[What is the best method for estimating final height in patients with precocious puberty?] / ¿Cuál es el mejor método de estimación de talla final en pacientes con pubertad precoz?

Central precocious puberty is the premature activation of the hypothalamic-pituitary-gonadal axis, leading to an early epiphyseal fusion and, in many cases, heights below the genetic target. Therefore, a proper adult stature prediction is essential for the treatment decision. OBJECTIVE: To compare the concordance of final height using height prediction made by two validated methods versus the ge netic target height in girls who consulted due to central precocious puberty. PATIENTS AND METHOD: Retrospective, non-concurrent cohort study including 93 girls with central precocious puberty, who were not treated with LHRH analogs and had reached their final adult height. The data was obtained from the clinical records. To predict height, the Bayley-Pinneau method and the Roche-Wainer- Thissen method were applied, and the results were compared with the genetic target height. The concordance between the estimated final height and the final height obtained was evaluated using the Bland-Altman method. RESULTS: When comparing the final height obtained with that predicted by the Bayley-Pinneau method, there was a mean difference of 1.01 cm, and using the Rocke-Wainer- Thissen method, there was a difference of +0.96 cm. The calculation of the genetic target height showed a difference of +0.05 cm with respect to the final height. CONCLUSION: The prediction of height made by the Bayley-Pinneau and Roche-Wainer-Thissen methods was adequate and, contrary to expectations, it was similar to the calculation of the genetic target height that does not use the age of bone maturation. This also presented better concordance and less dispersion of the results with respect to the final height obtained.

A Deletion of More than 800 kb Is the Most Recurrent Mutation in Chilean Patients with SHOX Gene Defects.

BACKGROUND: Deletions in the SHOX gene are the most frequent genetic cause of Leri-Weill syndrome and Langer mesomelic dysplasia, which are also present in idiopathic short stature. AIM: To describe the molecular and clinical findings observed in 23 of 45 non-consanguineous Chilean patients with different phenotypes related to SHOX deficiency. METHODS: Multiplex ligation-dependent probe amplification was used to detect the deletions; the SHOX coding region and deletion-flanking areas were sequenced to identify point mutations and single-nucleotide polymorphisms (SNPs). RESULTS: The main genetic defects identified in 21 patients consisted of deletions; one of them, a large deletion of >800 kb, was found in 8 patients. Also, a smaller deletion of >350 kb was observed in 4 patients. Although we could not precisely determine the deletion breakpoint, we were able to identify a common haplotype in 7 of the 8 patients with the larger deletion based on 22 informative SNPs. CONCLUSION: These results suggest that the large deletion-bearing allele has a common ancestor and was either introduced by European immigrants or had originated in our Amerindian population. This study allowed us to identify one recurrent deletion in Chilean patients; also, it contributed to expanding our knowledge about the genetic background of our population.

A novel insertion in the FOXL2 gene in a Chilean patient with blepharophimosis ptosis epicanthus inversus syndrome type I.

OBJECTIVE: A novel insertion in the forkhead transcription factor 2 (FOXL2) was identified in a Chilean patient with blepharophimosis, ptosis, and epicanthus inversus syndrome associated with premature ovarian failure (BPES type I). A clinical and molecular characterization of a patient with BPES type I was performed. METHOD: We present a 16-year-old adolescent girl with surgically treated blepharophimosis, ptosis, and epicanthus inversus that was associated with delayed puberty and secondary amenorrhea at the age of 15, indicators that suggested that the patient had BPES type I. The FOXL2 gene was analyzed by sequencing its coding region. RESULTS: The sequence analysis of the FOXL2 gene revealed a novel heterozygous mutation: an 11 bp duplication (c.901_911dup11) that was predicted to encode a truncated protein (p.Pro305Argfs*54). CONCLUSIONS: A novel out-of-frame duplication following the polyalanine domain in the FOXL2 gene was identified in a Chilean patient with BPES type I. This study characterized the molecular alterations in FOXL2 and confirmed the diagnosis, thereby providing information to allow for improved genetic counseling for the patient and her family.

