Search Results (158)

Background and Objectives: In the context of hip fracture surgeries, episodes of hypotension are common, and have been associated in various studies with increased complications and mortality. The latest clinical guidelines recommend close hemodynamic management. Our research team hypothesized that the use of peripheral nerve blocks in this surgery could help adjust the doses of subarachnoid anesthesia for these procedures, thereby limiting the hypotensive episodes, without compromising an adequate depth and duration of intraoperative anesthesia. Materials and Methods: A retrospective study of 184 elderly patients undergoing hip fracture surgery is proposed. In total, 76 patients were operated under subarachnoid anesthesia using 9.5 mg of hyperbaric bupivacaine 0.5% and 10 mcg of fentanyl (Group S), while 108 received a reduced dose of 5 mg hyperbaric bupivacaine 0.5% and 10 mcg of fentanyl, supplemented by preoperative PENG and FLCN blocks (Group B). The main outcome of this study is to compare the number and duration of hypotensive episodes, and its secondary outcome is to compare the use of vasoactive drugs between the groups. Results: The number of hypotensive episodes and their duration were lower in Group B: −12.94 min (−8.57 to −18.03, p = 0.000). The consumption of vasoactive drugs did not reach statistical significance. None of the patients in Group B required supplementary intraoperative anesthesia. Conclusions: Reducing the dose in subarachnoid anesthesia is associated with better hemodynamic control in hip fracture surgeries, and PENG + NFCL blocks are proposed as an appropriate adjunct to ensure adequate anesthetic depth and duration despite a substantial subarachnoid anesthesia dose adjustment. Full article

Background/Objectives: This article discusses the clinical–surgical relevance of vascular anatomical variations, such as fenestrations—the division of a vessel into multiple channels that subsequently rejoin distally. Although rare in peripheral veins, these variations, which originate from the incomplete condensation of the embryonic capillary plexus, can predispose thrombosis and necessitate preoperative recognition to avert complications during routine procedures. This study aims to report a rare case of dual origin and double fenestration of the cephalic vein. Methods: During a cadaveric dissection, a variation of the cephalic vein was identified. Results: In this case, an origin of the cephalic vein was observed arising from the dorsal venous network of the hand. It exhibited a double fenestration in the forearm, where a branch of the medial cutaneous nerve of the forearm perforated it before draining into the brachial vein. The second, a proximal origin, arose from the convergence of two tributaries—one originating from the subcutaneous tissue lateral to the brachial muscle and the other from the biceps brachii muscle, forming a single trunk that drained into the subclavian vein. Conclusions: This rare variation of the cephalic vein (dual origin and fenestration) carries significant hemodynamic implications, including an increased risk of turbulence and thrombosis. The atypical anatomical relationship between the nerve and the fenestrated vein also heightens the potential for iatrogenic injuries. In-depth knowledge of such anomalies is crucial for healthcare professionals to minimize complications and optimize the success of procedures like venous access and arteriovenous fistulas, ultimately ensuring patient safety. Full article

The vein of Galen malformations (VoGMs) is mainly correlated with the retention of an embryonic pattern of vascularity, inducer of vein of Galen dilation, and formation of arteriovenous communications that give rise to the risk of systemic shunting, causing cardiac dysfunction, vascular steal, and venous hypertension. This is a rare cerebral vascular malformation in the newborn, accounting for 1% of all cerebral arteriovenous malformations and occurring in approximately 1 in 25,000–50,000 live births. We review nine cases of newborns diagnosed with vein of Galen malformations (VoGMs) to assess whether this pathology demonstrates a marked improvement over the past 13 years in diagnostic accuracy, treatment approaches, and patient survival rates within our clinic. Medical treatment was focused on providing inotropic support and tightly controlled peripheral and pulmonary vasodilation with the aim of overriding the effects of high output heart failure. Most of the patients underwent liver failure and flow-mediated pulmonary hypertension, while half of the newborns expressed anomalies of the nervous system due to impaired cerebral hemodynamics. Given the unavailability of endovascular treatment in our unit, which predisposes the newborns to a higher vital risk, we recognize the importance of delivering tailored intensive care aimed at maintaining cardiorespiratory and hemodynamic stability until a curative intervention can be performed in a specialized center. Full article

