Chapter 21: Obesity, Starvation, and Anorexia of Aging

white adipose beige adipose brown adipose

adipose tissue (3)

anorexia of aging

adverse outcomes: malnutrition frailty mitochondrial dysfunction reduced regenerative capacity increased oxidative stress imbalanced hormones

visceral obesity

around abdomen distribution of body fat is localized around the abdomen and upper body "apple shape" associated with more obesity complications than peripheral

hypothalamus

balances opposing effects of neurons

long-term starvation

begins after several days of dietary abstinence (therapeutic & pathologic) causes death from proteolysis marasmus kwashiorkor cachexia refeeding syndrome

refeeding syndrome

body adapts to starvation (homeostasis) << nutrition after starving << too much nutrients too fast << electrolyte imbalance

excess WAT

causes dysregulation of secretion and function of adipokines

adipokines

cell signaling proteins function like hormones

food intake and energy balance

controlled by central and peripheral physiological signals

anorexia of aging

decrease in appetite or food intake in older adults aging associated with decreased orexigenic signals and increased anorexigenic signals

starvation

decreased energy intake leading to weight loss

White Adipose Tissue (WAT)

derived from CT single lipid droplet located in visceral (central) and subcutaneous (peripheral) stores, muscles, and bone marrow

brown adipose tissue (BAT)

derived from muscle tissue multiple lipid droplets, rich in mitochondria generate heat through oxidation of fatty acids and glucose (neonatal heat generation/protects against obesity)

peripheral obesity

distribution of body fat is extraperitoneal and distributed around the thighs and buttocks "pear shape"

malnutrition

doesn't have to be starving lack of nourishment from inadequate amounts of calories, protein, vitamins/minerals caused by diet, alterations in digestion/disease

short-term starvation

extended fasting, several days of dietary abstinence/deprivation---- therapeutic: initial rapid weight loss body responds to protect protein mass (glycogenolysis & gluconeogenesis)

adipocytes

fat storing cells secrete proteins acts like endocrine (secretes hormones)

beige adipose tissue

found in WAT but multiple mitochondria like BAT emerge with chronic exposure to cold/exercise diminished in obesity

bone marrow adipose tissue (MAT)

found in all bones increases with obesity and age

metabolic syndrome

hyperglycemia << access fat around waist << abnormal cholesterol << high blood pressure << higher risk for heart attack /stroke

obesity

increase in body adipose tissue body mass index greater than 30 kg/m2 for adults; caloric intake exceed caloric expenditure in genetically susceptible people

adipose

insulation mechanical support secretes adipokines immune cell function immune cell function energy reserve

obesity patho

interaction of peripheral and central pathways and numerous adipokines, hormones and neurotransmitters signaling medication acts on hypothalamus and brainstem to regulate hunger and satiety

adipokines

leptin adiponectin retinol-binding protein 4 endocannabinoids angiotensinogen ghrelin glucagon-like peptide 1 peptide YY cholecytokinin

increase hunger, increase insulin resistance, increase inflammation

leptin adiponectin retinol-binding protein endocannabinoids angiotensinogen (increase vasoconstriction)

obesity

major cause of death: cardiovascular disease type 2 diabetes mellitus cancer

cachexia

muscle atrophy and weight loss from loss

normal weight obesity

normal body weight and BMI with percent of body fat greater than 30%

metabolically healthy obesity

obese but have no metabolic-obesity associated complications and decreased risk for morbidity and mortality look obese but do not have symptoms of metabolic syndrome

obesity

produces state of chronic; low-grade inflammation in WAT (insulin resistance, metabolic syndrome, other comps) alterations in intestinal microbiome weight loss (bariatric) surgery is the most effective treatment for decreasing obesity-related morbidity

orexigenic neurons

promote appetite, stimulate eating, decrease metabolism

kwashiorkor

protein deprivation with carbohydrate intake; water bloating

marasmus

protein energy malnutrition

white adipose tissue

release free fatty acids and glycerol for energy metabolism = diabetes mellitus type 1 = has body in glucose but doesn't have insulin to use energy = breaks down fats = release acids and ketones = diabetic ketoacidosis

anorexia of aging

risk factors: functional impairments medical and psychiatric conditions loneliness and grief; social isolation abuse/neglect treatment: support

obesity

risk factors: polygenic defects metabolic abnormalities environmental factors depression and mood disorders

adipocytes

secretes adipokines

GI tract

secretes hormones that control hunger and satiety

anorexigenic neurons

suppress appetite, inhibit eating, increase metabolism