Browsing articles in "free fatty acids"

Ray Peat, PhD on Low Blood Sugar & Stress Reaction

Nov 27, 2012   //   by Team FPS   //   adrenal gland, adrenaline, blood sugar, coconut oil, cortisol, fibrosis, free fatty acids, General, glycogen, hypoglycemia, inflammation, lipolysis, low blood sugar, PUFA, Ray Peat, saturated fat, serotonin, stress, thyroid  //  Comments Off on Ray Peat, PhD on Low Blood Sugar & Stress Reaction
Also see: Low Blood Sugar Basics PUFA Promote Stress Response; Saturated Fats Suppress Stress Response Ray Peat, PhD Quotes on Coconut Oil Low Carb Diet – Death to Metabolism Blood Sugar – Resistance to Allergy and Shock Thumbs Up: Fructose Theurapeutic Honey – Cancer and Wound Healing Carbohydrates and Bone Health Sugar (Sucrose) Restrains the [...]

Insulin Inhibits Lipolysis

Nov 27, 2012   //   by Team FPS   //   beta cells, diabetes, free fatty acids, General, glucose, insulin, obesity, pancreas  //  Comments Off on Insulin Inhibits Lipolysis
Also see: Diabetes: Conversion of Alpha-cells into Beta-cells The Randle Cycle Aldosterone, Sodium Deficiency, and Insulin Resistance Ray Peat, PhD Quotes on Therapeutic Effects of Niacinamide Benefits of Aspirin “Glucose and insulin which allows glucose to be used for energy production, while it lowers the formation of free fatty acids, promote the regeneration of the [...]

Protected: Estrogen, Glutamate, & Free Fatty Acids

Jul 9, 2012   //   by Team FPS   //   brain, calcium, epilepsy, estrogen, excitotoxicity, free fatty acids, General, glutamate, intracellular, phospholipase, progesterone, seizure  //  Comments Off on Protected: Estrogen, Glutamate, & Free Fatty Acids
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Long Chain Fats Decrease Insulin Metabolism

Feb 21, 2012   //   by Team FPS   //   degrading, diabetes, enzymes, free fatty acids, General, insulin, liver, metabolism, obesity, PUFA, unsaturated, weight gain  //  Comments Off on Long Chain Fats Decrease Insulin Metabolism
Endocrinology. 2003 Jun;144(6):2404-8. In vitro inhibition of insulin-degrading enzyme by long-chain fatty acids and their coenzyme A thioesters. Hamel FG, Upward JL, Bennett RG. Insulin-degrading enzyme is responsible for initiating insulin degradation in cells, but little is known about the factors controlling its activity. Because obesity and high levels of free fatty acids decrease insulin [...]
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