaria Barracano Giovanni Domenico Ciriello Federica Verrillo Giancarlo Scognamiglio Berardo Sarubbi

Left ventricular non-compaction (LVNC) is an extremely heterogeneous disorder with a highly variable clinical presentation, morphologic appearance at imaging testing, and prognosis. It is still unclear whether LVNC should be classified as a separate cardiomyopathy or if it is a mere morphological trait shared by many phenotypically distinct cardiomyopathies. Moreover, the hypertrabeculated phenotype may be reversible in some cases, possibly reflecting the left ventricular physiological response of the cardiac muscle to chronic overload. The current diagnostic criteria have several limitations, leaving many patients in a grey area. Here, we review the available literature on LVNC in order to provide an overview of the current knowledge on this complex disorder.

Cardiogenetics doi: 10.3390/cardiogenetics12020015

Authors: Katerina Lourida George Louridas

Recent advances in cardiology and biological sciences have improved quality of life in patients with complex cardiovascular diseases (CVDs) or heart failure (HF). Regardless of medical progress, complex cardiac diseases continue to have a prolonged clinical course with high morbidity and mortality. Interventional coronary techniques together with drug therapy improve quality and future prospects of life, but do not reverse the course of the atherosclerotic process that remains relentlessly progressive. The probability of CVDs and HF phenotypes to reverse can be supported by the advances made on the medical holistic principle of systems biology (SB) and on artificial intelligence (AI). Studies on clinical phenotypes reversal should be based on the research performed in large populations of patients following gathering and analyzing large amounts of relative data that embrace the concept of complexity. To decipher the complexity conundrum, a multiomics approach is needed with network analysis of the biological data. Only by understanding the complexity of chronic heart diseases and explaining the interrelationship between different interconnected biological networks can the probability for clinical phenotypes reversal be increased.

Cardiogenetics doi: 10.3390/cardiogenetics12020014

Authors: Michele Lioncino Emanuele Monda Santo Dellegrottaglie Annapaola Cirillo Martina Caiazza Adelaide Fusco Francesca Esposito Federica Verrillo Giovanni Ciccarelli Marta Rubino Massimo Triggiani Raffaele Scarpa Alida Linda Patrizia Caforio Renzo Marcolongo Stefania Rizzo Cristina Basso Gerardo Nigro Maria Giovanna Russo Paolo Golino Giuseppe Limongelli

Eosinophilic pancarditis (EP) is a rare, often unrecognized condition caused by endomyocardial infiltration of eosinophil granulocytes (referred as eosinophilic myocarditis, EM) associated with pericardial involvement. EM has a variable clinical presentation, ranging from asymptomatic cases to acute cardiogenic shock requiring mechanical circulatory support (MCS) or chronic restrictive cardiomyopathy at high risk of progression to dilated cardiomyopathy (DCM). EP is associated with high in-hospital mortality, particularly when associated to endomyocardial thrombosis, coronary arteries vasculitis or severe left ventricular systolic dysfunction. To date, there is a lack of consensus about the optimal diagnostic algorithm and clinical management of patients with biopsy-proven EP. The differential diagnosis includes hypersensitivity myocarditis, eosinophil granulomatosis with polyangiitis (EGPA), hypereosinophilic syndrome, parasitic infections, pregnancy-related hypereosinophilia, malignancies, drug overdose (particularly clozapine) and Omenn syndrome (OMIM 603554). To our knowledge, we report the first case of pancarditis associated to eosinophilic granulomatosis with polyangiitis (EGPA) with negative anti-neutrophil cytoplasmic antibodies (ANCA). Treatment with steroids and azathioprine was promptly started. Six months later, the patient developed a relapse: treatment with subcutaneous mepolizumab was added on the top of standard therapy, with prompt disease activity remission. This case highlights the role of a multimodality approach for the diagnosis of cardiac involvement associated to systemic immune disorders.

