NUTR 251 - 001: Digestion, Absorption, and Metabolism Note

Summary

This document provides an overview of digestion, absorption, and metabolism in nutrition. It details lifestyle factors, the science of nutrition, historical perspectives, federal programs, and current issues.

Full Transcript

NUTR 251 -- 001
===============

*Digestion, Absorption, and Metabolism*

I. Nutrition

A. Lifestyle Factors (90%/ 10%)

1. Stress management

2. Adequate Sleep (7-9 hours)

3. Exercise

4. Not abusing drugs, alcohol and nicotine

5. Food intake

II\. Definition of Nutrition

A. Science of food the nutrients and other substances therein, their
action, interaction, and balance in relation to health and disease
and the processes by which the organism ingests, digests, absorbs,
transports, utilizes and excretes food substances

B. History (4 Ears of Nutrition)

1. Naturalistic Era (400 BC -- 1750 AD)

2. Chemical Analytical Era (1750 -- 1900)

a. 5 nutrients discovered: Protein, carbs, fat, minerals, water

3. Biological Era (1900-1955)

a. Vitamins, protein, carbs, fat, minerals, water

4. Cellular/ Molecular Era (1955- present)

a. How many nutrients are in food? 6

1. Vitamins, protein, carbs, fat, minerals, water

b. Which nutrients provide kcals/energy?

1. Carbs, protein, fat

C. Federal Programs for Nutrition (HHD)

1. WIC, Head Start (Breakfast Program), School Lunch program, SNAP,
Congregate Meals program, Meals on Wheels

D. Current Issues

1. Iatrogenic malnutrition

a. Definition: A nutritional disease resulting from medical treatment
to a patient with drugs, surgery, or therapeutic diet

b. Examples: Anti-convulsant increase the need for folic acid

2. Nutrition and behavior: there is no correlation between sugar and
hyperactivity (instead- avoid artificial colors, artificial flavors
and processed foods)

3. Supplementations: above 150% of the Recommended Dietary Allowance
(RDA) is considered a MEGADOSE should be avoided (megadose may cause
harm/toxicity)

G.I Tract

\-

Mouth

Esophagus

Stomach

Small Intestine

Anabolism

Catabolism

Carbs in its building blocks are monosaccharide

Mono

Dye

Poly

Fatty

Cell, Tissue, Organ, System

Digestion is the process of changing food into the simplest form

1. Digestive tract is a coiled tube \~30 feet that passes through the
center of the body

2. Until the food passes through the digestive walls, it's still
considered to be 'outside' the body

3. Digestion is accomplished by a combination of mechanical and
chemical changes

4. Peristalsis" churning action that propels food down the tract

(Chewing and peristalsis are mechanical changes)

Peristalsis begins in the esophagus

*Definition of Peristalsis-*

*[the involuntary constriction and relaxation of the muscles of the
intestine or another canal, creating wave-like movements that push
the contents of the canal forward.]*

5. Chemically ingested food is changed by enzymes, which are provided
in the mouth, stomach, small intestine, etc

a. Enzyme: Protein that is a catalyst or trigger for chemical reactions

*Definition of ase(Suffix):*

*[Forming names of enzymes]*

A. Digestion

End products of digestion are: monosaccharides (CHO, amino acids
(proteins), fatty acids, glycerol, mono and diglycerol (fat),
minerals, vitamins, and water

1. Ingestion

Regulated by appetite which responds to both external and internal
stimuli

a. Internal: drop in glucose level stimulates hunger or contractions of
the stomach in the absence of food

b. External: social, time, place, stress, rewards

2. Mouth

a. Saliva- 2 major roles

1. Mixes with food, lubricates dry food, dilutes thicker foods

2. Provides the starch splitting enzyme(salivary amylase) which
converts to complex CHO so simple CHO

Lingual Lipase

1\. At the base of the tongue begins the digestion of lipids

Swallowing:

1\. Bolus: food gets rolled into a small ball by the tongue and is placed
at the back of the mouth (Top of esophagus)

2\. Epiglottis: Small flap that slips over the tipoff the trachea aka
windpipe to prevent food from entering the respiratory tract and lungs

3\. Peristalsis is involuntary

Stomach:

- Good Taches the stomach mixed with Saliva and alkaline mixture to
make chyme which does into the stomach

- Hormone and gastric is released to stimulate the release of HCI acid
from the lining do the stomach (Hadith mucosa) which changes pH to
acidic

- Bile splits the fat globules so the lipase can act more effectively
on it (emulsifies the fat)

- Bile splits the fat globules so the lipase can act more effectively
on it (emulsifies the fat)

Large intestine -- 10ft

- Most of the food has been absorbed; the remaining mass is mostly
fiber and water

- Most of the water is reabsorbed and the remaining more solid mass is
feces

- A cell barrier called the intestinal wall and the nutrients we
consume are to nourish our cells aka digestion

- Protein is broken down in its building blocks, A.A(Amino Acids) for
out cells to be fed

2\. Metabolism of Glucose (From Carbohydrates foods)

3\. Metabolism of Fatty Acids Glycerol, Mono, and Diglycerol (From Fatty
Foods)

4\. Metabolism of Amino Acids (From Proteins)

(2, 3, 4 are All foods convert to glucose for energy)

Steatorrhea (Fatty stools) occurs when F. A are ***NOT*** absorb)

Most American consume adequate protein

5\. Krebs Cycle (Citric acid cycle)

a\. metabolic changes that occur when energy is released from the
calories

from glucose, fatty acids etc., and a.a within the mitochondrion of the
cell

D. Overnutrition (Positive energy balance)

1\. Excess glucose is converted into glycogen and stored into the liver
and muscle; then the excess is stored as fat

2\. Excess protein is stored as fat

3\. excess fat is stored as fat

E. Undernutrition (Negative energy balance)

1\. Glucose is used first as energy

2\. Glycogen is used second

3\. Fat is used third

4\. Protein is used last (In a state of starvation)

F. Vitamins, Minerals, and Water

1\. Food can be converted to energy only when vitamins, minerals, and
water are available as catalysts or enzymes. They don't provide energy
alone.

