Spinal muscular atrophy—A clinicopathologic analysis

Journal of Pharmacy and Pharmacology 10 (2022) 226-232, 2022

The most prevalent condition in children is spinal muscular atrophy (SMA), for which there is presently no efficient treatment. It is characterised by atrophy of skeletal muscle motor neuron in the spinal cord are deterioting, and widespread weakness. The survival motor neuron 1 (SMN1) gene is disrupted in homozygous fashion as a result of detection, conversion, or mutation. Given the high carrier frequency, siblings of parents or of parents of SMA children are required to undergo carrier testing, which aims to collect data that may aid in reproductive planning. In the event that a request for carrier testing on siblings of an affected SMA newborn is made, it is advised. There are a number of potential therapeutic agents that have been found and are at various stages of research. Clinical trials continue to be carried out, and translational research on spinal muscular atrophy is very prominent. A thorough discussion of clinical symptoms, diagnosis, molecular genetics, therapeutic development, and therapy is provided in this Review.

The Lancet, 1995

Objectives To study the psychosocial issues associated with prenatal diagnosis of SMA in India and the use of SMN1 copy number analysis for carrier detection prior to offering prenatal diagnosis.

Archivos Argentinos de Pediatria

Introduction. News treatments, make early diagnosis of spinal muscular atrophy (SMA) critical. The objective of this study is to analyze the different factors that influence delay in diagnosis. Population and methods. Patients with a molecular diagnosis of types I, II, and III SMA were included. Several parameters were studied, such as age at onset of first sign, what sign it was, and the time from recognition of first sign to confirmed diagnosis. Neurologists specialized in SMA conducted interviews, supported by the review of medical records when deemed necessary. Results. A total of 112 patients were interviewed.

International Journal of Neonatal Screening, 2021

Spinal muscular atrophy (SMA) is a genetic neuromuscular disorder that causes degeneration of anterior horn cells in the human spinal cord and subsequent loss of motor neurons. The severe form of SMA is among the genetic diseases with the highest infant mortality. Although SMA has been considered incurable, newly developed drugs—nusinersen and onasemnogene abeparvovec—improve the life prognoses and motor functions of affected infants. To maximize the efficacy of these drugs, treatments should be started at the pre-symptomatic stage of SMA. Thus, newborn screening for SMA is now strongly recommended. Herein, we provide some data based on our experience of SMA diagnosis by genetic testing in Japan. A total of 515 patients suspected of having SMA or another lower motor neuron disease were tested. Among these patients, 228 were diagnosed as having SMA with survival motor neuron 1 (SMN1) deletion. We analyzed the distribution of clinical subtypes and ages at genetic testing in the SMN1-d...

European Journal of Paediatric Neurology, 1999

Five patients with severe spinal muscular atrophy (SMA) type I, all of whom presented with reduced fetal movements in utero, severe weakness at birth, and short survival time were assessed to attempt to determine whether their phenotype could be explained by their genotype. The diagnosis was confirmed by clinical, electrophysiological and histopathological features. Polymerase chain reaction assays were used to define the molecular diagnosis. A genedosage assay was used to assess the quantity of centromeric survival motor neuron gene (SMNc) present. In all cases the telomeric survival motor neuron gene (SMNt) was absent. The SMNc gene was present but in reduced copy number compared with a control group of children with less severe type I SMA, so may be important in determining severity. In the differential diagnosis of reduced fetal movements, SMA should be considered. The clinical classification may in future be clarified by molecular genetic findings.

PLOS ONE, 2020

Background The advent of new therapies has increased the need to achieve early diagnosis in Spinal Muscular Atrophy (SMA). The aim of the present study was to define the age of diagnosis in the three main types of SMA with pediatric-onset and the timing between the recognition of clinical signs and confirmed genetic diagnosis. Methods All patients with a confirmed diagnosis of type I, II, III SMA followed in 5 Italian centers were included in this study, assessing age at symptoms onset, presenting sign or symptom, age at diagnosis, interval between clinical onset and diagnosis and type of medical investigations conducted in order to obtain the diagnosis. Results The cohort included 480 patients, 191 affected by SMA type I, 210 by type II and 79 by type III. The mean age at diagnosis was 4.70 months (SD ±2.82) in type I, 15.6 months (SD ±5.88) in type II, and 4.34 years (SD±4.01) in type III. The mean time between symptom onset and diagnosis was 1.94 months (SD±1.84) in type I, 5.28 months (SD±4.68) in type II and 16.8 months (SD±18.72) in type III. Conclusions Our results suggest that despite improved care recommendations there is still a marked diagnostic delay, especially in type III. At the time new therapies are becoming available

