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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To examine hormonal status in obese, gynecologically normal women we studied 25 regularly menstruating, massively obese (mean weight, 120 kg) women participating in a weight reduction program and 25 age-matched normal weight (mean weight, 60 kg) women. Serum 17 beta-estradiol (E2), estrone (E1), androstenedione (A), dehydroepiandrosterone sulfate, testosterone, LH, FSH, PRL, and cortisol concentrations were measured during the follicular phase of the menstrual cycle. Waist to hip ratio and abdominal fat cell size were measured at the beginning of the study. The serum levels of E2 (P less than 0.04) as well as those of A, SHBG, and LH (P less than 0.002) were lower in the obese group. Consequently, the testosterone to SHBG ratio and the E1 to A ratio were higher and the LH to FSH ratio was lower in this group. Waist to hip ratio did not correlate with the levels of circulating hormones or SHBG, but an inverse correlation was found between abdominal fat cell size and A as well as the LH to FSH ratio in the nonhirsute women of the obese group. Subsequent to moderate weight reduction (13.2 kg), serum A and E1 levels (P less than 0.01) increased, and serum cortisol levels decreased (P less than 0.001). Thus, massive obesity is associated with abnormalities in hormonal balance in gynecologically symptomless women, there being an association between E1, E2, A, LH, cortisol, and relative weight and/or abdominal fat cell size.
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PMID:Sex steroid, gonadotropin, cortisol, and prolactin levels in healthy, massively obese women: correlation with abdominal fat cell size and effect of weight reduction. 309 52

Our aim in the current study of 20 normal controls, 28 overweight, and 26 severely overweight (obese) subjects was to assess interrelationships of obesity, endogenous estradiol (E2) and testosterone (T), and the E2/T ratio with major independent explanatory variables for coronary heart disease (CHD), including lipids, lipoproteins, and apolipoproteins. Most of the lipid and lipoprotein variables (total, high-, low-, and very-low-density lipoprotein cholesterols) as well as apolipoproteins A1, A2, and B did not vary significantly with the presence of obesity. With increasing relative ponderosity, there were, however, increasing levels of total triglycerides and VLDL triglyceride. Levels of FSH, LH, prolactin, and testosterone did not differ significantly with obesity. The obese subjects had the highest E2 and E2/T levels; overweight subjects had intermediate levels which were also significantly higher than in the controls. Using multiple regression analyses, in obese subjects increasing T was associated with increasing apo B, and increasing E2 was correlated with decreasing apo A1. Opposite relationships were found in the normal controls where increasing T and increasing Quetelet indices were associated with diminished apo B and increasing E2 was associated with increasing A1. Obesity's association with increased CHD risk may be mediated through increasing E2 and apo B and reducing apo A1. Since obese subjects have higher E2 levels and often have lower T, they are likely to have a pattern of endogenous sex hormones (higher E2, lower T, higher E2/T ratios) similar to those observed in young men with premature myocardial infarction.
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PMID:Sex hormones, lipids, lipoprotein cholesterols, and apolipoproteins in normal and obese subjects: atherogenic relationships. 310 Apr 68

Nine patients (4F, 5M) aged 12-17 years with "fear of obesity" were studied with a sequential stimulation test utilizing insulin, LRH, TRH, and L-dopa. The comparative groups were nine female with classic anorexia nervosa, five males with undifferentiated nutritional dwarfing, and nine children (1F, 8M) with constitutional growth delay. The serum TSH, glucose, cortisol, somatotropin, prolactin, LH, and FSH were sampled periodically over 2 hours. Basal T3, T4, transferrin, and Somatomedin-C levels were also obtained. The "fear of obesity" patients did not have any pituitary function changes that were unique. These patients, as well as the comparison groups, revealed a delayed TSH response in proportion to the weight deficit which, when expressed as an integrated response, correlated well to the weight deficit for height (P less than 0.001) and to the ability to recover from hypoglycemia (p less than 0.001). The Somatomedin-C level was low and correlated to the T3 level (p less than 0.05) and not correlated to the elevated Somatotropin levels. The pituitary response to combined stimulation in patients with fear of obesity was determined to be a component of the spectrum starting at normal and proceeding to the extreme undernutrition of anorexia nervosa. Pituitary responsiveness, therefore, changes not as a function of the etiology of the malnutrition, but simply as a function of its severity.
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PMID:Pituitary-hypothalamic response in adolescents with growth failure due to fear of obesity. 310 48

