Trichorhinophalangeal syndrome type II associated with aplasia cutis congenita in a neonate.

Aplasia cutis congenita (ACC) was diagnosed in a newborn with dysmorphic facial features, oligodactyly of the bilateral feet, and hip instability. The neonate's clinical abnormalities in addition to genetic testing confirmed a diagnosis of trichorhinophalangeal syndrome (TRPS) type II. The possibility of concurrent Adams-Oliver syndrome (AOS) is raised.

Cardiac arrest in a patient with trichorhinophalangeal syndrome and dilated cardiomyopathy.

A 44-year-old woman with known trichorhinophalangeal syndrome presented with an unheralded out of hospital cardiac arrest. Transthoracic echocardiography showed severe left ventricular systolic dysfunction with an ejection fraction <25% and cardiac MRI confirmed a diagnosis of congenital non-ischaemic dilated cardiomyopathy. The case highlights a very rare syndrome, it is previously unknown association with dilated cardiomyopathy and the possible benefit of cardiac screening for patients with known trichorhinophalangeal syndrome.

Trps1 transcription factor regulates mineralization of dental tissues and proliferation of tooth organ cells.

Mutations of the TRPS1 gene cause trichorhinophalangeal syndrome (TRPS), a skeletal dysplasia with dental abnormalities. TRPS dental phenotypes suggest that TRPS1 regulates multiple aspects of odontogenesis, including the tooth number and size. Previous studies delineating Trps1 expression throughout embryonic tooth development in mice detected strong Trps1 expression in dental mesenchyme, preodontoblasts, and dental follicles, suggesting that TRPS dental phenotypes result from abnormalities in early developmental processes. In this study, Trps1+/- and Trps1-/- mice were analyzed to determine consequences of Trps1 deficiency on odontogenesis. We focused on the aspects of tooth formation that are disturbed in TRPS and on potential molecular abnormalities underlying TRPS dental phenotypes. Microcomputed tomography analyses of molars were used to determine tooth size, crown shape, and mineralization of dental tissues. These analyses uncovered that disruption of one Trps1 allele is sufficient to impair mineralization of dentin in both male and female mice. Enamel mineral density was decreased only in males, while mineralization of the root dental tissues was decreased only in females. In addition, significantly smaller teeth were detected in Trps1+/- females. Histomorphometric analyses of tooth organs showed reduced anterior-posterior diameter in Trps1-/- mice. BrdU-incorporation assay detected reduced proliferation of mesenchymal and epithelial cells in Trps1-/- tooth organs. Immunohistochemistry for Runx2 and Osx osteogenic transcription factors revealed changes in their spatial distribution in Trps1-/- tooth organs and uncovered cell-type specific requirements of Trps1 for Osx expression. In conclusion, this study has demonstrated that Trps1 is a positive regulator of cell proliferation in both dental mesenchyme and epithelium, suggesting that the microdontia in TRPS is likely due to decreased cell proliferation in developing tooth organs. Furthermore, the reduced mineralization observed in Trps1+/- mice may provide some explanation for the extensive dental caries reported in TRPS patients.

Non-ossifying fibroma with a pathologic fracture in a 12-year-old girl with tricho-rhino-phalangeal syndrome: a case report.

