UMLS:C0028754 - FACTA Search

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

Due to asymmetry of brain neurotransmitters and differential hemispheric information processing modes, it is suggested that the excessive use of one information processing mode could engender a state of brain reactivity whose neurochemical correlates would be either a rise in melatonin or beta-endorphin in systemic circulation. Since melatonin and beta-endorphin have opposite effects on lung-mediated regulation of prostaglandins, it is further suggested that the pulmonary inactivation of prostaglandin E1 would either be increased or inhibited. Low levels of PGE1 would engender high levels of PGE2 whose effects would explain the findings in schizophrenics of: 'reducing' pattern of visual evoked response, cerebral atrophy, and viral and autoimmune phenomena. The primacy of the disordered cognitive style in leading up to the immunological, biochemical and neuropathological processes is stressed. Implications of this model for understanding depression, anxiety and phobic disorders, autism, attention deficit disorder, obesity, alcoholism, smoking, drug addiction, sexual deviations, and certain psychosomatic and psychophysiological disorders are suggested.
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PMID:How information processing mode could affect prostaglandin E1 metabolism and lung inactivation: relevance of hemispheric specialization, neurotransmitter asymmetry and brain reactivity. 614 17

Sixteen patients with chronic periorbital venous vasculitis without nerve involvement and 9 patients with active episodic cluster headache were studied as to cerebrospinal fluid (CSF) pressure. Eighty-one percent of the patients with chronic and 33% with episodic symptoms had pathologically increased CSF pressure. Magnetic resonance imaging of the brains in the chronic group showed empty sella in 60%, cerebral atrophy in 21% and white matter lesions with high signal intensity on T2 weighted sequences in 29%. Abnormal obesity was found in 31% of the patients with chronic periorbital venous vasculitis under 60 years of age. Venous vasculitis is suggested as a cause of intracranial hypertension, empty sella, and endocrinologic dysfunctions.
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PMID:Periorbital venous vasculitis, intracranial hypertension and empty sella. 816 74

We present an 18-month-old girl with short stature, obesity, panhypopituitarism, diabetes insipidus, and visual defects. Postmortem examination revealed brain atrophy due to a diffuse encephalopathy, numerous calcified neurons in cerebral cortex, deep telencephalic and diencephalic nuclei, diffuse neuronal necrosis in hypothalamic nuclei, moderate atrophy of optic nerves, very thin hypophyseal stalk, and empty sella with the hypophysis compressed to the dorsal aspect of the concavity. Our hypothesis is that the presence of an empty sella in a child with hypophyseal-hypothalamic abnormalities should alert physicians to the existence of hypothalamic lesions secondary to a perinatal insult. We discuss the possible pathogenesis of these findings as well as lines of evidence available in the literature.
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PMID:Empty sella syndrome, panhypopituitarism, and diabetes insipidus. 1633 80

A benign virilizing adrenal adenoma is rare among adrenal neoplasms in middle-aged women. A 39-yr-old Japanese woman who presented with hirsutism, obesity, diabetes mellitus and hypertension was admitted. Plasma concentrations of testosterone and DHEAS were high. While the basal level of plasma ACTH was suppressed, serum cortisol level was high and its circadian rhythm was absent. Serum cortisol level was not suppressed with the low- and high-dose overnight dexamethasone suppression test. Abdominal computed tomography showed a left adrenal tumor, and an adrenocortical scintigraphy revealed uptake of the tracer on the left side. Polycystic ovaries were also found and bone mineral density revealed osteoporosis. Histopathological features of resected adrenal tumor were consistent with those of adrenocortical adenoma. Immunoreactivity of all the steroidogenic enzymes was apparent in the tumor cells and particularly dehydroepiandrosterone sulfotransferase (DHEA-ST) immunoreactivity was markedly expressed. Cortical atrophy and reduced expression of DHEA-ST were detected in the cortex of the adjacent non-neoplastic adrenal gland. Plasma testosterone, DHEAS and cortisol levels returned to normal after surgery, concomitantly with the disappearance of polycystic ovaries. This is a very rare case of virilizing adrenocortical adenoma complicated with Cushing's syndrome (CS).
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PMID:Unilateral adrenalectomy improves insulin resistance and polycystic ovaries in a middle-aged woman with virilizing adrenocortical adenoma complicated with Cushing's syndrome. 1847 59

