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The motor neurone diseases (or motor neuron diseases) (MND) are a group of progressive neurological disorders that destroy motor neurones, the cells that control voluntary muscle activity including speaking, walking, breathing, swallowing and general movement of the body.
In this article, MND refers to a group of diseases which affect the motor neurones. In the United States, the term ALS is more commonly used, where it is also known as Lou Gehrig’s disease, after the baseball player. Although previously described by other neurologists of the 19th century, it was Jean-Martin Charcot, a French neurologist, who suggested grouping together a number of disparate conditions all affecting the lateral horn of the spinal cord in 1869. In France the disease is sometimes known as Maladie de Charcot (Charcot’s disease), although it may also be referred to by the direct translation of ALS, Sclerose Laterale Amyotrophique (SLA). To help prevent confusion, the annual scientific research conference dedicated to the study of MND is called the International ALS/MND Symposium.
Forms of motor neurone disease include:
Spinal muscular atrophy (SMA) is classified under MND by MeSH, but not by ICD-10.
About 90% of cases of MND are “sporadic”, meaning that the patient has no family history of ALS and the case appears to have occurred with no known cause. Genetic factors are suspected to be important in determining an individual’s susceptibility to disease, and there is some weak evidence to suggest that onset can be “triggered” by as yet unknown environmental factors (see ‘Epidemiology’ below).
Approximately 10% of cases are “familial MND”, defined either by a family history of MND or by testing positive for a known genetic mutation associated with the disease. The following genes are known to be linked to ALS: Cu/Zn superoxide dismutase SOD1, ALS2, NEFH (a small number of cases), senataxin (SETX) and vesicle associated protein B (VAPB).
Of these, SOD1 mutations account for some 20% of familial MND cases. The SOD1 gene codes for the enzyme superoxide dismutase, a free radical scavenger that reduces the oxidative stress of cells throughout the body. So far over 100 different mutations in the SOD1 gene have been found, all of which cause some form of ALS(ALSOD database). In North America, the most commonly occurring mutation is known as A4V and occurs in up to 50% of SOD1 cases. In people of Scandinavian extraction there is a relatively benign mutation called D90A which is associated with a slow progression. In Japan, the H46R mutation is most common. G93A, the mutation used to generate the first animal model (and by far the most widely studied), is present only in a few families worldwide. Future research is concentrating on identifying new genetic mutations and the clinical syndrome associated with them. Familial MND may also confer a higher risk of developing cognitive changes such as frontotemporal dementia or executive dysfunction (see ‘extra-motor change in MND’ below).
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