I. Carbohydrates

a. Definition: An essential nutrient provided almost entirely by
plant foods and is the major source of energy and fiber

b. Two main Groups

1. Simple CHO

a. Primarily sugars and naturally found in fruits and milk

b. Green bananas have increased starch but convert to sugar
as they age.

c. Corn has increased sugar but converts to starch as it
ages

2. Complex Carbs

d. Primarily starch and cellulose (Fiber) and foundin
breads, vegetables, and cereals

c. Historical Perspective

3. Consumption of starch/fiber has decreased, and sugar
increased since 1900

d. Chemical Composition

4. Composed of 3 elements: C-H-O

e. Classification of Three Sub-Groups

5. Monosaccharides are the goal of digesting carbs

e. Simplest form of CHO

f. 3 Monosaccharides important in nutrition

1. Glucose

2. Fructose

3. Galactose

g. All contain 6 atoms C (Carbon), 12 atoms H (Hydrogen),
and 6 atoms O (Oxygen) but differ in arrangement of
atoms

3. Glucose

b. Dextrose or blood sugar, found in fruits, vegetables, and honey
contributes simple sugars

c. Main source of energy for the CNS (brain and spinal cord)

d. Body tries to keep at least 90 mg glucose/deciliter of blood
(fasting blood sugars)

3. If the glucose in the blood \> 200 mg/dl = HYPERGLYCEMIA

This occurs when the hormone, insulin, is not produced gast
enough by the pancreas to help the cells remove glucose from
the blood. The kidneys can't keep up and glucose spills into
the urine. The loss of glucose produces more urine; more
urination = more thirst.

Symptoms: higher blood glucose levels, glucose in the urine,
increased thirst and increased urination

6. If the glucose in the blood\< 60 mg/dl = HYPOGLYCEMIA (2
types)

h. Reactive hypoglycemia:

Reactive hypoglycemia: occurs when people wait too
long between meals or when diet is too high in
simple sugars

i. Spontaneous hypoglycemia: (rare)

Spontaneous hypoglycemia: occurs when pancreas puts
out too much insulin and creates chronic low blood
sugar

Symptoms: hunger, weakness, sweating, and
lightheadedness

7. Fructose

j. Known as fruit and naturally found in corn syrup and
sugar

k. Used commercially as high fructose corn syrup

l. Doesn't promote tooth decay (less cariogenic)

8. Galactose

m. Obtained primarily from animal sources (from
digesting lactose)

2. Disaccharides

a. 3 found in food:

1. Sucrose = glucose and fructose

2. Lactose = glucose and galactose

3. Maltose = glucose and glucose

b. Sucrose (most common and poses greatest risk of tooth decay)

4. 100% found in table sugar and granulated sugar and is an
example of simple carbs

5. 97% found in brown sugar (molasses makes up the rest)

c. Lactose

6. Found in milk sugar

7. Lactose enhances Ca++ absorption (both are within milk)

8. Lactose intolerance

a. Cause: insufficient lactase

b. Symptoms: Bloating, gassiness, and Diarrhea after eating
dairy **(EXCEPT CHEESE & YOGURT, because they underwent
a fermentation that split the enzyme apart)**

c. Maltose

1. Needed for malt beverages

3. Polysaccharides

Much more complex and are considered starches and fiber

Other terms for fiber: Cellulose, gums, pectens

n. May contain as many as 2000 glucose units

o. May be in one long chain (Amylose)

p. May be a branched chain arrangement (Amylopectin)

q. Glucose is stored as the polysaccharide, glycogen, which is stored
in the liver and muscle

r. Fiber/cellulose provides structural framework for all plant material

4. Humans don't have enzyme to break it down, so it is not absorbed

5. Ideal fiber/day 20 to 35 grams per day

6. Too much fiber = decreased nutrient absorption

7. Food sources of fiber:

Fruits, vegetables, nuts, seeds, whole grains, beans

8. 2 types of fiber

a. Insoluble fiber; May decrease colon cancer and diverticulosis

b. Soluble fiber; May decrease cholesterol levels

9. Fiber goals on food labels:

c. \> 3 grams fiber/ 100 kcal from CHO foods

d. \< 3 grams sugar / 100 kcal from CHO foods

f. Digestion

9. CHO must be converted to monosaccharides before they can cross
the intestinal wall and enter the bloodstream and then go to the
liver and then to the cells

10. Need enzymes (Ase. Suffix; Means it's an Enzyme)

s. Amylase

t. Sucrase

u. Lactase

v. Maltase

g. Metabolism

11. Occurs within cells to be used in one of 3 ways

w. Source of energy

x. Storedas glycogen in the muscle or liver

y. Stored as fat

h. Functions

12. Source of energy for the CNS

13. Sugar/Starch keals; 1 gram of sugar or starch = 4 calories

Fiber keals; 1 gram of fiber = 0 Calories

14. Dietary Essential

z. Consequence of Low or CHO Free Diet:

