Menstrual irregularity is a common complaint at presentation in women with Cushing's syndrome, although the etiology has been little studied. We have assessed 45 female patients (median age, 32 yr; range, 16 -41 yr) with newly diagnosed pituitary-dependent Cushing's syndrome. Patients were subdivided into 4 groups according to the duration of their menstrual cycle: normal cycles (NC; 26 -30 days), oligomenorrhea (OL; 31-120 days), amenorrhea (AM; Ͼ120 days), and polymenorrhea (PM; Ͻ26 days). Blood was taken at 0900 h for measurement of LH, FSH, PRL, testosterone, androstenedione, dehydroepiandrosterone sulfate, estradiol (E 2 ), sex hormone-binding globulin (SHBG), and ACTH; cortisol was sampled at 0900, 1800, and 2400 h. The LH and FSH responses to 100 g GnRH were analyzed in 23 patients. Statistical analysis was performed using the nonparametric Mann-Whitney U and Spearman tests.Only 9 patients had NC (20%), 14 had OL (31.1%), 15 had AM (33.3%), and 4 had PM (8.8%), whereas 3 had variable cycles (6.7%). By group, AM patients had lower serum E 2 levels (median, 110 pmol/L) than OL patients (225 pmol/L; P Ͻ 0.05) or NC patients (279 pmol/L; P Ͻ 0.05), and higher serum cortisol levels at 0900 h (800 vs.602 and 580 nmol/L, respectively; P Ͻ 0.05) and 1800 h (816 vs. 557 and 523 nmol/L, respectively; P Ͻ 0.05) and higher mean values from 6 samples obtained through the day (753 vs. 491 and 459 nmol/L, respectively; P Ͻ 0.05). For the whole group of patients there was a negative correlation between serum E 2 and cortisol at 0900 h (r ϭ Ϫ0.50; P Ͻ 0.01) and 1800 h (r ϭ Ϫ0.56; P Ͻ 0.01) and with mean cortisol (r ϭ Ϫ0.46; P Ͻ 0.05). No significant correlation was found between any serum androgen and E 2 or cortisol. The LH response to GnRH was normal in 43.5% of the patients, exaggerated in 52.1%, and decreased in 4.4%, but there were no significant differences among the menstrual groups. No differences were found in any other parameter.In summary, in our study 80% of patients with Cushing's syndrome had menstrual irregularity, and this was most closely related to serum cortisol rather than to circulating androgens. Patients with AM had higher levels of cortisol and lower levels of E 2 , while the GnRH response was either normal or exaggerated. Our data suggest that the menstrual irregularity in Cushing's disease appears to be the result of hypercortisolemic inhibition of gonadotropin release acting at a hypothalamic level, rather than raised circulating androgen levels. (J Clin Endocrinol Metab 83: 3083-3088, 1998)
This study demonstrates an earlier onset of GH activation of bone remodelling as reflected by S-BAP in females compared to males and confirms that long-term GH treatment in hypopituitary adults with GH deficiency increases or preserves BMD both at lumbar spine and femoral neck. However male patients seem to derive the greater benefits in BMD from long-term GH replacement; in females BMD appears simply to be stabilized rather than increased. This constitutes a genuine gender difference in susceptibility given that serum IGF-I was in the upper part of the reference range in all subjects.
Our data show that GH replacement in GH deficient adults is associated with favourable changes in body composition, which could be important in the long term health outcome and physical activity of GH deficient patients. Our data support the concept that GH therapy alone, in the absence of some form of exercise programme, may increase the amount of lean tissue but not the quality or functional capacity of this tissue and it may be that training, in addition to GH therapy, may be necessary to significantly increase physical performance in these patients. We suggest that future trials with GH therapy and general approaches to the treatment of GH deficiency should include a planned activity programme as an approach to health improvement in these patients.
Sepsis, surgery and critical illness are associated with an increased catabolic rate, which if prolonged delays recovery and increases morbidity and mortality. There is evidence that changes in the GH/IGF-I axis are permissive to protein catabolism. Critically ill, septic patients have high basal levels of GH, low levels of IGF-I and its carrier binding protein IGFBP-3, high levels of an inhibitory binding protein, IGFBP-I, and increased serum protease activity which reduces the affinity of IGFBP-3 for IGF-I. Overall there is a reduction in the indirect IGF-I-mediated anabolic actions of GH and an increase in the direct catabolic actions of GH. These physiological changes may be adaptive when a sick patient is fasting; however, the availability of modern intensive care means that these changes are no longer an advantage. GH and IGF-I, in pharmacological doses, promote positive nitrogen balance, in both animal models and man. Preliminary studies with IGF-I in postsurgical patients suggest that it may provide a practical therapy. Future studies need to focus on outcome measures in relation to the use of GH and IGF-I as anabolic therapies.
Growth hormone (GH) exerts important influences on bone metabolism during lifespan. During childhood, GH is a major determinant of acquisition of bone mass and in adult life, GH partly determines the rate of bone remodelling and therefore influences maintenance of bone mineral density (BMD). Insights into the importance of GH in these respects may be obtained by studies of BMD and indices of bone remodelling in GH deficiency (GHD) of adult-onset and childhood-onset. Adult-onset GHD, usually accompanied by other features of hypopituitarism, may be associated with osteopenia and an increased fracture risk. Postulated mechanisms include GHD and gonadal steroid deficiency of unknown duration; glucocorticoid and thyroxine replacement do not appear to exert a major role. GH replacement in adult-onset GHD results in an early increment in indices of bone remodelling which persists for up to 5 years; BMD increases by 0.5–1.0 SD in males and stabilizes in females over this time period. In adolescents with GHD who traditionally discontinue GH at completion of linear growth, BMD is substantially lower than peak bone mass for a young adult population. Studies addressing the effects of continuation of GH after achievement of final height are currently underway and will provide insights into the possible need to continue GH into adult life. Such studies may confirm a role for GH in promoting continued accrual of bone mass and thereby demonstrate that cessation of GH at achievement of final height, by limiting peak bone mass, may predispose to clinically significant osteoporosis in later life. In addition to the potential importance of GH for achievement of peak bone mass, there may be a superimposed accelerated loss of BMD with advancing age similar to the situation observed in adult-onset GHD. To date, this has been difficult to assess in adult GHD of childhood-onset because the relative contributions of low peak bone mass and increased loss of bone in later life could not be distinguished.
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