Ching H. Wang scite author profile

Spinal muscular atrophy is a neurodegenerative disease that requires multidisciplinary medical care. Recent progress in the understanding of molecular pathogenesis of spinal muscular atrophy and advances in medical technology have not been matched by similar developments in the care for spinal muscular atrophy patients. Variations in medical practice coupled with differences in family resources and values have resulted in variable clinical outcomes that are likely to compromise valid measure of treatment effects during clinical trials. The International Standard of Care Committee for Spinal Muscular Atrophy was formed in 2005, with a goal of establishing practice guidelines for clinical care of these patients. The 12 core committee members worked with more than 60 spinal muscular atrophy experts in the field through conference calls, e-mail communications, a Delphi survey, and 2 in-person meetings to achieve consensus on 5 care areas: diagnostic/new interventions, pulmonary, gastrointestinal/nutrition, orthopedics/rehabilitation, and palliative care. Consensus was achieved on several topics related to common medical problems in spinal muscular atrophy, diagnostic strategies, recommendations for assessment and monitoring, and therapeutic interventions in each care area. A consensus statement was drafted to address the 5 care areas according to 3 functional levels of the patients: nonsitter, sitter, and walker. The committee also identified several medical practices lacking consensus and warranting further investigation. It is the authors' intention that this document be used as a guideline, not as a practice standard for their care. A practice standard for spinal muscular atrophy is urgently needed to help with the multidisciplinary care of these patients.

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Spinal muscular atrophy

Lunn

2008

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Approach to the diagnosis of congenital myopathies

North¹,

Wang²,

Clarke³

et al. 2014

Neuromuscular Disorders

248

204

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Over the past decade there have been major advances in defining the genetic basis of the majority of congenital myopathy subtypes. However the relationship between each congenital myopathy, defined on histological grounds, and the genetic cause is complex. Many of the congenital myopathies are due to mutations in more than one gene, and mutations in the same gene can cause different muscle pathologies. The International Standard of Care Committee for Congenital Myopathies performed a literature review and consulted a group of experts in the field to develop a summary of (1) the key features common to all forms of congenital myopathy and (2) the specific features that help to discriminate between the different genetic subtypes. The consensus statement was refined by two rounds of on-line survey, and a three-day workshop. This consensus statement provides guidelines to the physician assessing the infant or child with hypotonia and weakness. We summarise the clinical features that are most suggestive of a congenital myopathy, the major differential diagnoses and the features on clinical examination, investigations, muscle pathology and muscle imaging that are suggestive of a specific genetic diagnosis to assist in prioritisation of genetic testing of known genes. As next generation sequencing becomes increasingly used as a diagnostic tool in clinical practise, these guidelines will assist in determining which sequence variations are likely to be pathogenic.

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Consensus Statement on Standard of Care for Congenital Myopathies

et al. 2012

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Recent progress in scientific research has facilitated accurate genetic and neuropathological diagnosis of congenital myopathies. However, given their relatively low incidence, congenital myopathies remain unfamiliar to the majority of care providers, and the levels of patient care are extremely variable. This consensus statement aims to provide care guidelines for congenital myopathies. The International Standard of Care Committee for Congenital Myopathies worked through frequent e-mail correspondences,

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Evidence-based guideline summary: Evaluation, diagnosis, and management of congenital muscular dystrophy