10. Lose sodium, potassium and water which accounts for
weight loss and weakness

11. Fat must be used as primary source of energy, which is
[abnormal] and creates a build up of ketones
= [ketosis]

e. Symptoms of ketosis:

Fatigue, dehydration, and loss of energy

15. Source of sweetness

i. Sugar Substitutes

16. Aspartame (NutraSweet)

a. Side effects; Nausea, dizziness, headaches, insomnia, CNS,
G.I problems, increase obesity, increase diabetes, menstrual
irregularity, fertility issues

17. Saccharin (Sweet & Low)

18. Splenda (Sucralose)

19. Stevia; never consume two teaspoons per day

II. Alcohol

Can cause death if alcohol levels continue to increase until the CNS
is impaired

A. Chemically related to fats, but is produced from CHO

B. Absorption and metabolism

1. Water soluble and requires no digestion

2. 80% immediately absorbed by small intestine

3. Metabolism involves the liver and kidneys. Need enzyme, alcohol
dehydrogenase, to be used as energy

4. Provides kcals; 1 gram of alcohol = 7 calories

5. Absorption is [not] affected by exercise, vitamin
supplements or caffeine

C. Implications

6. Person may not eat food because appetite is depressed leading to
malnutrition

7. GI tract may be affected which impairs digestion and absorption
and may increase the risk of GI cancers

8. Can cause liver disease and alcohol poisoning

D. Fetal Alcohol Syndrome/Spectrum (FAS)

9. NO alcohol during pregnancy to avoid alcohol poisoning of fetus

10. Characteristics:

Slow infact growth, small head/body, distorted facial features,
mental retardation (low IQ)

11. May also be caused by changes in alcohol dehydrogenase

**[PROTEIN]**

20. Protein

A. Chemical Properties

21. Constituent of every cell

22. List examples of where proteins is found in the body
(hemoglobin, Antibodies, etc)

Skin, bone, and cartilage, hemoglobin, muscle, enzymes,
hormones,

23. Essential nutrient

b. Definition: essential nutrient must be consumed in the diet
because it cannot be synthesized by the body

c. Identify how many calories is in 1 gram of protein; 4
calories

d. Promotes growth

e. Regulates body processes

24. Synthesized by units called amino acids (\_CHON\_)

f. 20 different a.a

g. Exact structure/sequence of a.a chain is crucial

B. Classification

1. Essential a.a -

Body cannot synthesize the protein at a rate sufficient to meet
the needs of growth (must get through diet)

2. Non-essential a.a -

a.a can be synthesized by the body

C. Protein Quality of Food

1\. Complete proteins (animal proteins)

a\. examples:

a. Examples:

b. Contains all essential a.a

c. High quality protein/higher biological value/sustains growth

2. Incomplete protein (Plant protein)

a. Examples:

Grains, starch, and vegetables

b. lacks or has limited amounts of one or more essential a.a

c. Low quality proteins/lower biological value

3. Complementary proteins

d. Combines plant proteins so all essential a.a are present in meal

e. Ex. Rice & Beans; Peanut butter & Bread; Salad, sprouts,
vegetables

4. Vegetarianism

f. Types

1. Vegan- consumes only plant foods

2. Ovovegetarian- consumes \_plant foods and eggs

3. Lactovegetarian- consumes plants foods and diary

4. Ovolactovegetarian- consumes plant foods, eggs, and diary

g. List the vegetarianism: proper calories, decreased overall fat,
less saturated fat, increased fiber, decreased dietary
cholesterol

C. Functions

3. Formation of essential body compounds (hormones, enzymes)

4. Regulation of Water Balance

d. fluid contained in 3 different compartments\
1) intracellular\
2) extracellular (intercellular)\
3) intravascular

e. balance is regulated by proteins and electrolytes

5. Maintenance of body neutrality (pH)

f. proteins serve as buffers to neutralize acid or base

1. gastrin is the hormone secreted in stomach to increase
acidity

2. secretin is the hormone secreted in small intestine to
decrease\
acidity

6. Antibody Formation

g. antibodies fight infection

7. Transport nutrients

h. protein carriers transport nutrients across intestinal wall
into the bloodstream and then to the liver

E. Digestion

12. Enzymes, known as protease, break down protein into simple units
of Amino Acids; otherwise, they're too large to be absorbed
intact

F. Absorption and Metabolism

13. N is removed (deamination) and is returned (transamination) to
the liver

14. N is converted to to urea by the liver and is excreted by the
kidneys as urine

15. The nonnitrogenous(Hydrogen, Oxygen, Nitrogen) portion is
converted to glucose and provides energy

a. Excess is stored as glycogen or fat

16. A.a can be used as energy only when N is removed (occurs during
starvation)

G. Factors Affecting Protein Utilization

17. Age

18. Starvation: if kcal intake is too low, protein from muscle may
be used as energy

19. Immobility: ability to synthesize protein decreases

20. Injury/Stress: N loss increases

H. What determines Proteins Needs?

21. Nitrogen, Balance, Studies

22. Examples of Studies

b. Biological Value (BV)

c. Net Protein Utilization (NPU)

23. Results of Studies

d. Nitrogen Equilibrium

1. Protein(N) intake is equal to protein(N) output (no
growth and no waste is taking space)

e. Positive Nitrogen Balance

2. N intake \> N output

(Growth)

3. Occurs during infancy, childhood, adolescence,
pregnancy, in individuals increasing muscle mass, and in
people recovering from illness

f. Negative Nitrogen Balance

4. N intake \< Output

(Waste)