Cardiogenetics doi: 10.3390/cardiogenetics12010013

Authors: Teemu Vepsäläinen Tiina Heliö Catalina Vasilescu Laura Martelius Sini Weckström Juha Koskenvuo Anita Hiippala Tiina Ojala

Cardiomyopathies (CMPs) are a heterogeneous group of diseases, frequently genetic, affecting the heart muscle. The symptoms range from asymptomatic to dyspnea, arrhythmias, syncope, and sudden cardiac death. This study is focused on MYH7 (beta-myosin heavy chain), as this gene is commonly mutated in cardiomyopathy patients. Due to the high combined prevalence of MYH7 variants and severe health outcomes, it is one of the most frequently tested genes in clinical settings. We analyzed the clinical presentation and natural history of 48 patients with MYH7-related cardiomyopathy belonging to a cohort from a tertiary center at Helsinki University Hospital, Finland. We made special reference to three age subgroups (0–1, 1–12, and >12 years). Our results characterize a clinically significant MYH7 cohort, emphasizing the high variability of the CMP phenotype depending on age. We observed a subgroup of infants (0–1 years) with MYH7 associated severe DCM phenotype. We further demonstrate that patients under the age of 12 years have a similar symptom burden compared to older patients.

Cardiogenetics doi: 10.3390/cardiogenetics12010012

Authors: Emanuele Monda Ettore Blasi Antonio De Pasquale Alessandro Di Vilio Federica Amodio Martina Caiazza Gaetano Diana Michele Lioncino Alessia Perna Federica Verrillo Maria Martucci Orlando Munciguerra Andrea Vergara Giuseppe Limongelli

The deletion of the arginine 14 codon (R14del) in the phospholamban (PLN) gene is a rare cause of arrhythmogenic cardiomyopathy (ACM) and is associated with prevalent ventricular arrhythmias, heart failure, and sudden cardiac death. The pathophysiological mechanism which culminates in the ACM phenotype is multifactorial and mainly based on the alteration of the endoplasmic reticulum proteostasis, mitochondrial dysfunction and compromised Ca2+ cytosolic homeostasis. The symptoms of this condition are usually non-specific and consist of arrhythmia-related or heart failure-related manifestation; however, some peculiar diagnostic clues were detected, such as the T-wave inversion in the lateral leads, low QRS complexes voltages, mid-wall or epicardial fibrosis of the inferolateral wall of the left ventricle, and their presence should raise the suspicion of this condition. The risk stratification for sudden cardiac death is mandatory and several predictors were identified in recent years. However, the management of affected patients is often challenging due to the absence of specific prediction tools and therapies. This review aims to provide the current state of the art of PLN R14del cardiomyopathy, focusing on its pathophysiology, clinical manifestation, risk stratification for sudden cardiac death, and management.

Cardiogenetics doi: 10.3390/cardiogenetics12010011

Authors: <i>Cardiogenetics</i> Editorial Office <i>Cardiogenetics</i> Editorial Office

Previously, Cardiogenetics [1] was published by PAGEPress from Volume 1 (2011) to Volume 10, Issue 1 (2020) [...]

Cardiogenetics doi: 10.3390/cardiogenetics12010010

Authors: Marta Rubino Emanuele Monda Martina Caiazza Giuseppe Palmiero Michele Lioncino Annapaola Cirillo Adelaide Fusco Federica Verrillo Alessia Perna Gaetano Diana Federica Amodio Arturo Cesaro Giovanni Duro Berardo Sarubbi Maria Russo Paolo Calabrò Giuseppe Limongelli

Fabry disease (FD) is a multiorgan disease, which can potentially affect any organ or tissue, with the heart, kidneys, and central nervous system representing the major disease targets. FD can be suspected based on the presence of specific red flags, and the subsequent evaluation of the α-Gal A activity and GLA sequencing, are required to confirm the diagnosis, to evaluate the presence of amenable GLA mutation, and to perform a cascade program screening in family members. An early diagnosis is required to start an etiological treatment and to prevent irreversible organ damage. Here, we describe a case of a 37-years-old patient, with a surgically repaired congenital heart defect in his childhood, who had a late diagnosis of FD based on the clinical history and targeted genetic evaluation. This case highlights the importance to perform a correct phenotyping and definite diagnosis of FD, to start an early and appropriate treatment in the index patient, and a cascade clinical and genetic screening to identify other family members at risk, which may benefit from specific treatment and/or a close follow-up.

