5) Fat, Carbohydrate, Water, Mineral, Electrolyte, and Vitamin Requirements in Adulthood (Part I)

Question 1

What do omega-3 and omega-6 fatty acids compete for?

Answer 1

They compete for the same desaturase enzymes used in the elongation and desaturation of these fatty acids

Question 2

What occurs if there is an excess of linoleic acid (omega-6) as compared to linolenic acid (omega-3)?

Answer 2

• Exhausts the desaturase enzymes to the detriment of a-linolenic acid
• Results in a greater production of arachidonic acid than DHA (pro-inflammatory effects)

Question 3

What type of fatty acid does a high ratio of omega-6 to omega-3 fatty acids produce?

Answer 3

Arachidonic acid

Question 4

What type of fatty acid does a low ratio of omega-6 to omega-3 fatty acids produce?

Answer 4

DHA

Question 5

What DRI is used to estimate the requirement for omega-6 and omega-3 fatty acids? How is it established?

Answer 5

• Adequate Intake (AI)

- Based on the median intake by US and Canadian adults, in which there is a lack of evidence for deficiency

Question 6

How does the AI for omega-6 fatty acids fluctuate based on sex and age? Why?

Answer 6

• Omega-6 fatty acids are readily used for energy
• AI is higher in men
• AI is lower for people above the age of 50

Question 7

Which fatty acids contribute to the requirement of omega-3 fatty acids, aiding in the reversal of omega-3 fatty acid deficiency?

Answer 7

EPA and DHA

Question 8

In a post-absorptive state, which pathways produce glucose?

Answer 8

• 50% glycogenolysis in the liver

- 50% gluconeogenesis in the liver

Question 9

In subjects adapted to starvation, what produces the brain’s energy rquirement?

Answer 9

Keto acid oxidation produces around 80% of the brain’s energy requirement

Question 10

What two factors determine the EAR for carbohydrates? (2)

Answer 10

An adequate supply of glucose to provide the brain:

1) Without additional glucose production from protein or TGs
2) Without an increased quantity of ketones greater than observed after an overnight fast

Question 11

What two factors does the EAR of carbohydrates assume? (2)

Answer 11

1) An energy-sufficient diet with AMDR of carbohydrates equal to 45 to 65%
2) Glucose is not limiting to the brain

Question 12

What are the carbohydrate-dependent organs?

Answer 12

The ONLY carbohydrate-dependent organ is the brain

Question 13

What are consequences of low-carbohydrate diets, observed in urbanized societies?

Answer 13

An increase in keto acids

Question 14

What are the effects of a high concentration of keto acids?

Answer 14

May lead to bone mineral loss, high blood cholesterol, increased risks of kidney stones, urinary tract deposits

Question 15

Define fiber.

Answer 15

• Non-digestible carbohydrates and lignin that are intrinsic and intact in plants
• Not digested and absorbed in the small intestine

Question 16

Define functional fiber.

Answer 16

Isolated, non-digestible carbohydrate shown to have beneficial physiological effects in humans

Question 17

What are examples of functional fiber?

Answer 17

• Pectins
• Gums
• Chitin

Question 18

What does total fiber refer to?

Answer 18

Functional fiber and dietary fiber

Question 19

There is a strong negative correlation between the intake of cereal fiber, and the risk of ________________.

Answer 19

cardiovascular diseases

Question 20

How do fruits and vegetable fibers contribute to decreasing the risk of cardiovascular diseases?

Answer 20

• They do not (weak or non-existent correlation)

- Cereal fibers confer resistance to cardiovascular diseases

Question 21

What are the four benefits of fiber? (4)

Answer 21

1) Amelioration of constipation and diverticular disease
2) Fuel for colonic cells
3) Decrease in blood glucose and lipids
4) Acting as a source of nutrient-rich low-energy foods (increases satiety and decreases obesity)

Question 22

What makes determining an EAR for fiber difficult?

