1. Water and the Minerals
Chapter 08

2. Why Is Water Essential to Life?
Most abundant molecule in the body
Rarely a pure substance
Contributes to physiological functions
Universal solvent
Helps regulate body temperature

3. Why Is Water Essential to Life?
Distribution of water
Lean tissue retains more water
Physical fitness
Men generally have greater water volumes
Fluid compartments
Intracellular
Extracellular
Intercellular
Intravascular

4. Fluid Compartments

5. Why Is Water Essential to Life?
Water balance
Solute
Substance dissolved in a fluid
Osmosis
Intracellular and extracellular solute concentrations

6. Osmosis

7. Why Is Water Essential to Life?
Functions
Reactions
Hydrolysis
Breaking of bond with use of water
Condensation
Production of water through reaction
Solvent
Transport medium
Lubricant

8. Why Is Water Essential to Life?
Functions
Body temperature regulation
Sweating
Evaporative cooling
Dehydration
Impairs body’s ability to regulate temperature

9. Why Is Water Essential to Life?
Dehydration
Early stages
Complications
At-risk populations
Children and the elderly
Athletes
Body’s response
Water intake
Expelling water

10. Daily Water Balance

11. Why Is Water Essential to Life?
Dehydration
Restoring fluid balance
Antidiuretic hormone
High extracellular fluid solute concentration
Stimulates water conservation
Aldosterone
Low blood pressure
Reduces solutes eliminated in urine

12. Regulation of Blood Volume and Solute Concentration

13. Why Is Water Essential to Life?
Recommended intake
Men vs. women
Foods
Beverages
Caffeinated beverage
Physical activity
Sports drinks vs. water

14. What Are Minerals? Inorganic substances other than water
Micronutrients
All are essential
Cannot be created or destroyed
Classification
Major minerals
Seven
Trace minerals
Eight

15. What Are Minerals? Diverse roles Structural roles Functional roles
Physiological functions
Enzyme activation
Cofactor
Metalloenzyme
Other roles

16. What Are Minerals? Minerals in food Plant-based foods
Animal-based foods
Location influences mineral content
Food processing influences mineral content
Drinking water
Hard water

17. What Are Minerals? Mineral availability Mineral levels Storage
Absorption and excretion of minerals
Storage
Toxicity is rare
Supplements
Factors influencing bioavailability

18. What Are Minerals? Calcium Major mineral Essential roles
Most abundant mineral in body
Skeleton
Essential roles
Coagulation
Muscle and nerve function
Energy metabolism

19. What Are Minerals? Calcium Structural role Hydroxyapatite
Magnesium and fluoride
Bone remodeling
Osteoblast
Osteoclast

20. Bone Remodeling

21. What Are Minerals? Calcium Regulatory functions Blood clot formation
Muscle contraction
Nerve impulses
Cofactor for several enzymes
Healthy vision
Blood glucose regulation
Cell division

22. What Are Minerals? Calcium Hormonal regulation of blood calcium
Calcitriol
Increases calcium absorption and reduces excretion
Parathyroid hormone
Calcitonin
Elevated blood calcium levels

23. Regulation of Blood Calcium

24. What Are Minerals? Calcium Bone health Peak bone mass Osteopenia
Osteoporosis
Kyphosis
Causes for decline in bone mass
Risk factors for osteoporosis
Lifestyle vs. biological factors

25. Changes in Bone Mass during the Life Cycle

26. What Are Minerals? Calcium Sources Recommended intakes Dietary
Fortification
Supplements
Take with meal
Hip fracture risk
Recommended intakes
Bioavailability

27. Good Sources of Calcium

28. What Are Minerals? Electrolytes: sodium, chloride, & potassium
Most abundant electrolytes in the body
Nerve impulse & muscle contraction
Fluid balance
Nerve impulses
Balance of ions shift across membranes
Positive ions inside – potassium
Negative ions outside – chloride

29. What Are Minerals? Electrolytes: sodium, chloride, & potassium
Blood pressure regulation
Blood volume decreases, blood pressure decreases
Kidneys retain sodium
Renin-angiotensin-aldosterone system

30. Regulation of Blood Volume and Blood Pressure

31. What Are Minerals? Electrolytes: sodium, chloride, & potassium
Electrolyte balance
Concentrations in blood are regulated by kidneys
Low blood sodium levels
Causes
Hyponatremia
Potassium deficiency
Hypokalemia

32. What Are Minerals? Electrolytes: sodium, chloride, & potassium
Dietary sources
Sodium and chloride
Potassium
Sodium chloride increases blood pressure
Hypertension
Salt-sensitive

33. Good Sources of Sodium

34. Good Sources of Potassium

35. What Are Minerals? Electrolytes: sodium, chloride, & potassium
AI for sodium
Dietary Guidelines for Americans
AI for chloride
AI for potassium
No UL

36. What Are Minerals? Phosphorus Major mineral Structural roles
Examples
Functional roles
Blood concentration regulation
Calcitriol, PTH, and calcitonin

37. What Are Minerals? Phosphorus Primary role in body
Component of cell membranes
Transport of lipids in body
Protein synthesis
Energy metabolism
Other roles

38. What Are Minerals? Phosphorus Dietary sources Bioavailability
Phytates
Deficiency
Rare
Recommended intakes
RDA; UL

39. Good Sources of Phosphorus

40. What Are Minerals? Magnesium Major mineral Roles Regulation Bones
Chemical reactions
DNA and RNA metabolism
Regulation
Small intestine and kidneys