BACKGROUND: Tricho-rhino-phalangeal syndrome (TRPS) is a rare autosomal dominant genetic disorder characterized by distinctive craniofacial and skeletal abnormalities, while non-ossifying fibroma (NOF) is a common benign bone tumour in children and adolescents. To date, no case of TRPS coexisting with NOF has been reported. This report presents a 12-year-old girl who had the characteristic features of tricho-rhino-phalangeal syndrome and non-ossifying fibroma with a fibula fracture. CASE PRESENTATION: A 12-year-old girl was admitted to the Department of Endocrinology and Diabetes for evaluation of brachydactyly and a right fibula fracture. Clinical examination revealed sparse scalp hair, a characteristic bulbous pear-shaped nose, and brachydactyly with significant shortening of the fourth metatarsal. Neither intellectual disability nor multiple exostoses were observed. Radiography of both hands showed brachydactyly and cone-shaped epiphyses of the middle phalanges of the digits of both hands with deviation of the phalangeal axis. Genetic analysis of TRPS1 identified a heterozygous germline sequence variant (p.Ala932Thr) in exon 6 in the girl and her father. Approximately 1 month before being admitted to our department, the girl experienced a minor fall and suffered a fracture of the proximal fibula in the right lower limb. The pathological cytological diagnosis of the osteolytic lesion was NOF. Ten months following the surgery, the lesion on the proximal fibula of the girl disappeared. CONCLUSIONS: In conclusion, the present study is the first to report a rare case of NOF with a pathologic fracture in the fibula of a girl with TRPS. The identification of a missense mutation, (p.Ala932Thr), in exon 6 of TRPS1 in this kindred further suggested that the patient had type I TRPS and indicated that mutations in this exon may be correlated with more pronounced features of the syndrome. Radiological techniques and genetic analysis played key roles in the definitive diagnosis.

Niño con síndrome tricorrinofalángico tipo II acompañado de baja estatura / Triehorhinophalangeal syndrome type II presenting with short stature in a child

El síndrome tricorrinofalángico (STRF) tipo II (sinónimo: síndrome de Langer-Giedion) es un síndrome autosómico dominante raro que afecta genes adyacentes y que se produce como resultado de una microdeleción que abarca los genes EXTl y TRPSl en la banda 8q24 (OMIM 150230). En este síndrome se combinan características de dos trastornos autosómicos dominantes: el síndrome tricorrinofalángico tipo I (OMIM 190350) y la osteocondromatosis múltiple hereditaria tipo I (OMIM 133700). El STRF tipo II se caracteriza por escaso cabello, nariz prominente y de extremo bulboso, surco nasolabial plano y alargado, epífisis de las falanges en forma de cono, retraso de la edad ósea durante la infancia y osteocondromas cartilaginosos múltiples. En este artículo presentamos el caso de un paciente de Turquía con las características clínicas y los signos óseos del STRF tipo II en el que se detectó una deleción de 13,8 Mb en las bandas 8q23.1-8q24.13.

Trichorhinophalangeal syndrome type II (TRPSII) (synonym: Langer-Giedon syndrome) is a rare autosomal dominant contiguous gene syndrome, resulting from a microdeletion encompassing the EXT1 and the TRPS1 gene at 8q24 (MIM#150230). This syndrome combines the clinical features of two autosomal dominant disorders, trichorhinophalangeal syndrome type I (MIM#190350) and hereditary multiple osteochondromas type I (MIM # 133700). TRPSII is characterized by sparse scalp hair, a long nose with a bulbous tip, long flat philtrum, cone-shaped epiphyses of the phalanges, retarded bone age in infancy and multiple cartilaginous osteochondromas. We report a Turkish patient who had the clinical features and skeletal signs of TRPSII in whom a 13.8Mb deletion in 8q23.1- 8q24.13 was detected.

Trichorhinophalangeal syndrome type II presenting with short stature in a child. / Niño con síndrome tricorrinofalángico tipo II acompañado de baja estatura.

Trichorhinophalangeal syndrome type II (TRPSII) (synonym: Langer-Giedon syndrome) is a rare autosomal dominant contiguous gene syndrome, resulting from a microdeletion encompassing the EXT1 and the TRPS1 gene at 8q24 (MIM#150230). This syndrome combines the clinical features of two autosomal dominant disorders, trichorhinophalangeal syndrome type I (MIM#190350) and hereditary multiple osteochondromas type I (MIM # 133700). TRPSII is characterized by sparse scalp hair, a long nose with a bulbous tip, long flat philtrum, cone-shaped epiphyses of the phalanges, retarded bone age in infancy and multiple cartilaginous osteochondromas. We report a Turkish patient who had the clinical features and skeletal signs of TRPSII in whom a 13.8Mb deletion in 8q23.1- 8q24.13 was detected.

