Anaesthesia management of a patient with Bethlem Myopathy for elective tonsillectomy: a case report.

BACKGROUND: Bethlem Myopathy is a collagen VI-related myopathy presenting as a rare hereditary muscular disorder with progressive muscular weakness and joint contractures. Despite its milder clinical course relative to other myopathies, anaesthetic management can be challenging. High arched palates and fixed flexion deformities may contribute to a difficult airway. A progressive decline in pulmonary function can present later into adulthood. This respiratory decline can carry secondary cardiovascular consequences due to the progressive nature of restrictive lung disease, including right sided heart disease and pulmonary hypertension. We describe a case of a male patient with Bethlem Myopathy undergoing anaesthesia, to contribute to the limited body of literature on this condition and enhance awareness and guidance amongst anaesthesiologists on approaching patients with this condition. This is the first case report within the literature of its kind. CASE PRESENTATION: This case details a 33-year-old male with Bethlem Myopathy undergoing tonsillectomy. Diagnosed in childhood following developmental delays, the patient had no prior anaesthetic exposure and no family history of anaesthetic complications. Anaesthetic induction was achieved without complications, avoiding depolarizing muscle relaxants and careful airway management. Extreme care was taken in patient positioning to prevent complications. The surgery proceeded without incident and muscle paralysis was reversed with Suggammadex, resulting in no adverse post-operative respiratory complications. The patient was discharged on the first post-operative day without any respiratory or cardiovascular compromise. CONCLUSIONS: Bethlem Myopathy, while often exhibiting a mild clinical course, can present anaesthetic challenges. Awareness of potential complications including a difficult airway, cardiovascular and respiratory implications as well as the need for specialised monitoring and positioning is crucial to ensure a safe peri-operative course.

Heart transplantation in muscular dystrophy: Single-center analysis.

INTRODUCTION: Cardiac involvement may occur in many forms of muscular dystrophy (MD). While cardiac disease may progress to warrant heart transplantation (HTx), there may be contraindications related to extra-cardiac disease including pulmonary and skeletal muscle involvement that limit overall survival and impairs post-transplant rehabilitation efforts. This study describes the MD HTx experience at a single high-volume center. METHODS: We examined the clinical characteristics and outcomes of patients with MD with heart failure (HF) (n = 28), patients with MD status post HTx (n = 20) and non-MD HTx control group (n = 40) matched 2:1 for age at transplant, sex, listing status, and antibody sensitization. RESULTS: Patients with MD who underwent HTx had increased ventilator days (2 vs. 1 days, p = .013), increased hospital length of stay (20 vs. 12 days, p = .022), and increased discharge to inpatient rehab (60% vs. 8%, p < .001). By 1 year post HTx, patients with MD more often required assistive devices for walking (55% vs. 10%, p = .01). Nonetheless, post-HTx survival was similar at 1 year (100% vs. 97.5%, p = .48) and 5 years (95.0% vs. 87.5%, p = .36). Of the HTx recipients with MD, 95% were followed by a neurologist, 60% by a neuromuscular specialist as part of the Muscular Dystrophy Association Clinic at our center. CONCLUSION: Transplantation is a feasible option for patients with MD and advanced HF. MD patients who undergo transplantation may benefit from multidisciplinary specialized care to optimize MD-related morbidity.

Tailor-made management of thoracic scoliosis with cervical hyperextension in muscular dystrophy.

PURPOSE: We report the case of a 13-year-old boy managed for fixed cervical hyperextension due to congenital muscular dystrophy with partial merosin deficiency. He presented a right decompensated thoracic scoliosis (T6-L1 Cobb angle 72°) associated with cervical and lumbar lordosis. The spinal extension was accompanied by major flexion of the hip resulting in the trunk being bent forward. This posture caused daily severe back pain responsible for significant loss of quality of life. This led to the decision to perform surgery. METHODS: Initially, the surgery was limited to the thoraco-lumbo-sacral area. An anterior release was done, followed by posterior T1-pelvis vertebral fusion using a modified Luque-Galveston technique. The correction achieved was satisfactory in the coronal plane, but the correction of the thoracic kyphosis was insufficient to compensate for the cervical hyperextension. Cervical spine was fixed at 52° of lordosis, and associated with a left 50° rotation and a right 45° inclination of the head. We performed a posterior and lateral release of the cervical muscles followed by positioning of the halo, itself connected to a made-for-measure thoracic corset. A daily adjustment of the threaded rods was done daily for 3 months to correct the cervical position. Then, we performed a spinal fusion without instrumentation, by posterior articular abrasion and grafting from the occiput to T1. Following that, the halo-corset was kept in place for 4 months. RESULTS: At the end of 8 month treatment, the clinical result was satisfactory with a balanced spine both face on, and sideways, allowing for comfortable painless positioning. At 5 year follow-up, he showed stable spinal fusion without any loss of correction. CONCLUSION: There is no gold standard treatment for cervical hyperextension, but approaches have to be tailor-made to the patient's needs and the team's experience.