Answer 22

• The benefit of an increased total fiber intake is continuous across a range of intakes
• Defining a cut-off point is difficult

Question 23

What DRI is used to estimate the requirement for fiber? How is it established?

Answer 23

• Adequate Intake (AI)

- Based on the intake of the population demonstrating a lower risk of cardiovascular diseases

Question 24

Which types of fiber provide the greatest reduction in cardiovascular risk?

Answer 24

• Cereal fiber

- Proven functional fibers (psyllium and pectin)

Question 25

How does fiber decrease cardiovascular risk?

Answer 25

Certain types of fiber bind cholesterol and prevent their absorption, decreasing cardiovascular risk and cholesterol

Question 26

How does the requirement for fiber vary throughout the life cycle?

Answer 26

• There is no indication that fiber intake as a function of energy differs during the life cycle
• Thus, 14 grams of fiber per 1000 calories is applied to ALL life stages

Question 27

What dictates fluid intake?

Answer 27

Behaviour, and NOT thirst

Question 28

What mechanisms allow for the detection of thirst?

Answer 28

• Decrease in body water (detected by a low blood volume)

- Primarily sensed by an increase in sodium (detected by osmoreceptors in the brain)

Question 29

What is the primary indicator of water status?

Answer 29

Plasma or serum osmolality

Question 30

What is osmolality?

Answer 30

Measure of the osmoles per kilogram of solvent

Question 31

What is osmolarity? Why is it not used to measure hydration status?

Answer 31

• Osmolarity is a measure of the osmoles per liter of solvent
• An addition of solutes may change the volume of a solution

Question 32

What creates an osmotic load?

Answer 32

Metabolizing dietary protein and organic compounds, and varying intakes of electrolytes

Question 33

What must the osmotic load be accommodated for?

Answer 33

Adequate water consumption

Question 34

How does the inadequate replacement of fluids during exercise place strain on the cardiovascular system?

Answer 34

• Leads to dehydration and heat dissipation

- Elevates core body temperature

Question 35

Why is there not a single level of water intake that would ensure adequate hydration and optimal health for half of the population of healthy individuals?

Answer 35

Given the extreme variability in water needs based on metabolism, environmental conditions, and activity

Question 36

What DRI is used to estimate the requirement for water? How is it established?

Answer 36

• AI (Adequate Intake)

- Based on the median total water intake from survey data

Question 37

What factor is used to set the AI for water?

Answer 37

To prevent deleterious effects of dehydration, which include metabolic and functional abnormalities

Question 38

How is the intake of water related to chronic disease?

Answer 38

• It is not

- There is insufficient evidence to set an EAR for water-based reduction of chronic disease

Question 39

What study provides a link between hydration status and type II diabetes?

Answer 39

• Elevated ADH (in a state of dehydration) leads to a higher fasting glycaemia in rats
• Hydration decreases adiposity

Question 40

In physically-active adults, what does the requirement for water depend on?

Answer 40

• Sweat loss

- Can exceed 10 liters per day

Question 41

What is the UL for water?

Answer 41

• There is NO established UL for water because excessive fluid consumption is extremely rare
• Results in exertional hyponatremia

Question 42

What DRI is used to estimate the requirement for calcium? How is it established?

Answer 42

• RDA
• Calcium balance studies to determine the recommendation necessary to achieve small gains of bone mineral content
• Based on clinical trial data showing bone mineral density

Question 43

How does the RDA for calcium differ between males and females?

Answer 43

The requirement is the same for all sexes

Question 44

What form of phosphorus is found primarily? Where is it largely contained?

Answer 44

• Phosphate (PO4-)

- Bones and teeth

Question 45

What are the four functions of phosphorus? (4)

Answer 45

1) Aids in the maintenance of pH by acting as a buffer
2) Acts as a temporary energy source (e.g. ATP)
3) Required for phosphorylation
4) Structural component (e.g. phospholipids, nucleotides, nucleic acids)

Question 46

What DRI is used to estimate the requirement for phosphorus? How is it established?

