Pierre Robin sequence and hyperphalangy--a genetic entity (Catel-Manzke syndrome)

Mutations in TGDS associated with additional malformations of the middle fingers and halluces: Atypical Catel-Manzke syndrome in a fetus

Pierre-Robin sequence, radial deviation, and ulnar clinodactyly of the index fingers due to an additional phalangeal bone, as well as heart defects are the key features of Catel-Manzke syndrome. Although mutations in TGDS were identified as the cause of this disorder, the pathogenetic mechanism remains unknown. Here, we report on a fetus with severe heart defect, nuchal edema, talipes, Pierre-Robin sequence, and bilateral deviation and clinodactyly of the index and middle fingers. Pregnancy was terminated at the 22nd week of gestation. Postmortem radiographs showed hypoplasia and V-shaped displacement of the second and third proximal phalanges of both hands as well as hypoplasia of the first metatarsals and the phalangeal bones of the halluces. The suggested diagnosis Catel-Manzke syndrome was confirmed by the detection of two compound heterozygous mutations in TGDS: The known variant c.298G>T; p.(Ala100Ser) and the so far undescribed variant c.895G>A; p.(Asp299Asn), located in the predicted substrate binding site of TGDS. This is the first report on the association of mutations in TGDS with additional anomalies of the middle fingers and halluces. We provide a detailed phenotypic characterization of the only fetus with molecularly confirmed Catel-Manzke syndrome, which is relevant for prenatal diagnosis. Our findings widen the phenotype spectrum caused by TGDS mutations and underline the phenotypic overlap with Temtamy preaxial brachydactyly syndrome. This improves our understanding of the prenatal development and the pathogenetic mechanism of Catel-Manzke syndrome.

Homozygous and compound-heterozygous mutations in TGDS cause Catel-Manzke syndrome

Catel-Manzke syndrome is characterized by Pierre Robin sequence and a unique form of bilateral hyperphalangy causing a clinodactyly of the index finger. We describe the identification of homozygous and compound heterozygous mutations in TGDS in seven unrelated individuals with typical Catel-Manzke syndrome by exome sequencing. Six different TGDS mutations were detected: c.892A>G (p.Asn298Asp), c.270_271del (p.Lys91Asnfs(∗)22), c.298G>T (p.Ala100Ser), c.294T>G (p.Phe98Leu), c.269A>G (p.Glu90Gly), and c.700T>C (p.Tyr234His), all predicted to be disease causing. By using haplotype reconstruction we showed that the mutation c.298G>T is probably a founder mutation. Due to the spectrum of the amino acid changes, we suggest that loss of function in TGDS is the underlying mechanism of Catel-Manzke syndrome. TGDS (dTDP-D-glucose 4,6-dehydrogenase) is a conserved protein belonging to the SDR family and probably plays a role in nucleotide sugar metabolism.

A distinct autosomal recessive disorder of limb development with preaxial brachydactyly, phalangeal duplication, symphalangism and hyperphalangism

We describe four children from two consanguineous families with distinctive hand and foot anomalies including preaxial brachydactyly, together with phalangeal duplication, symphalangism and hyperphalangism of fingers I-III. These anomalies are remarkably similar to those described in a previous case report. Additional features were noted both in this case and, to variable degrees, in the four children reported here. These included sensorineural deafness, optic atrophy, mild facial dysmorphism, orodental anomalies and developmental delay. Autosomal recessive inheritance was previously suggested as the patient had a similarly affected brother and his parents were consanguineous. These four cases provide additional evidence for a novel, autosomal recessive disorder involving limb and other associated anomalies.

Catel???Manzke syndrome without cleft palate: a case report

We report a boy who presented with mild facial dysmorphism, pectus excavatum, bilateral brachydactyly and ulnar deviation of both index fingers. Radiological examination of the hands showed abnormal proximal phalanges of the second digits. This case differs from the classical Catel-Manzke syndrome in having isolated hand malformations without any other malformations such as cleft palate or cardiac abnormalities.

Choledochal cyst associated with rare hand malformation

We report on an 8-year-old boy with choledochal cyst associated with most unusual hand malformation. Review of the literature and possible etiopathogenesis are discussed.

Index finger hyperphalangy and multiple anomalies: Catel-Manzke syndrome?

We describe a boy with short stature, developmental delay, unusual face, right iris coloboma, malformed ears, micrognathia, and skeletal anomalies including hyperphalangy of the index fingers, bilateral fifth finger clinodactyly, short halluces, and scoliosis. Internal anomalies included asymmetric and dilated cerebral ventricles and ventricular septal defect. The neonatal history of small jaw with feeding and respiratory difficulties suggested a Pierre Robin sequence, but there was no cleft palate. Two maternal uncles with similar anomalies had died at ages 13 months and 5 years, respectively. RFLP studies with the DNA probes DXS72 and F8C were consistent with but not diagnostic of X-linked recessive inheritance. The pattern of anomalies was compatible with a diagnosis of Catel-Manzke syndrome, but a novel dysostosis syndrome must also be considered.

Hyperphalangism, facial anomalies, hallux valgus, and bronchomalacia: a new syndrome?

We report on a boy with hyperphalangism, partial syndactyly, facial anomalies, and diffuse bronchomalacia, born to a nonconsanguineous French-Canadian couple. To our knowledge, this is a hitherto undescribed syndrome.

Hyperphalangeal bones induced in rat pups by maternal treatment with nifedipine

Hyperphalangeal bones were found in postnatal rat pups of mothers treated with nifedipine during pregnancy. The anomaly occurred only at the region between the middle and distal phalanges of the 3rd and 4th fingers and toes. The critical periods of the anomaly were days 13 and 14 of pregnancy for the fingers, and days 14 and 15 of pregnancy for the toes. The incidences were dose-related, being more than 90% in both fingers and toes at a single dose of 150 mg/kg, and even more marked at the 4th digits than at the 3rd digits. Neither right/left difference nor sex difference was manifested in the incidence of the anomaly.

Robin sequence and oligodactyly in mother and son

A combination of the Robin sequence with pre- and postaxial oligodactyly was observed in a mother and her son. This familial association has not been reported before and probably represents a previously unrecognized heritable malformation syndrome.