Search Results (150)

Background: Brachial plexopathies comprise a diverse array of illnesses with multifactorial etiologies, including trauma, inflammation, neoplasia, and iatrogenic damage, frequently manifesting with nonspecific clinical symptoms. Precise and prompt imaging evaluation is essential for diagnosis, treatment planning, and monitoring. Objective: To equip radiologists with interpretative tools for a systematic assessment of the brachial plexus utilizing advanced imaging modalities, specifically ultrasound (US) and magnetic resonance imaging (MRI), while emphasizing techniques, indications, limitations, and critical radiologic signs for differential diagnosis. Imaging Techniques: This narrative review concentrates on US and MRI. High-frequency linear probes with multiplanar dynamic scans provide US visualization of trunks, cords, and terminal branches in superficial areas. Specialized MRI procedures (T1, T2, STIR, DWI, contrast-enhanced) provide comprehensive evaluation of spinal roots and deep tissues, differentiating preganglionic from postganglionic lesions. A combined US–MRI methodology can enhance diagnostic efficacy. Findings: Ultrasound is excellent for superficial and dynamic assessment, especially in post-traumatic and iatrogenic lesions, while MRI is the gold standard for deep structures and complex disorders. The integration of two modalities enhances lesion identification and treatment direction. Emerging methodologies further enhance diagnostic and prognostic capabilities. Conclusions: The synergistic application of US and MRI, emphasizing nerve injury patterns and muscle denervation indicators, facilitates precise and prompt diagnosis of brachial plexopathies. Standardizing imaging standards and incorporating modern techniques are essential for interdisciplinary, customized patient care. Full article

Background/Objectives: Upper limb amputation presents considerable physical and psychological challenges, especially in young, active individuals. This case study outlines the rehabilitation journey of a 33-year-old patient, an Italian national Paralympic snowboard cross athlete, who underwent elective transradial amputation followed by advanced surgical and prosthetic interventions. The objective was to assess the combined impact of upper limb Targeted Sensory Reinnervation (ulTSR) and the Adam’s Hand prosthetic system on functional recovery and user satisfaction. Methods: After a partial brachial plexus injury caused complete paralysis of his right hand, the patient opted for transradial amputation. He subsequently underwent ulTSR, performed by plastic surgeon, Alexander Gardetto, MD, which involved rerouting sensory nerves to defined regions of the residual limb in order to reestablish a phantom limb map. This reinnervation was designed to facilitate improved prosthetic integration. The Adam’s Hand, a myoelectric prosthesis with AI-based pattern recognition, was selected for its compatibility with TSR and intuitive control. Outcomes were evaluated using the OPUS questionnaire, the DASH, and patient feedback. Results: ulTSR successfully restored meaningful sensory input, allowing intuitive and precise control of the prosthesis, with minimal cognitive and muscular effort. The patient regained the ability to perform numerous activities of daily living such as dressing, eating, lifting, and fine motor tasks—which had been impossible for over 15 years. OPUS results demonstrated significant improvements in both function and satisfaction. Conclusions: This case highlights the synergistic benefits of combining ulTSR with user-centered prosthetic technology. Surgical neurorehabilitation, paired with advanced prosthetic design, led to marked improvements in autonomy, performance, and quality of life in a high-performance amputee athlete. Full article