Answer 46

• RDA

- Based on studies of serum inorganic phosphate concentrations (including the absorption efficiency of phosphorus)

Question 47

What is the absorption efficiency of phosphorus?

Answer 47

60 to 65%

Question 48

Where is magnesium largely contained?

Answer 48

50 to 60% of magnesium is found in bone

Question 49

What are the functions of magnesium? (2)

Answer 49

1) Bone magnesium serves as a reservoir for maintaining normal extracellular magnesium
2) Required as a cofactor for over 300 enzymes

Question 50

What DRI is used to estimate the requirement for magnesium? How is it established?

Answer 50

• RDA

- Based on total body magnesium, assessed using balance studies

Question 51

How does the RDA for magnesium vary between age groups?

Answer 51

The requirement for magnesium is higher in older individuals

Question 52

What factors explain why the RDA for magnesium is higher in older subject?

Answer 52

1) The consumption of high-fiber diets increase with age, and magnesium is poorly absorbed
2) Renal function declines with age, and it is critical in the maintenance of magnesium status

Question 53

Factorial modelling is used for the the requirement of which nutrient?

Answer 53

Iron

Question 54

What are the four factors used in factorial modelling for the determination of the EAR of iron?

Answer 54

1) Basal iron losses
2) Menstrual iron losses
3) Fetal requirements in pregnancy
4) Growth

Question 55

How does the percentage absorption vary with serum ferritin concentrations?

Answer 55

The percentage of absorption is inversely proportional to serum ferritin concentrations

Question 56

What DRI is used to estimate the requirement for iron? How is it established?

Answer 56

• RDA

- Based on the need to maintain a normal, functional iron status, while maintaining a minimal iron store

Question 57

Differentiate heme and non-heme iron.

Answer 57

• Heme (meat, poultry, fish): always well absorbed, and is only slightly influenced by dietary factors
• Non-heme iron (all foods): strongly influenced by solubility as well as through interactions with other meal components

Question 58

In a typical mixed diet, children over a year old, adolescents, and non-pregnant adults are assumed to possess a bioavailability of __% for iron.

Answer 58

18

Question 59

How does the determination of the EAR for iron differ in men and women?

Answer 59

• Men: based on basal iron losses

- Women: based on basal iron losses and menstrual losses

Question 60

How does the requirement in iron for men differ from the requirement for pre-menopausal women? How does it differ after menopause?

Answer 60

• Requirement for iron is LOWER in men than in pre-menopausal women
• Requirement between men and post-menopausal women are SIMILAR

Question 61

What DRI is used to estimate the requirement for potassium? How is it established?

Answer 61

• Adequate Intake (AI)

- Based on the physiological functions of an adequate intake of potassium

Question 62

What are the four physiological functions of an adequate intake of potassium? (4)

Answer 62

1) Lowering blood pressure
2) Blunting the adverse blood-pressure effects of salt intake
3) Reduce the risk of kidney stones
4) Potentially reducing bone loss

Question 63

What characterizes a moderate potassium deficiency?

Answer 63

• High blood pressure
• Increased risk of kidney stones
• Cardiovascular diseases

Question 64

How does hypokalemia affect sodium excretion?

Answer 64

• May result in decreased sodium excretion

- Hypokalemia may result in cardiac arrhythmias, muscle weakness, and glucose intolerance

Question 65

What is dietary potassium derived from fruits and vegetables normally associated with? What form is it?

Answer 65

• Organic anions (e.g. citrate)

- Potassium citrate

Question 66

What is the importance of organic anions that are associated with potassium?

Answer 66

• They are converted to bicarbonate after absorption

- Bicarbonate may act as a buffer to neutralize acids from the diet

Question 67

What occurs if there is a deficiency in bicarbonate precursors?

Answer 67

The body must use another type of buffer, which is normally drawn from the bone matrix, leading to increased bone turnover

Question 68

Where is potassium largely contained?

Answer 68

Intracellularly

Question 69

Are athletes recommended to increase their potassium intake? Why or why not?

