Entry - #118700 - CHOREA, BENIGN HEREDITARY; BHC - OMIM
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CHOREA, BENIGN HEREDITARY; BHC


Alternative titles; symbols

BCH
HEREDITARY PROGRESSIVE CHOREA WITHOUT DEMENTIA


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
14q13.3 Chorea, hereditary benign 118700 AD 3 NKX2-1 600635
Clinical Synopsis
 
A quick reference overview and guide (PDF)">

INHERITANCE
- Autosomal dominant
NEUROLOGIC
Central Nervous System
- Chorea
- Delayed motor development
- Dysarthria may occur
- Gait abnormalities may occur
- Movements are exacerbated by anxiety
- Severity of symptoms peak in the second decade and do not progress
- No dementia
- Mildly decreased intelligence has been reported
MISCELLANEOUS
- Variable phenotype
- Onset in childhood (usually before age 5 years)
- Allelic disorder to choreoathetosis, congenital hypothyroidism, and neonatal respiratory distress (610978), which is a more severe disorder
MOLECULAR BASIS
- Caused by mutation in the thyroid transcription factor-1 gene (TITF1, 600635.0001)
▲ Close

TEXT

A number sign (#) is used with this entry because some patients with benign hereditary chorea (BHC or BCH) have heterozygous mutations in the NKX2-1 gene (600635), encoding thyroid transcription factor-1 (TITF1), on chromosome 14q13.

See also choreoathetosis, congenital hypothyroidism, and neonatal respiratory distress (610978), an allelic disorder with a more severe phenotype.

Description

Benign hereditary chorea (BHC) is an autosomal dominant movement disorder that manifests before age 5 years and has a stationary or only slightly progressive course. Intelligence is normal or slightly below normal and mental deterioration is not seen. In some families, the choreic movements decrease during adolescence or early adulthood (summary by Breedveld et al., 2002).


Nomenclature

Schady and Meara (1988) discussed the use of the label 'benign' and concurred with Behan and Bone (1977) that the most accurate term was 'hereditary chorea without dementia.'


Clinical Features

Pincus and Chutorian (1967) and Haerer et al. (1967) described an early-onset, nonprogressive form of chorea not associated with intellectual deterioration.

Robinson and Thornett (1985) reported a 10-year-old boy with this disorder whose father was the only other affected person known in the family. Corticosteroids given in multiple courses for asthma invariably were associated with an abrupt improvement in frequency and amplitude of his chorea. The authors suggested that the improvement resulted from modulation of neurotransmitter function by the agent. Schady and Meara (1988) described a family in which chorea began in childhood and affected predominantly the head, face, and arms. Dysarthria appeared later, followed in 2 family members by elements of an axial dystonia. There was no intellectual impairment. Unlike previously described families, symptoms progressed steadily up to the eighth decade, causing considerable physical disability.

Kleiner-Fisman et al. (2003) reported a family in which 5 members over 4 generations had typical features of BHC. Delayed motor development and chorea began in early childhood and followed a slowly progressive course. Neuropathologic examination of 1 patient showed mild frontal-parietal-temporal atrophy, but no other abnormalities, including normal striatum and pigmented substantia nigra. Other regions of the brain showed nonspecific astrocytosis without noticeable neuronal loss.


Inheritance

Possible dominant inheritance of BHC was demonstrated in 2 families by Chun et al. (1973). Harper (1978) favored autosomal dominant inheritance with reduced penetrance in females. He pointed out that male-to-male transmission occurred in the families of Pincus and Chutorian (1967) and possibly in the family of Sadjadpour and Amato (1973), excluding X-linked inheritance. Furthermore, X-linked inheritance appears to be excluded by the apparent transmission through an unaffected male in the family of Pincus and Chutorian (1967). Both a dominant and a recessive form (215450) may exist.


