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Polycystic ovarian syndrome is the most common endocrine disorder in women of reproductive age. Women with this disorder exhibit an array of disorders, including oligo-ovulation, hyperandrogenism, obesity, hyperlipidemia, infertility and insulin resistance. Of the sequelae that women experience, insulin resistance is associated with the most profound long-term morbidity. Initially, treatment regimens targeted specific symptomatology in these women, such as oligomenorrhea or hirsutism. With the discovery of the common association between insulin resistance and polycystic ovarian syndrome, however, we are able to utilize a new class of systemically targeted drugs that work on many of the symptoms found in these women.
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PMID:Therapy for polycystic ovarian syndrome. 1464 23

The metabolic syndrome is characterized by diabetes mellitus, obesity, hypertension, hyperlipidaemia and polycystic ovary syndrome. The lipid profiles of patient with metabolic syndrome is often characterized by the appearance of hypertrygliceridaemia and small, dense LDL-cholesterol, together with low HDL-cholesterol. Patients with these abnormalities are at an increased risk for premature coronary artery disease. Treatment is a multifactorial process and includes modification of lifestyle factors such as diet and physical activity, weight reduction, correction of dyslipidemia, meticulous blood pressure and glycemic control. The case of a 36-year-old woman who develops metabolic syndrome is discussed.
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PMID:Metabolic syndrome. 1470 75

Polycystic ovary syndrome (PCOS) is a common condition characterised by menstrual abnormalities and clinical or biochemical features of hyperandrogenism. Features of PCOS may manifest at any age, ranging from childhood (premature puberty), teenage years (hirsutism, menstrual abnormalities), early adulthood and middle life (infertility, glucose intolerance) to later life (diabetes mellitus and cardiovascular disease). While pelvic ultrasound examination is useful, many women without PCOS have polycystic ovaries; ultrasound evidence is not necessary for the diagnosis. Testing for glucose intolerance and hyperlipidaemia is wise, especially in obese women, as diabetes mellitus is common in PCOS. Lifestyle changes as recommended in diabetes are fundamental for treatment; addition of insulin-sensitising agents (eg, metformin) may be valuable in circumstances such as anovulatory infertility. Infertility can be treated successfully in most women by diet and exercise, clomiphene citrate with or without metformin, ovarian drilling, or ovulation induction with gonadotrophins; in-vitro fertilisation should be avoided unless there are other indications.
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PMID:4: Polycystic ovary syndrome. 1474 78

PCOS is a metabolic syndrome that exists throughout the world with much clinical heterogeneity. PCOS is now appreciated as encompassing two interrelated metabolic phenomena--insulin resistance and hyperandrogenism. Patients present with oligo-amenorrhea and clinical hyperandrogenism, and the diagnosis is based on clinical grounds with few laboratory tests necessary. Because patients are at higher than normal risk for diabetes, glucose intolerance, and hyperlipidemia, and perhaps at higher risk for coronary heart disease, newly diagnosed patients with PCOS should be evaluated for glucose intolerance and hyperlipidemia. The cornerstone of therapy today includes weight management, and further therapeutic intervention is focused on reproductive and cardiovascular health and treatment of insulin resistance. Clinical case continued The 17-year-old mentioned in the beginning of this article probably does have PCOS. She fits the clinical criteria: oligo-ovulation and hyper-androgenism (the acne and hirsutism). In addition, she is obese, which is also associated with PCOS. Her TSH and prolactin were normal, and as her presentation was not suggestive of an adrenal tumor or congenital adrenal hyperplasia (she had mild hirsutism, and those diagnoses are associated with more severe hyperandrogenism), no further laboratory evaluation was deemed necessary. Once the diagnosis was made, she was screened for lipid abnormalities and for glucose intolerance. Her LDL was 150, HDL 35; oral glucose tolerance test (OGTT) was normal. A pregnancy test was negative, and she was started on OCPs. Devoting herself to exercise and dietary change, she lost 10 pounds in her first 3 months after diagnosis. Her hirsutism and acne have improved with the OCPs and weight loss, and her menses are regular. She has elected to defer oral insulin sensitizers until her weight loss has stabilized. Findings PCOS is common in reproductive-aged women. Diagnosis is clinical and is supported by lab findings; there is significant clinical heterogeneity. Insulin resistance is likely central to the pathophysiology along with androgen excess. Health implications include infertility, diabetes, endometrial cancer, hyperlipidemia, and possibly coronary heart disease. Treatment is evolving and includes weight loss, OCPs, and insulin sensitizers.
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PMID:Polycystic ovary syndrome: a review for primary providers. 1502 92

