Herramientas de abordaje ante la consulta de diversidad sexual en la infancia y adolescencia

La identidad de género se define como la autopercepción de género, que puede o no corresponder con el sexo asignado al nacer. Aquellos niños que poseen una identidad de género que no coincide con el sexo biológico, son denominados "no conformes con su género", con "variante de género" o "transgénero". Existen evidencias crecientes que el cuidado y contención adecuados de estos niños/as y adolescentes pueden disminuir el daño y mejorar significativamente su inserción social y su calidad de vida. El objetivo de este artículo es proporcionar definiciones y orientaciones prácticas para el tratamiento endocrinológico de niños/as y adolescentes con disconformidad de género. Éste surge en respuesta a una demanda creciente en los últimos años. Se efectuó revisión bibliográfica basada en el análisis de las guías y publicaciones nacionales e internacionales, evaluando la aplicabilidad en nuestro medio y reforzando el seguimiento inter y transdisciplinario. Existe en la Argentina un marco legal encuadrado en la Ley 26.743 de "Identidad de Género" y a nivel internacional los Principios de Yogyakarta. El acompañamiento temprano de estos niños/as y adolescentes, en caso de persistencia o intensificación de la disconformidad de género, podría derivar en tratamientos orientados a disminuir las posibles comorbilidades asociadas, así como lograr cambios antropométricos, físicos y metabólicos, que deben ser conocidos y manejados por equipos transdisciplinarios en centros de referencia.

Gender identity is defined as gender self- perception, which may or may not correspond to the sex assigned at birth. Those children whose gender identity is different to the biological sex, are called "gender nonconforming," "gender diverse, or "transgender ". There is growing evidence that with supportive, increasing visibility and social acceptance of gender diversity, their social integration and quality of life can be significantly improved. The objective of this article is to provide definitions and practical guidelines for the endocrinological treatment of children and adolescents with gender disconformity. It arises in response to a growing demand in recent years. A bibliographic review was carried out, based on the analysis of national and international guides and publications, evaluating inter and multidisciplinary follow up and applicability among us. There is a legal framework in Argentina, supported by the law 26.743, about "Gender identity", and an internationally one, expressed in the Yogyakarta Principles. In case of persistence or intensification of gender disconformity, with early support and treatment, harms could be meliorated and the possible associated comorbidities can be significantly improved. Anthropometric, physical and metabolic changes should be known and managed by multidisciplinary teams in reference centers

Características clínicas y etiología de la ginecomastia en pacientes en edad prepuberal / Clinical features and etiology of gynecomastia in patients at prepubertal age

La ginecomastia es la proliferación benigna del tejido glandular mamario del varón, generalmente aparece en ciertos periodos de la vida como la época neonatal, puberal o senil, siendo la expresión de cierto disbalance en la acción de estrógenos y andrógenos en la glándula mamaria. Es poco frecuente durante la prepubertad y se debe investigar exhaustivamente el origen de la misma. Objetivo: evaluar las características clínicas y poder definir la etiología en un grupo de pacientes con ginecomastia prepuberal, Materiales y métodos: es un estudio retrospectivo, descriptivo y multicéntrico. Se recolectaron datos de antecedentes familiares, personales, examen físico, laboratorio, evolución, conducta terapéutica y se determinaron las posibles etiologías. Resultados: Fueron evaluados 53 pacientes con ginecomastia, con edad media de 8,4 años (0,88-13,72 años), se encontró mayor prevalencia en niños mayores de 7 años (79,2 %). La presentación bilateral fue la más frecuente en el 73,5 %, 17 (32 %) presentaron obesidad, siendo en 7 (13,7 %) severa (IMC ≥ 3 SDS). En 34 pacientes (64,1 %) no se encontró la etiología; en 12 pacientes (23,5 %) se constató fuente exógena de estrógeno; 2 pacientes con exceso de aromatasa; 1 con neurofibromatosis tipo I y glíoma del nervio óptico; 1 niño con tumor suprarrenal izquierdo productor de estrógenos y 1 paciente con síndrome de Peutz-Jeghers. Conclusión: La ginecomastia prepuberal es poco común, en esta población el mayor porcentaje fue idiopática o por exposición a estrógenos exógenos, pero es una señal de alarma que obliga a descartar la presencia de un trastorno endocrinológico importante.

