Malnutrition/Biological Basis Of Obesity/Leptin And Obesity Flashcards
Protein-energy malnutrition
. Occurs when the amounts of energy (calories) and protein (nitrogen) ingested are insufficient to meet physiological requirements
. Mainly characterized by lack of energy and proteins
. Accompanied by a variety of micronutrient deficiencies
Maramus
. Dec. calories intake
. Takes months-years to develop
. Physical exam: cachectic (fat and muscle fasting)
. TSF and MAC depressed
. Weight foe height normal-depressed
. Albumin, transferrin, and total lymphocyte count all normal
. Skin tests normal to depressed
. Clinical course: still have preserved response to short-term stress
. Morality low
Kwashiorkor
. Dec. protein intake and stress
. Takes weeks to months to develop
. Physical exam: may appear well nourished, easily pluckable hair, edema
. TSF and MAC relatively preserved
. Weight for height depressed
. Low albumin, transferrin, total lymphocyte count
. Skin tests (immune function) depressed
. Clinical course: infections, poor wound healing, ulcers
. High mortality
Mixed malnutrition
. Dec. calorie intake and protein intakes and stress . Takes a few weeks to develop . Physical exam: variable . TSF and MAC are variable . Weight for height depressed . Skin tests immune) depressed . Clinical course variable . Mortality variable
Adaptations occurring in starvation
. Dec. energy expenditure: rapidly compensated for by dec. in basal energy expenditure, patients exhibit lethargy dec. lean tissue mas also dec. energy requirement
. Mobilization of energy reserves: fat mobilized resulting in Ketosis
. Protein breakdown and synthesis: individual must sacrifice some lean body mass (mainly from skeletal muscle) in order to adjust to the dec. energy requirement
. Endocrine changes that occur during starvation
. Endocrine adaptations involving pituitary gland, thyroid gland, adrenal glands, and gonads occur
Hematology and oxygen transport during malnutrition
. Combo of a hypometabolism and dec. lean body results in dec. O2 requirement
. Dec. in Hb commonly observed, reflects adaptable response rather than functional anemia
Refeeding syndrome
. Refeeding of malnourished patient
. Must be done gradually in order to avoid refeeding syndrome
. Hypophosphatemia, hypokalemia, hypomagnesemia
. Can be fatal and may cause cardiac arrhythmias, confusion, respiratory failure
Obesity
. Excess body fat from interaction of genetic, environmental, and behavioral/societal factors
Prevalence and health consequences of obesity
. Inc. morbidity and mortality from a variety of medical conditions
Waist measurements for obesity
. Over 35 in. Women
. Over 40 in. Men
Genetic basis of obesity
. 0.7 heritability for BMI
. Monogenic forms (mutation in LEP gene leading to congenital leptin deficiency) but are rare
. Multifactorial: complex interactions of genes and environment
FTO gene and obesity
. Deficiency: leads to delayed postnatal growth, microcephaly, facial dysmorphism, and cardiac abnormalities
. Developmental role as nutrient sensor (essential AA) linked to promotion of gene translation and cell growth
Role of FTO in homeostasis
. Variants assoc. w/ BMI and risk for obesity
. Gene expressed in human issues but highest expression observed in brain
. Gene encodes a nuclear localized nuclei acid demethylase, but specific in vivi. Function unknown (dec. transcriptional and translational efficiency)
. Role in energy homeostasis mediated through dysregulation of ghrelin signaling, leading to elevated hunger and impaired postprandial satiety
. Altered hepatic glucose and lipid metabolism leading to inc. hepatic glucose production and triglycerides production
FTO variants
. May alter expression of proximal (RPGRIP 1L) and distal (1RX3) genes on the same chromosome
. Lifestyle may modify risks
. Variation in FTO accounts for only 1% of total heritability of BMI
