Entry - #600334 - TIBIAL MUSCULAR DYSTROPHY, TARDIVE; TMD - OMIM

 
ICD+
# 600334

TIBIAL MUSCULAR DYSTROPHY, TARDIVE; TMD


Alternative titles; symbols

TARDIVE TIBIAL MUSCULAR DYSTROPHY
UDD MYOPATHY


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
2q31.2 Tibial muscular dystrophy, tardive 600334 AD 3 TTN 188840
Clinical Synopsis
 

INHERITANCE
- Autosomal dominant
MUSCLE, SOFT TISSUES
- Weakness of the muscles in the anterior compartment of the lower leg (particularly the tibialis anterior muscle)
- Atrophy of the muscles in the anterior compartment of the lower leg
- 'Steppage' gait
- Reduced ankle dorsiflexion
- Replacement of affected muscle tissue with fatty tissue
- Biopsy shows rimmed vacuoles, central nuclei, and variation in fiber size
- Myopathy seen on EMG
MISCELLANEOUS
- Adult onset (after age 35 years)
- Slow progression without marked disability
- Incomplete penetrance
- Cardiomyopathy is not a feature
MOLECULAR BASIS
- Caused by heterozygous mutation in the titin gene (TTN, 188840.0004)
▲ Close

TEXT

A number sign (#) is used with this entry because of evidence that tibial muscular dystrophy (TMD) is caused by heterozygous mutation in the gene encoding the giant skeletal muscle protein titin (TTN; 188840) on chromosome 2q31.

Homozygous mutation in the titin gene causes the more severe limb-girdle muscular dystrophy type 2J (LGMD2J; 608807).

Description

Tardive tibial muscular dystrophy (TMD) is an autosomal dominant late-onset myopathy in which weakness and atrophy are usually confined to the anterior compartment of the lower leg, in particular, the tibialis anterior muscle. Onset usually occurs at ages 35 to 45 years, but can be later (summary by Hackman et al., 2002).


Clinical Features

Udd (1992) reported a large consanguineous Finnish pedigree with 2 separate muscle disease phenotypes: mild late-onset distal myopathy inherited in an autosomal dominant pattern and severe limb-girdle muscular dystrophy (see LGMD2J) inherited in an autosomal recessive pattern. Segregation analysis showed that the corrected proportion of affected persons with the severe proximal type was 0.246 and the proportion of affected persons with the distal myopathy was 0.58. The findings were compatible with the hypothesis that the severe LGMD phenotype was the homozygous manifestation of a dominant gene that in the heterozygous state caused the milder distal myopathy. Udd et al. (1992), who referred to the distal myopathy as 'tibial muscular dystrophy,' reported follow-up on the large affected Finnish pedigree.

Partanen et al. (1994) studied a family with very late-onset (fifth or sixth decade) or asymptomatic hereditary myopathy of the anterior tibial muscle. The muscles of the upper extremity were spared. The anterior tibial muscles had a characteristic myopathic alteration with rimmed vacuoles. Twelve persons, both male and female, were affected, and male-to-male transmission was demonstrated.

Partanen et al. (1994) distinguished 6 types of distal myopathy: (1) Welander myopathy; (2) a late-onset autosomal dominant form with onset in the anterior compartment of the legs; (3) an early adult-onset recessive or sporadic form with onset in the anterior compartment of the legs with vacuolar myopathy on biopsy (Sunohara et al., 1989); (4) an early adult-onset recessive distal myopathy of the posterior compartment of the legs (Miyoshi et al., 1986; 254130); (5) an autosomal recessive vacuolar myopathy sparing the quadriceps (Sadeh et al., 1993; 605820); and (6) a late-onset autosomal dominant tibial dystrophy as described by Udd et al. (1991, 1992) and Udd (1992).

Udd et al. (1993) investigated 66 Finnish patients with late adult-onset tibial muscular dystrophy. Symptoms appeared after the age of 35 years with reduced ankle dorsiflexion, and progression was slow without marked disability. Facial muscles, upper extremities, and proximal muscles were usually spared. Pedigree data suggested autosomal dominant inheritance. The clinical studies suggested homogeneity in the various families affected with this rather frequent disorder in Finns.