Brachiocephalic vein bypass with sternal reconstruction for symptomatic occlusion.

Complications attributed to central venous stenosis and subsequent thrombosis are increasing in frequency and are most commonly associated with neointimal fibroplasia as well as neoplastic, fibrotic, and traumatic pathologies. We present the successful venous bypass and thoracic wall reconstruction of a 58-year-old female with chronic atypical symptoms secondary to brachiocephalic vein occlusion from congenital thoracic dystrophy.

[Successful anesthetic management of laparoscopic rectopexy using rocuronium and sugammadex in a patient with Becker muscular dystrophy].

A 70-year-old man with Becker muscular dystrophy (BMD) underwent laparoscopic rectopexy under general anesthesia. For anesthetic induction, we administered total 0.6 mg · kg-1 of rocuronium with titration. Eight minutes later, train-of-four (TOF) count reached to 0 and the patient was intubated smoothly. One hundred and five minutes later, TOF ratio recovered to 100% and we administered rocuronium 10 mg additionally. Surgery was finished without any problems 95 minutes after thereafter. TOF ratio was 45% and we administered sugammadex 3 mg · kg-1, reversing neuromuscular blockade to TOF ratio 100% within 1.5 minute. The patient awoke clearly and respiratory condition was good. He was extubated without remaining neuromuscular blockade. Postoperative course was stable and there was no serious adverse effect on his muscular function intra- and post-operatively. In conclusion, rocuronium and sugammadex can be used safely and effectively in general anesthetic management for patients with muscular dystrophy. However, as the onset times and durations of these agents can be longer, we should administer these agents with titration carefully under periodic neuromuscular monitoring.

Successful heart transplantation from a donor with Ullrich congenital muscular dystrophy.

Heart transplantation is the most effective therapy for children with end-stage heart disease; however, its use is limited by the number of donor organs available. This shortage may be further compounded by concerns about organ quality, leading to refusal of potential donor organ offers. We report on the successful transplantation and 5-year follow-up of a heart from a donor with Ullrich congenital muscular dystrophy (UCMD). The candidate was critically ill at the time of the transplant and the donor organ was declined repeatedly on the match run list due to concerns about organ quality, despite having normal cardiac function by echocardiography on minimal inotropic support. We believe the diagnosis of "muscular dystrophy" in the donor combined with a lack of understanding about the specifics of the diagnosis of UCMD enabled our candidate to receive a primary offer for this organ. We are unaware of any previous reports of the use of a heart from a donor with UCMD for orthotopic heart transplantation in adults or children.

Cell therapy for muscular dystrophies: advances and challenges.

PURPOSE OF REVIEW: Cell therapy is considered a potential therapeutic avenue for the treatment of skeletal muscle diseases. Heterologous and autologous approaches have been attempted in the context, respectively, of generalized degenerative disease and of localized repairs. Cell transplantation trials, however, have been hampered by poor survival and limited migratory ability of the cells. This article reviews recent problems including the identification of new putative cellular candidates, the combination of complementary genetic or pharmacological therapeutic approaches, and the set up of clinical trials. RECENT FINDINGS: Deeper investigations identified anoikis, oxidative stress, fusion inability and some administration methodologies as causes of early massive cell death. It was proposed to adapt the injection strategies or to combine them with genetic modifications of the cells or pharmacological interventions on the environment to improve the success of implantation. New myogenic cell types have been identified, mainly in the family of perivascular cells, which can be administered systemically. New concepts have emerged regarding the correction of gene expression (use of lentiviral vectors, set-up of exon skipping, direct DNA repair, etc.). SUMMARY: Initial cell transplantation trials dedicated to the repair of striated muscles in muscular dystrophies produced mitigated results and underlined some limitations of cellular candidates under study. The research and identification of new stem cell candidates, the invention of new molecular strategies for correction of gene expression, the development of complementary approaches to improve transplantation success, have been justified by the unmet medical needs. These efforts led to new preclinical and clinical trials based on these concepts.

Skeletal muscle-derived stem cells: implications for cell-mediated therapies.