Mapping

Exclusion Linkage

In a study of 5 families with BCH, Quarrell et al. (1988) found that the disorder was not closely linked to the D4S10 marker, thus excluding the possibility that benign hereditary chorea is allelic with Huntington disease. Furthermore, when the expanded repeat sequence was discovered as the basis of Huntington disease, these families were restudied by MacMillan et al. (1993). In 4 of the families, the (CAG)n repeat was not found; in 1 family, expanded repeats were found. Because of the small size of the family and the uninformativeness of typing, this linkage to 4p16 could not be excluded in the original study of this family. Yapijakis et al. (1995) likewise excluded linkage to the HD locus in an affected Greek family.

Linkage to 14q

In a large Dutch kindred with BHC, de Vries et al. (2000) found strong evidence for linkage between the disorder and markers on 14q (maximum lod score of 6.32 at recombination fraction 0.0). The BHC locus in this family was located between markers D14S49 and D14S1064, a region spanning approximately 20.6 cM and containing several candidate genes involved in the development and/or maintenance of the central nervous system, including glia maturation factor-beta (GMFB; 601713), GTP cyclohydrolase I (GCH1; 600225), and SMN-interacting protein-1 (SIP1; 602595).

Genetic Heterogeneity

Breedveld et al. (2002) reported clinical and genetic heterogeneity in 6 families with BHC and the large Dutch family reported by de Vries et al. (2000). Three of the 7 families showed linkage to chromosome 14 between markers D14S49 and D14S278, and haplotype analysis narrowed the critical interval for the BHC locus to 8.4 cM. In the remaining 4 families, linkage to 14q was excluded. The 3 families with linkage to 14q had a similar clinical phenotype including onset in infancy and childhood, chorea, and absence of mental deterioration. Other variable features in these families included gait difficulties, pyramidal signs, slow saccades, and abnormal reflexes. The 4 unlinked families had a slightly later age at onset and other signs besides chorea, including myoclonic jerks, dystonia, tremor, and tics.


Molecular Genetics

Breedveld et al. (2002) reported a small BHC family with a de novo deletion of 1.2 Mb, including the TITF1 gene (600635.0001). They also described 3 other multigenerational families with BHC who had heterozygous point mutations in the TITF1 gene (600635.0002-600635.0004).

In a family with BHC, Kleiner-Fisman et al. (2003) identified a heterozygous mutation in the TITF1 gene (600635.0007).


History

Fernandez et al. (2001) reported a multigenerational American family of English descent with a phenotype consistent with BCH that showed suggestive linkage to 14q. The family had previously been reported by Bird et al. (1976). Linkage analysis by Fernandez et al. (2001) identified a 6.93-cM candidate region between D14S1068 and D14S1064 (maximum multipoint lod score of 1.39; nonparametric lod score of 3.01). Both the SIP1 and GCH1 genes were excluded in this family. Despite these initial linkage studies, the family reported by Fernandez et al. (2001) was subsequently found by Chen et al. (2015) to carry a heterozygous mutation in the ADCY5 gene (A726T; 600293.0001) on chromosome 3q21. These findings indicated that the diagnosis was not BCH, but rather a genetically distinct hyperkinetic movement disorder (DSKOD; 606703).


See Also:
REFERENCES

  1. Behan, P. O., Bone, I. Hereditary chorea without dementia. J. Neurol. Neurosurg. Psychiat. 40: 687-691, 1977. [PubMed: 144176, related citations] [Full Text]

  2. Bird, T. D., Carlson, C. B., Hall, J. G. Familial essential ('benign') chorea. J. Med. Genet. 13: 357-362, 1976. [PubMed: 1003446, related citations] [Full Text]

  3. Breedveld, G. J., Percy, A. K., MacDonald, M. E., de Vries, B. B. A., Yapijakis, C., Dure, L. S., Ippel, E. F., Sandkuijl, L. A., Heutink, P., Arts, W. F. M. Clinical and genetic heterogeneity in benign hereditary chorea. Neurology 59: 579-584, 2002. [PubMed: 12196653, related citations] [Full Text]

