Cases reported "Acrocephalosyndactylia"

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1/12. Ocular anterior chamber dysgenesis in craniosynostosis syndromes with a fibroblast growth factor receptor 2 mutation.

    Fibroblast growth factor receptor (FGFR) mutations have been found in craniosynostosis syndromes with and without limb and/or dermatologic anomalies. Ocular manifestations of FGFR2 syndromes are reported to include shallow orbits, proptosis, strabismus, and hypertelorism, but no ocular anterior chamber, structural abnormalities have been reported until now. We evaluated three unrelated patients with severe Crouzon or Pfeiffer syndrome. Two of them had ocular findings consistent with Peters anomaly, and the third patient had opaque corneae, thickened irides and ciliary bodies, and shallow anterior chambers with occluded angles. Craniosynostosis with and without cloverleaf skull deformity, large anterior fontanelle, hydrocephalus, proptosis, depressed nasal bridge, choanal stenosis/ atresia, midface hypoplasia, and elbow contractures were also present. These patients had airway compromise, seizures, and two died by age 15 months. All three cases were found to have the same FGFR2 Ser351Cys (1231C to G) mutation predicted to form an aberrant disulfide bond(s) and affect ligand binding. Seven patients with isolated Peters anomaly, two patients with Peters plus syndrome, and three cases with typical Antley-Bixler syndrome were screened for this mutation, but none was found. These phenotype/genotype data demonstrate that FGFR2 is involved in the development of the anterior chamber of the eye and that the Ser351Cys mutation is associated with a severe phenotype and clinical course.
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2/12. Severe and mild phenotypes in Pfeiffer syndrome with splice acceptor mutations in exon IIIc of FGFR2.

    Pfeiffer syndrome is clinically and genetically heterogeneous. Three clinical subtypes have been delineated based on the severity of acrocephalysyndactyly and associated manifestations. Severe cases are usually sporadic and caused by a number of different mutations in exons IIIa and IIIc of the fibroblast growth factor receptor 2 (FGFR2) gene. Mild cases are either sporadic or familial and are caused by mutations in FGFR2 or FGFR1, respectively. We report on two individuals with different novel de novo mutations in FGFR2. The first is a 17-year-old male who has a severe phenotype, within the spectrum of subtype 1 including severe ocular proptosis, elbow ankylosis, visceral anomalies, and normal intelligence. This patient was found to have a novel complex mutation at the 3' acceptor site of exon IIIc of FGFR2, denoted as C952-3 del10insACC. The other patient, a 2-year-old female, has a mild phenotype, typical of the classic subtype 1 including brachycephaly with coronal synostosis and hypertelorism. She was also found to have a mutation at the 3' acceptor site (the same splice site) of exon IIIc of FGFR2, a point mutation designated as 952-1G-->A. Speculation on the molecular mechanisms that cause severe and mild phenotypes is presented in relation to these two cases.
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3/12. Prenatal ultrasound diagnosis of a case of Pfeiffer syndrome without cloverleaf skull and review of the literature.

    Pfeiffer syndrome is characterized by bilateral coronal craniosynostosis, midface hypoplasia, beaked nasal tip, broad and medially deviated thumbs and great toes. Originally, it was described in eight persons from three generations in a pedigree consistent with an autosomal dominant transmission. Since then, several reports have documented its high clinical and genetic heterogeneity. The condition is usually detected in the newborn period or later, and very few prenatal ultrasound diagnoses have been reported. We present a case of Pfeiffer syndrome prenatally diagnosed at 20 weeks' gestation, in which the sonographic features of craniosynostosis, hypertelorism associated with an extreme proptosis, and broad thumb led to the diagnosis, confirmed after termination of pregnancy by dysmorphological, pathological and radiological evaluation. dna analysis of the fibroblast growth factor receptor 2 (FGFR2) showed a missense mutation consisting in a transversion G --> C at nucleotide 870. This led to a Trp290Cys amino acidic substitution.We discuss the relevant findings of our and previously published cases. Our report demonstrates that a careful sonographic examination can lead to an early prenatal diagnosis of Pfeiffer syndrome also in cases without cloverleaf skull.
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4/12. Subcranial facial bipartition osteotomy with glabellar reverse V-shaped and temporal approaches instead of the bicoronal approach.

