Adult Léri-Weill dyschondrosteosis coexists with endocrinal metabolic disorders: a report of two cases / 中华内分泌代谢杂志

Léri-Weill dyschondrosteosis (LWD) has typical triad: short middle limbs, short stature, Madelung deformity of wrist, and increased body mass index. Short stature and high body mass index are risk factors for metabolic syndrome, type 2 diabetes, cardiovascular diseases, and autoimmune thyroid diseases. However, metabolic disorders and thyroid diseases in adult LWD patients have not been elucidated. This paper reports two adult patients with LWD presented to the Department of Endocrinology and metabolism. By introducing clinical characteristics, genetic variations, and diagnostic methods, physicians can deepen their understanding of LWD, improve diagnosis, and be aware of the comorbid metabolic diseases and thyroid disorders with a view of early prevention and treatment.

Discondrosteosis de Léri-Weill. Presentación de una familia afectada / Léri-Weill dyschondrosteosis. Presentation of an affected family

RESUMEN Fundamentación: La discondrosteosis de Léri-Weill, displasia ósea de origen genético que afecta la región mesomélica con acortamiento de las extremidades, provoca talla baja con extremidades cortas con deformidad de Madelung; esta enfermedad muestra un patrón de herencia autosómico dominante con alta penetrancia. Objetivo: Describir las deformidades de esta discondrosteosis de baja frecuencia con expresividad variable, que se presentó de la misma forma en todos los afectados de esta familia. Presentación de caso: Se reportó una familia con enfermos en tres generaciones con deformidad de Madelung de ambas muñecas y baja estatura de origen mesomélico, que se mantiene seguimiento en consultas de Genética Clínica y Ortopedia. Conclusiones: El examen físico y radiológico imprescindibles para llegar al diagnóstico clínico. El método clínico y la valoración multidisciplinaria resultaron de gran valor para definir esta enfermedad y poder brindar un adecuado asesoramiento genético a esta familia.

ABSTRACT Background: Léri-Weill dyschondrosteosis, bone dysplasia of genetic origin that affects the mesomelic region with shortening of the extremities, causes short stature with short extremities with Madelung deformity.This disease shows an autosomal dominant inheritance pattern with high penetrance. Objective: To describe the deformities of this low frequency dyschondrosteosis with variable expressivity which was presented in the same way in all those affected in this family. Case presentation: A family with sick members was reported in three generations with Madelung deformity of both wrists and short stature of mesomelic origin which is followed up in consultations of Clinical Genetics and Orthopedics. Conclusion: The essential physical and radiological examination to reach the clinical diagnosis. The clinical method and the multidisciplinary assessment were of great value to define this disease and to be able to provide adequate genetic counseling to this family.

A Leri-Weill dyschondrosteosis patient confirmed by mutation analysis of SHOX gene

Leri-Weill dyschondrosteosis is characterized by SHOX deficiency, Madelung deformity, and mesomelic short stature. In addition, SHOX deficiency is associated with idiopathic short stature, Turner syndrome, and Langer mesomelic dysplasia. We report the first case of a Leri-Weill dyschondrosteosis patient confirmed by SHOX gene mutation analysis in Korea. The patient, who was a 7-year-old female, showed short stature. Her height and weight were 108.9 cm (A (p.W164X) mutation of the SHOX gene. Accordingly, this patient was diagnosed with Leri-Weill dyschondrosteosis. Recently, many mutations have been reported in the SHOX gene. However, to date, mutation analysis of the SHOX gene for Leri-Weill dyschondrosteosis has not been reported in Korea as yet. We report the first case of a Leri-Weill dyschondrosteosis patient confirmed by mutation analysis of the SHOX gene.

A Case of 9.7 Mb Terminal Xp Deletion Including OA1 Locus Associated with Contiguous Gene Syndrome

Terminal or interstitial deletions of Xp (Xp22.2-->Xpter) in males have been recognized as a cause of contiguous gene syndromes showing variable association of apparently unrelated clinical manifestations such as Leri-Weill dyschondrosteosis (SHOX), chondrodysplasia punctata (CDPX1), mental retardation (NLGN4), ichthyosis (STS), Kallmann syndrome (KAL1), and ocular albinism (GPR143). Here we present a case of a 13.5 yr old boy and sister with a same terminal deletion of Xp22.2 resulting in the absence of genes from the telomere of Xp to GPR143 of Xp22. The boy manifested the findings of all of the disorders mentioned above. We began a testosterone enanthate monthly replacement therapy. His sister, 11 yr old, manifested only Leri-Weill dyschondrosteosis, and had engaged in growth hormone therapy for 3 yr. To the best of our knowledge, this is the first report of a male with a 9.7 Mb terminal Xp deletion including the OA1 locus in Korea.