Gynecomastia is the benign proliferation of male breast glandular tissue. The occurrence of gynecomastia at prepubertal ages is very uncommon and can be a sign of severe endocrine or systemic disease. The main underlying mechanism for the development of gynecomastia appears to be the imbalance between estrogen and androgen action. Objective: to assess clinical characteristics, etiology and course of prepubertal gynecomastia in a group of patients regularly followed at the endocrinology clinic. We performed a retrospective, descriptive, multicenter study. Materials and methods: data on family history, past history of the disease, physical examination, and clinical course were collected. Results: 53 prepubertal patients were included. Median age at presentation was 8.4 years (0.88-13.72 years). An increased prevalence was observed in children > 7 years (79.2 %). Bilateral gynecomastia was the most common form of presentation, (73.5 %). Seventeen patients (32 %) were obese, 7 (13.7 %) with a BMI above 3 SDS. In 34 patients (64.1 %) the etiology of gynecomastia could not be identified (idiopathic). In 12 patients (23.5 %) estrogen exposure was detected; 2 patients suffered from aromatase excess syndrome, 1 had neurofibromatosis type I and optic glioma, 1 had a feminizing adrenocortical tumor and 1 had Peutz-Jeghers syndrome. Conclusion: Prepubertal gynecomastia is rare. In this cohort of 53 children, the most common etiologies were idiopathic or exogenous estrogens exposure. Although gynecomastia may be due to benign causes, in the majority of patients evaluations should be performed to rule out a severe underlying systemic or endocrine disease.

Male hypogonadism: an extended classification based on a developmental, endocrine physiology-based approach.

Normal testicular physiology results from the integrated function of the tubular and interstitial compartments. Serum markers of interstitial tissue function are testosterone and insulin-like factor 3 (INSL3), whereas tubular function can be assessed by sperm count, morphology and motility, and serum anti-Müllerian hormone (AMH) and inhibin B. The classical definition of male hypogonadism refers to testicular failure associated with androgen deficiency, without considering potential deficiencies in germ and Sertoli cells. Furthermore, the classical definition does not consider the fact that low basal serum testosterone cannot be equated to hypogonadism in childhood, because Leydig cells are normally quiescent. A broader clinical definition of hypogonadism that could be applied to male patients in different periods of life requires a comprehensive consideration of the physiology of the hypothalamic-pituitary-testicular axis and its disturbances along development. Here we propose an extended classification of male hypogonadism based on the pathophysiology of the hypothalamic-pituitary-testicular axis in different periods of life. The clinical and biochemical features of male hypogonadism vary according to the following: (i) the level of the hypothalamic-pituitary-testicular axis primarily affected: central, primary or combined; (ii) the testicular cell population initially impaired: whole testis dysfunction or dissociated testicular dysfunction, and: (iii) the period of life when the gonadal function begins to fail: foetal-onset or postnatal-onset. The evaluation of basal testicular function in infancy and childhood relies mainly on the assessment of Sertoli cell markers (AMH and inhibin B). Hypergonadotropism should not be considered a sine qua non condition for the diagnosis of primary hypogonadism in childhood. Finally, the lack of elevation of gonadotropins in adolescents or adults with primary gonadal failure is indicative of a combined hypogonadism involving the gonads and the hypothalamic-pituitary axis.

Síndrome de Klinefelter en las distintas edades: experiencia multicéntrica / Klinefelter Syndrome at differents ages: multicentric experience

El Síndrome de Klinefelter (SK) es la anormalidad cromosómica más frecuente en los varones, con una prevalencia estimada de 1:600 recién nacidos. El objetivo de este trabajo fue establecer las distintas características de presentación del SK a distintas edades, incluyendo signos y síntomas clínicos, parámetros de laboratorio y otros exámenes complementarios. La franja etaria más frecuente de diagnóstico de SK fue entre los 11 y 20 años (46,8%). En 4 casos el diagnóstico fue prenatal. Los motivos de consulta más frecuentes en forma global fueron la presencia de testículos pequeños, infertilidad y criptorquidia. El cariotipo más prevalente fue el clásico 47,XXY (83,7%), seguido del mosaico 47,XXY/46,XY (7,1%). El promedio de talla de nuestros pacientes prepuberales no mostró diferencia con la población general. Por otro lado, los pacientes puberales presentaron un promedio de talla significativamente más alto, hallándose alrededor de 1 SDS. Hubo correlación entre la edad y el SDS de talla. La media de talla de los adultos fue 178,8 ± 9,0 cm; se observó un 62,5% de sobrepeso/obesidad (IMC ≥ 25,0 kg/m²). El 50% de nuestros pacientes con SK menores de 18 años presentaron trastornos neurocognitivos. El hallazgo clínico más frecuente entre los pacientes prepuberales fue la criptorquidia. En los puberales las consultas y hallazgos clínicos más frecuentes fueron: testículos pequeños, criptorquidia y ginecomastia. Todos nuestros pacientes en estadio de Tanner igual o mayor de III presentaron testículos más pequeños para su grado de desarrollo. Los valores de FSH y LH fueron normales en los pacientes prepuberales y comenzaron a aumentar en la pubertad. Los adultos consultaron más frecuentemente por hipotrofia testicular, infertilidad y en menor grado ginecomastia. Todos los pacientes presentaron testículos hipotróficos, con una mediana de volumen testicular de 3,5 (1-8) ml. El 56,4% presentaron función sexual normal; el resto tuvo algún tipo de disfunción sexual. La testosterona total (TT) fue normal en 45% de los pacientes, con descenso consistente con la edad, donde todos los pacientes mayores de 40 años presentaron TT subnormal. El 10,7% de los pacientes que efectuaron espermograma tuvo oligospermia severa, el resto presentó azoospermia. La densitometría ósea fue anormal en el 46,4% de los adultos estudiados. Sin embargo, no hubo diferencias significativas en la prevalencia de osteopenia y osteoporosis entre los pacientes con TT normal o subnormal.