Clinical Chemistry and Laboratory Medicine, 1998

Childhood onset proximal spinal muscular atrophy presents with considerable clinical variability. This study included 14 Croatian children aged 11 days to 8 years with spinal muscular atrophy types I-III verified clinically and electromyoneurographically. DNA of affected children was screened for deletions of exons 7 and 8 of the survival motor neuron gene and for deletion of exon 5 of the neuronal apoptosis inhibitor protein gene. Motor nerve conduction velocity and compound muscle action potential amplitude were decreased in children with spinal muscular atrophy type I and II. Deletions of exons 7 and 8 of the survival motor neuron gene and of exon 5 of the neuronal apoptosis inhibitor protein gene in children with spinal muscular atrophy type I-II suggested existence of more genetic abnormalities as compared to type III. A decrease in compound muscle action potential amplitude and motor nerve conduction velocity in children with spinal muscular atrophy correlated with the disease severity, probably as a result of axonal degeneration. Phenotypic severity in children onset spinal muscular atrophy is directly correlated with the extent of survival motor neuron and neuronal apoptosis inhibitor protein exon deletions.

Annals of Neurology, 1996

A neonate presented with the fetal hypokinesia sequence and signs of spinal muscular atrophy (SMA). Severe pathological changes including ballooned neurons and neuronophagia were found not only in the motor nerve nuclei but also in the thalamic, cerebellar, and brainstem nuclei as well as in the dorsal root ganglia. Direct DNA analysis showed the presence of a chimeric SMN gene, with a rearrangement occurring between exon 7 of the centromeric SMN gene and exon 8 of the telomeric SMN gene. Circumstantial evidence suggests that only a single copy of this gene is present, with transcriptional characteristics of a centromeric SMN gene. In addition, a homozygous deletion in the NAIP genes was demonstrated. This observation demonstrates that at least some cases with fetal hypokinesia and SMA may represent the severe end of a spectrum of disorders caused by deletions in the SMA locus on chromosome 5q13. In addition, these findings are compatible with a modifying role for the centromeric SMN genes and the NAIP genes in the severity of the SMA phenotype.

Journal of the Peripheral Nervous System, 2002

Two patients with acute generalized weakness and areflexia are presented. The electrophysiologic studies in both revealed evidence of decreased conduction velocity and mixed axonal and demyelinating neuropathy, suggestive of the diagnosis of Guillain-Barré syndrome. The young ages of the patients and their failure to respond to immunoglobulin therapy were the major clues to the final diagnosis of spinal muscular atrophy type I. Blood for DNA study revealed homozygous deletion mutation in exons 7 and 8 of the survival motor neuron gene. This diagnosis should be considered in every child under 1 year of age who presents with acute weakness because Guillain-Barré syndrome in this age group is rare.

Journal of Health Sciences, 2021

AbstractSpinal muscular atrophy (EBF) is an autosomal recessive neuromuscular disease with genetic inheritance. EBF is classified into: type I - patients have symptoms up to 6 months of age; type II - after 6 months of age, symptoms begin; type III - it starts after 18 months of age. The objective of this study was to clinically characterize two brothers diagnosed with EBF. It is a clinical case study of two individuals, male gender, attended at Clínica Escola de Fisioterapia, at Universidade Estadual do Centro Oeste do Paraná- UNICENTRO, Campus CEDETEG. Selected by eligibility both were diagnosed with spinal muscular atrophy. The physiotherapy stages evaluation was carried out, which consist of anamnesis, functional examination, physical examination and respiratory evaluation. Patient 1, was diagnosed with EBF type IIIb at 16 years old, with reports of falls and weakness mainly in lower limbs, in the evaluation positive Gowers sign, anserine gait, hypotonic, MMSS areflexia and lowe...

Clin Genet, 2008

We report on linkage analysis and haplotype characterization in 40 Italian families with spinal muscular atrophy (SMA). The investigated loci included D5S6, D5S112, D5S39, and DSS76. No evidence of unlinked families was found. Thirty-two (80%) of the examined families were fully informative for prenatal diagnosis and carrier #detection. The frequencies of individual alleles did not differ between SMP, and normal chromosomes.