I. Protein Needs during the Life Cycle

24. Associated with growth

g. Infants 2 to 2.2 grams of protein per kilogram

h. Teens/Body Builders 1 to 1.5 grams of protein per kilogram

i. Adults.75 and.8 grams of protein per kilogram

J. Protein Calorie Malnutrition (PCM)

25. Affects young children

j. Kwashiorkor

A protein deficiency only

k. Marasmus

Protein and Calorie deficiency

26. Clinical symptoms of PCM

l. Failure to grow

m. Behavioral changes

n. Edema (accumulation of fluids in the tissues)

o. Skin changes

p. Changes in hair

q. Loss of appetite, vomiting, diarrhea

r. Enlargement of the liver

s. Anemia

t. Increased susceptibility to infection and fever

27. Causes of PCM

u. Poverty

v. Lack of animal protein

w. Lack of kcal

*Lipids and Cardiovascular Disease*

I. Lipids (Fats)

A. Trend in Use

1. Higher fat consumption increases the risk of Cancer by
promoting cell division

2. American Heart Association (AHA) suggests we get 30% of
calories from fat

B. Chemical Composition

3. \~95% of Triglycerides (TG)come from dietary lipids.

a. 2 Major Components: Glycerol and Fatty Acids

1. Glycerol: Common to all fats

2. Fatty Acids: vary in composition from one fat to
another

a. Saturated Fats:

5. HDL (Healthy Cholesterol)

6. LDL (Lousy Cholesterol)

7. Have two hydrogen atoms attached to each carbon in
the chain

8. Saturated fats increase the risk of heart disease

9. Examples- Animal fats from meats and dairy, tropical
oils (Palm, kernel, and coconut oil), hydrogenated
oils

x. Monounsaturated Fats:

10. Lacks two hydrogen atoms

11. Examples- Olives or Olive Oil, nuts, and nut oil,
canola oil, and avocado (Increase the Good
Cholesterol; Decrease the bad Cholesterol)

y. Poly/Unsaturated Fats:

12. Lacks many hydrogens atoms

13. Increases the need of anti-oxidates

14. Examples- Corn oil, Sunflower oil, cottonseed oil

a. Hydrogenation

28. TRANS FAT

29. Commercial process that adds hydrogen atoms to a
poly/unsaturated fat and then becomes a saturated fat

30. Makes fat more solid at room temperature and resembles the
more expensive animal fats

31. Food industry hydrogenates liquid fat to decrease spoilage
which increases shelf life

32. Examples- Margarine, store bought cookies, Crisco shortening
(A competitor to lard), commercially prepared peanut butter,
creamers

4. Essential Fatty Acids (must be provided by the diet)

b. Linoleic Acid

c. Linolenic Acids

5. Omega 3 Fats

d. May lower risk of disease by decreasing inflammation

e. Examples- Salmon, Walnut, Flax and chia seeds

C. Related Lipids

6. Phospholipids: One of the fatty acids is replaced by a
phosphate group

f. Are water soluble so they increase the solubility of
lipids and keep fats in the blood emulsified

3. Example- lecithin

7. Sterols

g. Examples- chole[sterol ]

4. Only found in dietary animals fats and is internally
synthesized by the liver

h. Functions of cholesterol:

5. Precursor of Vitamin D

6. Needed for the formation of hormones, bile salts and
body membranes in all cells

D. Olestra (Fake fat):

8. Food and Drug Administration (FDA) approved fat substitute

E. Physical Properties

9. Insoluble in water

10. Less dense than water (Oil and Vinegar)

11. May burn at high temperatures

12. Becomes rancid

F. Digestion

13. Enzyme, lipase, splits the fatty acid from glycerol,
remainder splits into mono and diglycerides

G. Absorption

14. Mono and Diglycerides, fatty acids and glycerol cross the
intestinal wall; they recombine to form TG(triglycerides) in
the lymphatic system and are then transported to the liver

15. In the liver, they become lipoproteins (protein and fat)
which transport fat to various tissues

16. Fat is metabolized for

i. Energy

j. Stored energy in adipose cells

k. Incorporation into cell structure

l. Synthesis of essential body compounds

17. Lipids are transported in the blood as lipoproteins, HDLs
and LDLs, chylomicron, and fat bound to protein

18. Cholesterol

m. HDL- healthy cholesterol

n. LDL- lousy cholesterol

o. HDLs are responsible for returning lipids from the body
to the liver thereby decreasing risk of atherosclerosis
(Clogged Artery)

7. Atherosclerosis: lipids and other materials that
form plaque and narrows/clogs the arteries

p. To increase (\>) HDL

8. Decrease smoking

9. Increasing exercise

10. Increase fiber

11. Decrease sugar

12. Increase monounsaturated fat

13. Decrease Trans fat

14. Decrease overall fat = decreased risk of heart
attack and smoke

H. Function of Lipids

19. Source of energy

q. 9 calories/gram

20. High satiety value (Means your full)

21. Carrier of fat-soluble vitamins

22. Palatability (Taste good)

23. Energy reserve (Glucose)

24. Precursor of prostaglandins (hormone-like substances)

25. Insulation (Keeps us warm)

26. Protection of Vital body organs

I. Food Sources (Text Appendix)

i. Food Labels (Con't)

r. 2000 kcal diet with 10% kcals from protein. How many
[grams] of protein are in this diet?