Klinefelter syndrome (KS) is the most common chromosomal aberration among men, with an estimated prevalence of 1:600 newborns. It is an X chromosome polysomy, with X disomy being the most common variant (47,XXY). The aim of this study was to establish the characteristics of KS presentation at different ages, including signs and symptoms, laboratory parameters and other diagnostic tests. The diagnosis of KS was more frequent in the age group between 11 and 20 years (46.8%). Most of the patients (83.7%) showed the classic 47,XXY karyotype and 7.1% showed a 47,XXY/46,XY mosaicism. While mean prepubertal height was not different from the control population, it was significantly higher at puberty. Patients consulted most frequently for small testes, infertility and cryptorchidism. In four cases the diagnosis was prenatal. 50% of our patients younger than 18 years presented neurocognitive disorders. The more frequent clinical findings were cryptorchidism in prepubertal patients; small testes, cryptorchidism and gynecomastia in pubertal patients. All our patients in Tanner stage III or more presented small testes. FSH and LH levels were normal in prepubertal patients and increased abnormally at puberty. On the other hand, most adults consulted for small testes, infertility and gynecomastia. 43.6% of patients had decreased libido, sexual and/or ejaculatory dysfunction. In adults average height (178.8 ± 9.0 cm) and weight (83.6 ± 21.0 kg), were higher than in the normal population, however 8 patients (19%) had a height less tan 170 cm. There was 62.5% of overweight / obesity (BMI ≥ 25.0 kg/m²) in the whole group of adult patients. 35.2% had eunuchoid proportions. All patients had testicular hypotrophc, with a median testicular volume of 3.5 ml (range 1-8 ml). Total testosterone (TT) levels were normal in 45% of adult patients, showing significant correlation with age. All patients aged 40 or more years had subnormal TT levels. In patients who underwent semen analysis, severe oligospermia and azoospermia were found in 10.7% and 89.3% respectively. Bone mineral densitometry showed low bone mass in 46.4% of cases. No significant differences in the prevalence of osteopenia and osteoporosis were observed among patients with normal or subnormal TT.

Evaluation of catch-up growth after liver transplantation in children with biliary atresia.

Orthotopic liver transplantation (Tx) has improved survival in infants with extrahepatic biliary atresia (BA) when portoenteroanastomosis fails. Symptoms leading to Tx include liver failure, poor quality of life and growth failure. The objective of the study was to determine catch-up growth in children with BA. Medical records and growth data of 36 patients (24 girls) who received a Tx due to BA were analyzed. Thirty-two patients completed 3 yr and 15 patients 7 yr of follow-up after Tx. At Tx, the median age was 2.7 yr (range 0.7-12.6) and mean height Z score (+/-s.d.) was -1.56 (+/-1.3). Patients were divided in two groups according to age at Tx: group I (n = 10), younger than 1.0 yr, and group II (n = 26) older than 1.0 yr. Median age (range) at Tx in group I was 0.8 yr (0.7-1.0) and in group II it was 3.35 yr (1.25-12.6). Thirteen patients (nine in group I) were receptors of living related donors. We evaluated linear growth, liver and renal function, immunosuppressive regimen and allograft rejection episodes. We did not find any significant differences in allograft or renal function, immunosuppressive therapy and number of acute rejection episodes or height Z score at Tx, second and third year post-Tx between both groups. The mean height Z score at Tx in group I was -1.61 and in group II -1.54; at the second year, group I -0.66 and group II -1.08; at the third year, group I -0.17 and group II -0.85; and at the seventh year (total group) -0.3. However, the height gain at the third year was better in group I than in group II (p < 0.01, t-test). Height Z score at the third year improved more than 1 SDS in seven out of eight patients in group I and in only nine out of 24 in group II (odds ratio 11.6). We also found a correlation between height gain at the third year and age at Tx (r-0.65) and between height gain at the third year and height Z score at Tx (r-0.54) (Pearson, p < 0.05). Children with BA who are transplanted before 12 months of age presented better catch-up growth without change survival and morbidity. Orthotopic liver Tx improves survival and also enables height gain in these children.

