The ontogenesis and development of the pituitary gland is a highly complex process that depends on a cascade of transcription factors and signaling molecules. Spontaneous mutations and transgenic murine models have demonstrated a role for many of these factors, including HESX1, PROP1, PIT1, LHX3, LHX4, SOX2, SOX3, OTX2, PAX6, FGFR1, SHH, GLI2, and FGF8 in the etiology of congenital hypopituitarism. Genetic mutations in any of these factors can lead to congenital hypopituitarism, which is characterized by the deficiency in one or more pituitary hormones. The phenotype can be highly variable, consisting of isolated hypopituitarism or more complex disorders. The same phenotype can be attributed to different gene mutations; while a given gene mutation can induce different phenotypes. This review highlights the genetic variations that lead to congenital hypopituitarism and their associated defects. The overall incidence of mutations in known transcription factors in patients with hypopituitarism is low; therefore many gene mutations or even gene- epigenetic interactions have to be unraveled in the future to explain the vast majority of still unclear cases of congenital hypopituitarism.
Aims: To describe the tall stature and its possible underlying mechanism in a Caucasian girl (age 12 years and 10 months) with 46,XX (28%)/47,XXX (72%) mosaicism and to identify the parental origin of her extra X chromosome. Methods: The fasting glucose-to-insulin ratio was studied. The karyotypes of the girl and her parents as well as the presence of SHOX copies and the parental origin of her extra X chromosome were assessed. Results: Clinical examination revealed a tall stature and severe acne, and endocrinological/metabolic assessment revealed insulin resistance. Fluorescence in situ hybridization cytogenetic analysis depicted the presence of three SHOX genes in the 47,XXX cell line of the patient. Karyotyping of her parents showed a normal 46,XX karyotype in the mother and 46,XY(93%)/47,XXY(7%) Klinefelter mosaicism in the father. However, DNA analysis unequivocally showed maternal origin of the extra X chromosome of the patient. Conclusions: This report suggests that SHOX gene triplication may produce a tall stature, even in the presence of preserved ovarian function. X triplication might predispose to insulin resistance and behavioral disorders.
The aim of the study was to evaluate whether the timing of performing a voiding cystourethrography (VCUG) following a first urinary tract infection (UTI) in infants is related to the presence or the severity of vesicoureteral reflux (VUR). A total of 411 children (male 230, female 181) with a first-recognised UTI between ages 15 days and 12 months (median 3 months) underwent a VCUG within 4-81 days (median 9 days) following diagnosis. The presence and the grade of the VUR were compared in two groups: an "early" group in which the VCUG was performed during the first week of the start of treatment and a "late" group in which the examination was performed during the second week or thereafter. The prevalence of VUR in the study cohort was 23.3% (96/411 infants). A VUR was diagnosed in 44 infants in the early group (28%) and in 52 in the late group (21%). Reflux of grade III or higher was seen in 25/44 (57%) of the infants in the early group and in 27/52 (52%) infants in the late group. These differences were not significant. Our results suggest that neither the presence nor the grade of VUR in infants is influenced by the timing of the examination following diagnosis. We therefore recommend that it is better to perform VCUG as soon as possible, provided the inflammation has subsided.
The efficacy and safety of recombinant human growth hormone (hGH) administration was studied in children with achondroplasia. Fifteen children with achondroplasia, seven boys (4.8-12.2 years of age) and 12 girls (5.7-2.2 years of age), were treated daily with hGH at a dosage of 1 IU/kg/week. Auxological assessments were performed 6 months before, at initiation of, and at 6, 12, and 24 months following initiation of growth hormone (GH) therapy. Before initiating GH therapy, hypothalamic-pituitary and thyroid functions were evaluated. Levels of serum insulin-like growth factor (IGF)-I and IGF binding protein (BP)-3 (IGFBP-3) were assessed, as was GH response to provocative stimuli. GH responses in two stimulation tests were normal for all but three children. During the first semester of GH treatment, a significant increase in height velocity (HV), from 3.2 to 8.3 cm/year, was observed in all children. However, during the second semester, a relative decrease in growth rate was observed. By the end of the first year, HV had increased from 3.2 to 6.9 cm/year (mean, 3.7 cm/year; range, 1.1-8 cm/year) in 13 children and remained unchanged in two children. HV declined progressively during the next 12 months and, by the end of the second year of treatment, had increased in seven of the nine children who had completed 2 years of therapy (mean increase, 3.1 cm/year); two children did not respond to GH therapy, as shown by the lack of increase in HV. Sitting-height (SH) to standing-height ratio % (SH%) remained unchanged throughout GH therapy, and no significant change in skeletal maturation was observed. In conclusion, hGH treatment resulted in an increased growth rate in some children with achondroplasia; however, this increase waned during the second year of treatment. Children with the lowest pretreatment HVs seemed to benefit most from GH therapy. Nonetheless, the usefulness of GH treatment in achondroplasia will be known only when a study of final height is completed.
The efficacy and safety of recombinant human growth hormone (hGH) administration was studied in children with achondroplasia. Fifteen children with achondroplasia, seven boys (4.8-12.2 years of age) and 12 girls (5.7-2.2 years of age), were treated daily with hGH at a dosage of 1 IU/kg/week. Auxological assessments were performed 6 months before, at initiation of, and at 6, 12, and 24 months following initiation of growth hormone (GH) therapy. Before initiating GH therapy, hypothalamic-pituitary and thyroid functions were evaluated. Levels of serum insulin-like growth factor (IGF)-I and IGF binding protein (BP)-3 (IGFBP-3) were assessed, as was GH response to provocative stimuli. GH responses in two stimulation tests were normal for all but three children. During the first semester of GH treatment, a significant increase in height velocity (HV), from 3.2 to 8.3 cm/year, was observed in all children. However, during the second semester, a relative decrease in growth rate was observed. By the end of the first year, HV had increased from 3.2 to 6.9 cm/year (mean, 3.7 cm/year; range, 1.1-8 cm/year) in 13 children and remained unchanged in two children. HV declined progressively during the next 12 months and, by the end of the second year of treatment, had increased in seven of the nine children who had completed 2 years of therapy (mean increase, 3.1 cm/year); two children did not respond to GH therapy, as shown by the lack of increase in HV. Sitting-height (SH) to standing-height ratio % (SH%) remained unchanged throughout GH therapy, and no significant change in skeletal maturation was observed. In conclusion, hGH treatment resulted in an increased growth rate in some children with achondroplasia; however, this increase waned during the second year of treatment. Children with the lowest pretreatment HVs seemed to benefit most from GH therapy. Nonetheless, the usefulness of GH treatment in achondroplasia will be known only when a study of final height is completed.
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