Spinal muscular atrophy

doi:10.1186/1750-1172-6-71

Review

. 2011 Nov 2:6:71.

doi: 10.1186/1750-1172-6-71.

Spinal muscular atrophy

Adele D'Amico¹, Eugenio Mercuri, Francesco D Tiziano, Enrico Bertini

Affiliations

Affiliation

¹ Department of Neurosciences, Unit of Molecular Medicine for Neuromuscular and Neurodegenerative Disorders, Bambino Gesu' Children's Research Hospital, P.za S. Onofrio, 4, Rome (00165), Italy.

PMID: 22047105
PMCID: PMC3231874
DOI: 10.1186/1750-1172-6-71

Review

Spinal muscular atrophy

Adele D'Amico et al. Orphanet J Rare Dis. 2011.

. 2011 Nov 2:6:71.

doi: 10.1186/1750-1172-6-71.

Authors

Adele D'Amico¹, Eugenio Mercuri, Francesco D Tiziano, Enrico Bertini

Affiliation

¹ Department of Neurosciences, Unit of Molecular Medicine for Neuromuscular and Neurodegenerative Disorders, Bambino Gesu' Children's Research Hospital, P.za S. Onofrio, 4, Rome (00165), Italy.

PMID: 22047105
PMCID: PMC3231874
DOI: 10.1186/1750-1172-6-71

Abstract

Spinal muscular atrophy (SMA) is an autosomal recessive neuromuscular disease characterized by degeneration of alpha motor neurons in the spinal cord, resulting in progressive proximal muscle weakness and paralysis. Estimated incidence is 1 in 6,000 to 1 in 10,000 live births and carrier frequency of 1/40-1/60. This disease is characterized by generalized muscle weakness and atrophy predominating in proximal limb muscles, and phenotype is classified into four grades of severity (SMA I, SMAII, SMAIII, SMA IV) based on age of onset and motor function achieved. This disease is caused by homozygous mutations of the survival motor neuron 1 (SMN1) gene, and the diagnostic test demonstrates in most patients the homozygous deletion of the SMN1 gene, generally showing the absence of SMN1 exon 7. The test achieves up to 95% sensitivity and nearly 100% specificity. Differential diagnosis should be considered with other neuromuscular disorders which are not associated with increased CK manifesting as infantile hypotonia or as limb girdle weakness starting later in life. Considering the high carrier frequency, carrier testing is requested by siblings of patients or of parents of SMA children and are aimed at gaining information that may help with reproductive planning. Individuals at risk should be tested first and, in case of testing positive, the partner should be then analyzed. It is recommended that in case of a request on carrier testing on siblings of an affected SMA infant, a detailed neurological examination should be done and consideration given doing the direct test to exclude SMA. Prenatal diagnosis should be offered to couples who have previously had a child affected with SMA (recurrence risk 25%). The role of follow-up coordination has to be managed by an expert in neuromuscular disorders and in SMA who is able to plan a multidisciplinary intervention that includes pulmonary, gastroenterology/nutrition, and orthopedic care. Prognosis depends on the phenotypic severity going from high mortality within the first year for SMA type 1 to no mortality for the chronic and later onset forms.

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Figures

**Figure 1**
**Diagnostic algorithm for spinal muscular atrophy**.

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References

1. Werdnig G. Zwei frühinfantile hereditäre Fälle von progressive Muskelatrophie unter dem Bilde der Dystrophie, aber auf neurotischer Grundlage [Two early infantile hereditary cases of progressive muscular atrophy simulating dystrophy, but on a neural basis; in German] Arch Psychiatr Nervenkr. 1891;22:437–480. doi: 10.1007/BF01776636. - DOI
1. Hoffmann J. U" ber chronische spinale Muskelatrophie im Kindesalter, auf familiärer Basis [On chronic spinal muscular atrophy in childhood, with a familial basis; in German] Dtsch Z Nervenheilkd. 1893;3:427–470. doi: 10.1007/BF01668496. - DOI
1. Brzustowicz LM, Lehner T, Castilla LH, Penchaszadeh GK, Wilhelmsen KC, Daniels R, Davies KE, Leppert M, Ziter F, Wood D, Dubowitz V, Zerres K, Hausmanowa-Petrusewicz I, Ott J, Munsat TL, Gilliam TC. Genetic mapping of chronic childhood-onset spinal muscular atrophy to chromosome 5q11.2-13.3. Nature. 1990;344:540–41. doi: 10.1038/344540a0. - DOI - PubMed
1. Lefebvre S, Burglen L, Reboullet S, Clermont O, Burlet P, Viollet L, Benichou B, Cruaud C, Millasseau P, Zeviani M, Le Paslier D, Frézal J, Cohen D, Weissenbach J, Munnich A, Melki J. Identification and characterization of a spinal muscular atrophy-determining gene. Cell. 1995;80:155–65. doi: 10.1016/0092-8674(95)90460-3. - DOI - PubMed
1. Ogino S, Leonard DG, Rennert H, Ewens WJ, Wilson RB. Genetic risk assessment in carrier testing for spinal muscular atrophy. Am J Med Genet. 2002;110:301–07. doi: 10.1002/ajmg.10425. - DOI - PubMed