A novel GNAS mutation in an infant boy with pseudohypoparathyroidism type Ia and normal serum calcium and phosphate levels / Mutação nova no GNAS em um menino com pseudo-hipoparatireoidismo tipo Ia e dosagens séricas normais de cálcio e fósforo

The objective of this study was to describe a new mutation in GNAS in a family with pseudohypoparathyroidism type Ia (PHP Ia), a rare osteometabolic disease. An 8-month-old boy was seen by an Endocrinologist due to obesity and low growth velocity. Noteworthy, his mother exhibited typical Albright hereditary osteodystrophy (AHO) phenotype. The clinical diagnosis of PHP Ia was suspected. The GNAS coding region from mother and son was amplified and directly sequenced. A novel heterozygous missense mutation (c.673T>C) was identified in exon 5 in both patients. In this family, the mother's clinical picture was the clue for the son's diagnosis. Molecular analysis of GNAS confirmed the diagnosis of PHP Ia in both patients and the child's early diagnosis was possible. Moreover, this novel missense substitution expands the spectrum of GNAS mutations associated with this disorder and allows for genetic counseling of this family.

O objetivo deste estudo foi descrever uma nova mutação no GNAS em uma família com pseudo-hipoparatireoidismo tipo Ia (PHP Ia), doença osteometabólica rara. Um garoto de oito meses foi visto por um endocrinologista por obesidade e baixa velocidade de crescimento. Chamava a atenção o fato de sua mãe apresentar fenótipo típico da osteodistrofia hereditária de Albright (OHA). O diagnóstico clínico de PHP Ia foi suspeitado. A região codificadora do GNAS da mãe e do filho foi amplificada e submetida ao sequenciamento direto. Uma nova mutação missense em heterozigose (c.673T>C) foi identificada no éxon 5 em ambos. O quadro clínico materno foi a pista para o diagnóstico do filho. A análise molecular do GNAS confirmou o diagnóstico de PHP Ia nos dois pacientes possibilitando o diagnóstico precoce da criança. Além disso, essa nova substituição missense expande o espectro de mutações no GNAS associadas a essa doen­ça e permite o aconselhamento genético nesta família.

A novel GNAS mutation in an infant boy with pseudohypoparathyroidism type Ia and normal serum calcium and phosphate levels.

The objective of this study was to describe a new mutation in GNAS in a family with pseudohypoparathyroidism type Ia (PHP Ia), a rare osteometabolic disease. An 8-month-old boy was seen by an Endocrinologist due to obesity and low growth velocity. Noteworthy, his mother exhibited typical Albright hereditary osteodystrophy (AHO) phenotype. The clinical diagnosis of PHP Ia was suspected. The GNAS coding region from mother and son was amplified and directly sequenced. A novel heterozygous missense mutation (c.673T>C) was identified in exon 5 in both patients. In this family, the mother's clinical picture was the clue for the son's diagnosis. Molecular analysis of GNAS confirmed the diagnosis of PHP Ia in both patients and the child's early diagnosis was possible. Moreover, this novel missense substitution expands the spectrum of GNAS mutations associated with this disorder and allows for genetic counseling of this family.

[Subclinical endothelial inflammation markers in a family with type I familial hyperaldosteronism caused by a de novo mutation]. / Marcadores de inflamación endotelial subclínica en una familia con hiperaldosteronismo familiar tipo I por mutación de novo.

BACKGROUND: Type I familial hyperaldosteronism is caused by the presence of a chimaeric gene CYPl 1B1/CYP11BZ which encodes an enzyme with aldosterone synthetase activity regulated by adrenocorticotrophic hormone (ACTH). Therefore, in patients with FH I is possible to normalize the aldosterone levels with glucocorticoid treatment. Recently it has been shown that aldosterone plays a role in the production of endothelial oxidative stress and subclinical inflammation. AIM: To evaluate subclinical endothelial inflammation markers, like Metalloproteinase 9 (MMP-9) and ultrasensitive C reactive protein (usPCR), before and after glucocorticoid treatment in family members with FH-I caused by a de novo mutation. PATIENTS AND METHODS: We report three subjects with FH-I in a single family (proband, father and sister). We confirmed the presence of a chimaeric CYPl 1B1/CYP11B2 gene by long-PCR in all of them. Paternal grandparents were unaffected by the mutation. The proband was a 13-year-old boy with hypertension stage 2 (in agree to The Joint National Committee VII, JNC-VII), with an aldosterone/plasma rennin activity ratio equal to 161. A DNA paternity test confirmed the parental relationship between the grandparents and father with the index case. MMP-9 and usPCR levels were determined by gelatin zymography and nephelometry, respectively. RESULTS: All affected subjects had approximately a 50% increase in MMP-9 levels. Only the father had an elevated usPCR. The endothelial inflammation markers returned to normal range after glucocorticoid treatment. CONCLUSIONS: We report a family carrying a FH-I caused by a de novo mutation. The elevation of endothelial inflammation markers in these patients and its normalization after glucocorticoid treatment provides new insight about the possible deleterious effect of aldosterone on the endothelium.