Cardiogenetics doi: 10.3390/cardiogenetics12010009

Authors: Tobias Burkard Dominik Sebastian Westphal Franziska Markel Roman Antonin Gebauer Gabriele Hessling Cordula Maria Wolf

Long QT syndrome (LQTS) is an inherited arrhythmic disorder associated with sudden cardiac death (SCD). This study aimed to identify the clinical and molecular genetic risk factors that contribute to major arrhythmic events (MAEs) in patients with genetically confirmed childhood onset LQTS 1–3. This study was a retrospective double-center study. An MAE was defined as the occurrence of SCD, aborted SCD, appropriate implantable cardioverter defibrillator discharge, or sustained ventricular tachycardia. During a median follow-up of 4.6 years (range 0.1–24.3 years), MAEs occurred in 18 (17.8%) of 101 patients diagnosed with LQTS at a median of 7.7 years (range 0.0–18.0 years) despite the use of beta-blockers in 91.6% of patients at the last follow-up. A multivariate analysis identified a genetic diagnosis of LQTS2 and LQTS3 and variants within the KCNH2 S5-loop-S6 pore region as independent risk factors for MAEs, independent of the QTc value or a history of syncope detected from a univariate analysis. MAEs occur frequently in childhood onset LQTS despite beta-blocker treatment. A detailed molecular genetic diagnosis can contribute to the arrhythmia risk stratification and optimize the use of preventive measures in this vulnerable patient population.

Cardiogenetics doi: 10.3390/cardiogenetics12010008

Authors: Cardiogenetics Editorial Office Cardiogenetics Editorial Office

Rigorous peer-reviews are the basis of high-quality academic publishing [...]

Cardiogenetics doi: 10.3390/cardiogenetics12010007

Authors: Angela Maggio Sandra Mastroianno Giuseppe Di Stolfo Stefano Castellana Pietro Palumbo Maria Pia Leone Anita Spirito Domenico Rosario Potenza Saverio Ladogana Marco Castori Massimo Carella Massimo Villella Mauro Pellegrino Salvatori

In thelast few decades, the roles of cardio-oncology and cardiovascular geneticsgained more and more attention in research and daily clinical practice, shaping a new clinical approach and management of patients affected by cancer and cardiovascular disease. Genetic characterization of patients undergoing cancer treatment can support a better cardiovascular risk stratification beyond the typical risk factors, suchas contractile function and QT interval duration, uncovering a possible patient’s concealed predisposition to heart failure, life threatening arrhythmias and sudden death. Specifically, an integrated cardiogenetic approach in daily oncological clinical practice can ensure the best patient-centered healthcare model, suggesting, also the adequate cardiac monitoring timing and alternative cancer treatments, reducing drug-related complications. We report the case of a 14-month-old girl affected by neuroblastoma, treated by cisplatin, complicated by cardiac arrest. We described the genetic characterization of a Ryanodine receptor 2 (RYR2) gene mutation and subsequent pharmacogenomic approach to better shape the cancer treatment.

Cardiogenetics doi: 10.3390/cardiogenetics12010006

Authors: Efstathios Papatheodorou Dimitrios Degiannis Aris Anastasakis

Genetic testing plays an increasing diagnostic and prognostic role in the management of patients with heritable thoracic aortic disease (HTAD). The identification of a specific variant can establish or confirm the diagnosis of syndromic HTAD, dictate extensive evaluation of the arterial tree in HTAD with known distal vasculature involvement and justify closer follow-up and earlier surgical intervention in HTAD with high risk of dissection of minimal or normal aortic size. Evolving phenotype–genotype correlations lead us towards more precise and individualized management and treatment of patients with HTAD. In this review, we present the latest evidence regarding the role of genetics in patients with HTAD.