s. Other terms for food energy

i. Kcal, Calories, kilojoules (kj)

ii. 1 kcal = 4.1 kilojoules (kj)

ii. Dr. Weil's food guide pyramid; choosemyplate.gov

t. Dairy Group

15. Major nutrients: Calcium, Complete protein, Vitamin
D, B2

16. Not a perfect food: low in Iron, Vitamin C; high in
saturated fat and cholesterol

17. Buy hormone free and antibiotic free (ideally,
organic)

u. Fruits and vegetables Group (separated on the pyramid)

18. Major nutrients: Fiber, Vitamin A, Vitamin C

19. 5+ servings/day, especially vegetables

20. Consume real, whole fruits and vegetables (NO juice
due to decreased fiber)

v. Meat/Beans Group

21. Major nutrients: Complete protein, heme iron, B
complex vitamins

22. Disadvantage of meat: high in saturated fat and
dietary cholesterol

23. Meat/Beans are low in calcium and vitamin C

24. Buy hormone free and antibiotic free (ideally,
organic)

w. Grain Group

25. Whole Grains are superior due to decreased
processing which increases nutrient and fiber
retention

26. Best CHO foods

b. Want fiber to be more than 3 grams/100 kcals

c. Want sugar to be less than 3 grams/100 kcals

x. Fats

27. Quantity: AHA suggests 30% kcals from fat

28. Quality Monosaturated f.a (ex: Olive, olive oil,
nut, nut oil, canoil, avocado, avocado oil

29. Avoid trans-fats (ex: marine, Crisco, store brought
cookies, commercially processed peanut butter,
creamers,

y. What % of the Us population actually meets the goals of
the pyramid?

1%

115 x 10 = 1,115

Goal: To maintain (Current Weight x 15 kcal)

118 x 15 = 1770 kcal

+/-5% 1681-\> 1861, eat 20% Protein, 50% Carbs, 30% Fat

To maintain wight

-

II. Energy Balance

J. Direct calori[metr]y (Metr means Measure)

iii. Involves an instrument called a bomb calorimeter

iv. Def of [1 kcal]: amount of heat energy required
to raise the temperature of 1 kg of water [1 degree Celsius
(]A one to one)

z. Example: how many degrees Celsius will get raised from
10 grams of CHO? 10g CHO X 4 = 40 kcal, it's going to
increase to 40 degrees C

K. Energy Value of Foods

v. Food Composition Charts

vi. Exchange System

vii. Food Labels

viii. Software

L. The body's Need for Energy (BMR, Activity, and Thermic effect of
food)

27. BMR: Basal Metabolic Rate (Greatest portion of calories
expended are through the BMR) (Ex.1200kcals)

a. Def: Measures minimum amount of energy need to carry on
the vital body processes (respiration, circulation,
synthesis of glands and hormones, muscular contraction
and relaxation)

30. Convert Pounds(\#) kg

31. Ex: 110\# / 2.2 = 50 kg

b. Calculate BMR

32. Males: 1x \_\_kg x 24 kg x 24 hours

1x 50 kg x 24(Hours) = 1200kcals

33. Females:.9x kg x 24 hours.9 x 50 kg x 24 = 1080kcal

c. Factors affecting BMR

34. Genetic Body Composition

d. Identical twins separated at birth have the same body type
in adulthood

35. Body condition (increase fitness = increase muscle, decrease
fat)

36. 37. Hormonal Secretions

e. Thyroid is the major gland that affects BMR

f. Hypothyroidism = Hyperthyroidism

38. Age: infancy, childhood, puberty, pregnancy, and lactation

Increase or decrease BMR? Increase

At what age does BMR begin to decrease? 25 years old

39. Body temperature

g. Does BMR increase or decrease with elevated body
temperature? Increase

40. Nicotine

41. Do fasting/cleansing diets increase or decrease BMR?

h. Intermittent fasting (16 hours/8 hours)

42. Sleep

28. Activity (Ex. 600 kcals)

d. What are the 3 factors that affect activity expenditure?

Body size; Intensity; Duration

29. Thermic Effect of Food

e. Def: The production of heat that occurs as a result of
[digestion, absorption, and metabolism]

f. Calculate: Represents [10%] of total kcals for BMR
and Activity

10% (BMR(1200) + Activity(600)) = 1800kcal

10% (1800 kcal) = 180 kcal

I. Weight Control

a. Obesity

i. Def: Body weight is 20% or more above a healthy, fit weight

a. Ex

1. Ideal body fat%

b. Males 12-18%

c. Females 15-22%

2. Fat deposition influences health (apple vs pear shape)

3. Diagnosis

d. [Direct] Measures include: underwater
weighing (most accurate), TOBEC, US bioelectric
impendence

e. [Indirect] Measures include: skinfold
calipers

f. Ht/Wt Charts (BMI) are bad for determining body fat%

i. Excess body fat is a bigger risk factor than
excess body wt

g. Waist Circumference: want your waist in inches to be
at least less than half of your height in inches

ii. Ex

h. Quick standard

iii. Females: 5' = 100Ibs; with each additional inch
= additional 5Ibs

1. Ex: 5'4 (100 + 20) = 120

iv. Males: 5' = 105Ibs; with each additional inch =
additional 6Ibs

2. Ex: 5'8 (105 + 48) = 153

4. Disadvantages

i. Health Hazards, psychological pressure, economic
burden

5. Causes (Increase junk food + Increase technology =
increase risk of obesity)

j. \+ energy balance over a long period of time

k. Genetics

v. Endomorph (Short, Stacky Build lower BMR)

vi. Ectomorph (Tall, lean build Higher BMR)

vii. Mesomorph (Athletic build High BMR)

l. Inactive (Sedentary) Lifestyle

viii. Night Eating Syndrome

b. Weight Reduction (5% succeed for more than 3 years)

ii. 3500 kcals = 1lb

m. How many kcals/day would you need to decrease to lose
1\#/week?