Brain imaging has played a major role in exploring abnormalities of brain structure and function in aging and dementia. Recently, with reports linking obesity to cognitive decline and dementia, magnetic resonance imaging has been used to investigate how brain structure may be altered with obesity. These studies have convincingly demonstrated both generalized and regional brain atrophy and changes in white matter in association with obesity. These results do not appear to be simply explained by links to cardiovascular disease. However, the mechanisms underlying these alterations are unclear and could be accounted for by a number of different processes that are known to alter brain structure and which could also be related to obesity. Application of additional imaging methods could help to establish the pathway through which obesity produces cognitive decline and dementia.
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PMID:What can imaging reveal about obesity and the brain? 1743 Feb 36

The escalating obesity/diabetes epidemic is an important health-care issue that has crucial socio-economic ramifications. The complications of diabetes/obesity phenotypes extend to the central nervous system (CNS), including the hippocampus, a brain region that is particularly vulnerable to hyperglycemia and insulin resistance. Deficits in hippocampal synaptic plasticity observed in diabetes ultimately have deleterious consequences upon cognitive function. For example, recent studies using brain imaging technologies have identified cerebral atrophy in diabetic patients, suggesting that the neuroanatomical changes observed in experimental models of diabetes may accurately reflect what is occurring in the clinical setting. Deficits in insulin receptor (IR) signaling and impairments in hypothalamic-pituitary-adrenal (HPA) axis function also contribute to the neurological complications of diabetes phenotypes. The pathophysiological similarities between diabetes and stress-related mood disorders suggest that common mechanistic mediators may be involved in the etiology and progression of the neurological complications of these disorders. When combined with the accumulating evidence from pre-clinical models, these data support the hypothesis that a long-term consequence of diabetes/obesity phenotypes is accelerated brain aging that results in neuropsychological deficits and increased vulnerability to co-morbidities such as depressive illness.
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PMID:Insulin signaling effects on memory and mood. 1802 16

Alzheimer's disease (AD) is associated with brain insulin resistance and insulin deficiency, whereas Type 2 diabetes mellitus (T2DM) is associated with peripheral insulin resistance. This study assesses the degree to which T2DM causes AD-type neurodegeneration. In a C57BL/6 mouse model of obesity and T2DM, we characterized the histopathology, gene expression, and insulin and insulin-like growth factor (IGF)-receptor binding in temporal lobe. High fat diet (HFD) feeding for 16 weeks doubled mean body weight, caused T2DM, and marginally reduced mean brain weight. These effects were associated with significantly increased levels of tau, IGF-I receptor, insulin receptor substrate-1 (IRS-1), IRS-4, ubiquitin, glial fibrillary acidic protein, and 4-hydroxynonenol, and decreased expression of beta-actin. HFD feeding also caused brain insulin resistance manifested by reduced BMAX for insulin receptor binding, and modestly increased brain insulin gene expression. However, HFD-fed mouse brains did not exhibit AD histopathology, increases in amyloid-beta or phospho-tau, or impairments in IGF signaling or acetylcholine homeostasis. Obesity and T2DM cause brain atrophy with insulin resistance, oxidative stress, and cytoskeleton degradation, but the absence of many features that typify AD suggests that obesity and T2DM may contribute to, but are not sufficient to cause AD.
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PMID:Limited Alzheimer-type neurodegeneration in experimental obesity and type 2 diabetes mellitus. 1878 Sep 65