2017

The proximal spinal muscular atrophy (SMA) is a group of neuromuscular disorders characterized by progressive muscle weakness due to the degeneration and loss of anterior motor neurons of the spinal cord. Depending on the age of onset of symptoms and their evolution, four types of SMA, varying in severity, result in a mutations of the SMN gene (survival of Motor neuron). We have analyzed the DNA of 295 patients referred to our genetic counseling; since January 1996 until October 2014; for suspected SMA. The homozygous deletion of exon 7 of the SMN gene was found in 133 patients; of which, 40.6% were born to consanguineous parents. In countries like Morocco, where the frequency of heterozygotes for SMA is high, genetic testing should be offered as first-line and, after careful clinical assessment, especially in newborns and infants with congenital hypotonia unexplained and prognosis compromise. The molecular diagnosis of SMA allows a quick and certainly diagnosis, provide adequate ge...

Perceptions in Reproductive Medicine, 2021

Spinal Muscular Atrophy (SMA) is a genetic disease. Caused by deletion or mutation of SMN1, it is an autosomal recessive motor neuron disease. This disease is characterized by generalized muscle weakness and atrophy predominating in proximal limb muscles. Based on age of onset, it's phenotype is classified into four grades of severity (SMA I, SMAII, SMAIII, SMA IV). This disease is caused by homozygous mutations of the motor neuron 1 (SMN1) gene, and the diagnostic test demonstrates in most patients the homozygous deletion of the SMN1 gene. Individuals at risk should be tested first and, in case of testing positive, the partner should be then analysed. The management of SMA should properly be followed-up coordination by an expert who is able to plan a multidisciplinary intervention that includes pulmonary, gastroenterology/nutrition, and orthopedic care is recommended. An effort has been made to focus on the diagnosis procedures followed by different effective management alternatives for SMA in the present review.

Genetics and Molecular Biology, 1999

Spinal muscular atrophy (SMA), the second most common lethal autosomal recessive disorder, has an incidence of 1:10,000 newborns. SMA is divided into acute (Werdnig-Hoffmann disease, type I), intermediate (type II) and juvenile forms (Kugelberg-Welander disease, type III). The gene of all three forms of SMA maps to chromosome 5q 11.2-13.3. Two candidate genes, the survival motor neuron (SMN) gene and the neuronal apoptosis inhibitory protein (NAIP) gene, have been identified; SMN is deleted in most SMA patients. We studied both genes in 87 Brazilian SMA patients (20 type I, 14 type II and 53 type III) from 74 unrelated families, by using PCR and single strand conformation polymorphism (SSCP). Deletions of exons 7 and/or 8 of the SMN gene were found in 69% of the families: 16/20 in type I, 9/12 in type II and 26/42 in type III. Among 51 families with deletions, 44 had both exons deleted while seven had deletions only of exon 7. Deletions of exon 5 of the NAIP gene were found in 7/20 ...

Neurology India, 2012

Background: In Pakistan the rate of consanguineous marriages is high, thus, the chance of incidence of autosomal recessive disorders is likely to be high. The aim of this study is to investigate the clinical characteristics and genetics of spinal muscular atrophy (SMA) in children who presented to Aga Khan University, Karachi. Materials and Methods: This study was a retrospective review of the medical charts of children (neonate: 15 years) with discharge diagnosis of SMA during last 10 years. Demographic features, consanguinity, and diagnostic analysis (including genetic analysis) were noted. Results: During the study period 67 children had a discharge diagnosis of SMA. Werdnig Hoffman disease (SMA type I) was the commonest variant seen in 37 (56%) children. Overall 68% were infants. High parental consanguinity was observed in 68% of the study cohort. The history of delayed development and undiagnosed early death was observed in the families of 19 children. Genetic testing was performed in 22 (33%) children. Survival motor neuron (SMN) 1 gene deletion was found in 19 (86%) of the 22 patients in whom the gene analysis was done and 13 (68%) were also positive for neuronal apoptosis inhibitory proteins (NAIP) deletion. Conclusion: SMA is not an uncommon neurodegenerative disorder in Pakistan and SMA type I was the most common type. SMN1 gene deletion was the most common genetic deletion found in this study. In addition, family history of developmental delay and frequent early deaths highlights the need for implementation of prenatal diagnosis for early detection, effective control, and management of this disorder in Pakistan.