Van den Bergh et al. (2003) reported a Belgian family with tibial muscular dystrophy. The proband had onset of gait difficulties in his late 40s, and clinical examination showed steppage gait and weakness and atrophy of the anterior compartment muscles of the lower legs without proximal weakness or sensory loss. CT scan of the lower leg muscles showed marked atrophy and low density, suggestive of fatty degeneration. Family investigation revealed that the proband's father, a paternal uncle, and one of his daughters had mild tibialis anterior weakness and atrophy, although all were asymptomatic. In affected members of the family, Van den Bergh et al. (2003) identified a heterozygous mutation in the Mex6 exon of the titin gene (188840.0006). The authors noted that the family showed incomplete disease penetrance.

Pathologic Findings

In 12 affected members of a large Finnish pedigree with distal myopathy, Udd et al. (1992) found that muscle biopsy did not show vacuolar degeneration, which was in contrast to most adult-onset distal myopathies. Histopathologic changes correlating with the muscular dystrophy were extensive in tibial anterior muscles in patients with distal myopathy and in all muscles of those family members who had a severe limb-girdle muscular dystrophy phenotype.

Among 66 Finnish patients with TMD, Udd et al. (1993) found that muscle biopsies showed nonspecific dystrophic changes in clinically affected muscles and severe adipose replacement in the anterior tibial muscles. Asymptomatic muscles had mild myopathic changes only. Vacuolar degeneration was detected in a minority of patients. Electromyography showed profound myopathic changes in the anterior tibial muscle, but extensor brevis muscles were well preserved. Computed tomography or magnetic resonance imaging of muscles disclosed marked involvement of tibial extensor muscles and focal patches of fatty degeneration in various asymptomatic muscles.

In tibial muscular dystrophy, some biopsies showed rimmed vacuoles and others did not. Udd (1997) concluded that the presence or absence of rimmed vacuoles was not indicative of heterogeneity because there was intrafamilial variation and families with or without rimmed vacuoles were shown to be genealogically linked.

Mapping

In a Finnish tibial muscular dystrophy family with 11 affected individuals, Haravuori et al. (1997, 1998) found a region of interest on 2q by a genomewide scan with microsatellite markers. Further analyses with additional family members and additional families, 1 of whom was the large Finnish family reported by Udd et al. (1992), yielded a maximum 2-point lod score of 10.14 at theta = 0.05 with marker D2S364. Multipoint likelihood calculations assigned the TMD locus to the proximity of marker D2S324 with a maximum multipoint lod score of 12.4 at theta = 0.0. Haplotype analysis revealed the same core haplotype in all analyzed families, thus providing evidence for an ancestral mutation and further restricting the critical chromosomal region to about 1 cM. The location of the locus was determined to be 2q31 (Udd, 1997; Haravuori et al., 1998).

De Seze et al. (1998) described a French family with TMD and confirmed the linkage to 2q31 with a different haplotype for linked markers.


Heterogeneity

Genetic Heterogeneity

Felice et al. (1999) reported a family with autosomal dominant distal myopathy spanning 4 generations in whom linkage to Nonaka distal myopathy (605820) on 9p, MPD1 (160500) on 14q, Miyoshi myopathy on 2p13, and TMD on 2q31 was excluded. Clinical features included onset in the second to third decade of foot drop, difficulty in stair climbing, and progressive leg weakness. Some had later involvement of proximal lower limb muscles and distal upper limb muscles. Laboratory studies showed increased serum creatine kinase and nonspecific myopathic changes without rimmed vacuoles.


Molecular Genetics

Because of the map location of TMD on 2q31, the gene encoding the giant skeletal muscle protein titin (188840) was a strong positional as well as functional candidate for the site of causative mutations. Hackman et al. (2002) demonstrated a heterozygous 11-bp deletion/insertion in the last exon (exon 363) of the TTN gene (188840.0004) as the cause of TMD in 81 Finnish patients from 12 unrelated families. One of the families with the 11-bp deletion was the large Finnish family reported by Udd et al. (1992). A different mutation in the TTN gene, a missense mutation that was also located in the last exon (188840.0005), was identified in an affected French family.