Answer 69

• Sweat potassium represents a very small percentage of the available potassium
• However, profuse sweating may nonetheless increase potassium requirement
• The AI for potassium is the same for sedentary and physically active adults

Question 70

What is the UL for potassium?

Answer 70

• There is NO UL for potassium, as there is no evidence that a high level of potassium from foods has any adverse effects
• However, the ingestion of too much potassium may result in hyperkalemia or arrhythmias

Question 71

There is a wide variation in daily sodium requirements, particularly in which individuals?

Answer 71

Athletes, workers, and soldiers (i.e. individuals that sweat profusely)

Question 72

What is the primary route of sodium loss in sedentary individuals?

Answer 72

Urine

Question 73

Where is sulfur primarily contained?

Answer 73

• Certain amino acids (methionine, cysteine, cystine)

- Component of essential compounds (e.g. glutathione)

Question 74

What DRI is used to estimate the requirement for sulfur? How is it established?

Answer 74

• There is no intake requirement established because sulfate intake typically exceeds needs, as they are largely contained in amino acids
• If an individual is consuming an adequate quantity of protein, they are likely to exceed their sulfate requirement as well

Question 75

What indicates that sulfur is not limiting when protein requirement is reached?

Answer 75

Urinary excretion of sulfate is adequate when an individual is consuming a sufficient quantity of protein

Question 76

What is vitamin B1?

Answer 76

Thiamine

Question 77

What is the major function of thiamine?

Answer 77

Functions as a coenzyme in the metabolism of carbohydrates and branched-chain amino acids

Question 78

Which derivative of thiamine is required for carbohydrate metabolism?

Answer 78

Thiamine pyrophosphate (TPP)

Question 79

Which enzyme is dependent on thiamine?

Answer 79

Transketolase, which requires TPP

Question 80

What two factors determine the requirement for thiamine? (2)

Answer 80

1) The quantity required to achieve and maintain transketolase activity within RBCs
2) Without excessive thiamine excretion

Question 81

What is the function of transketolase?

Answer 81

• Enzyme of the pentose phosphate pathway

- The PPP generates NADPH, which functions as a reducing agent

Question 82

Biochemical changes in which vitamins occur before the appearance of overt signs of deficiency?

Answer 82

• Thiamine (vitamin B1)

- Riboflavin (vitamin B2)

Question 83

What is thiamine deficiency? What does it affect?

Answer 83

• Beriberi

- Affects the heart and circulatory system, and occurs solely when there is an extreme thiamine deficiency

Question 84

What are three methods to analyze thiamine status? (3)

Answer 84

1) Erythrocyte transketolase activity
2) Thiamine and thiamine-phosphorylated ester concentrations in blood
3) Urinary thiamine excretion under basal loading and after thiamine loading

Question 85

How does the requirement for thiamine vary between men and women?

Answer 85

The requirement for men is higher than women given differences in terms of energy utilization and body size

Question 86

How does the requirement for thiamine vary with age?

Answer 86

• Thiamine requirements may be elevated in the elderly

- But, there is a decrease in energy utilization, which results in a decreased need for thiamine

Question 87

How does the median intake of thiamine compare to the requirement?

Answer 87

The median intake is superior to the requirement

Question 88

What is vitamin B2?

Answer 88

Riboflavin

Question 89

What is the major function of riboflavin?

Answer 89

Functions as a coenzyme in various oxidation-reduction reactions, involved in several metabolic pathways and energy production

Question 90

What three factors determine the requirement for riboflavin? (3)

Answer 90

1) Erythrocyte glutathione reductase activity coefficient
2) Concentration of riboflavin in RBCs
3) Urinary riboflavin excretion

Question 91

The EAR of riboflavin for adults is derived from which three methods?

Answer 91

1) Studies of occurrence of signs and clinical deficiency
2) Biochemical values
3) Urinary excretion in relation to dietary intake

Question 92

How does the requirement for riboflavin vary between men and women?