    patients with Apert syndrome show hypertelorism and midfacial hypoplasia, and their features are significantly improved through facial bipartition surgery. In addition, because patients with Apert syndrome demonstrate cranial deformity as well as other deformities, they require multiple surgical interventions throughout their development. We present herein a girl with Apert syndrome for whom subcranial facial bipartition was performed. We could not use the coronal approach because she had a terribly cicatricial scalp and wide calvarial defects caused by previous cranial surgeries carried out at another institution. Therefore, we used the glabellar reverse V-shaped approach and temporal approaches in place of the standard approach. She enjoyed a complication-free intraoperative and postoperative course, and left the hospital on postoperative day 10. Her midfacial segment was repositioned 6 mm anteriorly and 12 mm inferiorly on the cephalometric measurement. Her interpupillary distance was altered from 83 mm preoperatively to 76 mm postoperatively. The reverse V-shaped glabellar approach permits more relaxation of the nasal skin and nasal augmentation that is more reliable, although an inconspicuous scar remains in the prominent area. The temporal approach is also useful, enabling easy zygomatic arch osteotomy and secure pterygo-maxillary separation for pterygo-maxillary separation through an oral approach, allowing chiseling toward the skull base.
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5/12. Clinical and radiographic presentation and preparation of the prototyping model for pre-surgical planning in Apert's syndrome.

    Acrocephalosyndactyly, or Apert's syndrome, described nearly a century ago, is a craniofacial dysostosis, an autosomal dominant condition characterized by severe development disturbances of the craniofacial region including bilateral coronal synostosis associated with midface hypoplasia, exophthalmia, hypertelorism, symmetric syndactyly of the hands and feet, cone-shaped calvarium, pharyngeal attenuation and malocclusion. The aim of this study was to assess clinical and computed tomography (CT) imaging patterns of a non-operated patient with Apert's syndrome, correlating the cranium, face and the skull base bone abnormalities. Three-dimensional images were generated from spiral CT scans in order to produce a prototyping model in polyamide material. Clinical examination determined that syndactyly of the hands and feet, pseudocleft in the midline palate and midface hypoplasia were present. The surgical model allowed the analysis of some abnormalities regarding to calvaria morphology, nasal bones and maxilla, improving the criteria for a case diagnosis and surgical plan.
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6/12. Further evidence of association between mutations in FGFR2 and syndromic craniosynostosis with sacrococcygeal eversion.

    BACKGROUND: Pfeiffer syndrome (PS; OMIM #101600) is an autosomal dominant disorder characterized by craniosynostosis, midface hypoplasia, broad thumbs, brachydactyly, broad great toes, and variable syndactyly. CASE: We report a case of PS (type 3) with tracheal and visceral involvement and sacrococcygeal eversion. The patient shows facial dysmorphism with macrocephaly, dolichocephaly, and trigonocephaly, and an asymmetric skull, bilateral and severe exophthalmia with shallow orbits and ocular hypertelorism, downslanting palpebral fissures, constant strabismus, short anterior cranial base, and midface hypoplasia. CONCLUSIONS: Molecular analysis of the FGFR2 gene in this patient revealed a point mutation (c.890G>C NM_000141). This mutation leads to the substitution of the residue tryptophan at position 290 to cysteine in the protein (p.Try290Cys). These data reinforce the hypothesis that the p.Trp290Cys mutation is more often associated with a severe and poor prognosis of PS. Furthermore they suggest that the presence of sacrococcygeal defects is not associated with any specific FGFR2 mutation.
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7/12. Acrocephalospondylosyndactyly--a possible new syndrome: analysis of the vertebral and intervertebral components.