REFERENCES

  1. de Seze, J., Udd, B., Haravuori, H., Sablonniere, B., Maurage, C. A., Hurtevent, J. F., Boutry, N., Stojkovic, T., Schraen, S., Petit, H., Vermersch, P. The first European family with tibial muscular dystrophy outside the Finnish population. Neurology 51: 1746-1748, 1998. [PubMed: 9855539, related citations] [Full Text]

  2. Felice, K. J., Meredith, C., Binz, N., Butler, A., Jacob, R., Akkari, P., Hallmayer, J., Laing, N. Autosomal dominant distal myopathy not linked to the known distal myopathy loci. Neuromusc. Disord. 9: 59-65, 1999. [PubMed: 10220859, related citations] [Full Text]

  3. Hackman, P., Vihola, A., Haravuori, H., Marchand, S., Sarparanta, J., de Seze, J., Labeit, S., Witt, C., Peltonen, L., Richard, I., Udd, B. Tibial muscular dystrophy is a titinopathy caused by mutations in TTN, the gene encoding the giant skeletal-muscle protein titin. Am. J. Hum. Genet. 71: 492-500, 2002. [PubMed: 12145747, images, related citations] [Full Text]

  4. Haravuori, H., Makela-Bengs, P., Udd, B., Partanen, J., Pulkkinen, L., Somer, H., Peltonen, L. Assignment of the tibial muscular dystrophy locus to chromosome 2q31. Am. J. Hum. Genet. 62: 620-626, 1998. [PubMed: 9497249, related citations] [Full Text]

  5. Haravuori, H., Makela-Bengs, P., Udd, B., Pulkkinen, L., Partanen, J., Somer, H., Peltonen, L. Assignment of the tibial muscular dystrophy (TMD) locus on chromosome 2q31. (Abstract) Am. J. Hum. Genet. 61 (suppl.): A29 only, 1997.

  6. Miyoshi, K., Kawai, H., Isawa, M., Kusaka, K., Nishino, H. Autosomal recessive distal muscular dystrophy as a new type of progressive muscular dystrophy: seventeen cases in eight families including an autopsied case. Brain 109: 31-54, 1986. [PubMed: 3942856, related citations] [Full Text]

  7. Partanen, J., Laulumaa, V., Paljarvi, L., Partanen, K., Naukkarinen, A. Late onset foot-drop muscular dystrophy with rimmed vacuoles. J. Neurol. Sci. 125: 158-167, 1994. [PubMed: 7807161, related citations] [Full Text]

  8. Sadeh, M., Gadoth, N., Hadar, H., Ben-David, E. Vacuolar myopathy sparing the quadriceps. Brain 116: 217-232, 1993. [PubMed: 8453459, related citations] [Full Text]

  9. Sunohara, N., Nonaka, I., Kamei, N., Satoyoshi, E. Distal myopathy with rimmed vacuole formation: a follow-up study. Brain 112: 65-83, 1989. [PubMed: 2645018, related citations] [Full Text]

  10. Udd, B., Kaarianen, H., Somer, H. Muscular dystrophy with separate clinical phenotypes in a large family. Muscle Nerve 14: 1050-1058, 1991. [PubMed: 1745277, related citations] [Full Text]

  11. Udd, B., Partanen, J., Halonen, P., Falck, B., Hakamies, L., Heikkila, H., Ingo, S., Kalimo, H., Kaariainen, H., Laulumaa, V., Paljarvi, L., Rapola, J., Reunanen, M., Sonninen, V., Somer, H. Tibial muscular dystrophy: late adult-onset distal myopathy in 66 Finnish patients. Arch. Neurol. 50: 604-608, 1993. [PubMed: 8503797, related citations] [Full Text]

  12. Udd, B., Rapola, J., Nokelainen, P., Arikawa, E., Somer, H. Nonvacuolar myopathy in a large family with both late adult onset distal myopathy and severe proximal muscular dystrophy. J. Neurol. Sci. 113: 214-221, 1992. [PubMed: 1487757, related citations] [Full Text]