Answer 92

The requirement for men is higher than women given differences in terms of energy utilization and body size

Question 93

How does the median intake of riboflavin compare to the requirement?

Answer 93

The median intake is superior to the requirement

Question 94

Deficiencies for riboflavin are unlikely. When would they be observed?

Answer 94

In the case of severe alcohol consumption

Question 95

What is vitamin B3?

Answer 95

Niacin

Question 96

What is the major function of niacin?

Answer 96

• Functions as a co-substrate or coenzyme for the transfer of H- by dehydrogenase enzymes
• Used in oxidation and reduction reactions (intracellular respiration, fatty acid synthesis)

Question 97

What determines the requirement for niacin?

Answer 97

Urinary excretion of niacin metabolites, as an excess of niacin is methylated in the liver for excretion in urine

Question 98

What adjustments are made for niacin in terms of bioavailability?

Answer 98

There are no adjustments made, but the requirement is expressed as niacin equivalents (NEs)

Question 99

What are the two sources of niacin? (2)

Answer 99

• Conversion of tryptophan to niacin

- Acquisition of niacin from the diet

Question 100

What is the efficiency of conversion of tryptophan to niacin?

Answer 100

60:1 (tryptophan to niacin)

Question 101

A deficiency in which nutrients may decrease the conversion of tryptophan to niacin, increasing the requirements of exogenous niacin?

Answer 101

• Iron
• Riboflavin
• Pyridoxine

Question 102

Which nutrients possess a large coefficient of variation?

Answer 102

• Niacin (15%)

- Vitamin A (20%)

Question 103

Why is the coefficient of variation of niacin large?

Answer 103

Due to the individual variability in terms of the conversion efficiency of tryptophan to niacin

Question 104

How does the median intake of niacin compare to the requirement?

Answer 104

The median intake is much superior to the requirement

Question 105

What is vitamin B6?

Answer 105

Pyridoxine and related compounds

Question 106

What is the major function of pyridoxine?

Answer 106

Serves as a coenzyme in the metabolism of amino acids, glycogen, and sphingoid bases

Question 107

What determines the requirement for pyridoxine?

Answer 107

The maintenance of adequate blood 5’-pyridoxal phosphate levels, which is the active form of vitamin B5

Question 108

What is vitamin B9?

Answer 108

Folate

Question 109

What is the major function of folate?

Answer 109

Functions as a coenzyme in single-carbon transfers in the metabolism of nucleic and amino acids

Question 110

What two factors determine the requirement for folate? (2)

Answer 110

1) Erythrocyte folate

2) Blood homocysteine and folate concentrations

Question 111

Why are dietary folate equivalents (DFEs) required?

Answer 111

To adjust for the fact that folate from food is 50% less bioavailable than folic acid from supplements or fortified foods

Question 112

What is 1ug of DFE equivalent to in terms of food folate, folic acid, and a supplement taken on an empty stomach?

Answer 112

• Food folate: 1 ug
• Folic acid: 0.6 ug
• Supplement taken on an empty stomach: 0.5 ug

Question 113

What is the major function of vitamin B12?

Answer 113

• Coenzyme for methyl transfer reactions
• Homocysteine to methionine
• L-methylmalonyl-coenzyme A to succinyl-CoA

Question 114

What two factors determine the requirement for vitamin B12? (2)

Answer 114

1) The maintenance of hematological status

2) Normal blood vitamin B12 values

Question 115

What is vitamin B7?

Answer 115

Biotin

Question 116

What is the major function of vitamin B7?

Answer 116

Functions as a coenzyme in bicarbonate-dependent carboxylation reactions

Question 117

Which B-vitamins possess an AI?

Answer 117

• Biotin (vitamin B7)

- Pantothenic acid (vitamin B5)

Question 118

What is the major function of choline?

Answer 118

Precursor for acetylcholine, phospholipids, and the methyl donor betaine

Question 119

What DRI is used to estimate the requirement for choline? How is it established? What factor does it take into consideration?

