Posts tagged individual nutrient requirements
The Genetic Microbiome, Genetic Metabolic Type® and Your Healthiest Gut
Julie Donaldsongenetic microbiome, Metabolic Typing®, Metabolic Type®, healthy gut, GI tract, phyla bacteria, Firmicutes, Bacteroides, PCR assay, individualized nutrition, individual nutrient requirements, ecological nutrition, high fiber diets, complex carbohydrates, insulin sensitivity, GI dysfunction, maldigestion, hypochlorhydria, spore biotics vs. probiotics, probiotics, spore biotics, lactobacillus, seasonal crops, microbiome diversity, protein, fat, carbohdyrates, complex carbohydrate digesters, Krebs cycle, nervous system, anabolic, catabolic, electrolytes, Inuit, Bacteroidetes, homeostatic mechanisms, GERD, immunity, transformational health partnership, targeted healing approaches, telehealth, holistic health
21st Century Self Care: Evaluating Individualized Nutrition vs. Intermittent Fasting
Julie Donaldsonindividualized nutrition, intermittent fasting, self care, personalized nutrition, conventional dietary advice, psychology, behavior, disease, cardiovascular disease, heart disease, cancer, diabetes, Alzheimer's disease, Metabolic Typing®, metabolic function, ATP, methylation, detoxification, toxins, increased risk of death, gallbladder, gallstones, epigenetics, methyl donors, cell oxidation, heavy metals, redox, innate wisdom of the body, vital organs, pH balance, homeostatic mechanisms, energy, healthier lifestyle, genotypic, phenotypic, DNA, stress chemistry, neurotransmission, over-eating, binge eating, fad diets, functional health practitioner, peroxides, free radicals, individual nutrient requirements, estrogen receptors, leptin, hypothalamus, estrogen methylation, appetite control, motivated, lasting dietary change, personalization of dietary advice, holistic health, holistic telehealth, professional holistic health coaching, DHEA, DHEA-s, gut health, adrenal glands, estrogens, androgens, hormones, hormesis, hormetic process, stressor, physiological change, dose response phenomenon, low-dose stimulation, stress response, hypothalamus-pituitary axis, HPA
