Masa en el periné al nacimiento / Perineal mass at birth

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TBL1XR1 associated intellectual disability, a new missense variant with dysmorphic features plus autism: Expanding the phenotypic spectrum.

Missense and frameshift pathogenic variants and microdeletions involving TBL1XR1 gene have been described in patients with intellectual disability, autism, Rett-like features and schizophrenia, some of them with the clinical diagnosis of Pierpont syndrome, a rare pattern of multiple congenital anomalies, but others without dysmorphic findings or with non-specific ones, and also patients with only some of the features associated with Pierpont syndrome. We here present a case with a de novo novel missense variant in TBL1XR1 gene with overlapping features with Pierpont syndrome and autism, a neurobehavioral manifestation not previously reported in Pierpont syndrome. This patient expands the phenotypic spectrum of TBL1XR1 gene pathogenic variants.

Severe Neurological Phenotype in a Girl with Xp22.31 Triplication.

The Xp22.31 duplication is a copy number variant which is challenging to categorize as pathogenic or benign. There is an increasing number of patients with the duplication and a neurobehavioral phenotype, but the duplication is almost always inherited from a parent, who in some cases is phenotypically normal. Also, the duplication is detected in the general population, though in a smaller percentage than in clinically ascertained populations. The Xp22.31 triplication has only been identified in 3 individuals of a large cohort of developmental delay cases but never in the control cohorts or general population. We report a severely affected female with an Xp22.31 tetrasomy, inherited from duplications identified in both phenotypically normal parents. Although our study has limitations, it suggests that the Xp22.31 triplication seems to be more penetrant than the duplication and is associated with a neurological phenotype.

[Spanish patients with central hypoventilation syndrome included in the European Registry. The 2015 data]. / Pacientes españoles con síndrome de hipoventilación central incluidos en el Registro europeo. Datos del 2015.

INTRODUCTION: Congenital Central Hypoventilation Syndrome (CCHS) is a very rare genetic disease. In 2012 the European Central Hypoventilation Syndrome (EuCHS) Consortium created an online patient registry in order to improve care. AIM: To determine the characteristics and outcomes of Spanish patients with CCHS, and detect clinical areas for improvement. MATERIALS AND METHOD: An assessment was made on the data from Spanish patients in the European Registry, updated on December 2015. RESULTS: The Registry contained 38 patients, born between 1987 and 2013, in 18 hospitals. Thirteen (34.2%) were older than 18 years. Three patients had died. Genetic analysis identified PHOX2B mutations in 32 (86.5%) out of 37 patients assessed. The 20/25, 20/26 and 20/27 polyalanine repeat mutations (PARMs) represented 84.3% of all mutations. Longer PARMs had more, as well as more severe, autonomic dysfunctions. Eye diseases were present in 47%, with 16% having Hirschsprung disease, 13% with hypoglycaemia, and 5% with tumours. Thirty patients (79%) required ventilation from the neonatal period onwards, and 8 (21%) later on in life (late onset/presentation). Eight children (21%) were using mask ventilation at the first home discharge. Five of them were infants with neonatal onset, two of them, both having a severe mutation, were switched to tracheostomy after cardiorespiratory arrest at home. Approximately one-third (34.3%) of patients were de-cannulated and switched to mask ventilation at a mean age of 13.7 years. Educational reinforcement was required in 29.4% of children attending school. CONCLUSION: The implementation of the EuCHS Registry in Spain has identified some relevant issues for optimising healthcare, such as the importance of genetic study for diagnosis and assessment of severity, the high frequency of eye disease and educational reinforcement, as well as some limitations in ventilatory techniques.

RIT1: un nuevo gen causal del síndrome de Noonan / RIT1: a novel gene associated with Noonan syndrome