Distintas formas de presentación clínica de un raquitismo hipofosfatémico autosómico dominante por mutación del factor de crecimiento fibroblástico 23 en una familia / Different forms of clinical presentation of an autosomal dominant hypophosphatemic rickets caused by a FGF23 mutation in one family

In this report we describe different forms of clinical presentation of an autosomal dominant hypophosphatemic rickets (ADHR) in 4 members of the same family as well as the treatment used in these patients and their response to it. Patient No 1: a 60 year old female who consulted for bone pain: Bone densitometry showed osteoporosis. Laboratory assays showed hypophosphatemia with low renal phosphate threshold, high total alkaline phosphatase, normal intact PTH and normal serum calcium. With neutral phosphate and calcitriol, the biochemical parameters normalized and bone densitometry improved significantly in less than a year. Patient No 2 her grand daughter consulted at 1 year and 8 months of age for growth retardation (height at percentile 3) and genu varum. Laboratory assays showed low serum phosphate and high total alkaline phosphatase; thickening and irregular epiphyseal borders of the wrists were observed radiologically. She began treatment with calcitriol and phosphorus with normalization of laboratory parameters and increase in growth (height increasing to percentile 50 after 20 months of therapy). Patient No 3: mother of patient No 2, she had no clinical manifestations and normal densitometry but presented low serum phosphate (1.9 mg/dl) that normalized with neutral phosphate therapy. Patient No 4: he was the youngest son of Patient No 1, who had had hypophosphatemic rickets, by age 5; his serum phosphate normalized without treatment At age 29, he presented normal serum phosphate and bone densitometry. Genomic DNA analysis performed in patient No 3, showed missense mutation with substitution of arginine at position 179 for glutamine. The family was catalogued as having autosomal dominant hypophosphatemic rickets/osteomalacia.

Describimos distintas formas de presentación clínica de un raquitismo hipofosfatémico autosómicodominante en 4 miembros de una misma familia y su respuesta al tratamiento. Paciente N° 1: de sexofemenino de 60 años que consultó por dolores costales y pélvicos, con osteoporosis densitométrica, hipofosfatemia con bajo umbral renal de fósforo, PTH intacta normal y calcemia normal. Tratada con fósforo neutro y calcitriol logró la normalización bioquímica y una notable mejoría de la densitometría en menos de un año. Paciente N° 2: su nieta, consultó al año y ocho meses de edad por presentar talla en percentil 3 y genu varum. En el laboratorio mostró hipofosfatemia y fosfatasa alcalina total muy elevada y en la Rx de mano, ensanchamiento y deflecamiento epifisario compatible con raquitismo. Tratada con fósforo neutro y calcitriol, normalizó los parámetros bioquímicos y logró un ascenso en el percentil de talla de 3 a 50 a los 20 meses de tratamiento. Paciente N° 3: la madre de la paciente N° 2, quien sin ninguna manifestación clínica y con densitometría ósea normal presentó hipofosfatemia que se normalizócon tratamiento con fosfato neutro. Paciente N° 4: el tío de la paciente N° 2, tuvo raquitismo hipofosfatémico de niño,y luego de los 5 años normalizó el fósforo sin tratamiento. Estudiado a los 29 años presentó fósforo normal y densitometría ósea normal. El análisis del ADN genómico de la paciente N° 3 mostró una mutación con sentido erróneo en el gen del factor de crecimiento fifroblástico 23 (sustitución de arginina por una glutamina en posición 179). Por lo tanto se llegó al diagnóstico de raquitismo/osteomalacia hipofosfatémico autosómico dominante.

Distintas formas de presentación clínica de un raquitismo hipofosfatémico autosómico dominante por mutación del factor de crecimiento fibroblástico 23 en una familia / Different forms of clinical presentation of an autosomal dominant hypophosphatemic rickets caused by a FGF23 mutation in one family

In this report we describe different forms of clinical presentation of an autosomal dominant hypophosphatemic rickets (ADHR) in 4 members of the same family as well as the treatment used in these patients and their response to it. Patient No 1: a 60 year old female who consulted for bone pain: Bone densitometry showed osteoporosis. Laboratory assays showed hypophosphatemia with low renal phosphate threshold, high total alkaline phosphatase, normal intact PTH and normal serum calcium. With neutral phosphate and calcitriol, the biochemical parameters normalized and bone densitometry improved significantly in less than a year. Patient No 2 her grand daughter consulted at 1 year and 8 months of age for growth retardation (height at percentile 3) and genu varum. Laboratory assays showed low serum phosphate and high total alkaline phosphatase; thickening and irregular epiphyseal borders of the wrists were observed radiologically. She began treatment with calcitriol and phosphorus with normalization of laboratory parameters and increase in growth (height increasing to percentile 50 after 20 months of therapy). Patient No 3: mother of patient No 2, she had no clinical manifestations and normal densitometry but presented low serum phosphate (1.9 mg/dl) that normalized with neutral phosphate therapy. Patient No 4: he was the youngest son of Patient No 1, who had had hypophosphatemic rickets, by age 5; his serum phosphate normalized without treatment At age 29, he presented normal serum phosphate and bone densitometry. Genomic DNA analysis performed in patient No 3, showed missense mutation with substitution of arginine at position 179 for glutamine. The family was catalogued as having autosomal dominant hypophosphatemic rickets/osteomalacia.(AU)

