Familial progressive sinoatrial and atrioventricular conduction disease of adult onset with sudden death,dilated cardiomyopathy,and brachydactyly. A new type of heart-hand syndrome?

We identified a family with 10 affected members in four generations suffering from adult-onset progressive sinoatrial and atrioventricular conduction disease, sudden death due to ventricular tachyarrhythmia, dilated cardiomyopathy, and a unique type of brachydactyly with mild hand involvement (short distal, middle, proximal phalanges and clinodactyly) and more severe foot involvement (short distal, proximal phalanges and metatarsal bones, short or absent middle phalanges, terminal symphalangism, duplication of the bases of the second metatarsals, extra ossicles, and syndactyly). The phenotype differences from other reported genetic abnormalities and linkage exclusion of Holt-Oram syndrome, ulnar-mammary syndrome, brachydactyly type B or Robinow syndrome, and cardiac conduction disease or Brugada syndrome loci suggest that we report on a new hereditary heart-hand syndrome.     

Evaluation of candidate genes for familial brachydactyly.

Type A1 brachydactyly in humans is a recognisable syndrome characterised by shortening of the middle phalanx of all digits with occasional fusion of the middle and terminal phalanges. The purpose of this study was to evaluate candidate genes for type A1 brachydactyly in two families with multiple affected members. Several classes of genes have been implicated in the control of distal limb development including homeobox containing genes (MSX1, MSX2) some members of the homeobox gene family, and genes encoding growth factors of the FGF, TGF, and PDGF families. Homeobox (Hox) genes are a family of developmental control genes activated early in embryogenesis that encode positional information along the anterior-posterior body axis and specify distinct spatial domains within developing limbs. Growth factor genes can regulate the proliferation and differentiation of various embryonic structures including limb buds and have been shown to influence Hox gene expression. Candidate genes HOXD, MSX1, MSX2, FGF-1, and FGF-2 were excluded in one family. The brachydactyly type A1 gene or locus was not found in either of the two families studied.     

Family study of inherited syndrome with multiple congenital deformities: symphalangism, carpal and tarsal fusion, brachydactyly, craniosynostosis, strabismus, hip osteochondritis.

A syndrome of brachydactyly (absence of some middle or distal phalanges), aplastic or hypoplastic nails, symphalangism (ankylois of proximal interphalangeal joints), synostosis of some carpal and tarsal bones, craniosynostosis, and dysplastic hip joints is reported in five members of an Italian family. It may represent a previously undescribed autosomal dominant trait.     

De novo complete trisomy 5p: clinical and neuroradiological findings

A Thai mother and son with distal symphalangism and other associated abnormalities are reported. Distal and middle phalanges of fingers and toes 2-5 were either aplastic/hypoplastic or fused between the corresponding digits. The second fingers and fourth fingernails were most severely affected in both patients. The mother's hands were less severely affected; the middle and distal phalanges of her hands were malformed and fused. Besides the absence of fusion lines, the shape of the fused middle and distal phalanges was quite different from that of other types of fusion, i.e., fused bones in both patients did not maintain the normal configuration of bone, referring to as "middle-distal phalangeal complex". Distal symphalangism was observed in toes 2-5 of the mother and in toe 3 of the son. Both patients had additional clinical manifestations such as narrowing of the zygomatic arch, dental pulp stone, microdontia of a mandibular permanent central incisor, cone-shaped epiphyses of middle phalanges of fingers, and absence of scaphoid, trapezium, trapezoid, and pisiform bones. Mutation analysis of NOG and ROR2, the genes responsible for proximal symphalangism and brachydactyly type B, respectively, was negative.     

Brachydactyly type A1 with short humerus and associated skeletal features

We report on a three-generation family affected with an osteochondrodysplasia transmitted as an autosomal dominant trait. The phenotype consists of short humerus, curved radius with accessory ossification centre at the proximal third of ulna, variable short stature and brachydactyly, and has not been reported to the best of our knowledge. The brachydactyly falls into the brachydactyly A1 category (especially short 2nd, 4th, and 5th middle phalanges). A unique feature in one family member is triphalangeal thumbs. Vertebrae are normal. Mental development is normal and deafness is seen in some of the family members. A mutation was excluded by sequencing the entire coding regions of the IHH gene encoding the Indian Hedgehog protein and the GDF5 gene. This condition is a novel chondrodyplasia phenotype or possibly one end of the spectrum of the brachydactyly A1.     