Background: Subacromial impingement or pain syndrome (SAPS) is the most common diagnosis for chronic shoulder pain. Current surgeries do not reduce long-term pain, suggesting they miss the root etiology. Previously, we described the Human Disharmony Loop (HDL), where the unique lower trunk innervation to the pectoralis minor (PM) causes scapular dyskinesis and deforms its connections, including tugging the acromion down and impinging the subacromial structures. We hypothesize that SAPS patients who meet HDL criteria would benefit significantly from PM tenotomy with infraclavicular brachial plexus neurolysis (PM + ICN) alone. Methods: SAPS patients who met HDL diagnostic criteria were treated with PM + ICN, with secondary distal neurolysis if needed. Outcomes included pain and shoulder abduction ROM. Six-month follow-up minimum was required. Results: N = 140 patients were included. Median age was 49. Prior surgeries included 27% subacromial decompression/acromioplasty, 21% rotator cuff repair, 16% biceps tenodesis, 4% SLAP repair, 2% labral repair, 7% distal clavicle resection, 10% reverse total shoulder arthroplasty (rTSA), 1% rib resection with scalenectomy, 16% cervical spine fusion, 28% distal neurolysis. Median pain decreased from 8 to 2 and median shoulder ROM increased from 90 to 180 degrees. Positive impingement signs on exam decreased from 100% to 11%. (p < 0.01) Conclusions: In a large series of SAPS patients, evaluation and treatment for the HDL significantly reduced pain and restored motion. These findings suggest that in many patients SAPS may be a subset of the HDL: the ventral PM disturbing the scapula constitutes the anatomic basis and optimal surgical target behind SAPS. Full article

The treatment of shoulder dysplasia resulting from brachial plexus birth injury (BPBI) remains a matter of debate within pediatric orthopedic and neurosurgical communities. Various approaches have been proposed to address the muscular imbalance and joint incongruity that develop in affected children, with special attention paid to the roles of humeral head reduction and tendon transfers. Background/Objectives: These procedures aim to correct the disproportionate strength between internal and external rotators of the shoulder. However, the specific contribution of skeletal procedures such as glenoid osteotomy to restoring shoulder mechanics remains controversial. Glenoid osteotomy, a technique that involves surgically reorienting the glenoid cavity, is hypothesized to promote better containment of the humeral head and allow more physiological joint development. On one hand, altering the glenoid axis could enhance joint congruency and facilitate remodeling during growth. On the other hand, there is limited evidence supporting its efficacy and safety. Methods: This review aims to assess the available literature to determine whether glenoid osteotomy represents a safe and effective procedure for patients with BPBI-associated shoulder dysplasia. A comprehensive literature search yielded 1380 titles. After excluding studies focused on adults and those failing to meet inclusion criteria, only three studies were selected for final analysis. Due to the limited data and variability in study design, no statistical meta-analysis could be performed. Results: Findings suggest that glenoid osteotomy, particularly when combined with tendon transfers, may lead to improvements in shoulder abduction and external rotation. However, outcomes are often difficult to interpret in isolation, and the specific benefits attributable to the osteotomy remain unclear. The lack of standardized imaging, follow-up, and scoring systems limits the strength of current conclusions. Conclusions: Further multicenter, prospective studies are needed to evaluate the long-term efficacy of glenoid osteotomy, its role in skeletal remodeling, and its contribution to overall shoulder stability and function. Such studies would help clarify the true potential of this surgical technique in the broader context of BPBI treatment. Full article

Background/Objectives: Currently, the transfemoral approach is recognized as the primary method for accessing transcatheter aortic valve implantation (TAVI). However, alternative techniques are needed when the transfemoral access is not suitable. We proposed that a modified transaxillary approach through the distal left axillary artery is both viable and safe for conducting TAVI, potentially offering benefits for patients. Methods: From December 2018 to February 2024, a total of 24 patients (7 women, average age 77.9 ± 8 years) received TAVI using transaxillary access via the left axillary artery. The participants suffered from symptomatic severe aortic stenosis and were deemed TAVI candidates with iliofemoral anatomy unsuitable for a transfemoral route. The patient group displayed a high perioperative risk profile, with significant peripheral artery disease or severe obstructive infrarenal aortic conditions. The implantation of the aortic prosthesis was carried out through the left distal axillary artery. A balloon-expandable valve was used in every instance. Results: In the examined cohort, the 30-day mortality rate was 4.2%. A new pacemaker was necessary for four patients (16.7%). One case exhibited a new moderate neurological dysfunction. Additionally, one patient required surgical revision of the access point due to ischemia. Conclusions: Our findings indicate that transaxillary TAVI via the distal left axillary artery has yielded encouraging outcomes. This approach is practicable and safe, does not prolong the procedure, minimizes surgical trauma, ensures excellent access regardless of chest anatomy, and is sparing for the brachial plexus. As a single-center pilot study, our findings require confirmation in larger, prospective cohorts with extended follow-up to fully validate the safety and long-term efficacy of this technique. Full article