Current advances in stem cell research and innovative biological approaches in the field of tissue engineering and regenerative medicine could eventually translate into prospective clinical applications. Various adult organs and tissues harbor stem and progenitor cells that could potentially be used to repair, regenerate, and restore a variety of different tissues following acute injury or tissue destructive diseases. Skeletal muscle is a very convenient and plentiful source of somatic stem cells. It contains several distinct populations of myogenic stem cells including satellite cells that are mainly responsible for muscle growth and regeneration, and multipotent muscle-derived stem cells (MDSCs). Although both cell populations share some phenotypic similarities, MDSCs display a much greater differentiation potential in vitro and are capable of regenerating various tissues in vivo. Furthermore, these cells not only participate in the regeneration process by differentiating into tissue-specific cell types, but also promote endogenous tissue repair by secreting a multitude of trophic factors. In this article, we describe the biological aspects of MDSC isolation and characterization and provide an overview of potential therapeutic application of these cells for the treatment of cardiac and skeletal muscle injuries and diseases, urological dysfunction, and bone and cartilage defects. We also discuss major challenges and limitations currently faced by MDSC-based therapies that await resolution before these techniques can be applied clinically.

Valproic acid stimulates myogenesis in pluripotent stem cell-derived mesodermal progenitors in a NOTCH-dependent manner.

Muscular dystrophies are debilitating neuromuscular disorders for which no cure exists. As this disorder affects both cardiac and skeletal muscle, patients would benefit from a cellular therapy that can simultaneously regenerate both tissues. The current protocol to derive bipotent mesodermal progenitors which can differentiate into cardiac and skeletal muscle relies on the spontaneous formation of embryoid bodies, thereby hampering further clinical translation. Additionally, as skeletal muscle is the largest organ in the human body, a high myogenic potential is necessary for successful regeneration. Here, we have optimized a protocol to generate chemically defined human induced pluripotent stem cell-derived mesodermal progenitors (cdMiPs). We demonstrate that these cells contribute to myotube formation and differentiate into cardiomyocytes, both in vitro and in vivo. Furthermore, the addition of valproic acid, a clinically approved small molecule, increases the potential of the cdMiPs to contribute to myotube formation that can be prevented by NOTCH signaling inhibitors. Moreover, valproic acid pre-treated cdMiPs injected in dystrophic muscles increase physical strength and ameliorate the functional performances of transplanted mice. Taken together, these results constitute a novel approach to generate mesodermal progenitors with enhanced myogenic potential using clinically approved reagents.

Scapular fixation in muscular dystrophy.

BACKGROUND: Winging of the scapula is caused by weakness of the thoracoscapular muscles, which allows the scapula to lift off the chest wall during shoulder movements. In facioscapulohumeral muscular dystrophy (and occasionally in other muscular dystrophies) there is selective weakness of the thoracoscapular muscles which may spare other shoulder muscles such as the deltoid muscle. This imbalance results in significant winging and loss of shoulder function. Historically, a number of different surgical and non-surgical interventions have been used to achieve scapular stability. This review examines the evidence available for the use of all scapular fixation techniques in muscular dystrophy, especially facioscapulohumeral muscular dystrophy. OBJECTIVES: To examine the evidence for the relative efficacy of scapular fixation techniques in muscular dystrophy (especially facioscapulohumeral muscular dystrophy) in improving upper limb function. SEARCH STRATEGY: We searched the Cochrane Neuromuscular Disease Group Trials Specialized Register (20 July 2009), The Cochrane Central Register of Controlled Trials (The Cochrane Library Issue 3, 2009) Medline (1966 to July 2009) and EMBASE (1980 to July 2009) for randomised trials. We also contacted authors of trials and other experts in the field. SELECTION CRITERIA: All reports of scapular fixation for muscular dystrophy, including quasi-randomised or randomised controlled trials, comparing any form of scapular fixation (surgical and non-surgical) in people (of all ages and of all severity) with scapular winging due to muscular dystrophy. Our primary outcome measure was objective improvement in shoulder abduction. Our secondary outcome measures were: patient-perceived improvement in performance of activities of daily living, cosmetic results, subjective improvement in pain and proportion of patients with significant postoperative complications. DATA COLLECTION AND ANALYSIS: We collated and summarised studies on the treatment of scapular winging in muscular dystrophy. MAIN RESULTS: No randomised trials were identified. We therefore present a review of the non-randomised literature available. AUTHORS' CONCLUSIONS: There is no evidence from randomised trials to support the suggestion from observational studies that operative interventions produce significant benefits. However, these have to be balanced against postoperative immobilisation, need for physiotherapy and potential complications. We conclude that a randomised trial would be difficult, but a register of cases and the use of a standardised assessment protocol would allow more accurate comparison of the disparate techniques.