  13. Udd, B. Limb-girdle type muscular dystrophy in a large family with distal myopathy: homozygous manifestation of a dominant gene? J. Med. Genet. 29: 383-389, 1992. [PubMed: 1619633, related citations] [Full Text]

  14. Udd, B. Personal Communication. Vasa, Finland 10/31/1997.

  15. Van den Bergh, P. Y. K., Bouquiaux, O., Verellen, C., Marchand, S., Richard, I., Hackman, P., Udd, B. Tibial muscular dystrophy in a Belgian family. Ann. Neurol. 54: 248-251, 2003. [PubMed: 12891679, related citations] [Full Text]


Contributors:
Victor A. McKusick - updated : 9/17/2002
Victor A. McKusick - updated : 6/3/1999
Victor A. McKusick - updated : 5/7/1998
Victor A. McKusick - updated : 11/13/1997
Victor A. McKusick - updated : 10/22/1997
Creation Date:
Victor A. McKusick : 1/23/1995
Edit History:
alopez : 11/09/2023
carol : 03/23/2023
ckniffin : 03/22/2023
carol : 03/21/2023
ckniffin : 03/20/2023
carol : 06/21/2016
carol : 6/20/2016
carol : 7/28/2004
ckniffin : 7/20/2004
carol : 12/29/2003
ckniffin : 12/24/2003
alopez : 9/18/2002
carol : 9/17/2002
mgross : 4/5/2001
mgross : 1/24/2000
kayiaros : 7/13/1999
carol : 6/15/1999
jlewis : 6/15/1999
jlewis : 6/14/1999
terry : 6/3/1999
terry : 8/5/1998
terry : 8/5/1998
terry : 5/7/1998
jenny : 11/18/1997
terry : 11/13/1997
terry : 10/28/1997
jenny : 10/28/1997
jenny : 10/28/1997
jenny : 10/27/1997
terry : 10/22/1997
mimadm : 9/23/1995
carol : 1/31/1995
carol : 1/27/1995
carol : 1/24/1995
carol : 1/23/1995

# 600334

TIBIAL MUSCULAR DYSTROPHY, TARDIVE; TMD


Alternative titles; symbols

TARDIVE TIBIAL MUSCULAR DYSTROPHY
UDD MYOPATHY


SNOMEDCT: 698846009;   ORPHA: 609;   DO: 0111078;  


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
2q31.2 Tibial muscular dystrophy, tardive 600334 Autosomal dominant 3 TTN 188840

TEXT

A number sign (#) is used with this entry because of evidence that tibial muscular dystrophy (TMD) is caused by heterozygous mutation in the gene encoding the giant skeletal muscle protein titin (TTN; 188840) on chromosome 2q31.

Homozygous mutation in the titin gene causes the more severe limb-girdle muscular dystrophy type 2J (LGMD2J; 608807).

Description

Tardive tibial muscular dystrophy (TMD) is an autosomal dominant late-onset myopathy in which weakness and atrophy are usually confined to the anterior compartment of the lower leg, in particular, the tibialis anterior muscle. Onset usually occurs at ages 35 to 45 years, but can be later (summary by Hackman et al., 2002).


Clinical Features

Udd (1992) reported a large consanguineous Finnish pedigree with 2 separate muscle disease phenotypes: mild late-onset distal myopathy inherited in an autosomal dominant pattern and severe limb-girdle muscular dystrophy (see LGMD2J) inherited in an autosomal recessive pattern. Segregation analysis showed that the corrected proportion of affected persons with the severe proximal type was 0.246 and the proportion of affected persons with the distal myopathy was 0.58. The findings were compatible with the hypothesis that the severe LGMD phenotype was the homozygous manifestation of a dominant gene that in the heterozygous state caused the milder distal myopathy. Udd et al. (1992), who referred to the distal myopathy as 'tibial muscular dystrophy,' reported follow-up on the large affected Finnish pedigree.

