25 research outputs found
Psychiatric characterization of children with genetic causes of hyperandrogenism
Objective: Very little is known about the mental health status in children with genetic causes of hyperandrogenism. This study sought to characterize psychiatric morbidity in this group. Design/methods: Children (8-18 years) with the diagnosis of classic congenital adrenal hyperplasia (CAH) or familial male precocious puberty (FMPP) underwent a semi-structured psychiatric interview, the Kiddie Schedule for Affective Disorders and Schizophrenia-Present and Lifetime Version. According to sex and the literature, incidence of identified psychopathology was compared between the two endocrinological groups. We evaluated 72 patients: 54 CAH (21 females) and 18 FMPP. Results: Twenty-four (44.4%) CAH patients and 10 (55.6%) FMPP patients met the criteria for at least one lifetime psychiatric diagnosis. Attention-deficit hyperactivity disorder (ADHD) was present in 18.2% of CAH males, 44.4% of FMPP males, and one case (4.8%) in CAH females. A high rate of anxiety disorders was also found in all the three groups (17-21%). Relative to females with CAH, the FMPP patients exhibited higher rates of ADHD. Age at diagnosis and the treatment modalities were not associated with psychopathology. Rates of psychiatric disorder, specifically ADHD and anxiety disorders, were higher than in the general population. Conclusion: Although anxiety disorders may occur at an increased rate in children with chronic illness, androgens may contribute to higher risk for psychopathology in pediatric patients with genetic cause of excess androgen. Early diagnosis and treatment of childhood hyperandrogenism is essential for optimal development. The results suggest that assessment for psychiatric disorders should be part of the routine evaluation of these patients
Grey matter volume correlates with virtual water maze task performance in boys with androgen excess
Major questions remain about the specific role of testosterone in human spatial navigation. We tested 10 boys (mean age 11.65 years) with an extremely rare disorder of androgen excess (Familial Male Precocious Puberty, FMPP) and 40 healthy boys (mean age 12.81 years) on a virtual version of the Morris Water Maze task. In addition, anatomical magnetic resonance images were collected for all patients and a subsample of the controls (n=21) after task completion. Behaviourally, no significant differences were found between both groups. However, in the MRI analyses, grey matter volume (GMV) was correlated with performance using voxel-based morphometry (VBM). Group differences in correlations of performance with GMV were apparent in medial regions of the prefrontal cortex as well as the middle occipital gyrus and the cuneus. By comparison, similar correlations for both groups were found in the inferior parietal lobule. These data provide novel insight into the relation between testosterone and brain development and suggest that morphological differences in a spatial navigation network covary with performance in spatial ability. Published by Elsevier Ltd on behalf of IBRO
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A Novel Gene Deletion Associated With Xeroderma Pigmentosum And Type IA Growth Hormone Deficiency. 611
A 15 year old Chilean male, the product of a nonsanguineous uncle-niece marriage, has type IA GH deficiency and xeroderma pigmentosum (XP), both
rare autosomal recessive disorders. Type IA growth hormone (GH) deficiency which is due to a 6.7 or 7.6 kb GH gene deletion is associated with production of antibodies in response to growth hormone therapy. XP causes freckling,
xerosis and a variety of skin cancers. The underlying defect is abnormal DNA repair. Eight complementation groups A through G exist for XP. The chromosomal location of most of these genes has been identified (except for the `variant' type). None of these genes are known to map to the the GH locus on chromosome 17q22-q24. The XP in our patient is associated with skin freckling, actinic keratosis and basal cell carcinoma of the face. Fibroblast DNA repair studies following exposure to mitomycin C and ultraviolet C are compatible with`variant' XP. Molecular studies of the growth hormone gene locus show a novel deletion extending 5′ from the GH gene cluster and including the GH gene. GH deficiency and XP appear to be co-segregating in this family. One male sibling with GH deficiency died at the age of 4 years. He was not old enough to have developed XP and none of the remaining 6 brothers have GH deficiency or XP. We postulate that the unique gene deletion causing GH
deficiency in this family, is also the location of a previously unmapped`variant' XP gene
Early Hyperandrogenism Affects the Development of Hippocampal Function: Preliminary Evidence from a Functional Magnetic Resonance Imaging Study of Boys with Familial Male Precocious Puberty
