exam 5 b

¡Supera tus tareas y exámenes ahora con Quizwiz!

A symptom of a nutrient deficiency a. An electron-deficient state b. An ICF electrolyte c. An ECF electrolyte d. A subjective complaint

a subjective complaint

Deficiency state or deficiency sign/ symptom for zinc a. Osteopenia b. Beriberi c. Hemolytic anemia d. Rickets e. Acrodermatitis enteropathica

acrodermatitis enteropathica

Potassium a. An ECF electrolyte b. An electron-deficient state c. An ICF electrolyte d. A subjective complaint

an ICF electrolyte

Oxidative Stress a. A subjective complaint b. An electron-deficient state c. An ECF electrolyte d. An ICF electrolyte

an electron-deficient state

Function of selenium a. Conversion of homocysteine to methionine b. Energy transfer c. Regulates calcium and phosphorus balance d. Antioxidant e. Blood clotting

antioxidant

Deficiency state or deficiency sign/ symptom for thiamin a. Osteopenia b. Rickets c. Acrodermatitis enteropathica d. Hemolytic anemia e. Beriberi

beriberi

Function of vitamin K a. Regulates calcium and phosphorus balance b. Blood clotting c. Energy transfer d. Antioxidant e. Conversion of homocysteine to methionine

blood clotting

Function of manganese a. Nucleic acid synthesis b. Potentiates the action of insulin c. Osmolarity d. pH balance e. Bone formation

bone formation

Deficiency sign of calcium a. Growth failure and sexual immaturity b. Tooth decay c. Microcytic hypochromic anemia d. Bone loss (osteoporosis) e. Hyponatremia

bone loss (osteoporosis)

a. The DRI is based upon the amount of protein consumed. b. Can be synthesized from tryptophan. c. Can be synthesized from cholesterol and sunlight. d. Is better absorbed in the "heme" form. e. Can be synthesized from bacteria in the intestinal tract.

can be synthesized from bacteria in the intestinal tract

Function of vitamin D a. Can be synthesized from tryptophan. b. Can be synthesized from cholesterol and sunlight. c. Is better absorbed in the "heme" form. d. Can be synthesized from bacteria in the intestinal tract. e. The DRI is based upon the amount of protein consumed.

can be synthesized from cholesterol and sunlight

Function of niacin a. Can be synthesized from tryptophan. b. The DRI is based upon the amount of protein consumed. c. Can be synthesized from bacteria in the intestinal tract. d. Is better absorbed in the "heme" form. e. Can be synthesized from cholesterol and sunlight.

can be synthesized from tryptophan

Best food source for vitamin C a. Orange-colored vegetables b. Olives c. Seafood d. Citrus fruits e. Fortified milk

citrus fruits

Function of folate a. Antioxidant b. Conversion of homocysteine to methionine c. Blood clotting d. Regulates calcium and phosphorus balance e. Energy transfer

conversion of homocysteine to methionine

Food source of calcium a. Green leafy vegetables b. Yeast c. Tea d. Dairy products e. Dried fruit

dairy products

Food source of vitamin B12 a. Green leafy vegetables b. Tea c. Dried fruit d. Dairy products e. Yeast

dairy products

An excess of vitamin A a. Gray skin b. Decreased bone mineral density c. Fishy body odor d. Hypokalemia e. Sensory neuropathy

decreased bone mineral density

The DRI for thiamin is affected by_________. a. Protein intake b. Tobacco use c. Energy intake d. Water intake e. Vegetarian eating

energy intake

An excess of choline causes __________. a. Hypokalemia b. Fishy body odor c. Gray skin d. Decreased bone mineral density e. Sensory neuropathy

fishy body odor

Best food source for vitamin D a. Citrus fruits b. Seafood c. Olives d. Orange-colored vegetables e. Fortified milk

fortified milk

An excess of iron a. Gray skin b. Fishy body odor c. Decreased bone mineral density d. Sensory neuropathy e. Hypokalemia

gray skin

Food source of vitamin K a. Dried fruit b. Dairy products c. Green leafy vegetables d. Tea e. Yeast

green leafy vegetables

Deficiency sign of zinc a. Bone loss (osteoporosis) b. Growth failure and sexual immaturity c. Hyponatremia d. Tooth decay e. Microcytic hypochromic anemia