Describimos distintas formas de presentación clínica de un raquitismo hipofosfatémico autosómicodominante en 4 miembros de una misma familia y su respuesta al tratamiento. Paciente Nº 1: de sexofemenino de 60 años que consultó por dolores costales y pélvicos, con osteoporosis densitométrica, hipofosfatemia con bajo umbral renal de fósforo, PTH intacta normal y calcemia normal. Tratada con fósforo neutro y calcitriol logró la normalización bioquímica y una notable mejoría de la densitometría en menos de un año. Paciente Nº 2: su nieta, consultó al año y ocho meses de edad por presentar talla en percentil 3 y genu varum. En el laboratorio mostró hipofosfatemia y fosfatasa alcalina total muy elevada y en la Rx de mano, ensanchamiento y deflecamiento epifisario compatible con raquitismo. Tratada con fósforo neutro y calcitriol, normalizó los parámetros bioquímicos y logró un ascenso en el percentil de talla de 3 a 50 a los 20 meses de tratamiento. Paciente Nº 3: la madre de la paciente Nº 2, quien sin ninguna manifestación clínica y con densitometría ósea normal presentó hipofosfatemia que se normalizócon tratamiento con fosfato neutro. Paciente Nº 4: el tío de la paciente Nº 2, tuvo raquitismo hipofosfatémico de niño,y luego de los 5 años normalizó el fósforo sin tratamiento. Estudiado a los 29 años presentó fósforo normal y densitometría ósea normal. El análisis del ADN genómico de la paciente Nº 3 mostró una mutación con sentido erróneo en el gen del factor de crecimiento fifroblástico 23 (sustitución de arginina por una glutamina en posición 179). Por lo tanto se llegó al diagnóstico de raquitismo/osteomalacia hipofosfatémico autosómico dominante.(AU)

Growth in four patients on combined treatment with LHRH analogue and growth hormone after renal transplantation.

Four short pubertal boys were treated with LHRHa (leuprolide) and GH after renal transplantation, and followed until adult height. This combined therapy was not successful in increasing growth. Although this study must be considered preliminary because of the small number of patients and the lack of a matched control group, it shows for the first time that this combined therapy (GH + LHRHa) administered to short, pubertal boys after renal transplantation was not successful in increasing growth. Further studies are required to reach definitive conclusions.

Differences in anthropometric parameters and the IFG-I-IGFBP3 axis between liver and renal transplant children.

BACKGROUND: Growth can be differently altered after liver and renal transplantation (Tx) in childhood. METHODS: We compared graft function, linear growth, immunosuppression and serum IGF-I (RIA) and IGFBP3 (IRMA) concentrations in 15 liver (5.6+/-1.1 years old) and 17 renal (7.4+/-0.1 years old) Tx patients who were followed for 4-6 years. RESULTS: Graft function was normal post-liver Tx, although in renal recipients creatinine clearance decreased significantly during follow-up. Liver Tx children presented an increase in mean height of 0.92+/-0.2 SDS (P<0.01) beyond the 2nd year post-Tx, although in renal Tx patients height SDS did not improve. Immunosuppressive corticoid dosage could be decreased and discontinued in liver Tx patients, while in renal recipients it was maintained between 0.18+/-0.01 and 0.16+/-0.02 mg/kg/day. At 3.7+/-0.4 years post Tx, liver Tx patients presented higher mean serum IGF-I level, lower mean serum IGFBP3 value, leading to a higher mean IGF-I/IGFBP3 molar ratio, P<0.001. CONCLUSIONS: We found that while catch up growth coud be achieved after liver Tx, height SDS did not improve after renal Tx. This may be related to a reduced renal graft function and/or to differences in immunosuppressive corticoid dosage. In children with renal transplants a challenge for the future will reside in making it possible to substitute steroid therapy without altering graft function.

Effect of deflazacort versus methylprednisone on growth, body composition, lipid profile, and bone mass after renal transplantation. The Deflazacort Study Group.