Introducción. El síndrome de Noonan es el más frecuente del grupo de los síndromes malformativos congénitos originados por mutaciones germinales en genes de la vía RAS/MAPK, denominados genéricamente RAS-opatías, uno de los grupos más comunes de alteraciones genéticas congénitas en la práctica clínica. Recientemente se han descrito mutaciones en el gen RIT1 en pacientes con síndrome de Noonan. Caso clínico. Niña de 7 años con diagnóstico clínico de síndrome de Noonan, que entre sus manifestaciones clínicas incluye miocardiopatía hipertrófica, en la que se ha identificado una mutación de novo en heterocigosis, en RIT1, c.295T>C (p.Phe99Leu), no descrita previamente, probablemente causal. Conclusiones. RIT1 comparte homología con otras proteínas RAS y la expresión de alelos mutantes origina un efecto de ganancia de función que apoya su papel causal en el síndrome de Noonan. Podemos estimar actualmente que es responsable de un 3-5% de los casos del síndrome. Estos casos con síndrome de Noonan, respecto a los que presentan mutaciones en otros genes, se caracterizan por una mayor frecuencia de alteraciones prenatales, alta frecuencia de miocardiopatía hipertrófica y menor frecuencia de talla baja y deformidad torácica. Destaca la importancia de incorporar los nuevos genes identificados en los paneles diagnósticos (AU)

Introduction. Noonan syndrome is the most frequent of the congenital group of malformation syndromes caused by germline mutations that encode components of the RAS/MAPK pathway, termed RASopathies, one of the most frequent congenital genetic disorders in the clinical practice. Recently RIT1 mutations have been reported in patients with Noonan syndrome. Case report. A 7 years-old girl with a clinical diagnosis of Noonan syndrome, and with a hypertrophic cardiomyopathy included in her clinical manifestations, where a de novo heterozygous, probably pathogenic, novel mutation in RIT1, c.295T>C (p.Phe99Leu), has been identified. Conclusions. RIT1 shares homology with other RAS proteins and the expression of mutant alleles demonstrates a gain-offunction effect supporting a causative role in Noonan syndrome pathogenesis. Data suggest that the frequency of RIT1 mutations can be estimated as 3-5% in Noonan syndrome patients. These cases compared with Noonan patients harboring mutations in other genes are characterized by high frequency of prenatal abnormalities and hypertrophic cardiomyopathy, and lower frequencies of short stature and pectus abnormalities. We emphasize the importance of the novel identified genes in order to be included in the diagnostic panels (AU)

[Microdeletion 12p12 involving SOX5 gene: a new syndrome with developmental delay]. / Microdeleción 12p12 que incluye el gen SOX5: un nuevo síndrome con alteracion del neurodesarrollo.

INTRODUCTION: The SOX5 gene encodes a transcription factor involved in the regulation of chondrogenesis and the development of the nervous system. CASE REPORT: We report a 10 years-old girl with developmental delay, behavior problems and dysmorphic features of this new syndrome with developmental delay. She had a 12p12 deletion involving SOX5. CONCLUSIONS: We review the reported cases, intragenic SOX5 deletions and larger 12p12 deletions encompassing SOX5. We analyze the genotype-phenotype associations and the genes involved in our patient.

TITLE: Microdelecion 12p12 que incluye el gen SOX5: un nuevo sindrome con alteracion del neurodesarrollo.Introduccion. El gen SOX5 codifica un factor de transcripcion implicado en la regulacion de la condrogenia y el desarrollo del sistema nervioso. Caso clinico. Niña de 10 anos con discapacidad intelectual, alteracion conductual y malformaciones menores de este nuevo sindrome con alteracion en el neurodesarrollo, con una delecion 12p12 que incluye el gen SOX5. Conclusiones. Se revisan los casos publicados tanto de deleciones intragenicas de SOX5 como de deleciones mas grandes que incluyen este gen, y se analizan las correlaciones genotipo-fenotipo y los genes implicados en esta paciente.

No evidence of locus heterogeneity in familial microcephaly with or without chorioretinopathy, lymphedema, or mental retardation syndrome.

BACKGROUND: Microcephaly with or without chorioretinopathy, lymphedema, or mental retardation syndrome (MCLMR) is a rare autosomal dominant disorder with variable expressivity. It is characterized by mild-to-severe microcephaly, often associated with intellectual disability, ocular defects and lymphedema. It can be sporadic or inherited. Eighty-seven patients have been described to carry a mutation in KIF11, which encodes a homotetrameric motor kinesin, EG5. METHODS: We tested 23 unreported MCLMR index patients for KIF11. We also reviewed the clinical phenotypes of all our patients as well as of those described in previously published studies. RESULTS: We identified 14 mutations, 12 of which are novel. We detected mutations in 12 affected individuals, from 6 out of 6 familial cases, and in 8 out of 17 sporadic patients. Phenotypic evaluation of patients (our 26 + 61 earlier published = 87) revealed microcephaly in 91%, eye anomalies in 72%, intellectual disability in 67% and lymphedema in 47% of the patients. Unaffected carriers were rare (4 out of 87: 5%). Family history is not a requisite for diagnosis; 31% (16 out of 52) were de novo cases. CONCLUSIONS: All inherited cases, and 50% of sporadic cases of MCLMR are due to germline KIF11 mutations. It is possible that mosaic KIF11 mutations cause the remainder of sporadic cases, which the methods employed here were not designed to detect. On the other hand, some of them might have another mimicking disorder and genetic defect, as microcephaly is highly heterogeneous. In aggregate, KIF11 mutations likely cause the majority, if not all, of MCLMR.