Obese men have hyperestrogenemia-induced hypogonadotropic hypogonadism (HHG), due, we believe, to increased rarmatization of adrenal androgens by the increased bulk of aromatase-containing adipose tissue. We studied the effects of corticosuppressive doses of dexamethasone (D) on 24-h mean plasma total and free estradiol (E2), estrone (E1), LH, FSH, total and free testosterone, delta 4-androstenedione (delta 4), and sex-hormone-binding globulin (SHBG) in nine obese men and five normal-weight controls. In the obese men, the following hormones fell: E2 [59 +/- 19 to 39 +/- 11 pg/ml (P less than 0.01)], E1 [93 +/- 41 to 50 +/- 25 pg/ml; (P less than 0.01)], delta 4-androstenedione [120 +/- 80 to 55 +/- 27 ng/dl; (P less than 0.02)]; free E2 [1.6 +/- 0.4 to 1.1 +/- 0.2 pg/ml; (P less than 0.01)], SHBG [12.8 +/- 5.3 to 8.2 +/- 3 nM/l; (P less than 0.04)]. FSH rose from 4.8 +/- 3.2 to 7.6 +/- 4.2 miu/ml (P less than 0.01). LH, total and free testosterone showed no significant change. In the nonobese men, there were decreases in total E2 [(34 +/- 6.8 to 25 +/- 10 pg/ml; P less than 0.04)], SHBG [16.8 +/- 7.5 to 10.4 +/- 2.0 nM/l: P less than .05.], free E2 [0.9 +/- 0.2 to 0.7 +/- 0.3 pg/ml: P less than 0.05], delta 4 [91.4 +/- 3.6 to 33.4 +/- 16.7 ng/dl; P less than .01] and total T [492 +/- 44 to 393 +/- 121 ng/dl; P less than 0.04]. There was no significant change in E1, FSH, LH or free T.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Partial reversal of the hypogonadotropic hypogonadism of obese men by administration of corticosuppressive doses of dexamethasone. 314 62

We have found a number of interesting hormonal abnormalities in obese men and women: 1) Obese women have normal levels of estrone, total estradiol, and total testosterone, but as a consequence of their subnormal levels of SHBG, their levels of free estradiol and free testosterone are significantly elevated. 2) Massive weight loss in obese women (to still elevated weight) results in normalization of the previously elevated free estradiol and free testosterone. 3) Obese women have normal plasma DHEA levels, but a significant, age-invariant decrease of the plasma DHEA/T ratio, which could be due to increased tissue activity of 3 beta-hydroxysteroid dehydrogenase. 4) Massive weight loss produces an age-dependent effect on DHEA levels in obese women: the levels increase to supranormal values in women around age 20, with diminishing increases at higher premenopausal ages and no increase at all at perimenopausal age. 5) Obese men have elevated levels of estrone and both free and total estradiol, and subnormal levels of free and total testosterone and of FSH; all these abnormalities are proportional to the degree of obesity. They also have relatively subnormal LH levels, i.e. normal in the face of hypotestosteronemia. The combination of these findings represents a state of mild hypogonadotropic hypogonadism (HHG), which we believe to be induced by the hyperestrogenemia. 6) Normalization of the estrogen levels of obese men, by suppression of adrenocortical secretion of aromatase substrates or by inhibition of aromatase, tends to normalize the HHG. 7) Massive weight loss in obese men normalizes their HHG without any decrease in plasma estrogen levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hormonal abnormalities in obesity. 329 58

We have reviewed the role of insulin in ovarian physiology. Clinical observations and experimental data strongly support the hypothesis that insulin possesses gonadotropic activity, when acting alone or with FSH or LH. This idea is further supported by the recent discovery of insulin in follicular fluid. The idea that insulin has gonadotropic function can explain a variety of clinical observations, which otherwise are difficult to understand. For example, manifestations of ovarian hypofunction (primary amenorrhea, late menarche, anovulation, low pregnancy rate, and early menopause) in IDDM can be understood if it is accepted that insulin is necessary for the ovary to reach its full steroidogenic potential. The idea that insulin affects ovarian steroidogenesis also helps to understand the observation that hyperandrogenism frequently accompanies each of the various insulin-resistant states, regardless of the latter's etiology (e.g. genetic deficiency in the number of insulin receptors, antiinsulin receptor antibodies, obesity, etc.). The explanation for this association is based on the idea that hyperinsulinemia intensifies ovarian steroidogenesis, which manifests clinically as hyperandrogenism. Continuous stimulation of the ovary by insulin over a long period of time possibly produces morphological ovarian changes, such as hyperthecosis or polycystic changes; these changes commonly are observed among women with insulin resistance. The effects of insulin on ovarian cells are mediated possibly through binding of the peptide to its own receptor or to the IGF-1 receptor (the specificity spillover phenomenon). The latter could be an important mechanism in cases of insulin resistance. Potential mechanisms underlying the gonadotropic activity of insulin include direct effects on steroidogenic enzymes, modulation of FSH or LH receptor number, synergism with FSH or LH, or nonspecific enhancement of cell viability. The gonadotropic function of insulin adds yet another note to what has been termed a symphony of insulin action. Further investigation into this new area may yield greater insights not only into normal ovarian physiology, but also into the pathogeneses of such diverse entities as PCO, obesity, diabetes mellitus, and the syndromes of insulin resistance and acanthosis nigricans.
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PMID:The gonadotropic function of insulin. 330 17