Marcadores de inflamación endotelial subclínica en una familia con hiperaldosteronismo familiar tipo I por mutación de novo / Subclinical endothelial inflammation markers in a family with type I familial hyperaldosteronism caused by a de novo mutation

Background: Type I familial hyperaldosteronism is caused by the presence of a chimaetic gene CYPl 1B1/CYP11BZ which encodes an enzyme with aldosterone synthetase activityregulated by adrenocorticotrophic hormone (ACTH). Therefore, in patients with FH I is possible to normalize the aldosterone levels with glucocorticoid treatment. Recently it has been shown that aldosterone plays a role in the production of endothelial oxidative stress and subclinical inflammation. Aim: To evaluate subclinical endothelial inflammation markers, Me Metalloproteinase 9 (MMP-9) and ultrasensitive C reactive protein (usPCR), before and after glucocorticoid treatment in family members with FH-I caused by a de novo mutation. Patients and methods: We report three subjects with FH-I in a single family (proband, father and sister). We confirmed the presence of a chimaeric CYPl 1B1/CYP11B2 gene by ¡ong-PCR in all of them. Paternal grandparents were unaffected by the mutation. The proband was a 13year-old boy with hypertension stage 2 (in agree to The JointNational Committee VII, JNC-vIl), with an aldosterone/plasma rennin activity ratio equal to 161. A DNA paternity test confirmed the parental relationship between the grandparents and father with the index case. MMP-9 and usPCR levels were determined by gelatin zymography and nephelometry, respectively. Results: All affected subjects had approximately a 50 percent increase in MMP-9 levels. Only the father had an elevated usPCR. The endothelial inflammation markers returned to normal range after glucocorticoid treatment. Conclusions: We report a family canying a FH-I caused by a de novo mutation. The elevation of endothelial inflammation markers in these patients and its normalization after glucocorticoid treatment provides new insight about the possible deleterious effect of aldosterone on the endothelium.

A novel adrenocorticotropin receptor mutation alters its structure and function, causing familial glucocorticoid deficiency.

CONTEXT: Familial glucocorticoid deficiency (FGD) is an autosomal recessive disorder characterized by unresponsiveness to ACTH. In this study, two mutations of the ACTH receptor (MC2R) gene are reported in this FGD clinical case. OBJECTIVE: The objective of the study was to characterize a novel MC2R gene mutation in a compound heterozygous patient with FGD phenotype. DESIGN: This was a clinical case description, biochemical, molecular, and bioinformatics analysis to describe a novel MC2R gene mutation. PATIENTS: The subject of the study was a male diagnosed with primary adrenal insufficiency. The family history showed nonconsanguineous healthy parents, three healthy siblings, and one brother affected with FGD. MAIN OUTCOME MEASURES: The mutant MC2R-Ala126Ser showed significantly lower activity when it was stimulated with ACTH-(1-24) than did cells transfected with wild-type MC2R. RESULTS: The molecular studies demonstrated the presence of an adenine heterozygous insertion (InsA1347) in the MC2R gene (G217fs) in the patient. This insertion was due to a frame shift mutation in one allele and a premature stop codon codifying an aberrant receptor of 247 residues (27.2 kDa). We also found a novel heterozygous mutation alanine 126 by serine. Molecular dynamic simulations showed that serine 126 side chain fluctuates forming a noncanonical intrahelical hydrogen bond in the transmembrane helix 3 of the mutated receptor. This produces a structural rearrangement of the MC2R internal cavities that may affect the ligand recognition and signal transduction throughout the G protein. CONCLUSIONS: We propose a molecular explanation for the reduced activity exhibited by the MC2R alanine 126 by serine mutant.