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[1] Werdnig G. Zwei frühinfantile hereditäre Fälle von progressive Muskelatrophie unter dem Bilde der Dystrophie, aber auf neurotischer Grundlage [Two early infantile hereditary cases of progressive muscular atrophy simulating dystrophy, but on a neural basis; in German] Arch Psychiatr Nervenkr. 1891;22:437–480. doi: 10.1007/BF01776636. - DOI

[2] Werdnig G. Zwei frühinfantile hereditäre Fälle von progressive Muskelatrophie unter dem Bilde der Dystrophie, aber auf neurotischer Grundlage [Two early infantile hereditary cases of progressive muscular atrophy simulating dystrophy, but on a neural basis; in German] Arch Psychiatr Nervenkr. 1891;22:437–480. doi: 10.1007/BF01776636. - DOI

[3] Hoffmann J. U" ber chronische spinale Muskelatrophie im Kindesalter, auf familiärer Basis [On chronic spinal muscular atrophy in childhood, with a familial basis; in German] Dtsch Z Nervenheilkd. 1893;3:427–470. doi: 10.1007/BF01668496. - DOI

[4] Hoffmann J. U" ber chronische spinale Muskelatrophie im Kindesalter, auf familiärer Basis [On chronic spinal muscular atrophy in childhood, with a familial basis; in German] Dtsch Z Nervenheilkd. 1893;3:427–470. doi: 10.1007/BF01668496. - DOI

[5] Brzustowicz LM, Lehner T, Castilla LH, Penchaszadeh GK, Wilhelmsen KC, Daniels R, Davies KE, Leppert M, Ziter F, Wood D, Dubowitz V, Zerres K, Hausmanowa-Petrusewicz I, Ott J, Munsat TL, Gilliam TC. Genetic mapping of chronic childhood-onset spinal muscular atrophy to chromosome 5q11.2-13.3. Nature. 1990;344:540–41. doi: 10.1038/344540a0. - DOI - PubMed

[6] Brzustowicz LM, Lehner T, Castilla LH, Penchaszadeh GK, Wilhelmsen KC, Daniels R, Davies KE, Leppert M, Ziter F, Wood D, Dubowitz V, Zerres K, Hausmanowa-Petrusewicz I, Ott J, Munsat TL, Gilliam TC. Genetic mapping of chronic childhood-onset spinal muscular atrophy to chromosome 5q11.2-13.3. Nature. 1990;344:540–41. doi: 10.1038/344540a0. - DOI - PubMed

[7] Lefebvre S, Burglen L, Reboullet S, Clermont O, Burlet P, Viollet L, Benichou B, Cruaud C, Millasseau P, Zeviani M, Le Paslier D, Frézal J, Cohen D, Weissenbach J, Munnich A, Melki J. Identification and characterization of a spinal muscular atrophy-determining gene. Cell. 1995;80:155–65. doi: 10.1016/0092-8674(95)90460-3. - DOI - PubMed

[8] Lefebvre S, Burglen L, Reboullet S, Clermont O, Burlet P, Viollet L, Benichou B, Cruaud C, Millasseau P, Zeviani M, Le Paslier D, Frézal J, Cohen D, Weissenbach J, Munnich A, Melki J. Identification and characterization of a spinal muscular atrophy-determining gene. Cell. 1995;80:155–65. doi: 10.1016/0092-8674(95)90460-3. - DOI - PubMed

[9] Ogino S, Leonard DG, Rennert H, Ewens WJ, Wilson RB. Genetic risk assessment in carrier testing for spinal muscular atrophy. Am J Med Genet. 2002;110:301–07. doi: 10.1002/ajmg.10425. - DOI - PubMed

[10] Ogino S, Leonard DG, Rennert H, Ewens WJ, Wilson RB. Genetic risk assessment in carrier testing for spinal muscular atrophy. Am J Med Genet. 2002;110:301–07. doi: 10.1002/ajmg.10425. - DOI - PubMed

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Spinal muscular atrophy

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