Brachial plexus root avulsion [BPRA] and concomitant spinal cord injury [SCI] represent devastating injuries that come with limited hope for recovery owing to the adult spinal cord’s loss of intrinsic ability to spontaneously regenerate. BPRA/SCI is an enormous public health issue the world over, and its catastrophic impact goes beyond the patient, the family, businesses, and national health budgets, draining billions of dollars annually. The rising population and economic growth have seen the incidence of SCI surging. Genomic, transcriptomic, and proteomic studies have yielded loads of information on the various molecular events that precede, regulate, and support both regenerative and degenerative pathways post-SCI. Metabolomics, on the other hand, comes in as the search for a cure and the objective monitoring of SCI severity and prognosis remains on the horizon. Despite the large number of review articles on metabolomics and its application fields such as in cancer and diabetes research, there is no comprehensive review on metabolite profiling to study disease mechanisms, biomarkers, or neuroprotection in SCI. First, we present a short review on BPRA/SCI. Second, we discuss potential benefits of metabolomics as applied in BPRA/SCI cases. Next, a look at the analytical techniques that are used in metabolomics. Next, we present an overview of the studies that have used metabolomics to reveal SCI metabolic fingerprints and point out areas of further investigation. Finally, we discuss future research directions. Full article

Background/Objectives: Thoracic outlet syndrome (TOS) is a rare and difficult-to-diagnose condition in children, characterized by the compression of neurovascular structures in the thoracic outlet. Neurogenic TOS (nTOS) often presents with nonspecific symptoms such as paresthesia, weakness, and upper extremity discomfort. While anterior scalene muscle block (ASMB) has been used in adults as a diagnostic adjunct, its role in pediatric patients remains underreported. Methods: We present two adolescent female patients with suspected neurogenic thoracic outlet syndrome (nTOS) who were referred to the acute pain service for further evaluation. Both patients underwent ultrasound-guided ASMB. Results: Following the block, both patients experienced rapid and marked relief of symptoms. Subsequently, each underwent first rib resection with brachial plexus neurolysis. At follow-up, both patients reported a complete resolution of symptoms and a return to baseline function. Conclusions: These cases suggest that ASMB may serve as a functional diagnostic tool and short-term therapeutic test in pediatric nTOS patients. It also helps guide surgical decision-making for invasive treatment. However, as ASMB is not without risk, its role should be considered supportive rather than confirmatory. Further studies are needed to better define its utility and safety in the pediatric population. Full article