  4. Breedveld, G. J., van Dongen, J. W. F., Danesino, C., Guala, A., Percy, A. K., Dure, L. S., Harper, P., Lazarou, L. P., van der Linde, H., Joosse, M., Gruters, A., MacDonald, M. E., de Vries, B. B. A., Arts, W. F. M., Oostra, B. A., Krude, H., Heutink, P. Mutations in TITF-1 are associated with benign hereditary chorea. Hum. Molec. Genet. 11: 971-979, 2002. [PubMed: 11971878, related citations] [Full Text]

  5. Chen, D.-H., Meneret, A., Friedman, J. R., Korvatska, O., Gad, A., Bonkowski, E. S., Stessman, H. A., Doummar, D., Mignot, C., Anheim, M., Bernes, S., Davis, M. Y., and 19 others. ADCY5-related dyskinesia: broader spectrum and genotype-phenotype correlations. Neurology 85: 2026-2035, 2015. [PubMed: 26537056, images, related citations] [Full Text]

  6. Chun, R. W. M., Daly, R. F., Mansheim, B. J., Jr., Wolcott, G. J. Benign familial chorea with onset in childhood. JAMA 225: 1603-1607, 1973. [PubMed: 4269386, related citations]

  7. de Vries, B. B. A., Arts, W. F. M., Breedveld, G. J., Hoogeboom, J. J. M., Niermeijer, M. F., Heutink, P. Benign hereditary chorea of early onset maps to chromosome 14q. Am. J. Hum. Genet. 66: 136-142, 2000. [PubMed: 10631144, images, related citations] [Full Text]

  8. Fernandez, M., Raskind, W., Matsushita, M., Wolff, J., Lipe, H., Bird, T. Hereditary benign chorea: clinical and genetic features of a distinct disease. Neurology 57: 106-110, 2001. [PubMed: 11445636, related citations] [Full Text]

  9. Haerer, A. F., Currier, R. D., Jackson, J. F. Hereditary nonprogressive chorea of early onset. New Eng. J. Med. 276: 1220-1224, 1967. [PubMed: 4225827, related citations] [Full Text]

  10. Harper, P. S. Benign hereditary chorea: clinical and genetic aspects. Clin. Genet. 13: 85-95, 1978. [PubMed: 624192, related citations] [Full Text]

  11. Kleiner-Fisman, G., Rogaeva, E., Halliday, W., Houle, S., Kawarai, T., Sato, C., Medeiros, H., St. George-Hyslop, P. H., Lang, A. E. Benign hereditary chorea: clinical, genetic, and pathological findings. Ann. Neurol. 54: 244-247, 2003. [PubMed: 12891678, related citations] [Full Text]

  12. MacMillan, J. C., Morrison, P. J., Nevin, N. C., Shaw, D. J., Harper, P. S., Quarrell, O. W. J., Snell, R. G. Identification of an expanded CAG repeat in the Huntington's disease gene (IT15) in a family reported to have benign hereditary chorea. J. Med. Genet. 30: 1012-1013, 1993. [PubMed: 8133497, related citations] [Full Text]

  13. Pincus, J. H., Chutorian, A. Familial benign chorea with intention tremor: a clinical entity. J. Pediat. 70: 724-729, 1967. [PubMed: 4225654, related citations] [Full Text]

  14. Quarrell, O. W. J., Youngman, S., Sarfarazi, M., Harper, P. S. Absence of close linkage between benign hereditary chorea and the locus D4S10 (probe G8). J. Med. Genet. 25: 191-194, 1988. [PubMed: 2895189, related citations] [Full Text]

  15. Robinson, R. O., Thornett, C. E. E. Benign hereditary chorea--response to steroids. Dev. Med. Child Neurol. 27: 814-821, 1985. [PubMed: 4092854, related citations] [Full Text]

  16. Sadjadpour, K., Amato, R. S. Hereditary nonprogressive chorea of early onset: a new entity? Adv. Neurol. 1: 79-91, 1973.