Revision spine surgery to manage pediatric deformity.

Revision deformity surgery in the growing child is a complex clinical problem. Excellent outcomes can be obtained with meticulous patient evaluation followed by well-planned and well-executed treatment. A multidisciplinary team is crucial to a satisfactory overall outcome. Diagnosis of failed index spine fusion requires a thorough patient history and physical examination, careful patient assessment, and imaging between the index procedure and the presentation for revision and confirmatory testing that validates the diagnosis. Revision surgery may include irrigation and débridement, implant removal, or revision spine fusion with deformity correction. Correction may require either an anterior approach or a posterior approach with osteotomy. For best results, the planned revision must address the mechanism of the failure of the index procedure. If the symptoms or observations are not explained by the diagnosis, then alternative etiologies should be considered.

Cervical Hyperextension Treated by Posterior Spinal Correction and Fusion in A Patient with Ullrich Congenital Muscular Dystrophy: A Case Report.

CASE: An 18-year-old man with Ullrich congenital muscular dystrophy (UCMD) noted difficulty of looking forward and discomfort swallowing and breathing because of his hyperextended neck. We treated his cervical deformity with posterior spinal correction and fusion alone. He underwent a tracheotomy because of lung function deterioration 2 years after cervical surgery. The tracheotomy was performed safely because the anterior cervical spine anatomy was normalized and soft tissues around trachea were preserved by the posterior cervical correction. CONCLUSION: Cervical hyperextension can be a problem in patients with UCMD. Posterior spinal correction and fusion may be a preferable solution.

Assessing functional outcomes of children with muscular dystrophy and scoliosis: the Muscular Dystrophy Spine Questionnaire.

BACKGROUND: The purpose of this study was to develop a valid and reliable scale to evaluate the symptoms and functional abilities important to children with scoliosis and muscular dystrophy and their parents. METHODS: Eighty-five items were generated from a review of the literature and interviews with clinicians, parents, and children with muscular dystrophy and scoliosis. Items were reviewed and rated in terms of "importance" and "severity" by the children and their parents. The foremost 29 items were formatted into a self-administered questionnaire. RESULTS: The questionnaire, completed 2 weeks apart, demonstrated "excellent" test-retest reliability (intraclass correlation coefficient = 0.97). Construct validity was established through correlations with forced vital capacity (r = 0.46; P = 0.02), the Activities Scale for Kids (r = 0.40; P = 0.04), and the Pediatric Outcomes Data Collection Questionnaire (r = 0.72; P = 0.00). CONCLUSIONS: In conclusion, the Muscular Dystrophy Spine Questionnaire is a valid and reliable questionnaire designed to assess the outcomes of treatment in children with muscular dystrophy and scoliosis. LEVEL OF EVIDENCE OR CLINICAL RELEVANCE: Prognostic level 2.

Myogenic Satellite Cells: Biological Milieu and Possible Clinical Applications.

Adult skeletal muscle is a post-mitotic terminally differentiated tissue that possesses an immense potential for regeneration after injury. This regeneration can be achieved by adult stem cells named satellite cells that inhabit the muscular tissue. These cells were first identified in 1961 and were described as being wedged between the plasma membrane of the muscle fiber and the surrounding basement membrane. Since their discovery, many researchers investigated their embryological origin and the exact role they play in muscle regeneration and repair. Under normal conditions, satellite cells are retained in a quiescent state and when required, these cells are activated to proliferate and differentiate to repair pre-existing muscle fibers or to a lesser extent fuse with each other to form new myofibers. During skeletal muscle regeneration, satellite cell actions are regulated through a cascade of complex signaling pathways that are influenced by multiple extrinsic factors within the satellite cell micro-environment. Here, the basic concepts were studied about satellite cells, their development, function, distribution and the different cellular and molecular mechanisms that regulate these cells. The recent findings about some of their clinical applications and potential therapeutic use were also discussed.

Bone marrow transplantation improves outcome in a mouse model of congenital muscular dystrophy.

We examined whether pathogenesis in dystrophin-deficient (mdx) mice and laminin-alpha2-deficient (dy) mice is ameliorated by bone marrow transplantation (BMT). Green fluorescent protein (GFP) mice were used as donors. In mdx mice, BMT failed to produce any significant differences in muscle pathology, although some GFP-positive fibers with restored dystrophin expression were observed. In contrast, in the dy mice, BMT led to a significant increase in lifespan and an increase in growth rate, muscle strength, and respiratory function. We conclude that BMT improved outcome in dy mice but not mdx mice.