Variabilidad fenotípica y estrés oxidativo endotelial en una familia con hiperaldosteronismo familiar tipo I / Phenotypical variability and endothelial oxidative stress in a family with type I familial hyperaldosteronism

Type I familial hyperaldosteronism (HAF-I) is caused by the presence of a chimeric gene CYP11B1/CYP11B2 which encodes an enzyme with aldosterone synthetase activity regulated by ACTH. HAF-I patients present with severe hypertension at young ages and a greater risk of stroke. AIM: To characterize clinical and biochemical presentation of family members with HAF-I. To evaluate endothelial oxidative stress markers before and after glucocorticoid treatment. PATIENTS AND METHODS: We evaluated three family members with HAF-I confirmed with a genetic test (XL-PCR) for chimeric gene CYP11B1/CYP11B2. The index case was a 13 years old boy with stage 2 hypertension (Joint National Committee VIIth report), plasma aldosterone/ plasma renin activity (AP/ARP) ratio of161 and normal plasma potassium. His father had primary hyperaldosteronism diagnosed at 25 years of age with hypertension and hypokalemia. His sister was 15 years old, with a normal blood pressure and an AP/ARP ratio of 37.6. RESULTS: All subjects had plasma xanthine-oxidase levels in the upperlimit of normal. Malondialdehyde was above normal in the index case and his father. These markers returned to normal with glucocorticoid treatment. CONCLUSIONS: We report a HAF-I carrying family with a wide phenotypical variability between affected members. Elevation of endothelial oxidativestress markers and its normalization after glucocorticoid treatment, may indicate that aldosterone produces endothelial damage and increases cardiovascular risk.

[Persistent neonatal hyperinsulinism. Analysis of the differential diagnosis. Report of two cases]. / Hiperinsulinismo neonatal persistente. Análisis del diagnóstico diferencial a propósito de dos casos clínicos.

Persistent neonatal hyperinsulinism is the most common cause of refractory hypoglycemia during the first year of life. Inadequate insulin secretion is associated to mutations of four different genes, that can be diagnosed to orient patient management. We report two patients: a female newborn that presented a hypoglycemia of 16 mg/dl two hours after birth, was subjected to a subtotal pancreatectomy that did not correct hypoglycemia, requiring a total pancreatectomy. Pathological study of the pancreas showed a focal adenomatous hyperplasia. At the present time, she is three years of age and maintains euglycemia with fractionated feeding. A male newborn that had seizures at 28 hours of life and a hypoglycemia of 15 mg/dl was detected. He was also subjected to a subtotal pancreatectomy, that did not correct hypoglycemia and bad to be extended to a total pancreatectomy. At the present time, he is 3 years and 11 months of age and has a normal psychomotor development.

A unique insertion/substitution in helix H1 of the vitamin D receptor ligand binding domain in a patient with hereditary 1,25-dihydroxyvitamin D-resistant rickets.

INTRODUCTION: Hereditary vitamin D--resistant rickets (HVDRR) is a genetic disorder caused by mutations in the vitamin D receptor (VDR). In this study, we examined the VDR in a young boy who exhibited the typical clinical features of HVDRR but without alopecia. MATERIALS AND METHODS: The patient's VDR was studied using cultured dermal fibroblasts, and the recreated mutant VDR was analyzed in transfected cells. RESULTS: The patient's fibroblasts were resistant to 1,25-dihydroxyvitamin D [1,25(OH)2D3], exhibiting only a slight induction of 24-hydroxylase gene expression when treated with 1 microM 1,25(OH)2D3 x [3H]1,25(OH)2D3 binding was absent in cell extracts from the patient's fibroblasts. Sequence analysis of the VDR gene uncovered a unique 5-bp deletion/8-bp insertion in exon 4. The mutation in helix HI of the ligand-binding domain deletes two amino acids (H141 and T142) and inserts three amino acids (L141, W142, and A143). In transactivation assays, the recreated mutant VDR was 1000-fold less active than the wildtype (WT) VDR. In glutathione S-transferase (GST) pull-down assays, the mutant VDR bound GST-retinoid X receptor (RXR) weakly in the absence of 1,25(OH)2D3; however, the binding did not increase with increasing concentrations of ligand. The mutant VDR did not bind to GST-vitamin D receptor interacting protein (DRIP) 205 at concentrations up to 1 microM 1,25(OH)2D3. We also examined effects of the three individual mutations on VDR transactivation. Only the insertion of A143 into the WT VDR disrupted VDR transactivation to the same extent observed with the natural mutation. CONCLUSION: We describe a novel insertion/substitution mutation in helix Hl of the VDR ligand-binding domain (LBD) that abolishes ligand binding and result in the syndrome of HVDRR. This is the first time an insertion/substitution has been found as the defect-causing HVDRR.