Background: Neuralgic amyotrophy (NA), also known as Parsonage–Turner syndrome, brachial neuritis, and idiopathic brachial plexopathy, is a rare and potentially debilitating peripheral nerve disorder characterized by acute-onset shoulder pain followed by progressive motor deficits. It is often under-recognized, with an estimated incidence of 1 to 3 per 100,000 annually, though some studies suggest the actual prevalence may be significantly higher. The condition typically progresses through three phases, an acute painful phase, a phase of weakness, and a recovery phase, with sensory disturbances common in addition to motor weakness. The exact pathogenesis of NA remains unclear, though it is thought to involve a combination of genetic, environmental, and immunological factors. While neurologic complications following hematopoietic stem cell transplantation (HSCT), such as neuropathies and myopathies, have been documented, NA remains exceedingly rare in this context, with only a few reported cases. The pathophysiology in HSCT patients is hypothesized to involve immune dysregulation, graft-versus-host disease (GvHD), infection, and the effects of immunosuppressive therapy. Diagnosis is primarily clinical, supported by electrodiagnostic studies and MRI, though no laboratory markers exist. The management of NA is largely supportive and multimodal, focusing on pain control and rehabilitation. Objectives: The objective of this study was to describe the characteristics, clinical course, and outcomes of patients admitted for HSCT who were subsequently diagnosed with NA. Study Design: This retrospective case series from a single institution examined nine (N = 9) patients who developed acute shoulder pain following HSCT. We collected data on demographics, transplant details, clinical features, MRI findings, and electrodiagnostic studies, summarized using descriptive statistics. The diagnosis of neurologic amyotrophy was based on clinical presentation and corroborated by imaging and electrodiagnostic results. Long-term follow-up was assessed to evaluate symptom recovery. Results: Between August 2020 and July 2022, nine patients (44% male, median age 60) were diagnosed with NA following autologous (n = 4) or allogeneic (n = 5) HSCT. The onset of severe shoulder pain occurred at a median of 9 days post-transplant (range 1–21 days), with the majority of patients experiencing unilateral pain, predominantly affecting the right shoulder (55%). Neurologic weakness developed on average 5.1 days after pain onset, and sensory deficits were observed in all but one patient. MRI findings revealed muscle edema, atrophy, and enhancement in six patients, while electromyography confirmed NA in five. Due to the small sample size, statistical analyses, including p-values, confidence intervals, and trend comparisons, were not performed, and thus no conclusions can be drawn regarding associations between variables such as early onset and worse outcomes. Shoulder pain resolved after a median of 23 days (range 8–40 days). Long-term follow-up (>1 year) showed that three patients achieved full or near-full recovery, four partially recovered, and two showed minimal improvement. Conclusions: NA should be highly suspected in patients with acute shoulder pain and neurologic symptoms post-HSCT. To improve diagnostic accuracy and clinical outcomes, we recommend enhanced clinician awareness, the implementation of targeted diagnostic protocols (such as MRI and electrodiagnostic studies), and the establishment of standardized long-term follow-up protocols. Full article

Proton beam therapy for head and neck cancers traditionally employs a fixed relative biological effectiveness (RBE) of 1.1, which may underestimate actual biological effects in critical structures. This study evaluates how Linear Energy Transfer (LET) optimization could potentially prevent radiation-induced brachial plexopathy (RIBP). (1) Case presentation: A 65-year-old male with stage IVA p16-positive oropharyngeal squamous cell carcinoma received pencil-beam-scanning intensity-modulated proton therapy with concurrent cisplatin. Due to a right level 4 neck node, the high-risk target volume overlapped with the brachial plexus, resulting in a D0.1cc of 70.3 Gy (RBE = 1.1). Four years post-treatment, the patient developed progressive right upper extremity paresthesia, weakness, and dysesthesia. Electromyography revealed myokymia consistent with brachial plexopathy, while MRI showed hyperintensity of the right brachial plexus corresponding to the radiation field. Conservative treatment with pentoxifylline, gabapentin, and physical therapy improved his symptoms. (2) Methods: The original treatment plan was retrospectively analyzed using Monte Carlo dose algorithms and LET-dependent RBE models from McMahon and McNamara. An LET-optimized plan was created to limit LET_d to 2.0 keV/µm in the brachial plexus. (3) Results: The relative biological equivalent (RBE) dose to 0.1cc of the brachial plexus was 77.8 Gy (CGE RBE), exceeding tolerance. The LET-optimized plan reduced the brachial plexus D0.1cc to 59.4 Gy (RBE = 1.1) and 63.2 Gy (CGE RBE), an 18.8% decrease, while maintaining target coverage. LET_d, within the brachial plexus enhancement, decreased from 5.3 to 2.6 keV/μm. (4) Conclusion: This case highlights the potential clinical importance of LET optimization in proton therapy planning, particularly when organs-at-risk overlap with target volumes. By reducing LET_d from 5.3 to 2.6 keV/μm and biological equivalent dose by 18.8%, LET optimization could potentially prevent late toxicities, like RIBP, while maintaining target coverage. Full article

Background and Objectives: When pacemakers were first introduced, their indications and implantation techniques were quite limited. Over 400,000 permanent pacemakers are implanted annually worldwide, mostly under local anesthesia (LA), which is preferred for its hemodynamic stability. However, inadequate LA often leads to excessive use of local anesthetics or analgesics. This study evaluates the efficacy of combining interscalene brachial plexus block (ISB) and superficial cervical plexus block (SCPB) as regional anesthesia (RA) techniques during permanent pacemaker implantation compared to LA. Materials and Methods: A total of 42 patients were divided into RA and LA groups. The RA group underwent ISB and SCPB under ultrasound guidance, while the LA group received traditional local anesthetic methods. Results: The RA group exhibited superior pain control, reduced analgesic requirements, and higher satisfaction rates compared to the LA group. Ultrasound guidance enhanced block success rates and minimized complications. Conclusions: ISB and SCPB offer a superior alternative to LA for pacemaker implantation, especially in patients with anxiety or insufficient LA response. Full article