Partanen et al. (1994) studied a family with very late-onset (fifth or sixth decade) or asymptomatic hereditary myopathy of the anterior tibial muscle. The muscles of the upper extremity were spared. The anterior tibial muscles had a characteristic myopathic alteration with rimmed vacuoles. Twelve persons, both male and female, were affected, and male-to-male transmission was demonstrated.

Partanen et al. (1994) distinguished 6 types of distal myopathy: (1) Welander myopathy; (2) a late-onset autosomal dominant form with onset in the anterior compartment of the legs; (3) an early adult-onset recessive or sporadic form with onset in the anterior compartment of the legs with vacuolar myopathy on biopsy (Sunohara et al., 1989); (4) an early adult-onset recessive distal myopathy of the posterior compartment of the legs (Miyoshi et al., 1986; 254130); (5) an autosomal recessive vacuolar myopathy sparing the quadriceps (Sadeh et al., 1993; 605820); and (6) a late-onset autosomal dominant tibial dystrophy as described by Udd et al. (1991, 1992) and Udd (1992).

Udd et al. (1993) investigated 66 Finnish patients with late adult-onset tibial muscular dystrophy. Symptoms appeared after the age of 35 years with reduced ankle dorsiflexion, and progression was slow without marked disability. Facial muscles, upper extremities, and proximal muscles were usually spared. Pedigree data suggested autosomal dominant inheritance. The clinical studies suggested homogeneity in the various families affected with this rather frequent disorder in Finns.

Van den Bergh et al. (2003) reported a Belgian family with tibial muscular dystrophy. The proband had onset of gait difficulties in his late 40s, and clinical examination showed steppage gait and weakness and atrophy of the anterior compartment muscles of the lower legs without proximal weakness or sensory loss. CT scan of the lower leg muscles showed marked atrophy and low density, suggestive of fatty degeneration. Family investigation revealed that the proband's father, a paternal uncle, and one of his daughters had mild tibialis anterior weakness and atrophy, although all were asymptomatic. In affected members of the family, Van den Bergh et al. (2003) identified a heterozygous mutation in the Mex6 exon of the titin gene (188840.0006). The authors noted that the family showed incomplete disease penetrance.

Pathologic Findings

In 12 affected members of a large Finnish pedigree with distal myopathy, Udd et al. (1992) found that muscle biopsy did not show vacuolar degeneration, which was in contrast to most adult-onset distal myopathies. Histopathologic changes correlating with the muscular dystrophy were extensive in tibial anterior muscles in patients with distal myopathy and in all muscles of those family members who had a severe limb-girdle muscular dystrophy phenotype.

Among 66 Finnish patients with TMD, Udd et al. (1993) found that muscle biopsies showed nonspecific dystrophic changes in clinically affected muscles and severe adipose replacement in the anterior tibial muscles. Asymptomatic muscles had mild myopathic changes only. Vacuolar degeneration was detected in a minority of patients. Electromyography showed profound myopathic changes in the anterior tibial muscle, but extensor brevis muscles were well preserved. Computed tomography or magnetic resonance imaging of muscles disclosed marked involvement of tibial extensor muscles and focal patches of fatty degeneration in various asymptomatic muscles.

In tibial muscular dystrophy, some biopsies showed rimmed vacuoles and others did not. Udd (1997) concluded that the presence or absence of rimmed vacuoles was not indicative of heterogeneity because there was intrafamilial variation and families with or without rimmed vacuoles were shown to be genealogically linked.

Mapping

In a Finnish tibial muscular dystrophy family with 11 affected individuals, Haravuori et al. (1997, 1998) found a region of interest on 2q by a genomewide scan with microsatellite markers. Further analyses with additional family members and additional families, 1 of whom was the large Finnish family reported by Udd et al. (1992), yielded a maximum 2-point lod score of 10.14 at theta = 0.05 with marker D2S364. Multipoint likelihood calculations assigned the TMD locus to the proximity of marker D2S324 with a maximum multipoint lod score of 12.4 at theta = 0.0. Haplotype analysis revealed the same core haplotype in all analyzed families, thus providing evidence for an ancestral mutation and further restricting the critical chromosomal region to about 1 cM. The location of the locus was determined to be 2q31 (Udd, 1997; Haravuori et al., 1998).