et al. 2015

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Objective: To delineate optimal diagnostic and therapeutic approaches to congenital muscular dystrophy (CMD) through a systematic review and analysis of the currently available literature.Methods: Relevant, peer-reviewed research articles were identified using a literature search of the MEDLINE, EMBASE, and Scopus databases. Diagnostic and therapeutic data from these articles were extracted and analyzed in accordance with the American Academy of Neurology classification of evidence schemes for diagnostic, prognostic, and therapeutic studies. Recommendations were linked to the strength of the evidence, other related literature, and general principles of care.Results: The geographic and ethnic backgrounds, clinical features, brain imaging studies, muscle imaging studies, and muscle biopsies of children with suspected CMD help predict subtype-specific diagnoses. Genetic testing can confirm some subtype-specific diagnoses, but not all causative genes for CMD have been described. Seizures and respiratory complications occur in specific subtypes. There is insufficient evidence to determine the efficacy of various treatment interventions to optimize respiratory, orthopedic, and nutritional outcomes, and more data are needed regarding complications. Recommendations: Multidisciplinary care by experienced teams is important for diagnosing andpromoting the health of children with CMD. Accurate assessment of clinical presentations and genetic data will help in identifying the correct subtype-specific diagnosis in many cases. Multiorgan system complications occur frequently; surveillance and prompt interventions are likely to be beneficial for affected children. More research is needed to fill gaps in knowledge regarding this category of muscular dystrophies. Neurology ® 2015;84:1369-1378 GLOSSARY AAN 5 American Academy of Neurology; AANEM 5 American Association of Neuromuscular & Electrodiagnostic Medicine; B3GALNT2 5 b-1,3-N-acetylgalactosaminyltransferase 2; B3GNT1 5 b-1,3-N-acetylglucosaminyltransferase 1; CK 5 creatine kinase; CMD 5 congenital muscular dystrophy; COL6A1 5 collagen 6a1; COL6A2 5 collagen 6a2; COL6A3 5 collagen 6a3; DAG1 5 a-dystroglycan; FKTN 5 fukutin; GMPPB 5 GDP-mannose pyrophosphorylase B; LAMA2 5 laminin a2; LMNA 5 lamin A/C; MD 5 muscular dystrophy; MDC 5 merosin-deficient congenital muscular dystrophy; SEPN1 5 selenoprotein 1; SGK196 5 protein-O-mannose kinase; TMEM5 5 TMEM5.

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Hydroxyurea enhances SMN2 gene expression in spinal muscular atrophy cells

Grzeschik

Ganta

Prior

et al. 2005

Annals of Neurology

101

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Spinal muscular atrophy (SMA) is a motor neuron disease caused by dysfunction of the survival motor neuron (SMN) gene. Human SMN gene is present in duplicated copies: SMN1 and SMN2. More than 95% of patients with SMA lack a functional SMN1 but retain at least one copy of SMN2. Unlike SMN1, SMN2 is primarily transcribed into truncated messenger RNA and produces low levels of SMN protein. We tested a therapeutic strategy by treating cultured lymphocytes from patients with SMA with hydroxyurea to modify SMN2 gene expression and to increase the production of SMN protein. Twenty lymphoblastoid cell lines (15 SMA and 5 control lines) were treated with hydroxyurea at 5 concentrations (0.5, 5, 50, 500, and 5,000 microg/ml) and 3 time points (24, 48, and 72 hours). SMN2 gene copy numbers were determined using real-time quantitative polymerase chain reaction. Hydroxyurea treatment resulted in a time-related and dose-dependent increase in the ratio of full-length to truncated SMN messenger RNA. SMN protein levels and intranuclear gems also were significantly increased in these hydroxyurea-treated cells. The SMN2 gene copy number correlated inversely with the SMA phenotypic severity. This study provides the first evidence for a therapeutic indication of hydroxyurea in SMA.

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Mitochondrial myopathy simulating spinal muscular atrophy

Pons

Andreetta

Wang

et al. 1996

Pediatric Neurology

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Letter to the Editor: Do Known Mutations in Neuroligin Genes (NLGN3 and NLGN4) Cause Autism?

Talebizadeh

Bittel

Veatch

et al. 2004

J Autism Dev Disord

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Ching H. Wang

Consensus Statement for Standard of Care in Spinal Muscular Atrophy

Spinal muscular atrophy

Approach to the diagnosis of congenital myopathies

Consensus Statement on Standard of Care for Congenital Myopathies

Evidence-based guideline summary: Evaluation, diagnosis, and management of congenital muscular dystrophy

Hydroxyurea enhances SMN2 gene expression in spinal muscular atrophy cells

Mitochondrial myopathy simulating spinal muscular atrophy

Letter to the Editor: Do Known Mutations in Neuroligin Genes (NLGN3 and NLGN4) Cause Autism?

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