Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Polycystic ovary syndrome (PCOS) is one of the most common endocrinopathies in women and is defined by hyperandrogenic chronic anovulation with the exclusion of secondary causes, such as congenital adrenal hyperplasia or an androgen secreting tumor. PCOS women are uniquely insulin resistant. It is estimated that 5% of the female population is affected. The underlying genetic defect in insulin action is unknown. Obesity aggravates the underlying predisposition to insulin resistance. Diagnostic criteria which focus on menstrual irregularity are more likely to identify insulin resistant women. About 40% of PCOS women display glucose intolerance (either impaired glucose tolerance or type 2 diabetes) in response to an oral glucose challenge. Additionally women display multiple other risk factors for cardiovascular disease including dyslipidemia and elevated circulating inflammatory markers. The lack of a clear etiologic mechanism to the syndrome has led in the past to a multitude of symptom-oriented treatments with few therapies improving all aspects of the endocrine syndrome of PCOS. Recently treatments resulting in improved insulin sensitivity, either through weight loss/exercise programs or pharmaceutical, have been shown to improve both the endocrine and metabolic abnormalities in the syndrome. Anti-diabetic agents in PCOS have been examined in a number of randomized studies which have shown a treatment benefit. Further indications for these agents such as the prevention of pregnancy loss or the conversion to type 2 diabetes still need to be investigated in properly designed studies.
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PMID:Polycystic ovary syndrome. Long term sequelae and management. 1203 49

Obesity is a health problem of considerable magnitude in the Western world. Dermatological changes have been reported in patients with obesity, including: acanthosis nigricans and skin tags (due to insulin resistance); hyperandrogenism; striae due to over extension; stasis pigmentation due to peripheral vascular disease; lymphedema; pathologies associated with augmented folds; morphologic changes in the foot anatomy due to excess load; and complications that may arise from hospitalization. Acanthosis nigricans plaques can be managed by improved control of hyperinsulinemia; the vitamin D3 analog calcipitriol has also been shown to be effective. Skin tags can be removed by snipping with curved scissors, by cryotherapy or by electrodesiccation. Hyperandrogenism, a result of increased production of endogenous androgens due to increased volumes of adipose tissue (which synthesizes testosterone) and hyperinsulinemia (which increases the production of ovarian androgens) needs to be carefully assessed to ensure disorders such as virilizing tumors and congenital adrenal hyperplasia are treated appropriately. Treatment of hyperandrogenism should be centred on controlling insulin levels; weight loss, oral contraceptive and antiandrogenic therapies are also possible treatment options. The etiology of striae distensae, also known as stretch marks, is yet to be defined and treatment options are unsatisfactory at present; striae rubra and alba have been treated with a pulsed dye laser with marginal success. The relationship between obesity and varicose veins is controversial; symptoms are best prevented by the use of elastic stockings. Itching and inflammation associated with stasis pigmentation, the result of red blood cells escaping into the tissues, can be treated with corticosteroids. Lymphedema is associated with dilatation of tissue channels, reduced tissue oxygenation and provides a culture medium for bacterial growth. Lymphedema treatment is directed towards reducing the limb girth and weight, and the prevention of infection. Intertrigo is caused by friction between skin surfaces, combined with moisture and warmth, resulting in infection. This infection, most commonly candidiasis, is best treated with topical antifungal agents; systemic antifungal therapy may be required in some patients. Excess load on the feet can result in morphological changes that require careful diagnosis; insoles may offer some symptom relief while control of obesity is achieved. Obesity-related dermatoses associated with hospitalization, such as pressure ulcers, diminished wound healing, dermatoses secondary to respiratory conditions, and incontinence, must all be carefully managed with an emphasis on prevention where possible. Recognition and control of the dermatological complications of obesity play an important role in diminishing the morbidity of obesity.
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PMID:Dermatological complications of obesity. 1218 Aug 97