    Apert-Crouzon syndrome (formerly ACS type 2; 10130) is now considered a subset of autosomal dominant Apert acrocephalosyndactyly type 1 (10120), with features of craniosynostoisis, syndactyly of all extremities, maxillary hypoplasia, "parrot-beaked" nose, hypertelorism, exophthalmos, external strabismus, and short upper lip. We report a 3 1/2-month-old infant with features of Apert syndrome, plus thoracic vertebral anomalies radiographically similar to those seen in spondylothoracic dysplasia, a condition in which block thoracic vertebrae with widely open neural arches and a fan-shaped thoracic cage are found. Our patient also had flared metaphyseal ends of humeri, dislocated radii with immobile elbows, an unusual tail-like protuberance in the coccygeal area, and a solid cartilaginous tracheal wall. To date, in ongoing reviews of radiographs of other patients with acrocephalosyndactyly or acrocephalopolysyndactyly complexes and of relevant literature, we have not identified other patients with these findings. The vertebrae and intervertebral discs of the patient in this report, three patients with Jarcho-Levin syndrome, and one with Apert syndrome were measured from anteroposterior chest radiographs; the findings clearly distinguish the condition in our patient from Jarcho-Levin syndrome or Apert syndrome.
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8/12. rehabilitation aspects of Apert's syndrome.

    Two children with the unusual condition known as Apert's syndrome are presented. Both have the typical manifestations of the syndrome: craniosynostosis, exorbitism, hypertelorism, maxillary hypoplasia, dental malocclusion, cleft palate, compound syndactyly of the hands and simple syndactyly of the feet. A review of the latest surgical procedures for correction of these defects is presented and the importance of early physical and social rehabilitation is stressed.
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9/12. The Saethre-Chotzen syndrome with partial bifid of the distal phalanges of the great toes. Observations of three cases in one family.

    The authors describe three cases of familial acrocephalosyndactyly (ACS) in two boys (9 and 3 years of age) and in their 7.5-year old sister. In addition, irregularities in skull and limbs were found in the 46-year old father as well as in two other children, i.e., two girls, 14 and 4 years of age. The mother (46 years-old) and the remaining four 4 boys (12-, 9-, and 7-years-old), as well as the youngest child, a son, 1-year-old) did not show any deviations. The diagnosis of the Saethre-Chotzen syndrome in six members of one family was based on the finding of a typical skull deformation (oxybrachycephalia), low hairline, flattened nasofrontal angle, lateral deviation of the nasal septum, facial dysmorphy, prolapse of upper eyelids, antimongoloid placement of palpebral fissures, protruding eyes, hypertelorism, dysmorphy of auricles, imperfect hearing, highly arched palate, improper dentition, and characteristic skin syndactyly of hands and feet. In addition, deformed chest, weight and height deficiency, significant mental retardation, as well as, in the boys, true cryptorchidism were found. Radiological examination showed, in all affected members of the family, intensified digitate impressions within the whole fornix of the skull, large and deep sella turcica, underdeveloped frontal bone and upper jaw bone, untypical syndactyly of hands and feet, and the partial bifid of distal phalanges of the great toes, not described previously in the Saethre-Chotzen syndrome. In the differential diagnosis, other forms of ACS, i.e., Apert, Vogt, Pfeiffer, Summitt, and Herrmann-Opitz syndromes, were not found. Manifestation of the described symptoms transferred autosomally, dominantly, and with a similar degree of expression in 6 of 11 members of one family, leads us to think that they are the consequence of a fresh mutation revealed in the father.
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10/12. Internal brain herniation in a patient with Apert's syndrome.

    patients with Apert's syndrome typically exhibit craniosynostosis, exorbitism, midface hypoplasia, and symmetric syndactyly. There have also been occasional descriptions of the variable dysmorphology of the inner surface of the calvarium. We present a patient with Apert's syndrome who had an intracranial herniation of a portion of the frontal lobe through a ridge of ossified dura. The ridge and the gliotic cortical tissue were removed when the patient underwent repair of the hypertelorism at age six. Bone grafts for this repair were fashioned in part from the resected ridge. We believe this finding may be the result of a small dural tear that occurred during prior surgery.
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