3. (down) 2\#/wk

Deficit of 7000 kcal/ 7 = (Down) 100kcal day

4. (Down) 1\#/ 2 wk

Deficit of 3500 kcals/2wk

3500 kcal/ 14(days)

Down 250 kcal/day

n. How many Ibs would you gain by consuming an extra 125
kcals/day/year?

125kcal/day/yr

Excess 45,625 kcal/yr

45,625/ 3500= (Up) 13\#/yer

ix. If you lose weight fast, you lose muscle; if you
lose weight slowly, you lose fat

o. Ideal weight loss/gain: 1/2 -- 2Ibs per weeks

6. Most likely method to succeed:

p. Increase Activity, decrease junk food and eat
quality foods

7. Dieter must be retained into a new set of eating and
exercise patterns

8. Hunger and satiety are controlled by the hypothalamus of
the brain

c. Underweight

9. Def: 15% below (Same as 85% of) healthy, fit weight

q. Example: If 100\# = healthy, fit weight, then 85\# or
below is defined as being underweight

r. Disadvantages of UNHEALTHY underweight:

Irregular body temperature, decrease immunity, increase
psychological pressure, decrease malnutrition, increase
fatigue, decrease strength, decrease fertility (Women)

M. Eating Disorders

30. Anorexia Nervosa

31. Bulimia

32. Binge eating Disorder

33. Body Dysmorphic Disorder

III. Water

N. Distribution

34. Part of the cell in the body

g. Most of body water is intracellular

35. Water makes up approximately 60% of total body weight and
approximately 70% of lean mass muscle is water

36. Water Intoxication

h. Occurs when [large] amounts of water is
consumed [without] enough [electrolytes to
maintain water] balance so edema (increased
water retention, decreased urination) may occur)

O. Functions

37. Solvent of nutrients

38. Growth Facilitator

i. Glycogen 2/3 water

j. Fat 1/5 water

k. Muscle ¾

39. Catalyst of many biological reactions

40. Lubricant of Joints

41. Temperature regulator

l. Water has an ability to conduct heat; therefore, it
plays an important role in the distribution of heat
throughout the body

m. Evaporation of water from body surface is the most
effective of ridding body of extra heat (insensible
perspiration)

42. Source of trace elements

n. Fluorine, zinc, and copper in all water

o. Calcium and magnesium are found in [hard]
water

43. Need water to make urine to excrete waste

IV. Minerals

P. Do not provide energy/kcals

Q. Classification

44. Organic: Those substances composed of living material

45. Inorganic: Those substances of non-living material

p. Essential minerals are all inorganic and are classified
as either:

43. Macronutrients: present in relatively high
concentration (\>50 ppm)

44. Micronutrients: (Trace elements), present in lower
concentration ( \< 50 ppm)

R. Functions

46. Maintenance of Acid/Base Balance

47. Catalysts for biological reactions

48. Compounds of essential body compounds (hormones and enzymes)

49. Maintenance of Water Balance

q. 3 compartments

45. Intravascular (Within the blood)

46. Intervascular/ Extravascular (Between/outside the
cell)

47. Intracellular (within in cell)

r. Electrolytes

48. Mineral elements as salts in the body fluids have
either a positive or negative charge and are
responsible for fluid movement on either side of the
cell

50. Transmission of Nerve Impulses

s. Exchange of Na (Outside the cell) and K (inside the
cell) are responsible for transmission

51. Regulation of Contractility of Muscles

t. Calcium stimulates muscle contractions

u. Sodium, Potassium, and Magnesium relax

V. MACRONUTRIENTS (Include Sulfur)

S. Calcium

52. Supplements:

v. Calcium carbonate

w. Calcium Citrate

53. Distribution

x. Calcium provides rigidity in our bones and teeth

54. Functions

y. Bone formation along with fluorine, magnesium, calcium,
and phosphorus

z. Tooth formation

49. Calcification of deciduous teeth (1^st^ set) begins
by the 20^th^ week of fetal life is completed just
before they erupt

50. Permanent teeth begin to calcify between 3 months
and 3 years

a. Growth

b. Blood clotting (Blood coagulation)

c. Catalyst for biological reactions

55. Absorption

d. Very poorly absorbed (at best 30-50% absorbed;
typically, 10%-30% absorbed)

e. Factors enhancing Calcium absorption

51. Vitamin D

52. Acidity of the digestive mass

53. Lactose

54. Calcium/phosphorous Ratio (1:1 or 1:2)

i. The right ratio enhances bone calcification

55. Need for Calcium

j. Pregnancy, lactation, and adolescence have
increased absorption rates

56. Weight bearing (strength bearing) exercise can even
reverse osteoporosis

f. Factors depressing Calcium absorption

57. Oxalic acid (found in spinach and chocolate) binds
with calcium making it unavailable for absorption

58. Phytic acid (fiber)

59. High fat, high protein diet

60. Emotional instability

k. During stress, there is decreased absorption,
increased excretion and increased need of
calcium

l. Lack of exercise

56. Dietary Allowances

g. RDA used to be 800 mg/day for adults; revised to 1000
mg/day for adults and to 1200 -- 1500 mg/day for past
menopausal women (nutrients needs change throughout the
life cycle)

h. Bone loss begins around age 35 and accelerates after
menopause

57. Food sources

i. Dairy products (Milk, yogurt, cheese, etc.) salmon,
sardines, broccoli, kale and almonds

j. Milk is high in Calcium but low in Fe (Iron)