Patients with congenital adrenal hyperplasia attributable to 21-hydroxylase deficiency are treated with glucocorticoids. Glucocorticoid administration, even in substitution doses, may cause decreased bone mineral density (BMD) and obesity. The purpose of this study was to determine BMD, lean mass, and fat mass in young adult male (M, n = 15) and female (F, n = 15) patients with 21-hydroxylase deficiency, who had been treated with currently recommended low doses of glucocorticoids. Measurements were performed with dual-x-ray absorptiometry. In addition, calcaneal ultrasound measurements were performed (broadband ultrasound attenuation and speed of sound). Results were compared with those in age- and sex-matched controls; to adjust for height, lean and fat mass were divided by (height)(2). M and F patients [M, 21.7 +/- 2.4; F, 20.6 +/- 2.9 yr old (mean +/- SD)] were shorter than the controls (M, P < 0.001; F, P < 0.003) and their body mass indices were higher [M patients (25.0 +/- 3.6) vs. controls (22.3 +/- 1.9 kg/m(2)) (P < 0.02); F patients (25.5 +/- 4.5) vs. controls (21.9 +/- 2.3 kg/m(2)) (P < 0.02)]. BMD values (lumbar spine L1-L4, femoral neck, and total body) were not different from controls. Calcaneal ultrasound measurements showed that M patients had higher speed of sound values [M patients (1564 +/- 38) vs. controls (1529 +/- 29 m/sec) (P < 0.01)]. Lean mass in M and F patients was not different from controls when adjusted for height. Fat mass was higher in M and F patients when adjusted for height [M patients 5.6 +/- 2.9 vs. controls 2.7 median (1.7-7.0 min-max) kg/m(2) (P < 0.04); F patients 8.7 +/- 2.8 vs. controls 5.8 (4.3-10.7) kg/m(2) (P < 0.02)]. Relative fat mass (fat mass as a percentage of the total body mass) was higher in patients, compared with controls [M patients 22.0 +/- 9.1 vs. controls 12.8 (8.5-27.0)% (P < 0.04); F patients 34.1 +/- 5.0 vs. controls 29.0 +/- 5.1% (P < 0.02)]; this resulted from increased fat mass, not from decreased lean mass. Fat distribution over the body was not different in patients and controls. No significant correlations were found between cumulative glucocorticoid doses in the last 0.5, 2, or 5 yr or mean salivary morning levels of 17-hydroxyprogesterone and androstenedione in the last 5 yr on one hand and bone parameters, lean mass, or fat mass on the other hand. We conclude that, at prevailing low-dose glucocorticoid regimens, young adult patients with 21-hydroxylase deficiency have normal BMD. Their lean mass is in accordance with height, but fat mass is increased, with a normal distribution over the body. This results in a higher fat percentage of the total body and a higher body mass index than in healthy peers. Because overweight and increased fat mass are associated with the metabolic syndrome and increased cardiovascular risk, weight management should have appropriate attention in the follow-up of congenital adrenal hyperplasia patients, to prevent overweight-associated morbidity.
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PMID:Normal bone mineral density and lean body mass, but increased fat mass, in young adult patients with congenital adrenal hyperplasia. 1262 82

This report summarizes follow-up studies in 18 patients who underwent bilateral adrenalectomy for congenital adrenal hyperplasia. Three of these patients were young children with null/null mutations of CYP21, and the other 15 were adrenalectomized because of difficulties in their management on conventional therapy. The average duration of follow-up was 59 months and represents an aggregate of 90 postoperative years. The adrenals were removed laparoscopically in 13 patients and by open flank incisions in five. Adrenal crises associated with severe illnesses occurred in five patients at times when their glucocorticoid substitution was suboptimal. All were responsive to appropriate therapy. Two of these patients were young children who had hypoglycemia during gastroenteritis or febrile illness associated with poor food intake or vomiting. Significant elevations of adrenal steroid precursors, presumably from ectopic adrenal rests, were observed postoperatively in eight of the patients. Patients and parents were nearly unanimous in their enthusiasm for adrenalectomy. In most, signs of androgen excess have decreased, and obesity has become less of a problem with lowering the dose of glucocorticoid. We conclude that adrenalectomy is a safe and efficacious method of managing congenital adrenal hyperplasia in selected patients. Prophylactic adrenalectomy in young children with double null mutations remains experimental.
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PMID:The role of bilateral adrenalectomy in the treatment of congenital adrenal hyperplasia. 1284 31

Adrenal disorders causing hypertension can be related to the dysfunction of either the adrenal cortex or the adrenal medulla. These disorders, including congenital adrenal hyperplasia (CAH), owing to 11B-hydroxylase deficiency and to 17alpha-hydroxylase deficiency; apparent mineralocorticoid excess; familial hyperaldosteronism type I; primary aldosteronism; Cushing's syndrome; and familial glucocorticoid resistance, primarily affect the adrenal cortex and cause low-renin hypertension. The classic disorder of the adrenal medulla resulting in hypertension is pheochromocytoma, although hypertension in obesity might also be associated with catecholamine secretion. In this review, we discuss these etiologies and the most recent advances in our knowledge of their pathophysiology, diagnosis, and treatment.
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PMID:Hypertension and adrenal disorders. 1459 71

Congenital adrenal hyperplasia is a general term applied to several disorders caused by inherited recessive defects of cortisol synthesis. The most common form is 21-hydroxylase deficiency, accounting for 95% of cases. The classical forms have an incidence of one in 15,000 and the non-classical forms about one in 1,000. The classical or severe phenotype presents in the newborn period or early infancy with virilization and adrenal insufficiency, with or without salt-losing; the non-classical or mild phenotype presents in late childhood or early adulthood with signs of hyperandrogenism. This wide range of clinical expression is explained by genetic variation. Although there is a certain amount of genotype-phenotype correlation, discrepancies have been described. During the last 30 years there has been a substantial improvement in diagnosis and treatment of this disease, and patients with CAH now reach adulthood. Treatment of this condition is intended to reduce excessive corticotropin secretion and replace glucocorticoids and mineralocorticoids as physiologically as possible. Clinical management is often complicated by periods of inadequately treated hyperandrogenism, iatrogenic hypercortisolism, or both. Long-term consequences in adult life may include short stature, obesity, diminished bone mass, gonadal dysfunction with low fertility rates and psychosexual dysfunction in females. New treatment approaches are under investigation, such as the use of anti-androgens, inhibitors of estrogen production and adrenalectomy for severely resistant cases.
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PMID:Childhood-onset congenital adrenal hyperplasia: long-term outcome and optimization of therapy. 1513 1