An illustrative case of Léri-Weill dyschondrosteosis

We report on a girl presenting Léri-Weill dyschondrosteosis (LWD) due to deletion of the SHOX gene. Her family included individuals with short stature alone or with both short stature and mesomelia or Madelung's deformity. The deletion was demonstrated through detection of hemizygosity for microsatellite markers SHOX-CA repeat, DXYS10092, DXYS10093 and DXYS10091 localized around the SHOX gene, with retention of paternal alleles in the proband and three of her sisters who had short stature as the only clinical feature. Hemizygosity for these loci was also observed in their mother, who had short stature too. The deletion in the proband was however larger, including locus DXY10083. The proband's only sister with normal height did not carry the deletion. Family history suggests transmission of the deletion from the proband's maternal great-grandfather to her grandfather via the Y chromosome, and from the grandfather to the proband's mother via the X chromosome after crossing-over in the pseudoautosomal region proximal to the SHOX gene.

Cryptic intragenic deletion of the SHOX gene in a family with Léri-Weill dyschondrosteosis detected by Multiplex Ligation-Dependent Probe Amplification (MLPA) / Deleção críptica intragênica do gene SHOX em uma família com discondrosteose de Léri-Weill detectada por Multiplex Ligation-Dependent Probe Amplification (MLPA)

LWD is associated to SHOX haploinsufficiency, in most cases, due to gene deletion. Generally FISH and microsatellite analysis are used to identify SHOX deletion. MLPA is a new method of detecting gene copy variation, allowing simultaneous analysis of several regions. Here we describe the presence of a SHOX intragenic deletion in a family with LWD, analyzed through different methodologies. Genomic DNA of 11 subjects from one family were studied by microsatellite analysis, direct sequencing and MLPA. FISH was performed in two affected individuals. Microsatellite analysis showed that all affected members shared the same haplotype suggesting the involvement of SHOX. MLPA detected an intragenic deletion involving exons IV-VIa, which was not detected by FISH and microsatellite analysis. In conclusion, the MLPA technique was proved to be the best solution on detecting this small deletion, it has the advantage of being less laborious also allowing the analysis of several regions simultaneously.

Discondrosteose de Léri-Weill (DLW) está associada à haploinsuficiência do gene SHOX resultante, principalmente, de deleções. Geralmente, o FISH e a análise de microssatélites são os métodos utilizados para a identificação destas deleções. MLPA é um novo método para detectar variações do número de cópias gênicas, permitindo uma análise simultânea de várias regiões. Aqui, descrevemos uma pequena deleção intragênica no SHOX em uma família com DLW analisada por diferentes metodologias. DNA genômico de 11 membros de uma família foram estudados por microssatélites, seqüenciamento direto e MLPA. FISH foi realizado em dois indivíduos afetados. Os microssatélites demonstraram que todos os membros afetados apresentavam o mesmo haplotipo, sugerindo o envolvimento do SHOX. MLPA identificou uma deleção intragênica envolvendo os éxons IV-VIa, que não foi detectada pelo FISH e pelos microssatélites. Conclui-se que o MLPA demonstrou melhor resolução para detectar esta pequena deleção, com a vantagem de ser menos trabalhoso e permitir a análise de várias regiões simultaneamente.

A Case of Leri-Weill Syndrome / 대한소아내분비학회지

Leri-Weill syndrome or Leri-Weill dyschondrosteosis represents a short stature syndrome that is characterized by symmetric shortening of the forearms and lower legs and a bilateral shortening and bowing of the radius with a dorsal subluxation of the distal ulna(Madelung deformity). Recent genetic analyses demonstrated that functional haploinsufficiency of SHOX(short stature homeobox-containing gene) accounts for Leri-Weill syndrome. Further studies are needed to explain phenotypic heterogeneity of SHOX defect. We experienced a case of Leri-Weill syndrome in a 11-year-old girl with short stature, who revealed typical Madelung deformity, mesomelic(middle segment) dysplasia, and a karyotype of 46,XX. In cases with dyschondrosteosis or Turner-characteristic dysmorphic skeletal features, detection of SHOX mutation is recommended.