growth failure and sexual immaturity

Deficiency state or deficiency sign/ symptom for vitamin E (in infants) a. Rickets b. Osteopenia c. Hemolytic anemia d. Beriberi e. Acrodermatitis enteropathica

hemolytic anemia

Deficiency sign of sodium a. Growth failure and sexual immaturity b. Microcytic hypochromic anemia c. Tooth decay d. Bone loss (osteoporosis) e. Hyponatremia

hyponatremia

A low intake of phosphorus causes __________. a. Scurvy b. Hypothyroidism c. Macrocytic anemia d. Hypophosphatemia e. Pellagra

hypophosphatemia

A low intake of iodine causes __________. a. Hypothyroidism b. Scurvy c. Pellagra d. Hypophosphatemia e. Macrocytic anemia

hypothyroidism

Function of iron a. The DRI is based upon the amount of protein consumed. b. Can be synthesized from tryptophan. c. Can be synthesized from bacteria in the intestinal tract. d. Is better absorbed in the "heme" form. e. Can be synthesized from cholesterol and sunlight.

is better absorbed in the "heme" form

A low intake of vitamin B12 causes __________. a. Hypophosphatemia b. Hypothyroidism c. Macrocytic anemia d. Pellagra e. Scurvy

macrocytic anemia

Deficiency sign of iron a. Growth failure and sexual immaturity b. Tooth decay c. Microcytic hypochromic anemia d. Bone loss (osteoporosis) e. Hyponatremia

microcytic hypochromic anemia

Function of cobalt a. Potentiates the action of insulin b. Osmolarity c. pH balance d. Nucleic acid synthesis e. Bone formation

nucleic acid synthesis

Function of vitamin B12 a. Potentiates the action of insulin b. pH balance c. Nucleic acid synthesis d. Osmolarity e. Bone formation

nucleic acid synthesis

Deficiency state or deficiency sign/ symptom for calcium a. Hemolytic anemia b. Rickets c. Acrodermatitis enteropathica d. Beriberi e. Osteopenia

osteopenia

A low intake of niacin causes __________. a. Scurvy b. Macrocytic anemia c. Hypophosphatemia d. Pellagra e. Hypothyroidism

pellagra

Function of chromium a. Potentiates the action of insulin b. Osmolarity c. Nucleic acid synthesis d. Bone formation e. pH balance

potentiates the action of insulin

The DRI for vitamin B6 is affected by_________. a. Water intake b. Energy intake c. Tobacco use d. Protein intake e. Vegetarian eating

protein intake

A low intake of vitamin C causes __________. a. Pellagra b. Hypophosphatemia c. Scurvy d. Macrocytic anemia e. Hypothyroidism

scurvy

Best food source for copper a. Olives b. Fortified milk c. Orange-colored vegetables d. Citrus fruits e. Seafood

seafood

Best food source for iodine a. Citrus fruits b. Olives c. Seafood d. Orange-colored vegetables e. Fortified milk

seafood

An excess of vitamin B6 causes __________. a. Decreased bone mineral density b. Hypokalemia c. Sensory neuropathy d. Gray skin e. Fishy body odor

sensory neuropathy

Food source of fluoride a. Tea b. Dried fruit c. Dairy products d. Yeast e. Green leafy vegetables

tea

The DRI for vitamin C is affected by_________. a. Tobacco use b. Vegetarian eating c. Water intake d. Protein intake e. Energy intake

tobacco use

Deficiency sign of fluoride a. Microcytic hypochromic anemia b. Hyponatremia c. Growth failure and sexual immaturity d. Tooth decay e. Bone loss (osteoporosis)

tooth decay

The DRI for iron is affected by_________. a. Protein intake b. Energy intake c. Tobacco use d. Vegetarian eating e. Water intake

vegetarian eating


Conjuntos de estudio relacionados

Econ 1 Test 2 Chapters 5-6, 7-8, 13

View Set

Graphing Lines in Slope-Intercept Form

View Set

31. Income Taxes (web, sch, cfa)

View Set

6.12 Unit Test: The Art of Policy making, Part 1

View Set

NR 464 - Exam 1 (Saunders) - Liver, Pancreas, Gallbladder

View Set