Background and objectives: Brachial plexus block is one of the most effective anesthesia and analgesia methods for upper extremity surgeries across different age groups. However, the number of studies on this block in children is insufficient. The aim of this study was to retrospectively analyze and discuss the efficacy and safety of ultrasound (US)- and Ultrasound with nerve stimulator (US + NS)-guided infraclavicular brachial plexus block (ICB) in pediatric patients. Materials and Method: In this study, we retrospectively analyzed the data of 240 pediatric patients admitted to our clinic between October 2020 and April 2023, 120 of whom underwent US-guided ICB and 120 who underwent US + NS-guided ICB. Results: Demographic data of both groups who underwent US and US + NS-guided ICB were similar. The mean procedure time was 6.1 ± 0.8 min for the US group and 8.31 ± 0.82 min for the US + NS group (p < 0.001). The mean operative time was 62.4 ± 11.3 min in the US group and 62.4 ± 9.5 min in the US + NS group (p = 0.73). Intraoperative and postoperative opioid and additional analgesia use and pain scores at 1, 3, 6, 9, 12, 15, and 24 h were recorded in both groups. The mean duration of the motor block (MBD) was 6.20 ± 0.95 h in the US group and 6.29 ± 0.88 h in the US + NS group (p = 0.46). The mean duration of sensory block (SBD) was 9.38 ± 2.13 h in the US group and 9.53 ± 2.05 h in the US + NS group (p = 0.38). Conclusions: In pediatric patients, US and US + NS-guided ICB applications are effective and safe in ease of application, prolonged analgesia, and low complication rates. In skilled hands, US-guided ICB can be as effective as US + NS-guided ICB. Further prospective studies with more significant patient populations are needed to validate these findings. Full article

Background: The brachial plexus is a network of nerves responsible for the motor and sensory innervation of the upper limb. Variations in the formation and course of the brachial plexus are well documented, though combinations of multiple unilateral abnormalities are rare. The complex pathology of this structure nerve may result in clinical consequences. We present a unique set of brachial plexus abnormalities involving the C4–C6 nerve roots, superior and middle trunks, additional communicating branches, and delayed median nerve union. Case Presentation: During the routine dissection of a 70-year-old female cadaver, several unique variations in the brachial plexus anatomy were identified. The C4 root contributed to C5 before the superior trunk formed, resulting in a superior trunk composed of C4–C6. The C5 root was located anterior to the anterior scalene muscle, whereas C6 maintained its usual posterior position. Additionally, an anterior communicating branch from the middle trunk to the posterior cord was observed. A communicating branch between the lateral and medial cords split into two terminal branches: one merged with the ulnar nerve, and the other joined the medial contribution of the median nerve. The median nerve contributions from the lateral and medial cords merged approximately two inches above the elbow. Conclusions: This rare combination of brachial plexus anomalies has not been previously described in the literature and is of significant clinical relevance. The additional anterior communicating branch from the middle trunk may suggest potential flexor muscle innervation by the posterior cord, which typically innervates extensor muscles. Additionally, the delayed convergence of the median nerve may provide a protective mechanism in cases of midshaft humeral fracture. Awareness of these peripheral nerve abnormalities is important for diagnostic imaging, surgery, or peripheral nerve blocks. Knowledge of such variations is critical for clinicians managing upper limb pathologies. Full article