Kidney function, growth velocity, weight/height ratio, body composition, lipid profile, and bone mass were studied in a randomized, multicenter trial of deflazacort versus methylprednisone in 27 prepubertal patients with kidney transplantation. Methylprednisone (0.20+/-0.03) was replaced by deflazacort (13 patients, 0.30+/-0.03 mg/kg per day). After 12 months, creatinine clearance decreased significantly only during methylprednisone therapy. Growth velocity increased only in patients treated with deflazacort from 3.3+/-0.6 to 5.6+/-0.5 cm/year. Serum levels of several components of the insulin-like growth factor axis did not change. Weight/height ratio was increased in methylprednisone-treated patients (P<0.05) and decreased in deflazacort-treated patients (P<0.005). Lean body mass increased in both groups (P<0.005). Fat body mass and serum leptin increased only in methylprednisone-treated patients (P<0.025). Total cholesterol and low-density lipoprotein-cholesterol increased in methylprednisone-treated patients by 9.9% (P<0.05) and 12.5% (P<0.025). High-density lipoprotein-cholesterol increased by 21% (P<0.005) and apolipoprotein B decreased by 11% (P<0.005) in deflazacort-treated patients. Total skeleton and lumbar spine bone mineral density decreased in both groups, but at 1 year methylprednisone-treated patients had lost 50% more bone. Bone mineral content decreased only in methylprednisone-treated patients (P<0.01). Our data suggest that substituting deflazacort for maintenance methylprednisone might prevent height loss, excessive bone loss, and fat accumulation; and leads to an improvement in the lipoproteins of these children.

Association of Turner's syndrome and Swyer's syndrome in the same family.

We report two phenotypically and genetically different diseases in the same family. One patient presented with Turner phenotype as a result of chromosomal mosaicism 45,X/46,X, inv(X)(q21;q24) (30%/70%). Her father's sister showed 46,XY female gonadal dysgenesis (Swyer's syndrome) as a result of a point mutation in the SRY gene on her Y chromosome. DNA sequencing revealed a G-->C transversion (nucleotide position 693) resulting in a change from glycine95 to arginine (G95R). Here we report for the first time an association of Turner's syndrome and Swyer's syndrome in the same family.

Effect of therapy with deflazacort on dyslipoproteinemia after pediatric renal transplantation.

Deflazacort is an oxazolone compound derived from prednisolone, with similar immunosuppressive action but fewer side effects. Kidney function, weight/height ratio, serum triglycerides, cholesterol, high-density lipoprotein (HDL) cholesterol, very-low-density lipoprotein cholesterol, low-density lipoprotein (LDL) cholesterol, apolipoprotein A, apolipoprotein B, and lipoprotein (a) were studied before and 6 months after substitution of deflazacort (mean +/- SEM, 0.3 +/- 0.1 mg/kg per day) for methylprednisone (0.2 +/- 0.1 mg/kg per day) in 14 patients treated with cyclosporine, aged 3.1 to 20.3 years, 3 years after renal transplantation. Serum creatinine and calculated creatinine clearance did not change significantly, and weight/height ratio decreased from 20.0% +/- 7.1% to 12.5% +/- 6.5% (P < .005) during deflazacort therapy. Total cholesterol was reduced by 15.9% (from 233 +/- 15 mg/dL to 196 +/- 13 mg/dL, P < .01), LDL cholesterol by 25.5% (from 153 +/- 14 mg/dL to 114 +/- 12 mg/dL, P < .01), and TC/HDL cholesterol ratio by 28.3% (from 5.3 +/- 0.4 to 3.8 +/- 0.4, P < .01), whereas HDL cholesterol increased 18% (from 45 +/- 2 mg/dL to 53 +/- 2 mg/dL) and apolipoprotein A by 8.3% (from 122 +/- 5 mg/dL to 132 +/- 5 mg/dL, P < .05) during deflazacort therapy. Our data suggest that substituting deflazacort for maintenance methylprednisone therapy leads to an improvement in the lipoprotein profile of children after renal transplantation.

[Growth hormone treatment before and after renal transplantation]. / Tratamiento con hormona de crecimiento pre y post trasplante renal.

UNLABELLED: Children with chronic renal disease may improve height with growth hormone (GH) treatment. We studied 2 groups of children with height below 1.8 SDS and/or height velocity (HV) below the 3rd centile: 1) 6 patients with end stage renal disease (ESRD) on dialysis, aged 12.2 +/- 4.4 years (x +/- sd), with bone age of 6.8 +/- 3.3 years, 3 with Tanner stage I and 3 Tanner II; and 2) 6 children with functioning renal transplants, aged 15.5 +/- 2.5 years, with bone age 10.0 +/- 2.3 years, Tanner II-IV. Maintenance dosage of orally administered methylprednisone (MP) was 0.16 +/- 0.04 mg/kg/day. 1) Children with ESRD received GH during 1 to 3.5 years. Height SDS and HV (x +/- sd) were: pre GH -3.8 +/- 0.6 SDS and 2.6 +/- 1.4 cm/y; at 1 year of GH therapy (n = 6) -3.9 +/- 0.4 SDS and 5.1 +/- 3.2 cm/y; at 2 years (n = 5) -4.2 +/- 0.5 SDS and 3.1 +/- 0.7 cm/y; at 3 years (n = 4) -4.1 +/- 0.7 SDS and 3.3 +/- 1.5 cm/y. Height SDS and HV were: pre GH -3.0 +/- 1.9 SDS and 3 +/- 1 cm/y; at 1 year -2.5 +/- 1.5 SDS (p < 0.05) (t paired test) and 6.9 +/- 2.3 cm/y (p < 0.01). Height SDS and HV increased; creatinine clearance remained stable; there was correlation between height SDS and serum creatinine r = -0.81, creatinine clearance and HV r = 0.92, MP dose and HV r = -0.85. Five of 6 patients reached adult height of -2.8 +/- 1.3 SDS, below their target height of -0,3 +/- 0.7 SDS (p < 0.005). CONCLUSION: In patients with ESRD, GH therapy did not improve significantly height SDS and HV. In pubertal transplanted patients height SDS and HV improved and renal function remained stable; final height remained below expected genetic height. Prolonged periods of GH therapy are necessary to evaluate if final height can be improved with GH.

