Obesity is associated with hypothalamic injury in rodents and humans. - Test2 - elhamkhani - TriplyDB

Obesity is associated with hypothalamic injury in rodents and humans.

Obesity is associated with hypothalamic injury in rodents and humans.

http://www.wikidata.org/entity/Q35640638

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Menopause, obesity and inflammation: interactive risk factors for Alzheimer's disease Improved leptin sensitivity as a potential candidate responsible for the spontaneous food restriction of the Lou/C rat Brain Insulin Resistance at the Crossroads of Metabolic and Cognitive Disorders in Humans Therapies for Prevention and Treatment of Alzheimer's Disease Secret talk between adipose tissue and central nervous system via secreted factors-an emerging frontier in the neurodegenerative research Inflammation and Oxidative Stress: The Molecular Connectivity between Insulin Resistance, Obesity, and Alzheimer's Disease Regulation of Estrogen Receptor α Expression in the Hypothalamus by Sex Steroids: Implication in the Regulation of Energy Homeostasis Obesity Impairs the Action of the Neuroendocrine Ghrelin System Altered gut and adipose tissue hormones in overweight and obese individuals: cause or consequence?The role of fatty acids in insulin resistance Hypothalamic Obesity in Craniopharyngioma Patients: Disturbed Energy Homeostasis Related to Extent of Hypothalamic Damage and Its Implication for Obesity Intervention The Obese Brain--Effects of Bariatric Surgery on Energy Balance Neurocircuitry MicroRNAs as regulators of metabolic disease: pathophysiologic significance and emerging role as biomarkers and therapeutics Stress exposure, food intake and emotional state Diet-Induced Cognitive Deficits: The Role of Fat and Sugar, Potential Mechanisms and Nutritional Interventions Age-Associated Weight Gain, Leptin, and SIRT1: A Possible Role for Hypothalamic SIRT1 in the Prevention of Weight Gain and Aging through Modulation of Leptin Sensitivity Role of neuroinflammation in the emotional and cognitive alterations displayed by animal models of obesity Brain inflammation and hypertension: the chicken or the egg?Role of non-neuronal cells in body weight and appetite control Neuropsychiatric comorbidity in obesity: role of inflammatory processes Neuroinflammatory basis of metabolic syndrome Alzheimer's disease and type 2 diabetes: multiple mechanisms contribute to interactions Brain regulation of energy balance and body weight.Uncovering novel roles of nonneuronal cells in body weight homeostasis and obesity Epidemiological and experimental links between air pollution and type 2 diabetes Regulation of lipid stores and metabolism by lipophagy Neuroinflammation in overnutrition-induced diseases Pharmacological administration of the isoflavone daidzein enhances cell proliferation and reduces high fat diet-induced apoptosis and gliosis in the rat hippocampus Estrogen, astrocytes and the neuroendocrine control of metabolism Obesity and stroke: Can we translate from rodents to patients?Practical combination therapy based on pathophysiology of type 2 diabetes The central role of hypothalamic inflammation in the acute illness response and cachexia Insulin, aging, and the brain: mechanisms and implications Role of neurons and glia in the CNS actions of the renin-angiotensin system in cardiovascular control Hypothalamic TLR2 triggers sickness behavior via a microglia-neuronal axis Cerebral cell renewal in adult mice controls the onset of obesity Central inflammation and leptin resistance are attenuated by ginsenoside Rb1 treatment in obese mice fed a high-fat diet Increasing fatty acid oxidation remodels the hypothalamic neurometabolome to mitigate stress and inflammation The cellular and molecular bases of leptin and ghrelin resistance in obesity.Reduced melanocortin production causes sexual dysfunction in male mice with POMC neuronal insulin and leptin insensitivity.

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P2860

Obesity is associated with hypothalamic injury in rodents and humans.

http://www.wikidata.org/entity/Q35640638

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2011年の論文

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2011年論文

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2011年論文

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2011年論文

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2011年论文

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2011年论文

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2011年论文

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name

Obesity is associated with hypothalamic injury in rodents and humans.

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Obesity is associated with hypothalamic injury in rodents and humans.

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Obesity is associated with hypothalamic injury in rodents and humans.

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Obesity is associated with hypothalamic injury in rodents and humans.

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Obesity is associated with hypothalamic injury in rodents and humans.

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Obesity is associated with hypothalamic injury in rodents and humans.

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Journal of Clinical Investigation

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Obesity is associated with hypothalamic injury in rodents and humans.

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Bang H Hwang

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Brent E Wisse

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David A Sarruf

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Denis G Baskin

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Ellen A Schur

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Gregory J Morton

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Hong T Nguyen

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Jonathan D Fischer

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Joshua P Thaler

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Kenneth R Maravilla

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P2860

Inflammation and insulin resistance

Tripartite synapses: astrocytes process and control synaptic information

Molecular dissection of reactive astrogliosis and glial scar formation

Obesity is associated with macrophage accumulation in adipose tissue

Microglia-specific localisation of a novel calcium binding protein, Iba1

Saturated fatty acids produce an inflammatory response predominantly through the activation of TLR4 signaling in hypothalamus: implications for the pathogenesis of obesity

Microglia: active sensor and versatile effector cells in the normal and pathologic brain

Autophagy gone awry in neurodegenerative diseases

Synaptic pruning by microglia is necessary for normal brain development

Central nervous system control of food intake and body weight

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153-162

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10.1172/JCI59660

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1

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122

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Matthias Tschöp

Marcelo O Dietrich

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2011-12-27T00:00:00Z

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22201683

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