Cardiogenetics doi: 10.3390/cardiogenetics12010005

Authors: Nilank Shah Roshni Sethi Sachin Shah Komail Jafri Jonah Duran Yong Chang Chirag Soni Hanna Wollocko

Hypertension and atherosclerosis are debilitating diseases that affect millions each year. Long-term consequences include but are not limited to stroke, myocardial infarction, and kidney failure. Platelet-activating factor (PAF) is a proinflammatory mediator synthesized from a subclass of phosphatidylcholines that increases platelet activation, leukocyte adhesion, infiltration of macrophages, and intracellular lipid accumulation, thereby contributing to atherosclerosis. Magnesium, a key micronutrient and free radical scavenger, is a water-soluble mineral that regulates peripheral vasodilation and calcium, phosphate, and hydroxyapatite homeostasis. Magnesium’s antihypertensive ability stems from its role as a natural calcium antagonist and promoter of vasodilatory mediators, such as nitric oxide. Platelet-activating factor and magnesium share an inverse relationship, and elevated magnesium levels have been shown to have protective effects against plaque formation as well as antihypertensive and antiarrhythmic effects, all of which allow for healthier aging. The purpose of this literature review is to investigate the role of platelet-activating factor and magnesium in the pathophysiology of hypertension, atherosclerosis, cardiovascular disease, stroke, and aging. Since the pathophysiology of the platelet-activating factor biomolecule is underexplored, further research studies are warranted in order to navigate the putative signaling pathways involved in the cardioprotective effects of dietary magnesium as a natural anti-PAF agent.

Cardiogenetics doi: 10.3390/cardiogenetics12010004

Authors: Brian M. Wollocko Bardia Papian-Gorji Winston Yen Urooj Zahid Nilank Shah Kenneth Steier Hanna Wollocko

Currently, there is an unmet therapeutic need for the medical management of cardiac arrest, as is evident from the high mortality rate associated with this condition. These dire outcomes can be attributed to the severe nature and poor prognosis of this disorder. However, the current treatment modalities, while helping to augment survival, are limited and do not offer adequate improvements to outcomes. Treatment modalities are particularly lacking when considering the underlying pathophysiology of the metabolic phase of cardiac arrest. In this study, we explore the three phases of cardiac arrest and assess the factors related to positive clinical outcomes and survival for these events. Furthermore, we evaluate the present guidelines for resuscitation and recovery, the issues related to ischemia and tissue reperfusion, and the benefit of oxygen-delivery therapeutic methods including blood transfusion therapy and synthetic hemoglobins (HBOCs). The current therapy protocols are limited specifically by the lack of an efficient method of oxygen delivery to address the metabolic phase of cardiac arrest. In this article, we investigate the next generation of HBOCs and review their properties that make them attractive for their potential application in the treatment of cardiac arrest. These products may be a viable solution to address complications associated with ischemia, reperfusion injury, and organ damage.

Cardiogenetics doi: 10.3390/cardiogenetics12010003

Authors: Nosheen Reza Alejandro de Feria Jessica L. Chowns Lily Hoffman-Andrews Laura Vann Jessica Kim Amy Marzolf Anjali Tiku Owens

Background: Variants in the desmoplakin (DSP) gene have been recognized in association with the pathogenesis of arrhythmogenic right ventricular cardiomyopathy (ARVC) for nearly 20 years. More recently, genetic variation in DSP has also been associated with left-dominant arrhythmogenic cardiomyopathy. Data regarding the cardiac phenotypes associated with genetic variation in DSP have been largely accumulated from phenotype-first studies of ARVC. Methods: We aimed to evaluate the clinical manifestations of cardiac disease associated with variants in DSP through a genotype-first approach employed in the University of Pennsylvania Center for Inherited Cardiovascular Disease registry. We performed a retrospective study of 19 individuals with “pathogenic” or “likely pathogenic” variants in DSP identified by clinical genetic testing. Demographics and clinical characteristics were collected. Results: Among individuals with disease-causing variants in DSP, nearly 40% had left ventricular enlargement at initial assessment. Malignant arrhythmias were prevalent in this cohort (42%) with a high proportion of individuals undergoing primary and secondary prevention implantable cardioverter defibrillator implantation (68%) and ablation of ventricular arrhythmias (16%). Probands also experienced end-stage heart failure requiring heart transplantation (11%). Conclusions: Our data suggest DSP cardiomyopathy may manifest with a high burden of heart failure and arrhythmic events, highlighting its importance in the pathogenesis of dilated and arrhythmogenic cardiomyopathies. Targeted strategies for diagnosis and risk stratification for DSP cardiomyopathy should be investigated.