This study examined the prevalence of both basal and glucose-stimulated hyperinsulinemia and acanthosis nigricans (AN) as well as the relationship between insulin and androgen levels in hyperandrogenic women. Sixty-two women who had an elevation of 1 or more plasma androgen levels were studied. The results in these women, grouped for analysis on the basis of obesity and ovulatory status, were compared to those in 36 control women of similar ages and weights. The anovulatory hyperandrogenic women had the clinical and biochemical features of the polycystic ovary syndrome (PCO). Oral glucose tolerance tests were performed with measurement of glucose, insulin, sex hormone-binding globulin (SHBG), and total and non-SHBG-bound sex steroid levels. AN was present in 29% of the hyperandrogenic women, the majority of them obese. Fifty percent of obese PCO women had AN, but they did not otherwise differ from PCO women lacking this dermatological change. Only women with PCO had significant hyperinsulinemia independent of obesity, and obese PCO women with AN had the highest serum insulin levels. Plasma glucose values during the oral glucose tolerance test were significantly increased in obese PCO women independent of the presence of AN, and 20% of these women had frank impairment of glucose tolerance. Ovulatory hyperandrogenic women had normal insulin levels and glucose tolerance. Obese and nonobese women had different relationships between sex steroid and insulin levels; obese women had significant correlations between insulin and non-SHBG testosterone levels (r = 0.30; P less than 0.05), whereas nonobese women had significant correlations between insulin and FSH (r = 0.40; P less than 0.01), dehydroepiandrosterone sulfate (r = 0.33; P less than 0.05), and SHBG (r = 0.37; P less than 0.05) levels, suggesting that the mechanisms underlying the association between sex steroid and insulin levels are complex. These findings suggest that 1) only women with PCO have hyperinsulinemia independent of obesity; hyperinsulinemia is not a feature of hyperandrogenic states in general; 2) AN is a common finding in obese hyperandrogenic women, particularly those with PCO; 3) only obese PCO women are at risk for impairment of glucose tolerance, independent of the presence of AN, suggesting that the negative impact of PCO and obesity on insulin action is additive; and 4) PCO women with AN can be considered as a subgroup of PCO and do not appear to have a distinct endocrine disorder.
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PMID:Characterization of groups of hyperandrogenic women with acanthosis nigricans, impaired glucose tolerance, and/or hyperinsulinemia. 330 51

Polycystic ovarian disease has a variety of biochemical and clinical features with great individual variation. In our clinical experience, oligo-ovulation, manifested as oligomenorrhea or frank amenorrhea, associated with an acyclic estrogen milieu, is a consistent finding. This may be associated with hyperandrogenemia, hirsutism, inappropriate gonadotropin levels, hyperprolactinemia, obesity, insulin resistance, and ultrasound evidence of multicystic enlarged ovaries. A common presentation is infertility or irregular menstruation secondary to oligo-ovulation and hirsutism secondary to altered androgen metabolism. A challenge in diagnosis is to differentiate polycystic ovarian disease from latent cases of congenital adrenal hyperplasia. Although the precise mechanism in the pathogenesis of polycystic ovarian disease remains undefined, altered function of the hypothalamic-pituitary-ovarian and adrenal axes is both involved and integrated. Results from clinical trials of ovulation induction using different agents have implicated one site or another as the major progenitor of the "vicious cycle" but with no definitive pathway established. Restoring fertility to these patients can be challenging in that not all patients with polycystic ovarian disease respond to clomiphene or do so satisfactorily. The use of glucocorticoid suppression, pituitary suppression with GnRH analogues, or the use of FSH alone may be of benefit in clomiphene treatment failures.
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PMID:Polycystic ovarian disease. 332 31

In order to study the effect of obesity or underweight on gonadotropins and steroid hormone levels, serum concentrations of FSH, LH. Testosterone, Estradiol, Estrone, 17-OH-Progesterone and SHBG were measured by RIA in obese, underweight and control women, all menstruating in the follicular phase. Serum concentrations of all parameters measured did not differ significantly in the underweight and control groups. All obese women had higher levels of estrone than the control group, and only obese patients with a body mass index above 39 showed a lower SHBG level than that of the control group. The data suggest that the increased levels of estrone could play a role in the amenorrhea of obese women.
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PMID:[Influence of body weight on gonadotrophins and steroid hormone levels in menstruating women]. 379 88

Obese Ay/a females of 120 days or older, when compared to age-matched a/a controls (strain C57BL/6J), exhibited abnormal oestrous cyclicity characterized by reduced frequencies of true oestrous-stage smears, decreased mating success to proven a/a males, lowered uterine weights, and depressed ovulation rates. Exogenous gonadotrophins (PMSG/hCG) partly restored ovulation in obese Ay/a females to near control levels, demonstrating the sensitivity of Ay/a ovarian tissues to FSH and LH, at least at superovulatory levels. Concentrations of endogenous gonadotrophins and/or sensitivity of ovarian target cells to gonadotrophins may therefore be impaired in obese Ay/a females. Aberrant copulatory behaviour, reduced uterine weights, and depressed conception rates strongly suggest ovarian steroid deficiencies, perhaps secondary effects of reduced endogenous gonadotrophin activity. As in other obese rodent syndromes e.g. ob/ob, db/db, and fa/fa), a possible fundamental Ay-induced hypothalamic lesion is consistent with our data.
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PMID:Progressive infertility in female lethal yellow mice (Ay/a; strain C57BL/6J). 394 99


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