Cardiac implantable electronic devices in tracheotomized muscular dystrophy patients: Safety and risks.

BACKGROUND/OBJECTIVES: Muscular dystrophies are genetic muscle disorders, in which heart involvement and chronic respiratory impairment affect survival. Cardiac conduction disturbances require implantable cardiac pacemaker. Implantable defibrillators may also be necessary to prevent cardiac sudden death. The safety and risk of cardiac electronic devices' implantation are not known in patients with muscular dystrophy. We aimed to assess the risks related to cardiac implantable electronic devices (CIED) in muscular dystrophy patients ventilated by tracheostomy. METHODS: We reviewed all medical charts of neuromuscular patients and identified all CIED implantations of pacemakers (PM) or defibrillators (ICD) in patients ventilated using tracheostomy. RESULTS: Twelve device implantations were included, performed in 9 patients (5 DMD, 1 Becker muscular dystrophy and 3 DM1). Mean age was 39.9years±13.0. All patients were wheel-chair bound and tracheotomized. Six pacemakers (PM) and 6 cardiac resynchronization (CRT) devices, including 2 defibrillators (CRT-D) were implanted. Following device implantation, two patients had a pneumothorax and one died from severe heart failure after an unsuccessful CRT implant attempt. Follow-up lasted up to 8years (mean 2.6±2.9years), during which one patient presented a PM pocket infection, requiring PM explantation and epicardial reimplantation. CONCLUSION: We found a high prevalence of early complications (16.6% pneumothorax) after CIED implantation and an acceptable long-term infectious risk (8.3%). These results highlight the feasibility of CIED implantation in tracheotomized patients with muscular dystrophies and the need for a particular caution in the management of these patients during invasive procedures. ClinicalTrials.gov (identifier: NCT02501083).

Stem cells to treat muscular dystrophies.

Stem cells, capable of giving rise to both differentiated skeletal muscle and to more stem cells, would be ideal for treating chronic myopathies such as Duchenne Muscular Dystrophy. However, although satellite cells have been shown to be functional muscle stem cells in animal models, other muscle or non-muscle stem cells are far less capable of contributing to skeletal muscle regeneration. This review discusses recent work on stem cell contribution to skeletal muscle regeneration and highlights the problems to be overcome before stem cell treatment of muscle diseases may become a possibility.

Myoblast transfer therapy: is there any light at the end of the tunnel?

Myoblast transfer therapy (MTT) was proposed in the 70's as a potential treatment for muscular dystrophies, based upon the early results obtained in mdx mice: dystrophin expression was restored in this model by intramuscular injections of normal myoblasts. These results were quickly followed by clinical trials for patients suffering from Duchenne Muscular Dystrophy (DMD) in the early 90's, based mainly upon intramuscular injections of allogenic myoblasts. The clinical benefits obtained from these trials were minimal, if any, and research programs concentrated then on the various pitfalls that hampered these clinical trials, leading to numerous failures. Several causes for these failures were identified in mouse models, including a massive cell death of myoblasts following their injection, adverse events involving the immune system and requiring immunosuppression and the adverse events linked to it, as well as a poor dispersion of the injected cells following their injection. It should be noted that these studies were conducted in mouse models, not taking into account the fundamental differences between mice and men. One of these differences concerns the regulation of proliferation, which is strictly limited by proliferative senescence in humans. Although this list is certainly not exhaustive, new therapeutic venues were then explored, such as the use of stem cells with myogenic potential, which have been described in various populations, including bone marrow, circulating blood or muscle itself. These stem cells presented the main advantage to be available and not exhausted by the numerous cycles of degeneration/regeneration which characterize muscle dystrophies. However, the different stem candidates have shown their limits in terms of efficiency to participate to the regeneration of the host. Another issue was raised by clinical trials involving the injection of autologous myoblasts in infacted hearts, which showed that limited targets could be aimed with autologous myoblasts, as long as enough spared muscle was available. This resulted in a clinical trial for the pharyngeal muscles of patients suffering from Oculo-Pharyngeal Muscular Dystrophy (OPMD). The results of this trial will not be available before 2 years, and a similar procedure is being studied for Fascio-Scapulo-Humeral muscular Dystrophy (FSHD). Concerning muscular dystrophies which leave very few muscles spared, such as DMD, other solutions must be found, which could include exon-skipping for the eligible patients, or even cell therapy using stem cells if some cell candidates with enough efficiency can be found. Recent results concerning mesoangioblasts or circulating AC133+ cells raise some reasonable hope, but still need further confirmations, since we have learned from the past to be cautious concerning a transfer of results from mice to humans.