In 1980, the term non-alcoholic steatohepatitis was coined to describe a new syndrome occurring in patients who usually were obese (often diabetic) females who had a liver biopsy picture consistent with alcoholic hepatitis, but who denied alcohol use. The causes of this syndrome were unknown, and there was no defined therapy. More than two decades later, this clinical syndrome is only somewhat better understood, and still there is no Food and Drug Administration-approved or even generally accepted drug therapy. Patients with primary non-alcoholic steatohepatitis typically have the insulin resistance syndrome (synonymous with the metabolic syndrome, syndrome X, and so forth), which is characterized by obesity, diabetes, hyperlipidemia, hypertension, and, in some instances, other metabolic abnormalities such as polycystic ovary disease. Secondary non-alcoholic steatohepatitis may be caused by drugs such as tamoxifen, certain industrial toxins, rapid weight loss, and so forth. The cause of non-alcoholic steatohepatitis remains elusive, but most investigators agree that a baseline of steatosis requires a second hit capable of inducing inflammation, fibrosis, or necrosis for non-alcoholic steatohepatitis to develop. Our research group has focused its efforts on the interactions of nutritional abnormalities, cytokines, oxidative stress with lipid peroxidation, and mitochondrial dysfunction in the induction of steatohepatitis, both alcoholic and non-alcoholic in origin. Research findings from other laboratories also support the role of increased cytokine activity, oxidative stress, and mitochondrial dysfunction in the pathogenesis of non-alcoholic steatohepatitis. The objectives of this article are to review the (1) definition and clinical features of non-alcoholic steatohepatitis, (2) potential mechanisms of non-alcoholic steatohepatitis, and (3) potential therapeutic interventions in non-alcoholic steatohepatitis.
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PMID:Mechanisms of non-alcoholic steatohepatitis. 1567 Jun 68

It now seems clear that aPKC (atypical protein kinase C) isoforms are required for insulin-stimulated glucose transport in muscle and adipocytes. Moreover, there are marked defects in the activation of aPKCs under a variety of insulin-resistant conditions in humans, monkeys and rodents. In humans, defects in aPKC in muscle are seen in Type II diabetes and its precursors, obesity, the obesity-associated polycystic ovary syndrome and impaired glucose tolerance. These defects in muscle aPKC activation are due to both impaired activation of insulin receptor substrate-1-dependent PI3K (phosphoinositide 3-kinase) and the direct activation of aPKCs by the lipid product of PI3K, PI-3,4,5-(PO4)3. Although it is still uncertain which underlying defect comes first, the resultant defect in aPKC activation in muscle most certainly contributes significantly to the development of skeletal muscle insulin resistance. Of further note, unlike the seemingly ubiquitous presence of defective aPKC activation in skeletal muscle in insulin-resistant states, the activation of aPKC is normal or increased in livers of Type II diabetic and obese rodents. The maintenance of aPKC activation in the liver may explain how insulin-dependent lipid synthesis is maintained in these states, as aPKCs function mainly in the activation of enzymes important for lipid synthesis. Thus increased activation of liver aPKC in hyperinsulinaemic states may contribute significantly to the development of hyperlipidaemia in insulin-resistant states.
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PMID:Atypical protein kinase C in insulin action and insulin resistance. 1578 4

The aetiology of polycystic ovary syndrome (PCOS) remains unknown. This familial syndrome is prevalent among reproductive-aged women and its inheritance indicates a dominant regulatory gene with incomplete penetrance. However, promising candidate genes have proven unreliable as markers for the PCOS phenotype. This lack of genetic linkage may represent both extreme heterogeneity of PCOS and difficulty in establishing a universally accepted PCOS diagnosis. Nevertheless, hyperandrogenism is one of the most consistently expressed PCOS traits. Animal models that mimic fetal androgen excess may thus provide unique insight into the origins of the PCOS syndrome. Many female mammals exposed to androgen excess in utero or during early post-natal life typically show masculinized and defeminized behaviour, ovulatory dysfunction and virilized genitalia, although behavioural and ovulatory dysfunction can coexist without virilized genitalia based upon the timing of androgen excess. One animal model shows particular relevance to PCOS: the prenatally androgenized female rhesus monkey. Females exposed to androgen excess early in gestation exhibit hyperandrogenism, oligomenorrhoea and enlarged, polyfollicular ovaries, in addition to LH hypersecretion, impaired embryo development, insulin resistance accompanying abdominal obesity, impaired insulin response to glucose and hyperlipidaemia. Female monkeys exposed to androgen excess late in gestation mimic these programmed changes, except for LH and insulin secretion defects. In utero androgen excess may thus variably perturb multiple organ system programming and thereby provide a single, fetal origin for a heterogeneous adult syndrome.
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PMID:Androgen excess fetal programming of female reproduction: a developmental aetiology for polycystic ovary syndrome? 1594 25