58. Abnormalities of Calcium Metabolism

k. Osteoporosis (affects [quantity] of the
bones)

61. Def: the bone mass or amount is diminished but is of
normal composition and the bones can break without
provocation

62. Creates spontaneous fractures of the hip, vertebrae,
and wrist

63. People are usually shorter

64. Cause; may be attributed to a long-standing dietary
inadequacy, poor utilization and/or poor absorption
Ca++. Excrete more Cal++ (ex: alcohol consumption
causes more Ca++ excretion since it's a diuretic)

m. Osteomalacia (affect [quality] of
the bone)

i. Known as an adult rickets

ii. Low level of Vitamin D may account for this
also

T. Phosphorus (P)

59. Functions

l. Regulates energy release by adding a third phosphate
group to ADP which then becomes ATP (adenosine
triphosphate)

65. Phosphate (P) is required for all ATP reactions

m. Absorbs and transports nutrients

66. Ex: phospholipids transport lipids by making fat
more soluble in the blood

n. Part of essential body compounds (vitamins and enzymes
need phosphate

o. Along with minerals, calcium, helps to calcify the bones
and teeth

p. Regulates acid/base balance

60. Absorption

q. Phosphatase (enzyme) releases phosphorus from food

61. Food sources

r. Present in all foods, especially in proteins rich foods,
(Meat, fish, poultry, eggs, dairy products, grains) so
deficiency is rare

s. Specific examples: coke, 7 up, roast beef and milk

t. Soda disrupts the Ca++/P ration which inhibits
(decreases) Ca++ absorption

62. Requirements

u. Best calcium/phosphorus ratio is 1:1

U. Magnesium

63. Approximately 1/3 of magnesium is bound to phosphate which
makes it important is releasing energy

64. Rest of Magnesium is absorbed on the bones surface (The 4
minerals involved in bone formation are: magnesium,
fluorine, calcium, and phosphorus)

65. Important in nerve transmission (Magnesium has a relaxing
effect)

66. Sources: fish, nuts, soybeans, and spinach

VI. Micronutrients (Exam 3 and Final info)

V. Iron

67. Supplement that gets absorbed best : Ferrous sulfate

68. Distribution

v. Concentrated in the blood and in every cell

w. More than 2/3 of iron in the body is functional iron
(used daily)

67. Hemoglobin: Iron containing protein molecule found
in the RBC (Red blood cell)

68. Myoglobin: Iron containing protein molecule found in
muscle

69. Both hemoglobin and myoglobin are responsible for
pigmentation

70. Transferrin: Iron bound to protein to transport to
cells

71. Serum ferritin (stores iron for daily use) is the
most sensitive indicator of Fe stores

x. Remaining 1/3 of iron in the body is stored long term in
the liver, spleen and bone marrow

69. Functions

y. Carries oxygen and carbon dioxide from one tissue to
another (Cellular respiration)

z. Blood formation: Fe is part of hemoglobin which is part
of the RBC which is involved in blood formation

70. Need for dietary Iron

a. To replace losses of iron from the body

72. Hair and nails

73. Desquamated (sloughed off) cells from skin and body
surface

74. Feces

75. Bleeding

b. Growth

76. Increase in blood volume and tissue mass requires Fe
for hemoglobin and myoglobin synthesis

c. Replacing losses from blood donation

71. Iron in food

d. Heme iron (absorbed best): found in meat

77. Meat is the most biologically available food source
of Fe

e. Non-heme iron: all other food containing iron

78. Ex: grains, fruits, and vegetables

n. Enriched bread is a source of iron but with
little fat

79. Milk is poor source of Fe and vitamin C

72. Absorption (Occurs in the small intestine)

f. Must be ferrous iron to be absorbed; change is
accomplished in the presence of HCl or ascorbic acid
(Vitamin C)

g. Factors affecting absorption:

80. Body's need for iron (large dose with decreased need
= decreased absorption)

81. Ferrous iron, along with which with vitamin,
increases Fe absorption?

Vitamin C

82. Too much fiber decreases nutrient (Fe) absorption
(Above how many grams of fiber/day is too much?)
Above 35 grams

83. Caffeine (from coffee, tea, and cola) decreases Fe
absorption- consumes no more than 24 total
ounces/day

84. The meal with the most iron absorption:

o. Red meat, sources of Vitamin C (ex: strawberries
and peppers), and no caffeine

73. Transportation of Fe

h. Iron is carried through the body as transferrin

i. Long term storage of Fe contains 1000mg in reserves;
those 1000 mg of Fe last 1000 days for men but only 500
days for women (menstruation = blood loss)

74. Recommended Dietary Allowances (RDA)

j. Men:10 mg/day

k. Women: 15/day

l. What Fe deficient disease are women in childbearing
years at an increased risk of getting since they have
increased Fe need? Anemia

75. Food preparation

m. Water soluble mineral (limit boiling)

n. Cook foods in Fe pans/skillets to increase Fe intake

76. Deficiency

o. May result from decreased Fe in the diet, blood loss and
decreased absorption

p. Anemia

85. Symptoms: decreased red blood cells fatigue, and
apathy

86. 2 types:

p. Nutritional anemia- decreased Fe intake,
decreased meat, decreased vitamin C

q. Hemorrhagic anemia- caused by excessive blood
loss (result of surgery, internal hemorrhaging
increased menstrual loss)