Grebe chondrodysplasia and brachydactyly in a family

A family is reported in which various skeletal abnormalities have been segregating over three generations. The Great-grandfather (11) of the consultand had features consistent with Grebe chondrodysplasia. The other members of the family have brachydactyly, radiologically characterised by short first metacarpals and short middle phalanges of the index and little fingers. The possibility of association of familial brachydactyly and Grebe chondrodysplasia is discussed. An attempt has been made to deal with the genetic counselling problem in this particular family.     

De novo complete trisomy 5p: Clinical and neuroradiological findings

A Thai mother and son with distal symphalangism and other associated abnormalities are reported. Distal and middle phalanges of fingers and toes 2–5 were either aplastic/hypoplastic or fused between the corresponding digits. The second fingers and fourth fingernails were most severely affected in both patients. The mother's hands were less severely affected; the middle and distal phalanges of her hands were malformed and fused. Besides the absence of fusion lines, the shape of the fused middle and distal phalanges was quite different from that of other types of fusion, i.e., fused bones in both patients did not maintain the normal configuration of bone, referring to as “middle‐distal phalangeal complex”. Distal symphalangism was observed in toes 2–5 of the mother and in toe 3 of the son. Both patients had additional clinical manifestations such as narrowing of the zygomatic arch, dental pulp stone, microdontia of a mandibular permanent central incisor, cone‐shaped epiphyses of middle phalanges of fingers, and absence of scaphoid, trapezium, trapezoid, and pisiform bones. Mutation analysis of NOG and ROR2, the genes responsible for proximal symphalangism and brachydactyly type B, respectively, was negative. © 2002 Wiley‐Liss, Inc.     

Grebe syndrome: Clinical and radiographic findings in affected individuals and heterozygous carriers

Grebe syndrome is a recessively inherited acromesomelic dysplasia. We studied, clinically and radiographically, 10 affected individuals, originating from Bahia, Brazil. The phenotype is characterized by a normal axial skeleton and severely shortened and deformed limbs, with a proximo-distal gradient of severity. The humeri and femora were relatively normal, the radii/ulnae and tibiae/fibulae were short and deformed, carpal and tarsal bones were fused, and several metacarpal and metatarsal bones were absent. The proximal and middle phalanges of the fingers and toes were invariably absent, while the distal phalanges were present. Postaxial polydactyly was found in several affected individuals. Several joints of the carpus, tarsus, hand, and foot were absent. Heterozygotes presented with a variety of skeletal manifestations including polydactyly, brachydactyly, hallux valgus, and metatarsus adductus. Grebe syndrome is caused by a missense mutation in the gene encoding cartilage-derived morphogenetic protein-1. Am. J. Med. Genet. 75:523–529, 1998. © 1998 Wiley-Liss, Inc.     

Clinical and locus heterogeneity in brachydactyly type C

Brachydactyly type C is characterized by shortness of the second and fifth middle phalanges and the first metacarpal. It is inherited as an autosomal dominant trait, and is noted for its widely variable clinical phenotype both within and between families. In most families involvement is limited to the hands. However, in some families additional skeletal and non-skeletal findings have been reported. We report on 12 affected members from a 5 generation kindred that segregates a brachydactyly type C phenotype. All affected individuals had shortness principally affecting the second and fifth phalanges and first metacarpal. However, the metacarpal-phalangeal profile indicated that other digital elements were short as well. In addition, one affected individual had a bilateral Madelung deformity, but none had foot involvement. No other non-skeletal findings cosegregated with brachydactyly in this family. Recently, a gene for brachydactyly type C has been localized to 12q24. This was done by studying a large kindred first reported by Haws [1963], which manifests both hand and foot anomalies. Here we present linkage data which excludes the 12q24 locus in our kindred, indicating locus heterogeneity as one explanation for the interfamilial variability described in brachydactyly type C.     