Background and Objectives: Atrial fibrillation (AF) in critically ill patients (CIP) is associated with worse outcomes and increased mortality in the intensive care unit (ICU). Rhythm control strategies are often unfeasible due to underlying comorbidities, making rate control the preferred initial approach. However, conventional beta-blockers may worsen hemodynamics through negative inotropic effects and peripheral vasodilation. Landiolol, an ultra-short-acting adrenoreceptor antagonist, may offer an alternative due to its high β₁-cardioselectivity and minimal blood pressure (BP) impact. This study evaluated the efficacy and feasibility of landiolol in hemodynamically unstable CIP with tachyarrhythmia, used as add-on therapy after failure of standard treatments. Materials and Methods: Ten CIP, admitted for non-postoperative reasons, were prospectively enrolled for landiolol treatment (L-group) in the ICU of Ulm University Heart Center between July and December 2017. The control group contained 41 patients who had received standard therapy without landiolol (NL-group). The primary composite endpoint was defined as heart rate (HR) reduction while maintaining mean arterial pressure (MAP) above 65 mmHg. Results: The most frequent reason for ICU admission was hemodynamic instability related to tachyarrhythmia in patients with cardiogenic or septic shock. At therapy initiation, all patients exhibited a compromised hemodynamic status, with a median MAP of 68.0 (IQR 60.0–80.0) mmHg and a median HR of 160.0 (IQR 144.0–176.0) bpm. After a three-hour observation period, no significant differences in BP values were observed between the groups. The primary composite endpoint was achieved at comparable rates in both groups (p = 0.525). However, patients in the L-group achieved a greater reduction in HR compared to those in the NL-group (25.3% vs. 21.9%, p < 0.001). Conclusions: Landiolol achieved more effective HR control than standard therapy without adversely affecting BP stability. These findings suggest that landiolol may be a feasible and effective option for HR control in ICU CIP. Full article

Background: The posterior labyrinth is particularly vulnerable to ischemic injury. Vertigo can occasionally be the only presenting symptom of acute myocardial infarction (AMI). Acute Bilateral Vestibular Neuropathy (ABVN) is an extremely rare condition, with only three cases previously reported in the literature. Its exact pathophysiological mechanisms remain unclear. Case Presentation: We present the case of a 76-year-old male who presented to the emergency department (ED) with vertigo and severe postural unsteadiness. Subsequently, a silent AMI was diagnosed, prompting cardiac stenting. Vestibular function assessments over the following eight months confirmed the diagnosis of ABVN. A cycle of vestibular rehabilitation yielded limited objective benefit, although the patient reported subjective improvement as measured by the Dizziness Handicap Inventory (DHI). Discussion and Conclusions: This case suggests a potential association between peripheral vestibular dysfunction and acute hemodynamic impairment due to myocardial infarction. Notably, it represents the first reported case of ABVN following a silent AMI, presenting solely with vestibular symptoms. Full article

Objectives: Post-acute venous thromboembolism (VTE) is a well-recognized complication of COVID-19, driven by persistent endothelial dysfunction and thromboinflammation. Identifying simple clinical predictors of VTE may optimize therapy and limit adverse outcomes. We propose a pragmatic risk-stratification approach, based on clinical and echocardiographic parameters. Methods: We conducted a retrospective cohort study in a Romanian tertiary hospital (March 2020–April 2022) in 54 adults with laboratory-confirmed COVID-19 and imaging-confirmed VTE. Demographics, comorbidities, laboratory markers, and echocardiographic variables—particularly tricuspid annular plane systolic excursion (TAPSE), peripheral oxygen saturation (SpO₂), and left-ventricular end-diastolic diameter (LVEDD)—were collected. The primary outcome was the percentage of patients receiving systemic thrombolysis. Statistical analyses included Mann–Whitney U tests, chi-square, Spearman correlations, and multivariable logistic regression. Results: The mean age was 61.2 ± 14.7 years, and 63% were men. Eleven patients (20.4%) underwent thrombolysis. Compared with conservatively managed patients, those receiving thrombolysis had lower TAPSE (13.0 vs. 20.8 mm), lower SpO₂ (90.1 vs. 97.0%), and smaller LVEDD (24.4 vs. 46.1 mm); all differences were statistically significant. Each 1 mm decrease in TAPSE and 1% decrease in SpO₂ increased the likelihood of thrombolysis (adjusted odds ratios 1.58 and 1.34, respectively). Inflammatory markers and right-ventricular diameter were not associated with treatment. Conclusions: Reduced TAPSE, lower SpO₂, and decreased LVEDD identify post-COVID VTE patients at elevated risk of hemodynamic compromise requiring thrombolysis. A point-of-care assessment incorporating these variables may improve early risk stratification and guide therapeutic decisions. Full article