El síndrome tricorrinofalángico (STRF) tipo II (sinónimo: síndrome de Langer-Giedion) es un síndrome autosómico dominante raro que afecta genes adyacentes y que se produce como resultado de una microdeleción que abarca los genes EXTl y TRPSl en la banda 8q24 (OMIM 150230). En este síndrome se combinan características de dos trastornos autosómicos dominantes: el síndrome tricorrinofalángico tipo I (OMIM 190350) y la osteocondromatosis múltiple hereditaria tipo I (OMIM 133700). El STRF tipo II se caracteriza por escaso cabello, nariz prominente y de extremo bulboso, surco nasolabial plano y alargado, epífisis de las falanges en forma de cono, retraso de la edad ósea durante la infancia y osteocondromas cartilaginosos múltiples. En este artículo presentamos el caso de un paciente de Turquía con las características clínicas y los signos óseos del STRF tipo II en el que se detectó una deleción de 13,8 Mb en las bandas 8q23.1-8q24.13.

Síndrome Schinzel-Giedion: nueva mutación en SETBP1 / Schinzel-Giedion syndrome: A new mutation in SETBP1

El síndrome Schinzel-Giedion (SSG) (#MIM 269150) es una enfermedad genética infrecuente, caracterizada por dismorfia cráneo-facial específica, anomalías congénitas múltiples y discapacidad intelectual grave. La mayoría de los pacientes fallece en los primeros años de vida. Se debe a mutaciones en el gen SETBP1, habiéndose descrito a la fecha un reducido número de pacientes con confirmación molecular. Presentamos a un paciente de 4 años con SSG asociado a la mutación c.2608G>T (p.Gly870Cys) en el gen SETBP1, no descrita previamente. Se revisan las características clínicas de esta enfermedad y su diagnóstico diferencial. Los rasgos dismórficos son muy característicos en el SSG. Su reconocimiento clínico es fundamental para alcanzar un diagnóstico precoz, planificar un correcto seguimiento y ofrecer asesoramiento genético familiar adecuado. A la fecha, este es el decimoséptimo paciente ublicado con mutación en el gen SETBP1, primero en España, contribuyendo a ampliar el conocimiento clínico y molecular de esta entidad

Schinzel-Giedion syndrome (SGS) (#MIM 269150) is a rare genetic disorder characterized by very marked craniofacial dysmorphism, multiple congenital anomalies and severe intellectual disability. Most affected patients die in early childhood. SETBP1 was identified as the causative gene, but a limited number of patients with molecular confirmation have been reported to date. The case is reported of a 4 and a half year-old male patient, affected by SGS. SETBP1 sequencing analysis revealed the presence of a non-previously described mutation: c.2608G>T (p.Gly870Cys). The clinical features and differential diagnosis of this rare condition are reviewed. Dysmorphic features are strongly suggestive of SGS. Its clinical recognition is essential to enable an early diagnosis, a proper follow-up, and to provide the family with genetic counseling. To date, this is the seventeenth SGS patient published with SETBP1 mutation, and the first in Spain, helping to widen clinical and molecular knowledge of the disease

Langer-Giedion syndrome associated with congenital dural arterio-venous fistula.

Langer-Giedion syndrome (LGS) is a rare disease caused by deletion of chromosome 8q23.3-q24.11. Clinical manifestations include among others multiple exostoses, short stature, intellectual disability, and typical facial dysmorphism. Dural arterio-venous shunts (DAVS) in the pediatric age are rare lesions, which have been classified into three types: dural sinus malformations (DSM), infantile type DAVS (IDAVS), and adult type DAVS (ADAVS). We report a case of a patient with a known LGS who was diagnosed with complex intracranial dural AV fistula at the age of 20. An association between LGS and intracranial dural AV fistulas has to our knowledge never been reported before.

Traumatic bone cyst of the mandible in Langer-Giedion syndrome: a case report.