Familial digital arthropathy‐brachydactyly

We report a large family with a previously undescribed, dominantly inherited condition comprising arthropathy of the hands and feet and progressive shortening of the middle and distal phalanges. We have designated the condition familial digital arthropathy‐brachydactyly (FDAB). Onset of FDAB is in the first decade and the arthropathy is progressive, resulting in deformity and pain in adult life. The remainder of the skeleton is not affected. It is hypothesized from the radiological appearance of patients at different ages that FDAB might result from subchondral pathology primarily affecting the heads of the phalanges, metacarpals, and metatarsals, with the arthropathy and brachydactyly being secondary effects. © 2002 Wiley‐Liss, Inc.     

Clinical and molecular analysis of Grebe acromesomelic dysplasia in an Omani family

Grebe syndrome is a rare autosomal recessive acromesomelic dysplasia. The syndrome was studied clinically, radiographically, and genetically in an Omani family with four affected children. The affected persons had normal axial skeletons, severely shortened, and deformed limbs with severity increasing in a proximo-distal gradient, and subluxated joints. The humeri and femora were hypoplastic with distal malformations. The radii/ulnae were shortened and deformed whereas carpal bones were invariably rudimentary or absent. The tibiae appeared rudimentary; fibulae were absent in two children, and some tarsal and metatarsal bones were absent. The proximal and middle phalanges were absent while the distal phalanges were present. The father and mother had short first metacarpal and middle phalynx of the fifth finger and hallux valgus respectively. Transition A1137G and deletion delG1144 mutations in the gene encoding the cartilage-derived morphogenetic protein-1 (CDMP-1) were identified in this family. The A1137G is a silent mutation coding for lysine, whereas the delG1144 predicts a frameshift mutation resulting in a presumable loss of the CDMP-1 biologically active carboxy-terminal domain. The affected siblings were homozygous for the delG1144 mutation while parents were heterozygous.     

Autosomal dominant onychodystrophy and anonychia with type B brachydactyly and ectrodactyly

A family is reported with nail dysplasia and/or absent nails, long and broad finger-like thumbs, camptodactyly and absent fingers. Radiological studies revealed hypoplasia of metacarpals, metatarsals and distal phalanges. Two affected individuals have absent metacarpals and phalanges. The clinical and radiological features may constitute a distinct syndrome of autosomal dominant onychodystrophy and anonychia with Julia Bell brachydactyly type B.     

Familial digital arthropathy-brachydactyly

We report a large family with a previously undescribed, dominantly inherited condition comprising arthropathy of the hands and feet and progressive shortening of the middle and distal phalanges. We have designated the condition familial digital arthropathy-brachydactyly (FDAB). Onset of FDAB is in the first decade and the arthropathy is progressive, resulting in deformity and pain in adult life. The remainder of the skeleton is not affected. It is hypothesized from the radiological appearance of patients at different ages that FDAB might result from subchondral pathology primarily affecting the heads of the phalanges, metacarpals, and metatarsals, with the arthropathy and brachydactyly being secondary effects.     

Brachydactylic multiple delta phalanges plus syndrome

Delta phalanges are unusual, shortened bones of the hands and feet with abnormal epiphyses and diaphyses. Here, we report on a patient with a unique multiple congenital anomaly syndrome that includes brachydactyly consisting of multiple delta phalanges in several digits of the hands and feet. The patient, who was born to consanguineous parents, had several other congenital anomalies, including butterfly vertebrae, craniofacial dysmorphism, and coarctation of the aorta. We have called this distinctive condition "brachydactylic multiple delta phalanges plus syndrome." Although no other member of the family had obvious hand or foot anomalies, several siblings had other malformations. Possible modes of inheritance in this family include variable expression of a recessive or de novo dominant condition.     

An autosomal dominant syndrome of short stature with mesomelic shortness of limbs, abnormal carpal and tarsal bones, hypoplastic middle phalanges, and bipartite calcanei

This paper describes seven persons in a family affected with an autosomal dominant syndrome of short stature with mesomelic shortness of upper and lower limbs, abnormal carpal and tarsal bones, hypoplastic or absent middle phalanges of hands and feet, and delayed coalescence of bipartite calcanei. All affected relatives are of normal intelligence, are free of eye problems, and have a normal skull, spine, shoulders, and hips. The digits of the hands and feet are short, broad, and angulated. The hypoplastic or absent middle phalanges effectively result in one interphalangeal joint for each digit, with decreased mobility. The bones of the carpus and tarsus coalesce with increasing age. None of the previously described syndromes or brachydactylies encompasses the findings noted in this kindred.     