  17. Schady, W., Meara, R. J. Hereditary progressive chorea without dementia. J. Neurol. Neurosurg. Psychiat. 51: 295-297, 1988. [PubMed: 2964512, related citations] [Full Text]

  18. Stapert, J. L. R. H., Busard, B. L. S. M., Gabreels, F. J. M., Renier, W. O., Colon, E. J., Verhey, F. H. M. Benign (nonparoxysmal) familial chorea of early onset: an electroneurophysiological examination of two families. Brain Dev. 7: 38-42, 1985. [PubMed: 3159307, related citations] [Full Text]

  19. Yapijakis, C., Kapaki, E., Zournas, C., Rentzos, M., Loukopoulos, D., Papageorgiou, C. Exclusion mapping of the benign hereditary chorea gene from the Huntington's disease locus: report of a family. Clin. Genet. 47: 133-138, 1995. [PubMed: 7634535, related citations] [Full Text]


Contributors:
Cassandra L. Kniffin - updated : 12/07/2021
Cassandra L. Kniffin - updated : 11/22/2005
Cassandra L. Kniffin - reorganized : 12/29/2003
Cassandra L. Kniffin - updated : 12/24/2003
George E. Tiller - updated : 12/17/2002
Cassandra L. Kniffin - updated : 11/8/2002
Victor A. McKusick - updated : 12/29/1999
Creation Date:
Victor A. McKusick : 6/4/1986
Edit History:
alopez : 12/09/2021
alopez : 12/08/2021
ckniffin : 12/07/2021
carol : 01/29/2020
carol : 01/28/2020
wwang : 03/12/2010
terry : 6/3/2009
wwang : 5/2/2007
ckniffin : 4/26/2007
wwang : 12/7/2005
ckniffin : 11/22/2005
carol : 12/29/2003
ckniffin : 12/24/2003
cwells : 12/17/2002
carol : 11/13/2002
ckniffin : 11/8/2002
ckniffin : 11/8/2002
carol : 2/21/2002
terry : 2/10/2000
mgross : 1/3/2000
terry : 12/29/1999
terry : 4/30/1999
mark : 6/8/1995
davew : 8/17/1994
mimadm : 6/25/1994
terry : 5/16/1994
carol : 1/19/1994
carol : 3/31/1992

# 118700

CHOREA, BENIGN HEREDITARY; BHC


Alternative titles; symbols

BCH
HEREDITARY PROGRESSIVE CHOREA WITHOUT DEMENTIA


SNOMEDCT: 230306001;   ORPHA: 1429;   DO: 12859;  


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
14q13.3 Chorea, hereditary benign 118700 Autosomal dominant 3 NKX2-1 600635

TEXT

A number sign (#) is used with this entry because some patients with benign hereditary chorea (BHC or BCH) have heterozygous mutations in the NKX2-1 gene (600635), encoding thyroid transcription factor-1 (TITF1), on chromosome 14q13.

See also choreoathetosis, congenital hypothyroidism, and neonatal respiratory distress (610978), an allelic disorder with a more severe phenotype.

Description

Benign hereditary chorea (BHC) is an autosomal dominant movement disorder that manifests before age 5 years and has a stationary or only slightly progressive course. Intelligence is normal or slightly below normal and mental deterioration is not seen. In some families, the choreic movements decrease during adolescence or early adulthood (summary by Breedveld et al., 2002).


Nomenclature

Schady and Meara (1988) discussed the use of the label 'benign' and concurred with Behan and Bone (1977) that the most accurate term was 'hereditary chorea without dementia.'


Clinical Features

Pincus and Chutorian (1967) and Haerer et al. (1967) described an early-onset, nonprogressive form of chorea not associated with intellectual deterioration.

Robinson and Thornett (1985) reported a 10-year-old boy with this disorder whose father was the only other affected person known in the family. Corticosteroids given in multiple courses for asthma invariably were associated with an abrupt improvement in frequency and amplitude of his chorea. The authors suggested that the improvement resulted from modulation of neurotransmitter function by the agent. Schady and Meara (1988) described a family in which chorea began in childhood and affected predominantly the head, face, and arms. Dysarthria appeared later, followed in 2 family members by elements of an axial dystonia. There was no intellectual impairment. Unlike previously described families, symptoms progressed steadily up to the eighth decade, causing considerable physical disability.