Congenital adrenal hyperplasia (CAH) is a life-long disorder which poses management problems that are age- and sex-specific. The condition merits an organised, multi-disciplinary transitional care format similar to the kind that is now well established for Turner's syndrome in many centres. In the eyes of the paediatrician, achieving optimal growth is the primary target of CAH management during infancy and childhood. Fixation on this objective can be to the detriment of the patient because it may result in failure to appreciate the significance of metabolic disturbances that occur in later childhood, particularly in females, and which may be the progenitor of chronic problems with obesity, insulin resistance and infertility in adult life. Similarly, the care of the adult patient with CAH comprises more than just prescribing steroid replacement for primary adrenal insufficiency. The transition period between childhood and adulthood is an opportune time for review of the various management options and to assess the efficacy of steroid replacement, to consider alternative novel treatment modalities and to apply a checklist to the multi-faceted aspects of the medical, surgical and psychological needs of the patient.
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PMID:Congenital adrenal hyperplasia: transitional care. 1513 80

The diagnosis of polycystic ovary syndrome (PCOS) is primarily achieved through clinical history and physical findings. The principle features are hirsutism or biochemical evidence of excess androgen production and irregular menstrual bleeding caused by the chronic anovulation. Associated findings include insulin resistance with compensatory hyperinsulinemia and obesity. Ultrasound imaging of the ovary has facilitated the diagnosis. It is important to exclude conditions that may mimic PCOS, such as hyperthecosis, congenital adrenal hyperplasia, 21-hydroxylase deficiency, Cushing's syndrome, and androgen-producing neoplasms. These disorders are usually revealed by appropriate laboratory assessment. Screening tests include measurement of serum total testosterone, DHEA sulfate, and 17-hydroxyprogesterone. In addition, in the obese individual, determinations of glucose and insulin levels, as well as a lipid profile, are highly recommended.
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PMID:A practical approach to the diagnosis of polycystic ovary syndrome. 1546 30

Hirsutism is a clinical condition commonly encountered in the practice of primary care medicine. The etiology and the age of the patient when it occurs vary widely. Causes range from a basic illness or condition (drug exposure, smoking, idiopathic, and obesity) to complex and serious diseases (Cushing's syndrome, neoplasms, congenital adrenal hyperplasia, insulin-resistance syndromes, hyperprolactinemia, polycystic ovary syndrome, and hyperthecosis). Hirsutism may appear in childhood as well as in older persons. Some drugs (oral contraceptives, L-thyroxine, danazol, and diazoxide), tobacco smoke, some syndromes (polycystic ovary syndrome, obesity, insulin resistance, hyperprolactinemia, hyperthecosis, congenital adrenal hyperplasia, and idiopathic), and some neoplasms (adrenal or ovarian) may lead to hirsutism. The most frequently defined "causes" of hirsutism are polycystic ovary syndrome and idiopathic hirsutism. In hirsutism of gradual onset, hyperprolactinemia, insulin-resistance syndromes, hyperthecosis, polycystic ovary syndrome, and idiopathic hirsutism may be responsible. Cushing's syndrome, neoplasms, and congenital adrenal hyperplasia should be suspected if there has been rapid onset.
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PMID:Hirsutism: common clinical problem or index of serious disease? 1577 83

Molecular diagnostic techniques provide an unsurpassed opportunity to understand the pathophysiological basis of endocrine disorders. Diseases have been associated with mutations in almost every gene known to have a role in either the production or secretion of a hormone or the mediators of hormone signalling. Even though most of these mutations are rare and account for only a small fraction of endocrine diseases, molecular diagnostics offers a valuable tool for the clinician in these cases. The most common endocrine disorders such as autoimmune thyroiditis, type 2 diabetes mellitus, osteoporosis, growth disorders, and obesity have all major genetic components, but these are mostly unknown. In this review the clinical implications of molecular diagnostics are illustrated for some endocrine diseases: congenital adrenal hyperplasia, congenital hypothyroidism, thyroid hormone resistance, familial hypocalciuric hypercalcaemia, growth hormone deficiency and resistance, and monogenic obesity. Improved diagnostic specificity has direct implications for treatment and follow up in these syndromes. Molecular diagnostics in endocrine tumours and diabetes are presented in two other articles in this series.
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PMID:[Molecular diagnostics in endocrine diseases]. 1647 3


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