Effects of deflazacort immunosuppression on long-term growth and growth factors after renal transplantation.

Deflazacort is an oxazoline compound derived from prednisolone. We studied changes in kidney function, growth velocity, weight/height ratio, insulin-like growth factor (IGF-I), and IGF binding proteins before and after substitution of deflazacort for methylprednisone in 27 transplanted patients aged 3.1-20 years. Methylprednisone (mean +/- SEM 0.17 +/- 0.01 mg/kg per day) was replaced by deflazacort (0.29 +/- 0.01 mg/kg per day) for a period of 1-5 years. Calculated creatinine clearance did not change significantly during deflazacort treatment. Growth velocity increased from 2.6 +/- 0.5 cm/year to 5.2 +/- 0.7 cm/year (1st year) in 14 prepubertal patients. After 4 years of deflazacort treatment, height standard deviation score for chronological age did not change in 7 prepubertal patients. Mean weight/height ratio decreased by 50% (1st year) and remained reduced during follow-up. Serum IGF-I, IGF binding protein-3 (IGFBP3), IGF/IGFBP3 molar ratio, and IGF-I and II binding capacities showed no significant change; however in 5 of 6 patients IGFBP2 decreased during deflazacort therapy. Our findings suggest that immunosuppressive treatment with deflazacort is as effective as methylprednisone and may lead to an improvement in the growth prognosis of children with renal transplantation.

Growth hormone--insulin-like growth factor-I (IGF-I) axis in prepubertal children with chronic renal failure.

UNLABELLED: The hypothalamic-pituitary insulin-like growth factor I (IGF-I) axis was evaluated in 12 children with chronic renal failure (CRF) aged 3.2 to 16.5 yr (mean 9.5) on chronic dialysis, and in 13 renal transplantation patients aged 7.5 to 15.0 yr (mean 11.1). Height standard deviation score (SDS) was -2.8 +/- 0.5 (mean +/- SE) and -3.0 +/- 0.3 SDS (p = NS), and growth velocity was 3.7 +/- 0.4 and 1.5 +/- 0.3 cm/year (p < 0.01), respectively. Mean nocturnal growth hormone (mean GH) and number of pulses > 5 ng/ml in CRF and transplantation children were 4.2 +/- 0.8 vs 2.4 +/- 0.3 ng/ml, p = 0.08 and 1.7 +/- 0.2 vs 1.0 +/- 0.2, p < 0.05, respectively. In transplant children there was a positive correlation between mean GH and growth velocity (p < 0.02). GH peak response and the area under the curve post GH releasing hormone test were significantly higher in CRF and transplant children treated with deflazacort (new steroid derived from prednisolone) vs transplant children treated with methylprednisone. Mean serum IGF-I levels were -0.5 +/- 0.2 SDS for chronological age (CA) in CRF patients and +0.8 +/- 0.2 SDS(CA) in transplant patients, p = NS. In the latter, serum IGF-I values were positively correlated with growth velocity (p < 0.02) and negatively correlated with methylprednisone dose (p < 0.05). CONCLUSIONS: Patients with CRF and growth retardation have a higher number of GH peaks and slightly elevated mean GH levels compared to transplant patients. After renal transplantation GH secretion may be influenced by glucocorticoids as shown by the lower GH response to GHRH which improved with deflazacort and the inverse correlation between methylprednisone dose and IGF-I levels.

Hypothalamic-pituitary thyroid abnormalities in children after renal transplantation.