Kleiner-Fisman et al. (2003) reported a family in which 5 members over 4 generations had typical features of BHC. Delayed motor development and chorea began in early childhood and followed a slowly progressive course. Neuropathologic examination of 1 patient showed mild frontal-parietal-temporal atrophy, but no other abnormalities, including normal striatum and pigmented substantia nigra. Other regions of the brain showed nonspecific astrocytosis without noticeable neuronal loss.


Inheritance

Possible dominant inheritance of BHC was demonstrated in 2 families by Chun et al. (1973). Harper (1978) favored autosomal dominant inheritance with reduced penetrance in females. He pointed out that male-to-male transmission occurred in the families of Pincus and Chutorian (1967) and possibly in the family of Sadjadpour and Amato (1973), excluding X-linked inheritance. Furthermore, X-linked inheritance appears to be excluded by the apparent transmission through an unaffected male in the family of Pincus and Chutorian (1967). Both a dominant and a recessive form (215450) may exist.


Mapping

Exclusion Linkage

In a study of 5 families with BCH, Quarrell et al. (1988) found that the disorder was not closely linked to the D4S10 marker, thus excluding the possibility that benign hereditary chorea is allelic with Huntington disease. Furthermore, when the expanded repeat sequence was discovered as the basis of Huntington disease, these families were restudied by MacMillan et al. (1993). In 4 of the families, the (CAG)n repeat was not found; in 1 family, expanded repeats were found. Because of the small size of the family and the uninformativeness of typing, this linkage to 4p16 could not be excluded in the original study of this family. Yapijakis et al. (1995) likewise excluded linkage to the HD locus in an affected Greek family.

Linkage to 14q

In a large Dutch kindred with BHC, de Vries et al. (2000) found strong evidence for linkage between the disorder and markers on 14q (maximum lod score of 6.32 at recombination fraction 0.0). The BHC locus in this family was located between markers D14S49 and D14S1064, a region spanning approximately 20.6 cM and containing several candidate genes involved in the development and/or maintenance of the central nervous system, including glia maturation factor-beta (GMFB; 601713), GTP cyclohydrolase I (GCH1; 600225), and SMN-interacting protein-1 (SIP1; 602595).

Genetic Heterogeneity

Breedveld et al. (2002) reported clinical and genetic heterogeneity in 6 families with BHC and the large Dutch family reported by de Vries et al. (2000). Three of the 7 families showed linkage to chromosome 14 between markers D14S49 and D14S278, and haplotype analysis narrowed the critical interval for the BHC locus to 8.4 cM. In the remaining 4 families, linkage to 14q was excluded. The 3 families with linkage to 14q had a similar clinical phenotype including onset in infancy and childhood, chorea, and absence of mental deterioration. Other variable features in these families included gait difficulties, pyramidal signs, slow saccades, and abnormal reflexes. The 4 unlinked families had a slightly later age at onset and other signs besides chorea, including myoclonic jerks, dystonia, tremor, and tics.


Molecular Genetics

Breedveld et al. (2002) reported a small BHC family with a de novo deletion of 1.2 Mb, including the TITF1 gene (600635.0001). They also described 3 other multigenerational families with BHC who had heterozygous point mutations in the TITF1 gene (600635.0002-600635.0004).

In a family with BHC, Kleiner-Fisman et al. (2003) identified a heterozygous mutation in the TITF1 gene (600635.0007).


History

Fernandez et al. (2001) reported a multigenerational American family of English descent with a phenotype consistent with BCH that showed suggestive linkage to 14q. The family had previously been reported by Bird et al. (1976). Linkage analysis by Fernandez et al. (2001) identified a 6.93-cM candidate region between D14S1068 and D14S1064 (maximum multipoint lod score of 1.39; nonparametric lod score of 3.01). Both the SIP1 and GCH1 genes were excluded in this family. Despite these initial linkage studies, the family reported by Fernandez et al. (2001) was subsequently found by Chen et al. (2015) to carry a heterozygous mutation in the ADCY5 gene (A726T; 600293.0001) on chromosome 3q21. These findings indicated that the diagnosis was not BCH, but rather a genetically distinct hyperkinetic movement disorder (DSKOD; 606703).