De Seze et al. (1998) described a French family with TMD and confirmed the linkage to 2q31 with a different haplotype for linked markers.


Heterogeneity

Genetic Heterogeneity

Felice et al. (1999) reported a family with autosomal dominant distal myopathy spanning 4 generations in whom linkage to Nonaka distal myopathy (605820) on 9p, MPD1 (160500) on 14q, Miyoshi myopathy on 2p13, and TMD on 2q31 was excluded. Clinical features included onset in the second to third decade of foot drop, difficulty in stair climbing, and progressive leg weakness. Some had later involvement of proximal lower limb muscles and distal upper limb muscles. Laboratory studies showed increased serum creatine kinase and nonspecific myopathic changes without rimmed vacuoles.


Molecular Genetics

Because of the map location of TMD on 2q31, the gene encoding the giant skeletal muscle protein titin (188840) was a strong positional as well as functional candidate for the site of causative mutations. Hackman et al. (2002) demonstrated a heterozygous 11-bp deletion/insertion in the last exon (exon 363) of the TTN gene (188840.0004) as the cause of TMD in 81 Finnish patients from 12 unrelated families. One of the families with the 11-bp deletion was the large Finnish family reported by Udd et al. (1992). A different mutation in the TTN gene, a missense mutation that was also located in the last exon (188840.0005), was identified in an affected French family.


REFERENCES

  1. de Seze, J., Udd, B., Haravuori, H., Sablonniere, B., Maurage, C. A., Hurtevent, J. F., Boutry, N., Stojkovic, T., Schraen, S., Petit, H., Vermersch, P. The first European family with tibial muscular dystrophy outside the Finnish population. Neurology 51: 1746-1748, 1998. [PubMed: 9855539] [Full Text: https://doi.org/10.1212/wnl.51.6.1746]

  2. Felice, K. J., Meredith, C., Binz, N., Butler, A., Jacob, R., Akkari, P., Hallmayer, J., Laing, N. Autosomal dominant distal myopathy not linked to the known distal myopathy loci. Neuromusc. Disord. 9: 59-65, 1999. [PubMed: 10220859] [Full Text: https://doi.org/10.1016/s0960-8966(98)00099-6]

  3. Hackman, P., Vihola, A., Haravuori, H., Marchand, S., Sarparanta, J., de Seze, J., Labeit, S., Witt, C., Peltonen, L., Richard, I., Udd, B. Tibial muscular dystrophy is a titinopathy caused by mutations in TTN, the gene encoding the giant skeletal-muscle protein titin. Am. J. Hum. Genet. 71: 492-500, 2002. [PubMed: 12145747] [Full Text: https://doi.org/10.1086/342380]

  4. Haravuori, H., Makela-Bengs, P., Udd, B., Partanen, J., Pulkkinen, L., Somer, H., Peltonen, L. Assignment of the tibial muscular dystrophy locus to chromosome 2q31. Am. J. Hum. Genet. 62: 620-626, 1998. [PubMed: 9497249] [Full Text: https://doi.org/10.1086/301752]

  5. Haravuori, H., Makela-Bengs, P., Udd, B., Pulkkinen, L., Partanen, J., Somer, H., Peltonen, L. Assignment of the tibial muscular dystrophy (TMD) locus on chromosome 2q31. (Abstract) Am. J. Hum. Genet. 61 (suppl.): A29 only, 1997.