The way in which sex hormones influence cognitive and affective brain development is poorly understood. Despite increasing knowledge in the area of pediatric mood disorders, little is known about the influence of sex hormones on the regulation of emotion. Animal studies and preliminary human studies suggest a strong impact of testosterone on limbic structures such as the hippocampus and amygdala. We used functional magnetic resonance imaging (fMRI) to examine emotional processing in familial male-precocious puberty (FMPP), an extremely rare gonadotropin-independent form of precocious puberty characterized by early excess testosterone secretion. We compared this group (n = 7, mean age = 13 ± 3.3 years) to healthy age and sex-matched controls (n = 14, mean age = 13 ± 2.3 years). Participants were presented with emotional and neutral face stimuli and were required either to judge the hostility of the presented face, their subjective level of anxiety, or the width of the nose of the presented faces (nonemotional condition). In a fourth, passive viewing condition, no responses were required. Boys with FMPP responded faster to fearful faces during perception of threat compared to unaffected controls. Concurrently, fMRI data revealed significant differences in hippocampus activation in response to fearful faces relative to baseline whereas controls showed no differences. In contrast, no significant activation of the amygdala was found. These data are consistent with previous studies of the effects of sex hormones on brain function and support the role of testosterone on emotional development
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Effects of oral insulin in relatives of patients with type 1 diabetes: The Diabetes Prevention Trial--Type 1
This randomized, double-masked, placebo-controlled clinical trial tested whether oral insulin administration could delay or prevent type 1 diabetes in nondiabetic relatives at risk for diabetes.
We screened 103,391 first- and second-degree relatives of patients with type 1 diabetes and analyzed 97,273 samples for islet cell antibodies. A total of 3,483 were antibody positive; 2,523 underwent genetic, immunological, and metabolic staging to quantify risk of developing diabetes; 388 had a 5-year risk projection of 26-50%; and 372 (median age 10.25 years) were randomly assigned to oral insulin (7.5 mg/day) or placebo. Oral glucose tolerance tests were performed every 6 months. The median follow-up was 4.3 years, and the primary end point was diagnosis of diabetes.
Diabetes was diagnosed in 44 oral insulin and 53 placebo subjects. Annualized rate of diabetes was similar in both groups: 6.4% with oral insulin and 8.2% with placebo (hazard ratio 0.764, P = 0.189). In a hypothesis-generating analysis of a subgroup with insulin autoantibody (IAA) levels confirmed (on two occasions) > or =80 nU/ml (n = 263), there was the suggestion of benefit: annualized diabetes rate 6.2% with oral insulin and 10.4% with placebo (0.566, P = 0.015).
It is possible to identify individuals at high risk for type 1 diabetes and to enroll them in a large, multisite, randomized, controlled clinical trial. However, oral insulin did not delay or prevent type 1 diabetes. Further studies are needed to explore the potential role of oral insulin in delaying diabetes in relatives similar to those in the subgroup with higher IAA levels
Plasma midkine concentrations in healthy children, children with increased and decreased adiposity, and children with short stature.
BackgroundMidkine (MDK), one of the heparin-binding growth factors, is highly expressed in multiple organs during embryogenesis. Plasma concentrations have been reported to be elevated in patients with a variety of malignancies, in adults with obesity, and in children with short stature, diabetes, and obesity. However, the concentrations in healthy children and their relationships to age, nutrition, and linear growth have not been well studied.Subjects and methodsPlasma MDK was measured by immunoassay in 222 healthy, normal-weight children (age 0-18 yrs, 101 boys), 206 healthy adults (age 18-91 yrs, 60 males), 61 children with BMI ≥ 95th percentile (age 4-18 yrs, 20 boys), 20 girls and young women with anorexia nervosa (age 14-23 yrs), and 75 children with idiopathic short stature (age 3-18 yrs, 42 boys). Body fat was evaluated by dual-energy X-ray absorptiometry (DXA) in a subset of subjects. The associations of MDK with age, sex, adiposity, race/ethnicity and stature were evaluated.ResultsIn healthy children, plasma MDK concentrations declined with age (r = -0.54, P ConclusionsIn healthy children, plasma MDK concentrations declined with age and were not significantly associated with sex, adiposity, or stature-for-age. These findings provide useful reference data for studies of plasma MDK in children with malignancies and other pathological conditions