Microdeleción 12p12 que incluye el gen SOX5: un nuevo síndrome con alteración del neurodesarrollo / Microdeletion 12p12 involving SOX5 gene: a new syndrome with developmental delay

Introducción. El gen SOX5 codifica un factor de transcripción implicado en la regulación de la condrogenia y el desarrollo del sistema nervioso. Caso clínico. Niña de 10 años con discapacidad intelectual, alteración conductual y malformaciones menores de este nuevo síndrome con alteración en el neurodesarrollo, con una deleción 12p12 que incluye el gen SOX5. Conclusiones. Se revisan los casos publicados tanto de deleciones intragénicas de SOX5 como de deleciones más grandes que incluyen este gen, y se analizan las correlaciones enotipo-fenotipo y los genes implicados en esta paciente (AU)

Introduction. The SOX5 gene encodes a transcription factor involved in the regulation of chondrogenesis and the development of the nervous system. Case report. We report a 10 years-old girl with developmental delay, behavior problems and dysmorphic features of this new syndrome with developmental delay. She had a 12p12 deletion involving SOX5. Conclusions. We review the reported cases, intragenic SOX5 deletions and larger 12p12 deletions encompassing SOX5. We analyze the genotype-phenotype associations and the genes involved in our patient (AU)

Deletion 1q43-44 in a patient with clinical diagnosis of Warburg-Micro syndrome.

Warburg-Micro syndrome (WARBM) is an autosomal recessive syndrome characterized by microcephaly, microphthalmia, microcornea, congenital cataracts, optic atrophy and central nervous system malformations. This syndrome is caused by mutations in the RAB3GAP1/2 and RAB18 genes, part of the Rab family, and in the TBC1D20 gene, which contributes to lipid droplet formation/metabolism. Here we present a patient with clinical diagnosis of WARBM syndrome, who did not have mutations in either the RAB3GAP1/2 genes, in the main exons of RAB18, nor in the TBC1D20 gene. However, the analysis with CGH-array detected a 9.6 Mb deletion at 1q43-qter. We performed a genotype-phenotype correlation using 20 previously published patients in whom the coordinates of the deleted regions were defined. The comparative analysis revealed that the current patient and three of the other 20 patients share the loss of six genes, four of which are related with the family of G proteins, and are strongly expressed in the brain, retina, heart and kidney. Consequently, their haploinsufficiency may result in different combinations of clinical alterations, including some of those of WARBM syndrome. In addition, the haploinsufficiency of other genes may contribute to other defects and clinical variability. Additionally, for the genotype-phenotype correlation, one must also consider molecular pathways that can result in the observed alterations. To early confirm a genetic diagnosis is essential for the patient and family. The current patient was considered as having a recessive syndrome, but since he had a "de novo" deletion, there was not an increased recurrence risk.

Probable transmission of brucellosis by breast milk.

Brucellosis is a zoonosis transmittable to humans. The transmission is mainly by consumption of unpasteurized milk or its products. Cases in the first year are very uncommon and other modes of transmission are responsible at this age. We report two children with brucellosis diagnosed at 7 and 2 months old where the probable way of transmission is the breast milk.

Unusual congenital abdominal wall defect and review.

Abdominal wall defects distant from the umbilicus are very unusual. We describe a patient with a congenital defect adjacent and external to the lateral border of the recti muscles, rounded in shape, bilateral and symmetrical, but affecting different structures in each side, musculocutaneous agenesis in the left side and only muscle agenesis in the right one. The morphologic characteristics of the defect and the absence of associated anomalies, suggest that this anomaly may be the result of an event acting during phenogenesis. We consider that this defect is different from other structural abnormalities of the anterior abdominal wall which occur much earlier at certain periods of the embryogenesis. Though the etiology is speculative, we could postulate a disruptive origin of the defect of unknown cause.