W. Iodine

77. Concentrated in the thyroid gland and used to synthesize by
hormone thyroxin

78. Function:

q. Important in regulating growth and development by
stimulating metabolism

79. Deficiency:

r. Goiter- swelling of the neck as a result of the
enlargement of the thyroid gland (due to decreased
iodine)

s. The iodization of NaCl has decreased the incidence of
goiter

X. Zinc

80. Functions:

t. Reproduction

u. Wound healing

v. Affects taste (decreased zinc = decreased taste acuity
(hypogeusia)

w. Growth

x. Zinc acts in metalloenzymes (enzyme that contains zinc)

81. Food sources:

y. Meat, seafood, and whole grains

82. RDA:

z. 15 mg/day

a. Therapeutic dose -- 25 mg/day

87. Too much zinc with decreased need = increased GI
distress

Y. Selenium

83. Functions as an antioxidant along with Vits C, E, and beta
carotene

Z. Boron

84. Prevents bone loss in post-menopausal women

A. Sulfur (Included on EXAM 2)

85. Found in cabbage family vegetables (cabbage, Brussel
sprouts, broccoli and cauliflower)

86. Contains allyl sulfur which decreases risk of cancer

*Nutrition Study Guide- Exam \#1*
---------------------------------

Definition of Iatrogenic Malnutrition

- A nutritional disease resulting from medical treatment to a patient
with drugs, surgery, or therapeutic diet

How to Interpret Food Labels

Where protein is found in the body

- Antibodies, Skin, bone, and cartilage, hemoglobin, muscle (50%),
enzymes, hormones

FDA approved fat substitute

- Olestra

Definition of cholesterol free

- less than 2 mg/serving

How CHO can change from starch to sugar and sugar to starch

-  Starch is broken down into glucose through enzymatic Amylase;
Glucose is synthesized into starch through dehydration synthesis,
allowing for energy storage

Hyperglycemia vs. Hypoglycemia

- Hyperglycemia is High blood sugar (Glucose); Hypoglycemia is Low
blod Sugar (Glucose)

Nutrition Labeling Education Act

- Nutrition Labeling Education Act: Federal law allowing health claims
on food labels

Peristalsis

- muscle contractions that move food and liquids through the digestive
tract; **Esophagus**: Moves food from the throat to the stomach.

- **Stomach**: Mixes food with gastric juices and moves it into the
small intestine.

- **Small Intestine**: Continues the breakdown of food and encourages
nutrient absorption.

- **Large Intestine**: Moves waste toward the rectum for elimination.

Kcal values per gram from Protein, CHO, Fat, and Alcohol

Protein, Sugar, and Starch 4kcal, Fat 9kcal, alcohol 7kcal

Sources of high quality, low quality, and complementary proteins

- Poultry is a high quality because it's high in all 9 amino acids;
Grains (wheat, rice, oats) Legumes (beans, lentils, peas) Nuts and
seeds (almonds, sunflower seeds) Vegetables (broccoli, spinach,
kale)

Starvation and protein use

Different types of fatty acids

- Saturated, unsaturated, polysaturated, and trans fat

Types of vegetarianism

- Vegan- consumes only plant foods, Ovovegetarian- consumes \_plant
foods and eggs, Lactovegetarian- consumes plants foods and diary,
Ovolactovegetarian- consumes plant foods, eggs, and diary

Difference between essential and non-essential amino acids

- Essential Amino Acids: Cannot be synthesized by the body and must be
acquired through diet; there are nine of them; Non-Essential Amino
Acids: Can be synthesized by the body; there are eleven, including
conditionally essential ones that may need to be obtained from the
diet in specific situations.

Causes and symptoms of lactose intolerance

- Deficiency of an enzyme called lactase; can cause nausea, bloating,
Diarrhea, abdominal cramping, gas,

HDLs vs. LDLs

- HDL- healthy cholesterol, LDL- lousy cholesterol

Functions of Protein

- Formation of essential body compounds (hormones, enzymes),
Regulation of Water Balance, Maintenance of body neutrality (pH),
antibodies formation, transport nutrients

Starvation and CHO use

Protein Calorie Malnutrition

- Deficiency of Calories and Protein

Cholesterol facts

Nitrogen Balance (definition and examples)

Fiber (definition and examples)

Bile (production and storage)

Symptoms of Fetal Alcohol Spectrum

Disaccharide breakdown into which 2 Monosaccharides?

- Glucose and fructose

Essential fats

Hydrogenation

- Hydrogenation is a chemical process that adds hydrogen to
unsaturated fats to convert them to saturated fats, enhancing their
stability and shelf life

Difference between Animal vs. Plant Proteins

Examples of sugars in foods

Examples of starch in foods

Functions of Fat

Definition of Atherosclerosis

- Clogged arteries

Effects of too much or not enough fiber

End products of digestion of fat

- Fatty Acids(saturated, monounsaturated, and polyunsaturated) &
Glycerol

*Questions:*
------------

When fat is not absorbed it goes through the small intestine through the
large intestine to deficate. Which makes a strong urge for a person to
use the bathroom

Where is protein found in the body?

50% is founded in the muscles, and

Grains, starch, and vegetables

Skin, bone, and cartilage, hemoglobin, muscle, enzymes, hormones

Teacher Notes/ Advice:

If there is decreased insulin produce the hyperglycemia remains

Fruits that decrease abdominal fat: Apples, pears, berries, cherries,
and citrus

What makes a carbohydrate good is high fiber low fat

Monosaccharides, polysaccharides, disaccharides

Learn what suffix means and the origins of words

\*At least 300 Kcals fuels the brain w/ glucose for 4-5 hours