See Also:

Stapert et al. (1985)

REFERENCES

  1. Behan, P. O., Bone, I. Hereditary chorea without dementia. J. Neurol. Neurosurg. Psychiat. 40: 687-691, 1977. [PubMed: 144176] [Full Text: https://doi.org/10.1136/jnnp.40.7.687]

  2. Bird, T. D., Carlson, C. B., Hall, J. G. Familial essential ('benign') chorea. J. Med. Genet. 13: 357-362, 1976. [PubMed: 1003446] [Full Text: https://doi.org/10.1136/jmg.13.5.357]

  3. Breedveld, G. J., Percy, A. K., MacDonald, M. E., de Vries, B. B. A., Yapijakis, C., Dure, L. S., Ippel, E. F., Sandkuijl, L. A., Heutink, P., Arts, W. F. M. Clinical and genetic heterogeneity in benign hereditary chorea. Neurology 59: 579-584, 2002. [PubMed: 12196653] [Full Text: https://doi.org/10.1212/wnl.59.4.579]

  4. Breedveld, G. J., van Dongen, J. W. F., Danesino, C., Guala, A., Percy, A. K., Dure, L. S., Harper, P., Lazarou, L. P., van der Linde, H., Joosse, M., Gruters, A., MacDonald, M. E., de Vries, B. B. A., Arts, W. F. M., Oostra, B. A., Krude, H., Heutink, P. Mutations in TITF-1 are associated with benign hereditary chorea. Hum. Molec. Genet. 11: 971-979, 2002. [PubMed: 11971878] [Full Text: https://doi.org/10.1093/hmg/11.8.971]

  5. Chen, D.-H., Meneret, A., Friedman, J. R., Korvatska, O., Gad, A., Bonkowski, E. S., Stessman, H. A., Doummar, D., Mignot, C., Anheim, M., Bernes, S., Davis, M. Y., and 19 others. ADCY5-related dyskinesia: broader spectrum and genotype-phenotype correlations. Neurology 85: 2026-2035, 2015. [PubMed: 26537056] [Full Text: https://doi.org/10.1212/WNL.0000000000002058]

  6. Chun, R. W. M., Daly, R. F., Mansheim, B. J., Jr., Wolcott, G. J. Benign familial chorea with onset in childhood. JAMA 225: 1603-1607, 1973. [PubMed: 4269386]

  7. de Vries, B. B. A., Arts, W. F. M., Breedveld, G. J., Hoogeboom, J. J. M., Niermeijer, M. F., Heutink, P. Benign hereditary chorea of early onset maps to chromosome 14q. Am. J. Hum. Genet. 66: 136-142, 2000. [PubMed: 10631144] [Full Text: https://doi.org/10.1086/302725]

  8. Fernandez, M., Raskind, W., Matsushita, M., Wolff, J., Lipe, H., Bird, T. Hereditary benign chorea: clinical and genetic features of a distinct disease. Neurology 57: 106-110, 2001. [PubMed: 11445636] [Full Text: https://doi.org/10.1212/wnl.57.1.106]

  9. Haerer, A. F., Currier, R. D., Jackson, J. F. Hereditary nonprogressive chorea of early onset. New Eng. J. Med. 276: 1220-1224, 1967. [PubMed: 4225827] [Full Text: https://doi.org/10.1056/NEJM196706012762202]

  10. Harper, P. S. Benign hereditary chorea: clinical and genetic aspects. Clin. Genet. 13: 85-95, 1978. [PubMed: 624192] [Full Text: https://doi.org/10.1111/j.1399-0004.1978.tb04133.x]

  11. Kleiner-Fisman, G., Rogaeva, E., Halliday, W., Houle, S., Kawarai, T., Sato, C., Medeiros, H., St. George-Hyslop, P. H., Lang, A. E. Benign hereditary chorea: clinical, genetic, and pathological findings. Ann. Neurol. 54: 244-247, 2003. [PubMed: 12891678] [Full Text: https://doi.org/10.1002/ana.10637]