INTRODUCTION: Langer-Giedion syndrome (trichorhinophalangeal syndrome type II) is an extremely rare disorder characterized by dysmorphic facial features, multiple exostoses, mental retardation and digit deformities. We report the first case of any maxillofacial pathology in such a syndromic patient. CASE PRESENTATION: A 22-year-old Indian woman with mild intellectual disability presented with malaligned teeth. Routine radiographic screening demonstrated a large multilocular lesion in her right mandible. She had peculiar features such as short stature, short limbs, brachydactyly, and dysmorphic facial characters, which prompted us to evaluate her further. After findings of multiple bony exostoses she was diagnosed with Langer-Giedion syndrome. On surgical exploration of her right mandibular lesion an empty cavity was found suggestive of traumatic bone cyst. The lesion healed completely after 1 year without loss of vitality of any teeth. CONCLUSIONS: Although diagnosis and management of any maxillofacial pathology can be challenging in syndromic patients, our report suggests a possible correlation between traumatic bone cyst and Langer-Giedion syndrome. Clinicians should routinely screen these patients for any undetected maxillofacial pathology. In future cases of this syndrome, one should consider the possibility of traumatic bone cyst which may not require aggressive surgical management.

Thricho-rhino-phalangeal syndrome and severe osteoporosis: a rare association or a feature? An effective therapeutic approach with biphosphonates.

Trichorhinophalangeal syndrome (TRPS) is a rare, autosomal dominant malformation syndrome characterized by hair, craniofacial and skeletal abnormalities, skin laxity, deformation of phalanges and anomalies of pelvis, femurs, and tibias. Three subtypes have been described: TRPS I, caused by mutations in TRPS1 gene on chromosome 8; TRPS II, a microdeletion syndrome affecting the TRPS1 and EXT1 genes; and TRPS III, a form with severe brachydactyly, due to short metacarpals, and severe short stature, but without exostoses. We present the case of a 7-year-old boy, affected by TRPS with a severe osteoporosis and several spontaneous bone fractures, an association described only once in the literature, successfully treated with biphosphonates. Bone mineral density (BMD) at dual-energy X-ray Absorptiometry (DXA) was of 0.331 g/cm(2) at lumbar spine with. He had four spontaneous femoral fractures in a year, and for this reason he was been operated for positioning intramedullary osteosynthesis and orthopedic supports. Due to the severity of the clinical and radiological pattern it was established, after approval of the Ethical Committee, to begin off-label therapy with infusions of neridronate at a dose of 2 mg/kg IV every 3 months. The treatment was, in this patient, effective both in terms of clinical (absence of new fractures) and mineralomethric (+45% BMD ath the lumbar level). We therefore suggest that treatment with biphosponates can be taken in account as a possible therapeutic option in case of bone fragility in patients with TRPSI.

Long-term follow-up of four patients with Langer-Giedion syndrome: clinical course and complications.

Long-term observations of individuals with the so-called Langer-Giedion (LGS) or tricho-rhino-phalangeal type II (TRPS2) are scarce. We report here a on follow-up of four LGS individuals, including one first described by Andres Giedion in 1969, and review the sparse publications on adults with this syndrome which comprises ectodermal dysplasia, multiple cone-shaped epiphyses prior to puberty, multiple cartilaginous exostoses, and mostly mild intellectual impairment. LGS is caused by deletion of the chromosomal segment 8q24.11-q24.13 containing among others the genes EXT1 and TRPS1. Most patients with TRPS2 are only borderline or mildly cognitively delayed, and few are of normal intelligence. Their practical skills are better than their intellectual capability, and, for this reason and because of their low self-esteem, they are often underestimated. Some patients develop seizures at variable age. Osteomas on processes of cervical vertebrae may cause pressure on cervical nerves or dissection of cerebral arteries. Joint stiffness is observed during childhood and changes later to joint laxity causing instability and proneness to trauma. Perthes disease is not rare. Almost all males become bald at or soon after puberty, and some develop (pseudo) gynecomastia. Growth hormone deficiency was found in a few patients, TSH deficiency so far only in one. Puberty and fertility are diminished, and no instance of transmission of the deletion from a non-mosaic parent to a child has been observed so far. Several affected females had vaginal atresia with consequent hydrometrocolpos.

Rheumatologic and neurological events in an elderly patient with tricho-rhino-phalangeal syndrome type I.

