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OBJECTIVE
Recent studies have shown increased rates of speech, language, cognitive and behavioral abnormalities in patients with isolated nonsyndromic sagittal synostosis. Little is known regarding the prevalence and type of hearing abnormalities in children with craniosynotosis. This study
A 4-generation family with multiple synostoses syndrome type 4 (SYNS4) is reported, the third family identified so far. The phenotype segregated with a previously undescribed Asn399Lys (c.1197C>A) substitution in GDF6. N399 is part of a hydrophobic pocket critical for binding the BMP/GDF
We present the case of a mother and four children displaying signs of Multiple Synostosis Syndrome (SYNS1) associated with conductive hearing loss. The intra-familial phenotypic variation is due to variable penetrance, which is typical of this syndrome. The child with the most significant hearing
BACKGROUND
Limb development is a complex process requiring proper spatio-temporal expression of a network of limb specific morphogens. Grem1 and Fmn1 play an important role in mouse and chick limb development. The mouse limb deformity (ld) phenotype with digit reduction, syndactyly, radio-ulnar
Multiple synostosis syndrome (SYNS) is an autosomal dominant skeletal disorder characterized by facial dysmorphism, progressive fusion of multiple joints, and conductive hearing loss. Currently, three genes, NOG, GDF5, and FGF9, have been identified as causative of SYNS. However, due to the
Conductive hearing loss occurs when sound waves are not relayed efficiently to the inner ear. Mutations of the NOGGIN (NOG) gene in humans are associated with several autosomal dominant disorders such as proximal symphalangism and multiple synostoses. These syndromes are characterized by skeletal
BACKGROUND
Genitopatellar syndrome is characterized by absent/hypoplastic patellae, genital and renal abnormalities, dysmorphic facial features, and mental retardation. Cardiac anomalies, ectodermal dysplasia, and radio-ulnar synostosis have been suggested as additional features.
CONCLUSIONS
We
A mutation in GDF6 was recently found to underlie a multiple synostoses syndrome. In this report, we describe the second family with GDF6-related multiple synostoses syndrome (SYNS4), caused by a novel c.1287C>A/p.Ser429Arg mutation in GDF6. In addition to synostoses of carpal and/or tarsal bones,
The Saethre-Chotzen syndrome (SCS) is an autosomal dominant craniosynostosis syndrome with uni- or bilateral coronal synostosis and mild limb deformities. It is caused by loss-of-function mutations of the TWIST 1 gene. In an attempt to delineate functional features separating SCS from Muenke's
Spondylocarpotarsal synostosis syndrome is characterized by autosomal recessive inheritance, failure of normal spinal segmentation causing symmetrical block vertebrae or scoliosis, and lordosis. There is a disproportionately short trunk. Some patients have a unilateral unsegmented bar. Other
A young man was found to have multiple synostosis syndrome type I after presenting with a neck injury causing a cervical spinal cord contusion. Neurological symptoms and signs suggested spinal cord compression. Magnetic resonance (MR) and computerized tomography (CT) imaging of the spine showed
Spondylocarpotarsal synostosis syndrome (SCT) (OMIM 272460), originally thought to be a failure of normal spine segmentation, is characterized by progressive fusion of vertebras and associates unsegmented bars, scoliosis, short stature, carpal and tarsal synostosis. Cleft palate, sensorineural or
Multiple synostoses syndrome (SYNS1; OMIM# 186500) is a rare autosomal dominant disorder reported in a few cases worldwide. We report a Chinese pedigree characterized by proximal symphalangism, conductive hearing loss, and distinctive facies. We examined the genetic cause and reviewed the literature