  12. MacMillan, J. C., Morrison, P. J., Nevin, N. C., Shaw, D. J., Harper, P. S., Quarrell, O. W. J., Snell, R. G. Identification of an expanded CAG repeat in the Huntington's disease gene (IT15) in a family reported to have benign hereditary chorea. J. Med. Genet. 30: 1012-1013, 1993. [PubMed: 8133497] [Full Text: https://doi.org/10.1136/jmg.30.12.1012]

  13. Pincus, J. H., Chutorian, A. Familial benign chorea with intention tremor: a clinical entity. J. Pediat. 70: 724-729, 1967. [PubMed: 4225654] [Full Text: https://doi.org/10.1016/s0022-3476(67)80322-6]

  14. Quarrell, O. W. J., Youngman, S., Sarfarazi, M., Harper, P. S. Absence of close linkage between benign hereditary chorea and the locus D4S10 (probe G8). J. Med. Genet. 25: 191-194, 1988. [PubMed: 2895189] [Full Text: https://doi.org/10.1136/jmg.25.3.191]

  15. Robinson, R. O., Thornett, C. E. E. Benign hereditary chorea--response to steroids. Dev. Med. Child Neurol. 27: 814-821, 1985. [PubMed: 4092854] [Full Text: https://doi.org/10.1111/j.1469-8749.1985.tb03807.x]

  16. Sadjadpour, K., Amato, R. S. Hereditary nonprogressive chorea of early onset: a new entity? Adv. Neurol. 1: 79-91, 1973.

  17. Schady, W., Meara, R. J. Hereditary progressive chorea without dementia. J. Neurol. Neurosurg. Psychiat. 51: 295-297, 1988. [PubMed: 2964512] [Full Text: https://doi.org/10.1136/jnnp.51.2.295]

  18. Stapert, J. L. R. H., Busard, B. L. S. M., Gabreels, F. J. M., Renier, W. O., Colon, E. J., Verhey, F. H. M. Benign (nonparoxysmal) familial chorea of early onset: an electroneurophysiological examination of two families. Brain Dev. 7: 38-42, 1985. [PubMed: 3159307] [Full Text: https://doi.org/10.1016/s0387-7604(85)80056-5]

  19. Yapijakis, C., Kapaki, E., Zournas, C., Rentzos, M., Loukopoulos, D., Papageorgiou, C. Exclusion mapping of the benign hereditary chorea gene from the Huntington's disease locus: report of a family. Clin. Genet. 47: 133-138, 1995. [PubMed: 7634535] [Full Text: https://doi.org/10.1111/j.1399-0004.1995.tb03945.x]


Contributors:
Cassandra L. Kniffin - updated : 12/07/2021
Cassandra L. Kniffin - updated : 11/22/2005
Cassandra L. Kniffin - reorganized : 12/29/2003
Cassandra L. Kniffin - updated : 12/24/2003
George E. Tiller - updated : 12/17/2002
Cassandra L. Kniffin - updated : 11/8/2002
Victor A. McKusick - updated : 12/29/1999

Creation Date:
Victor A. McKusick : 6/4/1986

Edit History:
alopez : 12/09/2021
alopez : 12/08/2021
ckniffin : 12/07/2021
carol : 01/29/2020
carol : 01/28/2020
wwang : 03/12/2010
terry : 6/3/2009
wwang : 5/2/2007
ckniffin : 4/26/2007
wwang : 12/7/2005
ckniffin : 11/22/2005
carol : 12/29/2003
ckniffin : 12/24/2003
cwells : 12/17/2002
carol : 11/13/2002
ckniffin : 11/8/2002
ckniffin : 11/8/2002
carol : 2/21/2002
terry : 2/10/2000
mgross : 1/3/2000
terry : 12/29/1999
terry : 4/30/1999
mark : 6/8/1995
davew : 8/17/1994
mimadm : 6/25/1994
terry : 5/16/1994
carol : 1/19/1994
carol : 3/31/1992



NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.

NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.
Printed: June 20, 2024