To investigate the effect of a high-fat diet on brain and pancreas functions, we used SAMP10 mice that have characteristics of brain atrophy and cognitive dysfunction with aging. Simultaneously, we investigated the effect of green tea catechin consumption on high-fat diet feeding, because green tea catechin has been reported to improve brain atrophy, brain dysfunction and obesity. The body weight of mice fed a high-fat diet from 2 to 12 months was higher than that of the control, although the calorie intake was not. The high-fat diet also increased insulin secretion; however, the hypersecretion of insulin and obesity were suppressed when mice were fed a high-fat diet with green tea catechin and caffeine. Furthermore, brain atrophy was suppressed and the working memory, tested using Y-maze, improved in mice fed a high-fat diet containing green tea catechin and caffeine. The secretion of insulin might affect both obesity and brain function. A strong correlation was found between working memory and insulin release in mice fed a high-fat diet with green tea catechin and/or caffeine. The results indicate the protective effect of green tea catechin and caffeine on the functions of brain and pancreas in mice fed a high-fat diet.
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PMID:Protection of brain and pancreas from high-fat diet: effects of catechin and caffeine. 1897 77

Obesity is associated with increased risk for cardiovascular health problems including diabetes, hypertension, and stroke. These cardiovascular afflictions increase risk for cognitive decline and dementia, but it is unknown whether these factors, specifically obesity and Type II diabetes, are associated with specific patterns of brain atrophy. We used tensor-based morphometry (TBM) to examine gray matter (GM) and white matter (WM) volume differences in 94 elderly subjects who remained cognitively normal for at least 5 years after their scan. Bivariate analyses with corrections for multiple comparisons strongly linked body mass index (BMI), fasting plasma insulin (FPI) levels, and Type II Diabetes Mellitus (DM2) with atrophy in frontal, temporal, and subcortical brain regions. A multiple regression model, also correcting for multiple comparisons, revealed that BMI was still negatively correlated with brain atrophy (FDR <5%), while DM2 and FPI were no longer associated with any volume differences. In an Analysis of Covariance (ANCOVA) model controlling for age, gender, and race, obese subjects with a high BMI (BMI > 30) showed atrophy in the frontal lobes, anterior cingulate gyrus, hippocampus, and thalamus compared with individuals with a normal BMI (18.5-25). Overweight subjects (BMI: 25-30) had atrophy in the basal ganglia and corona radiata of the WM. Overall brain volume did not differ between overweight and obese persons. Higher BMI was associated with lower brain volumes in overweight and obese elderly subjects. Obesity is therefore associated with detectable brain volume deficits in cognitively normal elderly subjects.
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PMID:Brain structure and obesity. 1966 57

Individuals over 80 years of age represent the most rapidly growing segment of the population, and late-life dementia has become a major public health concern worldwide. Development of effective preventive and treatment strategies for late-life dementia relies on a deep understanding of all the processes involved. In the centuries since the Greek philosopher Pythagoras described the inevitable loss of higher cognitive functions with advanced age, various theories regarding the potential culprits have dominated the field, ranging from demonic possession, through 'hardening of blood vessels', to Alzheimer disease (AD). Recent studies suggest that atrophy in the cortex and hippocampus-now considered to be the best determinant of cognitive decline with aging-results from a combination of AD pathology, inflammation, Lewy bodies, and vascular lesions. A specific constellation of genetic and environmental factors (including apolipoprotein E genotype, obesity, diabetes, hypertension, head trauma, systemic illnesses, and obstructive sleep apnea) contributes to late-life brain atrophy and dementia in each individual. Only a small percentage of people beyond the age of 80 years have 'pure AD' or 'pure vascular dementia'. These concepts, formulated as the dynamic polygon hypothesis, have major implications for clinical trials, as any given drug might not be ideal for all elderly people with dementia.
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PMID:Changing perspectives regarding late-life dementia. 1991 54

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