Answer 119

• AI
• Assessed by serum alanine aminotransferase levels
• The prevention of liver damage

Question 120

What does a deficiency in choline cause? What may that lead to?

Answer 120

• Muscle damage and abnormal fat deposition in the liver

- Non-alcoholic fatty liver disease (NAFLD)

Question 121

What does the assembly and exportation of VLDLs require? What occurs if it is deficient?

Answer 121

• Phosphatidylcholine
• If choline is deficient, phosphatidylcholine may not be synthesize, which causes lipids to accumulate, leading to NAFLD

Question 122

How does phosphatidylcholine play a role in lowering blood cholesterol?

Answer 122

Phosphatidylcholine is required by LCAT, which converts cholesterol into inactive cholesteryl esters

Question 123

How is phosphatidylcholine generated?

Answer 123

Phosphatidylethanolamine is trimethylated from SAM by phosphatidylethanolamine methyltransferase, producing phosphatidylcholine

Question 124

How is choline generated through de novo synthesis?

Answer 124

Phosphatidylcholine is catabolized by phospholipases, which generates choline

Question 125

The demand for dietary choline is modified by metabolic methyl-exchange relationships between which nutrients?

Answer 125

Choline and methionine, folate, and vitamin B12

Question 126

Which study demonstrates that de novo synthesis of choline is NOT sufficient?

Answer 126

Healthy men with normal folate and vitamin B12 status fed a choline-deficient diet demonstrated decreased plasma choline and liver damage

Question 127

What DRI is used to estimate the requirement for choline? What is particular about the requirement for choline and certain life stages?

Answer 127

• Adequate Intake (AI)

- The requirement for choline may be met through de novo synthesis at certain life stages

Question 128

What two factors determine the requirement for choline?

Answer 128

1) Methionine and folate availability

2) Gender, pregnancy, lactation, and stage of development

Question 129

How does the requirement for choline vary between men and women?

Answer 129

The requirement is higher for men than in women

Question 130

How does the requirement for choline vary between age groups?

Answer 130

Choline transport across the BBB may decrease, but there is no adjustment

Question 131

What is vitamin B5?

Answer 131

Pantothenic acid

Question 132

What is the major function of pantothenic acid?

Answer 132

Component of coenzyme A and phosphopantetheine, implicated in fatty acid metabolism

Question 133

Why is a deficiency in pantothenic acid rare? When would it occur?

Answer 133

• Because vitamin B5 is widely distributed in food
• May occur from a semi-synthetic diet (e.g. elemental diet), or as a result of the ingestion of an antagonist to the vitamin

Question 134

What DRI is used to estimate the requirement for pantothenic acid? What factor is it based on?

Answer 134

• Adequate Intake (AI)

- Intake to replace urinary excretion of pantothenic acid

Question 135

How is the AI of pantothenic acid determined?

Answer 135

• The midpoint of the usual intake of vitamin B5

- There is no evidence that suggests that this intake is inadequate

Question 136

What is the major function of vitamin C?

Answer 136

• Functions as a water-soluble antioxidant

- Cofactor for enzymes involved in the biosynthesis of collagen, carnitine, and neurotransmitters

Question 137

What two factors determine the RDA for vitamin C? (2)

Answer 137

1) To maintain near-maximal neutrophilic concentration

2) Minimal urinary excretion of vitamin C

Question 138

What four factors explain why the RDA for vitamin C is lower in women than in men? (4)

Answer 138

1) Smaller lean body mass
2) Lower total body water
3) Smaller body size
4) Ability to maintain higher plasma ascorbate than men at a given concentration

Question 139

How does blood vitamin C vary for the elderly population? Why?

Answer 139

• Blood vitamin C is lower in the elderly

- Due to poor dietary intakes, or chronic disease

Question 140

Which population group requires a higher requirement of vitamin C? Why?

Answer 140

• Smokers

- Due to an elevated pro-oxidant environment