Pain management in multiple trauma patients presents a complex clinical challenge due to competing priorities such as hemodynamic instability, polypharmacy, coagulopathy, and the urgency of life-saving interventions. In this context, peripheral nerve blocks (PNBs) are increasingly recognized as a valuable asset for their role in managing pain in patients with multiple traumatic injuries. By reducing reliance on systemic opioids, PNBs support effective pain control and facilitate early mobilization, aligning with enhanced recovery principles. This narrative review summarizes current evidence on the use of PNBs in the context of polytrauma, focusing on their analgesic efficacy, integration within multimodal analgesia protocols, and contribution to improved functional outcomes. Despite these advantages, clinical application is limited by specific concerns, including the potential to mask compartment syndrome, the risk of nerve injury or local anesthetic systemic toxicity (LAST), and logistical barriers in acute trauma settings. Emerging directions in the field include the refinement of ultrasound-guided PNB techniques, the expanded use of continuous catheter systems, and the incorporation of fascial plane blocks for anatomically complex or multisite trauma. Parallel efforts are focusing on the development of decision-making algorithms, improved risk stratification tools, and integration into multimodal analgesic pathways. There is also growing emphasis on standardized clinical protocols, simulation-based training, and patient education to enhance safety and consistency in practice. As evidence continues to evolve, the long-term impact of PNBs on functional recovery, quality of life, and healthcare utilization must be further explored. With thoughtful implementation, structured training, and institutional support, PNBs may evolve into a cornerstone of modern trauma analgesia. Full article

Microfluidic methods are an important tool for studying the microrheology of blood and the mechanical properties of blood cells—erythrocytes, leukocytes, and platelets. In patients with diabetes, hypertension, obesity, sickle cell anemia, or cerebrovascular or peripheral vascular diseases, hemorheological alterations are commonly observed. These include increased blood viscosity and red blood cell (RBC) aggregation, along with reduced RBC deformability. Such disturbances significantly contribute to impaired microcirculation and microvascular perfusion. In blood vessels, abnormal hemorheological parameters can elevate resistance to blood flow, exert greater mechanical stress on the endothelial wall, and lead to microvascular complications. Among these parameters, erythrocyte deformability is a potential biomarker for diseases including diabetes, malaria, and cancer. This review highlights recent advances in microfluidic technologies for in vitro assays of RBC deformability and aggregation, as well as leukocyte aggregation and adhesion. It summarizes the core principles of microfluidic platforms and the experimental findings related to hemodynamic parameters. The advantages and limitations of each technique are discussed, and future directions for improving these devices are explored. Additionally, some aspects of the modeling of the microrheological properties of blood cells are considered. Overall, the described microfluidic systems represent promising tools for investigating erythrocyte mechanics and leukocyte behavior. Full article

Background: Anderson–Fabry disease (AFD) is a progressive lysosomal storage disorder characterized by systemic glycosphingolipid accumulation. While cardiac imaging plays a central role in disease monitoring, the relationship between structural myocardial changes and exercise capacity remains incompletely defined. This study aimed to evaluate functional impairment in AFD patients using cardiopulmonary exercise testing (CPET) and to determine whether limitations are primarily cardiac or extracardiac in origin. Methods: Thirty-one patients with genetically confirmed AFD were retrospectively enrolled from two tertiary centers. All underwent baseline clinical assessment, resting transthoracic echocardiography (TTE), spirometry, and symptom-limited CPET using a cycle ergometer and a 10 W/min ramp protocol. Echocardiographic parameters included the LVEF, global longitudinal strain (GLS), E/e′ ratio, TAPSE, and PASP. CPET measurements included the peak VO₂, anaerobic threshold (AT), VE/VCO₂ slope, oxygen pulse (VO₂/HR), and VO₂/watt ratio. Results: The mean age was 48.4 ± 17.6 years, with most patients classified as NYHA I. LVEF was preserved (62.3 ± 8.6%), and diastolic indices were within normal limits (E/e′ 7.1 ± 2.4), but GLS was impaired (11.3 ± 10.5%). CPET showed reduced peak VO₂ (18.6 ± 6.1 mL/kg/min; 71.4% predicted) and early AT (40.8%), with preserved ventilatory efficiency and oxygen pulse. VO₂/watt was mildly reduced, suggesting peripheral limitations despite intact central hemodynamics. Conclusions: Functional impairment is common in AFD patients, even with mild cardiac involvement. CPET reveals early systemic limitations not captured by standard imaging, supporting its role in phenotypic characterization and therapeutic decision-making. Full article