[Peripheral precocious puberty caused by a juvenile granulosa cell ovarian tumor, with iso and heterosexual manifestations in a six years old girl]. / Pubertad precoz periférica por tumor ovárico de las células de la granulosa juvenil, con manifestaciones iso y heterosexuales en una niña de 6 años.

A six years old girl consulted due to mammary development. On physical examination, clitoris enlargement and a tumor localized in the abdominal-pelvic region were observed. Hormonal study disclosed elevated testosterone and estradiol levels. On exploratory laparotomy, a right ovarian tumor was observed and a right salpingooophorectomy was performed. The contemporary biopsy informed a disgerminoma, leading to a surgical staging of the tumor. The definitive pathological diagnosis was a juvenile granular cell tumor, limited to the ovary. In the postoperative period, estradiol and testosterone levels returned to normal values and the pseudopuberty reverted. The patient did not receive adjuvant treatment and after three years of follow up, there is no evidence of tumor recidivism.

[Mutations in the Fibroblast Growth Factor Receptor 3 gene (FGFR3) in Chilean patients with idiopathic short stature, hypochondroplasia and achondroplasia]. / Mutaciones del gen del receptor 3 del Factor de Crecimiento de Fibroblasto (FGFR3) en pacientes chilenos con talla baja idiopática, hipocondroplasia y acondroplasia.

BACKGROUND: Achondroplasia and hypochondroplasia are skeletal dysplasias of autosomal dominant inheritance that represent different degrees of severity of the same pathological entity. Both dysplasias are caused by mutations in the Fibroblast Growth Factor Receptor 3 (FGFR3) gene. In achondroplasia more than 95% of the cases studied to date carry the same mutation (G380R). Hypochondroplasia represents a greater clinical and genetic heterogeneity, possibly being confused with "idiopathic short stature". The N540K mutation has been detected in 50-70% of cases of hypochondroplasia and mutations at the 650 locus in approximately 2.8%. AIM: To assess the frequency of N540K and G380R mutations, and changes at the 650 locus in Chilean patients with idiopathic disproportionate short stature, hypochondroplasia and achondroplasia. PATIENTS AND METHODS: We studied 21 patients referred for idiopathic short stature, 5 with clinically suspected hypochondroplasia and 4 with achondroplasia. The G1138A, G1138C (G380R), and C1620, C1620A (N540K) mutations and the nucleotide changes at the 650 locus were studied using PCR and restriction analysis of genomic DNA. RESULTS: Three out of five hypochondroplasia patients were heterozygous for the N540K mutation. All of the 4 patients with achondroplasia presented the G1138A mutation. None of these mutations were found in patients with idiopathic short stature. CONCLUSION: Chilean patients with hypochondroplasia and achondroplasia have the same mutations described in other ethnic groups. The identification of mutations in 3 out of 5 patients with hypochondroplasia shows that this analysis is a useful tool for its diagnostic confirmation. In short stature the molecular study should only be indicated in those cases presenting other clinical and/or radiological features of hypochondroplasia.

Bone metabolism in children with epidermolysis bullosa.

We evaluated bone mineral density, vitamin D status, and biochemical markers of bone turnover in seven children with epidermolysis bullosa (EB). Four had osteopenia (Z score, -1.5) and four 25(OH) vitamin D <34 nmol/L (14 ng/mL), two of which had hyperparathyroidism. Children with severe EB should have evaluation of bone metabolism.

Raquitismo: formas de presentación y diagnóstico etiológico / Rickets: clinical manifestations and diagnosis

Se presentan siete pacientes con cuatro formas de raquitismo, tres de las cuales son de tipo nutricional, dos vitamina D dependientes, uno secundario a acidosis tubular distal y un paciente con raquitismo hipofosfémico. Se destaca la importancia del estudio de laboratório en el diagnóstico diferencial, se discuten los mecanismos fisiopatológicos implicados en cada una de las formas, la respuesta al tratamiento y se propone un protocolo de estudio para el diagnóstico del paciente con este síndrome