41. What Are Minerals? Magnesium Dietary sources Deficiency Toxicity
Whole-grain foods
Deficiency
Rare
Toxicity
Symptoms
Recommended intakes
RDA; UL

42. Good Sources of Magnesium

43. What Are Minerals? Sulfur Component of certain amino acids
Structural rigidity to proteins
Component of certain B vitamins
Thiamin and biotin
Dietary sources
No published values for sulfur
Protein recommendations

44. What Are Trace Minerals?
Dietary sources
Plant-based foods
Animal-based foods
Bioavailability
Deficiencies and toxicities
Rare
Exceptions
Absorbed primarily in small intestine
Most do not exist in their free forms

45. What Are Trace Minerals?
Iron
Most common micronutrient deficiency in U.S. and around the world
Functions in the body
Oxygen-carrying molecules
Hemoglobin
Myoglobin
Other roles

46. What Are Trace Minerals?
Iron
Bioavailability
Type of iron consumed
Heme iron and nonheme iron
Other dietary components
Vitamin C; meat factor; phytates; polyphenols
Individual’s iron status

47. What Are Trace Minerals?
Iron
Absorption
Homeostatic mechanism regulation
Transport
Transferrin
Storage
Ferritin
Liver, skeletal muscle, and bone marrow cells

48. Effect of Iron Status on Iron Absorption

49. What Are Trace Minerals?
Iron
Deficiency
Needs increase during growth and development
High-risk groups
Mild deficiency
Severe deficiency
Microcytic, hypochromic red blood cells
Hematocrit

50. What Are Trace Minerals?
Iron
Overload and toxicity
Acute iron toxicity
Signs and symptoms
Hemochromatosis
Genetic abnormality
Diagnosed generally in middle age
Men vs. women

51. What Are Trace Minerals?
Iron
Dietary sources
Recommended intakes
RDA UL
Special recommendations
Vegetarians
Endurance athletes
Supplementation

52. Good Sources of Iron

53. What Are Trace Minerals?
Copper
Cofactor for nine enzymes in redox reactions
Two distinct charged states
Cupric form (CU2+)
Cuprous form (CU1+)
Bioavailability
Iron
Antacids

54. What Are Trace Minerals?
Copper
Absorbed in small intestine
Circulates in blood
Ceruloplasmin
Storage
Bile
Roles
Superoxide dismutase

55. What Are Trace Minerals?
Copper
Deficiency
Rare
Signs and symptoms
Toxicity
Dietary sources
Recommended intakes

56. Good Sources of Copper

57. What Are Trace Minerals?
Iodine
Component of thyroid hormones
Roles of thyroid hormones
Bioavailability
Thyroxine (T4)
Triiodothyronine (T3)
Goitrogens
Absorption
Thyroid stimulating hormone (TSH)

58. Regulation of Iodine Uptake by the Thyroid Gland

59. What Are Trace Minerals?
Iodine
Deficiency
Worldwide problem
Iodine deficiency disorders (IDD)
Cretinism
Goiter
Toxicity
Hypothyroidism
Hyperthyroidism

60. What Are Trace Minerals?
Iodine
Dietary sources
Iodine content of soil and water
Table salt
Recommended intakes
RDA UL

61. Good Sources of Iodine

62. What Are Trace Minerals?
Selenium
Roles
Redox reactions
Thyroid function
Activation of vitamin C
Bioavailability
Absorption is not regulated
Selenoproteins
Kidneys regulate blood concentrations

63. What Are Trace Minerals?
Selenium
Dietary sources
Deficiency
Keshan disease
Toxicity
Signs and symptoms
Recommended intakes
RDA; UL

64. Good Sources of Selenium

65. What Are Trace Minerals?
Chromium
Roles
Insulin function
Muscle mass
Bioavailability
Vitamin C and acidic medications
Absorption
Little is absorbed
Simple sugars

66. What Are Trace Minerals?
Chromium
Deficiency
Hospitalized patients
Signs and symptoms
Toxicity
Supplements
Dietary sources
Recommended intakes
AI; no UL

67. What Are Trace Minerals?
Manganese
Roles
Cofactor for metalloenzymes
Other roles
Deficiency is rare
Toxicity
Absorption
Dietary sources
Recommended intakes

68. What Are Trace Minerals?
Molybdenum
Cofactor for several metalloenzymes
Protein metabolism
Sulfur-containing amino acids
Gene metabolism
Building block for DNA
Detoxification of drugs in the liver
Absorption in intestine

69. What Are Trace Minerals?
Molybdenum
Dietary sources
Soil content
Deficiency
Rare
Characteristics
Toxicity
Recommended intakes
RDA; UL

70. What Are Trace Minerals?
Zinc
Roles
Gene expression
Immune function
Cell growth
Cofactor in more than 300 metalloenzymes
Effects of inadequate dietary intake

71. What Are Trace Minerals?
Zinc
Bioavailability
Animal- vs. plant-based foods
Absorption
Proteins
Metallothionine

72. What Are Trace Minerals?
Zinc
Dietary sources
Deficiency
Signs and symptoms
Secondary deficiency
Acrodermatitis enteropathica
Toxicity
Excessive supplementation
Recommended intakes

73. What Are Trace Minerals?
Fluoride
Not essential to any body function
Strengthens bones and teeth
Structurally and topically
Bioavailability
Dietary sources
Toxicity
Fluorosis
Recommended intakes

74. What Are Trace Minerals?
Are there other important trace minerals?
No RDAs
Some have ULs
Nickel
Aluminum
Silicon
Vanadium
Arsenic
Boron

75. Good Sources of Zinc