Background: The Upper Limb Neural Tension Test (ULNTT) is a common assessment for neurodynamic function, yet the relationship between ULNTT findings and specific spinal biomechanical patterns remains poorly understood, particularly in the context of cervicobrachial neuralgia. This study aimed to investigate the association between ULNTT asymmetry and cervicothoracic spine biomechanics using advanced motion capture analysis. Methods: A longitudinal experimental study was conducted on two groups of asymptomatic participants: one with ULNTT asymmetry > 10° (AS group, n = 12) and another with symmetrical ULNTT (S group, n = 11). Neurodynamic testing and 3D motion capture of spinal kinematics during head lateral bending were performed at baseline. The AS group then underwent manual medicine intervention targeting spinal mobility impairments, followed by post-intervention reassessment. Spine biomechanics data, focusing on the C5-T4 region, were analyzed using the least squares approximation method to derive parameters describing upper thoracic (T1-T4_VERT) and lower cervical (C5-T1_CONC) lateral bending, and their interrelationship (ANGLE_TANG). Results: At baseline, the AS group showed significant differences between sides in neurodynamic parameters and T1-T4_VERT, with limited upper thoracic lateral bending contralateral to the side of the restricted ULNTT. Significant intergroup differences were also observed for these parameters. Following intervention in the AS group, significant improvements were noted in neurodynamic parameters and T1-T4_VERT, with no significant between-side differences post-intervention. Conclusions: These are preliminary results and preliminary conclusions based on the first study on a small group of patients. Given the limitations, this study provides evidence for a relationship between ULNTT asymmetry and upper thoracic spine biomechanics, specifically a contralateral limitation in lateral bending. These findings suggest a functional link between brachial plexus neurodynamics and upper thoracic spine mobility, offering potential insights into the pathophysiology of cervicobrachial conditions and highlighting the potential role of manual therapy in addressing both neurodynamic and biomechanical impairments. The developed motion capture analysis method offers a novel approach to quantify fine spinal motion patterns. Full article

A stinger is the transient sensory and motor loss of one upper extremity caused by a stretch or compression injury to the brachial plexus or the exiting cervical nerve roots. Athletes from contact sports like American football, rugby, wrestling, and horseback riding are most affected. Given today’s competitive athletic culture and recent advancements in sports medicine, understanding the clinical, diagnostic, and therapeutic aspects of stingers is crucial. Thus, this narrative review highlights current knowledge of pathology, clinical features, diagnostic modalities, radiologic measurements, management, rehabilitation, and return-to-play protocols. Recent and prominent English publications on adult athletes revealed that the brachial plexus upper roots (C5 and C6) are most affected. Stingers accounted for 62.2% of neck injuries in National Football League athletes and affected up to 50.3% of football players. Grading is based on injury severity to the nerves. Most stingers are mild, lasting a few seconds to minutes. Return-to-play protocols remain controversial; however, stingers have promising prognoses and can mostly be resolved with conservative treatment and rehabilitation. Severe injuries require surgical intervention but rarely occur in athletics. In conclusion, many recent developments in the evaluation and treatment of stingers impact current treatment plans, return-to-play decisions, and the future of athletes. Full article

Background: Clinical-surgical procedures in the thoracic outlet can be challenging due to the proximity of neurovascular structures to the subclavian vein. Methods: During a routine anatomical dissection in an undergraduate medical study at Paracelsus Medical University, Nuremberg, a novel anatomical finding was observed in an ethanol–glycerin embalmed, 79-year-old female body. In addition to the standard measurements, hematoxylin eosin staining of relevant vessels was performed Results: A nerve branch separating from the brachial plexus at the C6 spinal nerve traversed inferiorly and passed through a fenestration of the subclavian vein in the lateral section, rejoining the lateral cord of the brachial plexus. In addition, hypoplasia of the right-sided internal carotid artery (ICA) and a left-sided internal jugular vein (IJV) hypoplasia were detected. At the left venous angle of the left IJV, a venous saccular aneurysm was found. The ectopic origin of the left ascending pharyngeal artery originated from the initial segment of the left ICA. Also, Langer’s axillary arches were observed bilaterally in the same subject. Conclusions: The anatomical findings in the specimen do not provide a direct symptomatic correlation or functional relevance comparable to clinical observations. Nevertheless, it is important to highlight this discovery as a potential clinical reference for future studies. Full article