  6. Miyoshi, K., Kawai, H., Isawa, M., Kusaka, K., Nishino, H. Autosomal recessive distal muscular dystrophy as a new type of progressive muscular dystrophy: seventeen cases in eight families including an autopsied case. Brain 109: 31-54, 1986. [PubMed: 3942856] [Full Text: https://doi.org/10.1093/brain/109.1.31]

  7. Partanen, J., Laulumaa, V., Paljarvi, L., Partanen, K., Naukkarinen, A. Late onset foot-drop muscular dystrophy with rimmed vacuoles. J. Neurol. Sci. 125: 158-167, 1994. [PubMed: 7807161] [Full Text: https://doi.org/10.1016/0022-510x(94)90029-9]

  8. Sadeh, M., Gadoth, N., Hadar, H., Ben-David, E. Vacuolar myopathy sparing the quadriceps. Brain 116: 217-232, 1993. [PubMed: 8453459] [Full Text: https://doi.org/10.1093/brain/116.1.217]

  9. Sunohara, N., Nonaka, I., Kamei, N., Satoyoshi, E. Distal myopathy with rimmed vacuole formation: a follow-up study. Brain 112: 65-83, 1989. [PubMed: 2645018] [Full Text: https://doi.org/10.1093/brain/112.1.65]

  10. Udd, B., Kaarianen, H., Somer, H. Muscular dystrophy with separate clinical phenotypes in a large family. Muscle Nerve 14: 1050-1058, 1991. [PubMed: 1745277] [Full Text: https://doi.org/10.1002/mus.880141103]

  11. Udd, B., Partanen, J., Halonen, P., Falck, B., Hakamies, L., Heikkila, H., Ingo, S., Kalimo, H., Kaariainen, H., Laulumaa, V., Paljarvi, L., Rapola, J., Reunanen, M., Sonninen, V., Somer, H. Tibial muscular dystrophy: late adult-onset distal myopathy in 66 Finnish patients. Arch. Neurol. 50: 604-608, 1993. [PubMed: 8503797] [Full Text: https://doi.org/10.1001/archneur.1993.00540060044015]

  12. Udd, B., Rapola, J., Nokelainen, P., Arikawa, E., Somer, H. Nonvacuolar myopathy in a large family with both late adult onset distal myopathy and severe proximal muscular dystrophy. J. Neurol. Sci. 113: 214-221, 1992. [PubMed: 1487757] [Full Text: https://doi.org/10.1016/0022-510x(92)90249-k]

  13. Udd, B. Limb-girdle type muscular dystrophy in a large family with distal myopathy: homozygous manifestation of a dominant gene? J. Med. Genet. 29: 383-389, 1992. [PubMed: 1619633] [Full Text: https://doi.org/10.1136/jmg.29.6.383]

  14. Udd, B. Personal Communication. Vasa, Finland 10/31/1997.

  15. Van den Bergh, P. Y. K., Bouquiaux, O., Verellen, C., Marchand, S., Richard, I., Hackman, P., Udd, B. Tibial muscular dystrophy in a Belgian family. Ann. Neurol. 54: 248-251, 2003. [PubMed: 12891679] [Full Text: https://doi.org/10.1002/ana.10647]


Contributors:
Victor A. McKusick - updated : 9/17/2002
Victor A. McKusick - updated : 6/3/1999
Victor A. McKusick - updated : 5/7/1998
Victor A. McKusick - updated : 11/13/1997
Victor A. McKusick - updated : 10/22/1997

Creation Date:
Victor A. McKusick : 1/23/1995

Edit History:
alopez : 11/09/2023
carol : 03/23/2023
ckniffin : 03/22/2023
carol : 03/21/2023
ckniffin : 03/20/2023
carol : 06/21/2016
carol : 6/20/2016
carol : 7/28/2004
ckniffin : 7/20/2004
carol : 12/29/2003
ckniffin : 12/24/2003
alopez : 9/18/2002
carol : 9/17/2002
mgross : 4/5/2001
mgross : 1/24/2000
kayiaros : 7/13/1999
carol : 6/15/1999
jlewis : 6/15/1999
jlewis : 6/14/1999
terry : 6/3/1999
terry : 8/5/1998
terry : 8/5/1998
terry : 5/7/1998
jenny : 11/18/1997
terry : 11/13/1997
terry : 10/28/1997
jenny : 10/28/1997
jenny : 10/28/1997
jenny : 10/27/1997
terry : 10/22/1997
mimadm : 9/23/1995
carol : 1/31/1995
carol : 1/27/1995
carol : 1/24/1995
carol : 1/23/1995



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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: April 29, 2024