Background/Objectives: Beetroot juice is a popular nutritional resource in sports due to its ergogenic effects, promoting vasodilation, hypotension, improved energy efficiency, and reduced oxygen cost. However, its role in modulating the autonomic nervous system during strength training remains understudied. This study assessed the effects of acute nitrate-rich beetroot juice supplementation on cardiovascular and hemodynamic responses to flywheel resistance exercise. Methods: Fifteen male participants (age 22 ± 3.64 years) from the Federal University of Viçosa completed a crossover, double-blind, placebo-controlled trial. Each participant consumed either 400 mg of standardized nitrate or a placebo before performing 4 sets of 8–12 repetitions at 100% of their maximum concentric strength using a leg extension exercise, with 90 s recovery intervals. Heart rate, blood pressure, oxygen saturation, and subjective perception of effort were measured after each set. Data were analyzed using SPSS 23, employing the Shapiro–Wilk normality test, t-test for related samples, and MANOVA with time and supplement factors. Results: NO₃⁻ supplementation led to a smaller increase in systolic blood pressure (SBP) during exercise compared to the placebo and reduced diastolic blood pressure (DBP) in the last set, reflecting decreased peripheral vascular resistance. However, no significant effects were observed for heart rate, rate–pressure product, oxygen saturation, time under tension, or subjective perception of effort. Conclusions: These findings suggest that NO₃⁻ supplementation can offer cardiovascular benefits by attenuating blood pressure increases during strength training, highlighting its potential as a low-risk ergogenic aid for healthy young men. Full article

Functional near-infrared spectroscopy (fNIRS) is a non-invasive imaging technique that measures brain hemodynamic activity by detecting changes in oxyhemoglobin and deoxyhemoglobin concentrations using light in the near-infrared spectrum. This study aims to provide a comprehensive characterization of fNIRS signals acquired with a prototypal continuous-wave fNIRS device during a breath-holding task, to evaluate the impact of respiratory activity on scalp hemodynamics within the framework of Network Physiology. To this end, information-theoretic and spectral analysis methods were applied to characterize the dynamics of fNIRS signals. In the time domain, time-resolved information-theoretic measures, including entropy, conditional entropy and, information storage, were employed to assess the complexity and predictability of the fNIRS signals. These measures highlighted distinct informational dynamics across the breathing and apnea phases, with conditional entropy showing a significant modulation driven by respiratory activity. In the frequency domain, power spectral density was estimated using a parametric method, allowing the identification of distinct frequency bands related to vascular and respiratory components. The analysis revealed significant modulations in both the amplitude and frequency of oscillations during the task, particularly in the high-frequency band associated with respiratory activity. Our observations demonstrate that the proposed analysis provides novel insights into the characterization of fNIRS signals, enhancing the understanding of the impact of task-induced peripheral cardiovascular responses on NIRS hemodynamics. Full article

Aerobic exercise (AE) modulates vascular function through hemodynamic responses, thereby influencing cardiovascular health and risk, with the circadian rhythm system playing a crucial role. This chronobiological study investigated diurnal variations in exercise-induced hemodynamic changes in the common carotid artery. In a randomized crossover trial, twenty-two sedentary adults completed eight AE interventions (one per laboratory visit day), with each session performed at one of eight evenly distributed time points (from 06:00 to 20:00). Vascular ultrasound imaging and hemodynamic parameter calculations were performed both pre- and post-exercise. Compared to other time points, AE at 06:00 and 18:00 induced a greater and more sustained increase in mean flow rate and wall shear stress (WSS). Moreover, AE at 06:00 was associated with a smaller increase in oscillatory shear index and a larger decrease in peripheral resistance compared to other time points. Exercise-induced hemodynamic responses exhibited significant temporal variations. These findings emphasize the importance of exercise timing in optimizing vascular benefits for sedentary individuals. Full article