Sparse scalp hair, a peculiar shape of the nose, and cone-shaped epiphyses of the phalanges are the hallmarks of the tricho-rhino-phalangeal syndromes (TRPS). Short stature, hip dysplasia, and malformations of inner organs including mitral valve prolpase have also often been described for these conditions. Here, we described a 64-year-old woman with molecularly proved TRPS I and several atypical late-onset rheumatologic and neurological symptoms.

Effect of growth hormone therapy on severe short stature and skeletal deformities in a patient with combined Turner syndrome and Langer mesomelic dysplasia.

BACKGROUND: Homozygous mutation of the short stature homeobox-containing gene, SHOX, results in Langer mesomelic dysplasia (LMD). Our case presented with severe short stature and skeletal deformities with Turner syndrome (TS) and a SHOX gene abnormality due to a downstream allele deletion in her normal X chromosome. Medical literature review did not reveal similar cases that were treated with GH therapy. METHOD: We present an 11-yr-old with combined TS and LMD with severe short stature and skeletal deformities. She was studied for the effect of GH therapy on stature and skeletal deformities. Karyotype testing showed 45,X/46,X,idic(X). Genetic analysis of SHOX gene testing did not detect any exonic mutations. Interestingly, both alleles of the flanking marker DXYS233, a marker downstream of the 3' end of SHOX coding sequence, were absent with resultant LMD. GH therapy in the mean dose of 0.321 mg/kg/wk was administered for 4 yr (0.287, 0.355, 0.317, and 0.327 mg/kg/week in the first, second, third, and fourth years, respectively). Clinical data were reviewed. RESULT: The growth rates of 3.46, 3.87, 2.3, and 0.7 cm/yr were observed in the first, second, third, and fourth years of the GH therapy, respectively. There was no clinical deterioration of the skeletal deformities. CONCLUSION: There was a failure to achieve growth improvements with GH therapy for 4 years, but there was no worsening of the skeletal deformities. We conclude that GH therapy may not be beneficial in severe short stature due to combined TS and LMD resulting from homozygous SHOX deficiency.

Anesthetic management of a child with Langer-Giedion (TRPS II) syndrome.

We describe the anesthetic and perioperative management of a child with Langer-Giedion syndrome (trichorhinophalangeal syndrome type II). This is a very rare genetic syndrome caused by 8q chromosome deletion. The clinical features of this syndrome include craniofacial and urogenital abnormities, variable postnatal growth deficiency with mental retardation, multiple exostoses, hyperflexible joints, and recurrent respiratory tract infections. Potential perioperative problems are highlighted.

Tricho-rhino-phalangeal syndrome with supernumerary teeth.

Tricho-rhino-phalangeal syndromes (TRPS) are caused by mutation or deletion of TRPS1, a gene encoding a GATA transcription factor. These disorders are characterized by abnormalities of the hair, face, and selected bones. Rare cases of individuals with TRPS displaying supernumerary teeth have been reported, but none of these has been examined molecularly. We used two different approaches to investigate a possible role of TRPS1 during tooth development. We looked at the expression of Tprs1 during mouse tooth development and analyzed the craniofacial defects of Trps1 mutant mice. In parallel, we investigated whether a 17-year-old Thai boy with clinical features of TRPS and 5 supernumerary teeth had mutation in TRPS1. We report here that Trps1 is expressed during mouse tooth development, and that an individual with TRPS with supernumerary teeth has the amino acid substitution A919V in the GATA zinc finger of TRPS1. These results suggest a role for TRPS1 in tooth morphogenesis.

Displasia mesomélica de tipo Langer / Langer’s type mesomelic dysplasia

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A novel model surgery technique for LeFort III advancement.

Current techniques for model surgery and occlusal splint fabrication lack the ability to mark, measure and plan the position of the orbital rim for LeFort III and Monobloc osteotomies. This report describes a model surgery technique for planning the three dimensional repositioning of the orbital rims. Dual orbital pointers were used to mark the infraorbital rim during the facebow transfer. These pointer positions were transferred onto the surgical models in order to follow splint-determined movements. Case reports are presented to illustrate how the model surgery technique was used to differentiate the repositioning of the orbital rim from the occlusal correction in single segment and combined LeFort III/LeFort I osteotomies.