New skeletal dysplasia with unique brachydactyly.

We report on 2 male propositi, their mothers, and a maternal aunt with a new skeletal dysplasia associated with a unique pattern of digital malformation, variable mild short stature, and mild bowleg with proximal overgrowth of the fibula. The digital malformations comprise a pattern of brachydactyly which includes short, abducted thumbs, short index fingers, and markedly short, abducted great toes. The radiographic findings include hypoplastic thumbs and great toes with short first metacarpals and first metatarsals, absent distal phalanges of the index fingers and second toes, and coalescence of the carpal and tarsal bones. Radiographs of the long bones show mild metaphyseal and epiphyseal irregularity, tibial spurs, and relative elongation of the fibulae. The males are very similarly affected whereas the females show phenotypic variation and are generally less severely affected. The family histories from 2 fairly extensive pedigrees suggest X-linked dominant inheritance.     

Brachydactyly type A-4 (Temtamy type) with short stature in a Japanese girl and her mother

We report on a Japanese girl and her mother with brachydactyly. Their 2nd and 5th middle phalanges were short and the latter was fused with the distal phalanx in one of the patients. Length and shape of proximal and distal phalanges as well as metacarpals seemed normal. These findings are consistent with brachydactyly type 4-A, which is a rare subtype and has not been adequately documented. Short stature was reported only in some cases of brachydactyly type A-1, A-6, C, and E, but not in the other subtypes. Our patients with type A-4 brachydactyly also had short stature. © 1993 Wiley-Liss, Inc.     

New skeletal dysplasia with unique brachydactyly

We report on 2 male propositi, their mothers, and a maternal aunt with a new skeletal dysplasia associated with a unique pattern of digital malformation, variable mild short stature, and mild bowleg with proximal overgrowth of the fibula. The digital malformations comprise a pattern of brachydactyly which includes short, abducted thumbs, short index fingers, and markedly short, abducted great toes. The radiographic findings include hypoplastic thumbs and great toes with short first metacarpals and first metatarsals, absent distal phalanges of the index fingers and second toes, and coalescence of the carpal and tarsal bones. Radiographs of the long bones show mild metaphyseal and epiphyseal irregularity, tibial spurs, and relative elongation of the fibulae. The males are very similarly affected whereas the females show phenotypic variation and are generally less severely affected. The family histories from 2 fairly extensive pedigrees suggest X-linked dominant inheritance.     

Classification and identification of inherited brachydactylies

A search for patterns of malformation in the brachydactylies has resulted in new ways to identify the different types. Type A-1 can be characterised by a proportionate reduction of the middle phalanges. Type B is thought to be an amputation-like defect. In type C the fourth middle phalanx is usually the longest, and type E (Riccardi and Holmes, 1974) is characterised by short metacarpals and short distal phalanges. Short stature is usually present in type A-1 and type E brachydactyly (Riccardi and Holmes, 1974) and it may be present in some individuals with brachydactyly C. As short children have short hands, it is possible that in patients with very mild expressions of brachydactyly the cause of the short stature may be overlooked. It is suggested that in every child with proportionate short stature the hands should be carefully examined. If the hands are disproportionately short, if any distal creases are missing, if there is a shortening, however mild, of any finger, if any metacarpals are short, then it is important to have -rays to look for brachydactyly A-1, C, or E.

Much information is still needed. It is important in future reports to have skeletal surveys, pattern profile analyses, and to note the height of children with brachydactyly C. Most interesting of all will be when fetal limbs of each type become available for study.

     

Reply to Seller and Bobrow

This paper describes seven persons in a family affected with an autosomal dominant syndrome of short stature with mesomelic shortness of upper and lower limbs, abnormal carpal and tarsal bones, hypoplastic or absent middle phalanges of hands and feet, and delayed coalescence of bipartite calcanei. All affected relatives are of normal intelligence, are free of eye problems, and have a normal skull, spine, shoulders, and hips. The digits of the hands and feet are short, broad, and angulated. The hypoplastic or absent middle phalanges effectively result in one interphalangeal joint for each digit, with decreased mobility. The bones of the carpus and tarsus coalesce with increasing age. None of the previously described syndromes or brachydactylies encompasses the findings noted in this kindred.