Endothelial dysfunction (ED) has been identified as a precursor to micro- and macroangiopathic complications and an independent risk factor for major adverse cardiac events (MACEs). Recent studies have identified a novel risk factor for ED: severe aortic stenosis (AS). Traditionally linked to other established risk factors for endothelial cell dysregulation, AS has emerged as a contributor to ED, which is supported by the improvement of endothelial function following transcatheter (TAVR) or surgical (SAVR) interventions. Furthermore, the observation of ED in patients with a dysfunctional bicuspid aortic valve (BAV) at a younger age suggests a distinct impact of AS on ED. A promising hypothesis is a hemodynamic theory suggesting that changes in the shear stress of the ascending aortic wall and peripheral vessels, along with subclinical hemolysis caused by turbulent blood flow, could lead to reduced nitric oxide (NO) bioavailability. Current hypotheses on ED have yet to consider the influence of concomitant aortic stenosis in BAV. Additionally, studies examining potential intravascular hemolysis in BAV patients or the impact of surgical treatment of this defect on endothelial function are scarce. The aim of this review is to summarize the current knowledge on the mechanisms underlying ED in patients with AS or BAV and to identify possible directions for future research. Full article

Background: Severe poisoning can lead to catastrophic cardiovascular collapse, often progressing to multiorgan failure and death. While intensive supportive care and pharmacological intervention remain the cornerstone of management, cases of refractory cardiogenic shock, particularly those caused by membrane stabilizing agents and calcium channel blockers, pose a significant therapeutic challenge. Extracorporeal membrane oxygenation (ECMO) has emerged as a potential life-saving intervention in critically ill patients. This review examines the feasibility, clinical outcomes, and optimal indications for ECMO in the management of drug-induced cardiogenic shock. Methods: A systematic narrative review was conducted to evaluate the current evidence of ECMO use in poisoning-related cardiovascular failure, with a particular focus on patient selection criteria and the prognostic determinants of therapeutic resistance. Results: Extracorporeal membrane oxygenation may serve as a crucial hemodynamic support strategy in drug-induced circulatory collapse. Most reported cases involve peripheral ECMO, demonstrating variable but promising survival outcomes. Conclusions: Despite its potential to rescue patients from otherwise fatal toxic cardiomyopathy, the role of ECMO remains incompletely defined. Further prospective studies are essential to refine patient selection criteria and identify the toxicant-specific predictors of therapeutic failure. A deeper understanding of these factors may enhance clinical decision making and improve survival rates in severe poisoning cases. Full article

Septic patients can show multiorgan failure even after an apparent recovery of hemodynamic stability. The underlying mechanism is unclear, but the main pathological element is microcirculation impairment, leading to insufficient oxygen delivery. This study aimed to assess the effects of levosimendan administration on peripheral perfusion in the prodromic phases of sepsis and compare them with the variations in microcirculation perfusion occurring with conventional dobutamine therapy. Sixteen patients with sepsis were enrolled, eight of whom were treated with norepinephrine and levosimendan and the other eight with norepinephrine and dobutamine. We observed a trend of reduction in the hematic lactate concentration and an increase in peripheral perfusion in the patients treated with levosimendan. The latter also occurred in the dobutamine group, although to a lower degree. Hematic lactate was significantly reduced in the levosimendan group, probably because of the enhanced aerobic metabolism, due to both the action on mitochondrial K_ATP channels and the better oxygen delivery to cells. The lactate values varied from T₀ (2.28 ± 0.25 mmol/L) to T₂ (1.45 ± 0.31 mmol/L) in the levosimendan group vs. from T₀ (2.79 ± 0.91 mmol/L) to T₂ (2.92 ± 0.76 mmol/) L in the dobutamine group. Hence, levosimendan may be indicated in septic patients with impaired microcirculation and tissue oxygenation and, consequently, high lactate levels. Further studies are needed to draw a profile of levosimendan as a possible treatment to restore microcirculation in septic patients. Full article