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Query: UMLS:C0013421 (
dystonia
)
8,418
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The designation, DYT4, was assigned to an Australian family with whispering dysphonia. The role of known causes of
dystonia
has not been comprehensively investigated in this family, nor has the possible relationship with Wilson disease (WND) in 2 siblings. Eighteen family members were neurologically examined, and DNA samples were obtained. Linkage analysis was performed to DYT1, DYT6, DYT7, DYT11,
DYT13
, DYT15, and ATP7B with microsatellite markers and the THAP1 (DYT6), PRKRA (DYT16), and ATP7B (WND) genes were sequenced. Reevaluation of the family identified 9 living affected family members, 6 of whom are newly affected. Phenotypic expression was variable, ranging from isolated spasmodic dysphonia (often with mild craniocervical
dystonia
) to severe generalized
dystonia
. Two newly described features included an extrusional tongue
dystonia
and a unique "hobby horse gait." Genetic analyses excluded all tested loci. Haplotype analysis of the ATP7B region resulted in three different combinations of the two parental alleles in the 8 investigated siblings of the 2 deceased WND patients, indicating that the fourth combination (of two mutated alleles) had occurred only in the deceased WND patients. On these two alleles, we identified a missense (c.2297C>G; p.T766R) and a splice-site mutation (IVS5+1G>T). The c.2297C>G mutation was detected in 3 affected and 4 unaffected family members, whereas the IVS5+1G>T mutation was detected in 1 affected and unaffected family member. Five DYT4 patients carried neither mutation. DYT4 is a familial form of
dystonia
unrelated to known
dystonia
genes and loci. ATP7B mutations do not segregate with the
dystonia
phenotype, indicating two independent genetic diseases in this family.
...
PMID:Whispering dysphonia in an Australian family (DYT4): a clinical and genetic reappraisal. 2195 87
Dystonias
are heterogeneous hyperkinetic movement disorders characterized by involuntary muscle contractions which result in twisting and repetitive movements and abnormal postures. Several causative genes have been identified, but their genetic bases still remain elusive. Primary Torsion
Dystonias
(PTDs), in which
dystonia
is the only clinical sign, can be inherited in a monogenic fashion, and many genes and loci have been identified for autosomal dominant (DYT1/TOR1A; DYT6/THAP1; DYT4/TUBB4a; DYT7;
DYT13
; DYT21; DYT23/CIZ1; DYT24/ANO3; DYT25/GNAL) and recessive (DYT2; DYT17) forms. However most sporadic cases, especially those with late-onset, are likely multifactorial, with genetic and environmental factors interplaying to reach a threshold of disease. At present, genetic counseling of
dystonia
patients remains a difficult task. Recently non-motor clinical findings in dystonias, new highlights in the pathophysiology of the disease, and the availability of high-throughput genome-wide techniques are proving useful tools to better understand the complexity of PTD genetics. We briefly review the genetic basis of the most common forms of hereditary PTDs, and discuss relevant issues related to molecular diagnosis and genetic counseling.
...
PMID:Genetic issues in the diagnosis of dystonias. 2359 37
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