Clinical features of spinal muscular atrophy (SMA) type 2.

Infantile spinal muscular atrophy (SMA) type 2 is sometimes called intermediate SMA to indicate the disease severity. Generally, psychomotor development is normal until the age of 6 to 8 months, with the acquisition of a stable sitting position. The early signs are muscle weakness, mostly affecting the lower limbs, generalized hypotonia and areflexia. The consequences of motor neuron degeneration are functional and orthopaedic, respiratory, nutritional, socio-professional, and psychological. The implementation of standardized care (i.e., standard of care recommendations) has improved the quality of life and survival outcome of patients. The emergence of innovative therapies, some of which are now available, should further improve the clinical evolution of this disease. © 2020 French Society of Pediatrics. Published by Elsevier Masson SAS. All rights reserved.

Multidisciplinary approach and psychosocial management of spinal muscular atrophy (SMA).

Spinal Muscular Atrophy (SMA) is a severe complex disorder involving different aspects of care and professionals. Helping individuals to achieve their best possible quality of life is an essential part of health care. A multidisciplinary approach to management across the range of actors improves the function, quality of life and longevity of patients with SMA. Multidisciplinary management should be designed to address the psychosocial challenges of patients with prolonged survival and novel therapies. In this part, we focus on multidisciplinary management of SMA, pluridisciplinary consultations, emergency management, psychosocial care and transitions to adulthood. © 2020 French Society of Pediatrics. Published by Elsevier Masson SAS. All rights reserved.

[Hereditary neuropathy with liability to pressure palsies in childhood: Report of three cases]. / Neuropathie héréditaire par hypersensibilité à la pression : à propos de 3 observations chez l'enfant.

Hereditary neuropathy with liability to pressure palsy (HNPP) is an autosomal dominant neuropathy. It is characterized by recurrent sensory and motor nerve palsies, usually precipitated by minor trauma or compression. Even though rare in childhood, this disorder is probably underdiagnosed given its wide spectrum of clinical symptoms. We review three separate cases of HNPP diagnosed in children with various phenotypes: fluctuating and distal paresthesias disrupting learning at school, cramps related to intensive piano practice, and discrete muscle weakness with no functional complaint. Family history should be carefully reviewed to identify potential undiagnosed HNPP cases, as in our three reports. Electrophysiological study is essential for the diagnosis, with a double advantage: to confirm the presence of focal abnormalities in clinically symptomatic areas and to guide molecular biology by revealing an underlying demyelinating polyneuropathy. The diagnosis of HNPP is confirmed by genetic testing, which in 90% of cases shows a 1.5-Mb deletion of chromosome 17p11.2 including the PMP22 gene. Patients are expected to make a full recovery after each relapse. However, it is very important for both the patient and his or her family to establish a diagnosis in order to prevent recurrent palsy brought on by situations involving prolonged immobilizations leading to nerve compression.

[Congenital neuromuscular diseases with neonatal respiratory failure excluding myotonic dystrophy type 1 and infantile spinal muscular atrophy. Diagnosis strategy according to a 19-child series]. / Maladies neuromusculaires congénitales à expression respiratoire néonatale à l'exclusion de la dystrophie myotonique de type 1 et de l'amyotrophie spinale infantile. Stratégie d'exploration d'après une série de 19 enfants.

UNLABELLED: Apart from spinal muscular atrophy (SMA) and myotonic dystrophy type 1 (DM1), congenital neuromuscular diseases with early neonatal symptoms mean diagnostic and prognostic challenges mainly when infants require ventilatory support. OBJECTIVES: Consider a standardized strategy for infants suspected of congenital neuromuscular disease from analysis of the literature and retrospective experience with floppy and ventilatory support-dependent infants, after exclusion of well-known diseases (DM1, SMA). PATIENTS AND METHODS: Floppy infants requiring ventilatory support in their 1st month of life, but showing no evidence of DM1, SMA, Prader-Willi syndrome, or encephalopathy. The retrospective multicenter study was based on the response of regional referent neuropediatricians in the Reference Centre for Neuromuscular Diseases of Greater Southwest France to an inquiry about prenatal and perinatal history, investigations, diagnosis, and outcome of the child and family. It was conducted between 2007 and 2012. RESULTS: Among the 19 newborns studied, all had severe hypotonia. Prenatal and perinatal features were similar. Their outcome was generally severe: the median survival as measured by the Kaplan-Meier method was 6.9 months. Thirteen children died at a median age of 61 days; ten of them were treated with a palliative procedure. Five children had achieved respiratory independence but suffered from a small delay in motor development. Among the three children who continuously required ventilatory support, only one survived (follow-up period: 23 months); he was the only one undergoing tracheostomy in the cohort. Diagnostic processes were different, leading to pathological and genetic diagnosis for only six infants. There was only histological orientation for seven and no specific diagnostic orientation for the last six. These difficulties have led us to propose an exploration process based on the literature. CONCLUSION: This study highlights difficulties in obtaining a diagnosis and a precise prognosis for floppy ventilated infants. An exploration-standardized process for infants suspected of congenital neuromuscular diseases was made in order to standardize procedures. It could be used as a tool for all professionals involved.

The severity of phenotype linked to SUCLG1 mutations could be correlated with residual amount of SUCLG1 protein.

BACKGROUND: Succinate-CoA ligase deficiency is responsible for encephalomyopathy with mitochondrial DNA depletion and mild methylmalonic aciduria. Mutations in SUCLA2, the gene encoding a ß subunit of succinate-CoA ligase, have been reported in 17 patients until now. Mutations in SUCLG1, encoding the α subunit of the enzyme, have been described in two pedigrees only. METHODS AND FINDINGS: In this study, two unrelated patients harbouring three novel pathogenic mutations in SUCLG1 were reported. The first patient had a severe disease at birth. He was compound heterozygous for a missense mutation (p.Pro170Arg) and a c.97+3G>C mutation, which leads to the complete skipping of exon 1 in a minigene expression system. The involvement of SUCLG1 was confirmed by western blot analysis, which showed absence of SUCLG1 protein in fibroblasts. The second patient has a milder phenotype, similar to that of patients with SUCLA2 mutations, and is still alive at 12 years of age. Western blot analysis showed some residual SUCLG1 protein in patient's fibroblasts. CONCLUSIONS: Our results suggest that SUCLG1 mutations that lead to complete absence of SUCLG1 protein are responsible for a very severe disorder with antenatal manifestations, whereas a SUCLA2-like phenotype is found in patients with residual SUCLG1 protein. Furthermore, it is shown that in the absence of SUCLG1 protein, no SUCLA2 protein is found in fibroblasts by western blot analysis. This result is consistent with a degradation of SUCLA2 when its heterodimer partner, SUCLG1, is absent.