Patients with a successful renal transplant may have abnormalities in thyroid function. We evaluated serum thyroid hormone levels, serum thyrotropin (TSH) response to thyrotropin-releasing hormone (TRH), and the circadian pattern of serum TSH in 18 children aged 6.6-19.4 years (median 12.6 years), 4.0 +/- 2.9 years after renal transplantation. In 14 children, immunosuppressive therapy included methylprednisone [mean (+/-SD) 0.17 +/- 0.05 mg/ kg per day], while in 11 it included deflazacort (0.32 +/- 0.1 mg/kg per day). Seven children were studied twice, under methylprednisone and again while on deflazacort therapy. Mean total and free thyroxine (T4) values were significantly below the mean control levels (total T4 108.5 +/- 21.5 vs. 118.7 +/- 22.1 nmol/l, P < 0.05 and free T4 14.4 +/- 4.0 vs. 18 +/- 4.9 pmol/l, P < 0.001). Morning basal TSH levels were within the normal range. The mean TSH increment after TRH was 4.4 +/- 3.5 mU/l, significantly lower than that of controls (10.8 +/- 4.26, P < 0.001). Of 7 patients on methylprednisone, 4 had nocturnal TSH surges below the normal range (95% confidence limits 47%-300%); this occurred in 3 of 8 patients on deflazacort therapy. The TSH response to TRH was correlated with deflazacort dose. Patients on methylprednisone and deflazacort therapy had similar thyroid alterations. Our findings support the hypothesis that after renal transplantation some children have hypothalamic-pituitary thyroid abnormalities in which glucocorticoids may play a significant role.

[Hypothalamic-pituitary-gonadal damage in adolescents with varicocele]. / Daño hipotalamo-hipofiso-gonadal en adolescentes con varicocele.

The incidence of varicocele in adolescent males has been reported to range from 6% to 19%. Our objective was to evaluate if there was any correlation between either varicocele grade or testicular volume and gonadotropin responses to gonadotropin-releasing hormone (LHRH) in 55 adolescents with grade (G) 2 and 3 varicocele, mean age 14.0 years (range: 10-16.8), Tanner stage I, n: 2; II, n: 9; III, n: 15; IV, n: 22; V, n:7. Testicular volume was assessed with Prader orchidometer. Basal and post LHRH serum gonadotropins were determined by radioimmunoassay. Varicocele grades were 2, n: 9; 3, n: 40; bilateral, n: 6. In patients with Tanner stage IV-V, there was a significant correlation between varicocele grade and LH area under the curve post LHRH, r: 0.45. Ipsilateral testicular growth arrest was present in 33 patients (60%) and mean left testicular volume was 77.4 +/- 9.6% (mean +/- SD) when compared to right testicular volume. LH response to LHRH was higher (p < 0.05) in those patients with left testicular volume less than 80%. In conclusion, the finding of higher LH response to LHRH in our patients with more severe ipsilateral testicular growth arrest suggests early Leydig cell dysfunction; both factors can be potential predictors of surgical indication.

Growth acceleration in children with chronic renal failure treated with growth-hormone-releasing hormone (GHRH).

Growth retardation is a prominent clinical manifestation in children with chronic renal failure (CRF). Nine children with CRF (3 on conservative treatment; 3 on dialysis and 3 after renal transplantation) aged 1.6 to 14.0 (x +/- SE: 8.1 +/- 1.4) years, were treated with twice daily subcutaneous injections of 26 +/- 2.4 micrograms/kg/day growth-hormone-releasing-hormone [GHRH (1-29) NH2 Serono (Geref)] during 3 to 6 months. Mean serum urea and creatinine remained stable, although 2 patients on conservative treatment showed a moderate increase in serum creatinine. At the start of the study, height SDS was -2.2 +/- 0.2 (x +/- SE), growth velocity was 4.5 +/- 1.0 cm/year (-2.3 +/- 0.6 DS for chronological age) and growth hormone (GH) response to acute GHRH test (1 microgram/kg IV) was 62 +/- 17.5 ng/ml. Five patients increased height velocity from 3.8 +/- 0.7 to 8.0 +/- 1.2 cm/year (paired t test, p < 0.05). The peak GH response to GHRH was significantly higher in the group of growth non-responders than in the responders (p < 0.05). In conclusion, 5 out of 9 short children with CRF, 3 on conservative treatment, 1 on dialysis and 1 post renal transplantation, showed improved growth in response to GHRH therapy. No consistent effect on renal function was detected. GHRH may be an alternative therapy to increase growth velocity in patients with CRF.

Extent of T cell receptor ligation can determine the functional differentiation of naive CD4+ T cells.

Naive CD4+ T cells can differentiate into cells predominantly involved in humoral immunity, known as T helper type 2 cells (Th2), or cells involved in cell-mediated immunity, known as Th1 cells. In this report, we show that priming of CD4+ T cells bearing a transgene-encoded T cell receptor can lead to differentiation into Th1-like cells producing abundant interferon gamma when the cells are exposed to high antigen doses, while low doses of the same peptide induce cells with the same T cell receptor to differentiate into Th2-like cells producing abundant interleukin 4. Thus antigen dose is one factor that can control the differentiation fate of a naive CD4+ T cell.