Non-alcoholic steatohepatitis (NASH) is one of the most common liver disorders. This is highly prevalent in obese and diabetic subjects. Persons with central obesity are at particular risk. Other clinical predictors are age more than 40-50 years and hyperlipidemias, but none of these factors is invariable for causation of NASH. Other reported associations are, celiac disease, Wilson's Disease and few other metabolic diseases. Drugs, particularly amiodarone, tamoxifen, nucleoside analogues and methotrxate have also been linked to NASH. The disease is evenly distributed in both sexes but advanced disease is more common in women. Ethnic variation exists and African Americans are less affected than Hispanic Americans. Specific clinical features of NASH are infrequent. Patients usually come to clinical attention by elevated liver enzymes found on routine evaluation but on history, about two third of patients will admit to have mild fatigue and about half will report right upper quadrant pain. Rarely, patient may present with a complication of cirrhosis. Physical examination may reveal hepatomegaly and splenomegaly. Research in last few years has stressed that development of steatosis, stetohepatitis, fibrosis with subsequent cirrhosis are most probably the result of insulin resistance. Therefore, clinical features may reflect existence of insulin resistance. Obesity, particularly central obesity is most important of these. Patients may have sleep apnea syndrome. Hypertension and manifestations of diabetes mellitus like polyuria, polydypsia, and neurological deficits may occur. Patients may have varying combination of obesity, diabetes, hyperlipidemia, hypertension and impaired fibrinolysis (syndrome X). Children with insulin resistance may show acanthosis nigricance. Patients with polycystic ovary syndrome, which consists of insulin resistance, diabetes, obesity, hirsutism, oligo or polymenorrha and hyperlipidemia may have NASH. Other rare manifestations of insulin resistance, which can be seen in patients of NASH are lipomatosis, lipoatrophy/lipodystrophy and panniculitis. Most other rare conditions known to cause NASH like peroxisomal diseases, mitochondialpathies, Weber-Christian disease, Mauriac syndrome, Madelung's lipomatosis and abetaliopprotenemia also have insulin resistance. This is believed that primary defect underlying insulin resistance is impairment in postreceptor pathways (through tyrosine kinase activity) of insulin action. Primary defect in insulin receptors appear uncommon. This results in down regulation of insulin receptor substance 1 (IRS-1) signaling by excess free fatty acids. In muscle, activated IRS-1 promotes translocation of glucose transporter protein 4 (GLUT4) to cell membrane. As a result, monocyte glucose uptake by GLUT4 increases glucose disposal from blood and reduced need for insulin. PKC-0 is a likely candidate as serine kinase in muscle regulated by fatty acids that can impair the activation of IRS-1. Insulin resistance is usually evaluated by fasting insulin levels, Quantitative Insulin Check Index (QUICKI) and Homeostasis Model Assessment of Insulin Resistance (HOMA), C-peptid/insulin ratio oral glucose tolerance test and hyper insulinemic euglycemic clamp. The clamp technique is considered the gold standard.
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PMID:Insulin resistance and clinical aspects of non-alcoholic steatohepatitis (NASH). 1619 20

There has been wide recognition in the past decade of the increasing frequency of type 2 diabetes in youth, largely but not exclusively in North America. In some American locations and populations, incidence and prevalence of type 2 diabetes are much higher than those of type 1 diabetes, because of increased calorie and fat intake, and decreased exercise. The increasing prevalence of type 2 diabetes in the United States has closely paralleled the increase in childhood obesity noted there, but now across the Western world. Besides obesity, the other youth risk factors for type 2 diabetes are: ethnicity, puberty, family history, metabolic syndrome, polycystic ovary syndrome, acanthosis nigricans. Any feature or condition associated with insulin resistance/hyperinsulinemia should alert to screen youth at increased risk for (pre)type 2 diabetes. Treatment goals are to decrease weight and increase exercise, to normalize insulinemia, glycemia and HbA1c, to control hypertension and hyperlipidemia. The aim of the pharmacological therapy is to decrease insulin resistance, namely by metformin. Sometimes, insulin therapy is necessary.
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PMID:[Weight of obesity in (pre)type 2 diabetes in children and adolescents: how and when to screen for?]. 1628 80

Studies in our laboratory and elsewhere have demonstrated numerous abnormalities of steroid and polypeptide hormone secretion in obesity: hyperestrogenemia and hypogonadotropic hypogonadism in obese men; diminished SHBG levels in both sexes; elevated free testosterone and free estradiol in obese women; PCOS-like gonadotropin and sex-hormone abnormalities in obese women; elevated serum insulin in both sexes; blunted stimulability of prolactin, growth hormone, and vasopressin in both sexes; and elevated basal levels and blunted stimulability and suppressibility of beta-endorphin in both sexes. All of these abnormalities have been clearly shown to be partly or completely reversible with weight loss, with the exception of the endorphin abnormalities. In that area, four out of the five studies reported show no reversibility with weight loss. Reversibility of nearly all the hormonal abnormalities of obesity (i.e., all but the hyperendorphinemia) by weight loss suggests that none of them is causative of obesity. Nevertheless, some of the reversible abnormalities may secondarily amplify the morbidity associated with obesity: the hyperinsulinemia may be related to the increased risk of hypertension, hyperlipidemia, coronary disease, and Type II diabetes; the elevated levels of free estradiol in obese women may be related to their increased risk of breast and endometrial cancer. The role of hyperendorphinemia in obesity clearly requires further investigation, since it is the only observed hormonal abnormality that appears to be non-reversible by weight loss, and also since there seems to be increased sensitivity to beta-endorphin in obesity. The possibility that endorphin abnormalities may be causal in obesity cannot be ruled out.
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PMID:A perspective on the hormonal abnormalities of obesity: are they cause or effect? 1635 9


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