FAT SOLUBLE VITAMINS
-
Vitamins are organic compounds
-
Required in trace amounts
-
Perform specific metabolic
functions
-
Not synthesized by the body or
not synthesized in adequate amounts
Fat Soluble Vitamins
- All have similar mechanism of absorption
and excretion
- Do not have to be consumed daily
- Excess can be toxic
- Relatively stable during processing
- Occurs in preformed state and as a
precursor
- Three active forms:
- Retinol,
- Retinal
- Retinoic acid
- In food most preformed vitamin A is found
in the form of retinol
- All three forms of vitamin A can be formed
from the plant pigments, carotenes
- Most common form is beta-carotene. Vitamin
A is susceptible to oxidation, but is relatively heat
stable
Absorption and metabolism
- Requires bile salts
- Stored in liver
- Requires a transport protein. Protein
deficiency will have a negative impact on Vitamin A
status. Zinc deficiency has a similar effect
Functions in vision and maintains the structure
of the eye. (Only retinol and retinal function in the visual
cycle) Deficiency is night blindness
Epithelial tissue - Vitamin A is necessary for synthesis of
substances in mucous produced by epithelial tissue - Deficiency -
increased incidence of infection, hard dry keratinized skin.
Deficiency
- Night blindness
- Stunting of growth
- Xeropthalmia
- Problems with skin and epithelial cells
that line respiratory, digestive and genitourinary
tracts.
- Abnormalities of enamel-forming cells of
the teeth.
- Has been suggested to decrease risk of
cancer, but data doesn't support this claim
Requirements
| 1
International Unit (I.U.) |
= 0.3 mcg retinol |
| = 0.34 mcg retinyl acetate |
| = 0.6 mcg beta carotene |
| = 1.2 mcg other carotenes |
| Female |
4,000 IU |
| Male |
5,000 IU |
| Pregnancy |
5,000 IU |
Sources: Dark green vegetables, orange-yellow vegetables, whole
milk, butter, cheese, eggs, fish liver oils, all liver. Little
loss in normal cooking Oxidizes readily with heat
Vitamin A
Intake
Little concern if intake equals 2/3 RDA
Availability in US is about 8,200 IU/day
Problems with intake throughout the world
In world, except China, estimated that 80,000 children become
blind each year
Toxicity: Excess carotene does
not result in toxicity - should not consume more than 10,000
IU/day of retinal.
| Bones |
Joint pain,
decalcification |
| Blood |
Blood loss, decreased
clotting time |
| Nervous |
Loss of appetite,
irritability |
| Skin |
Dryness, scaling, bleeding |
| Liver |
Jaundice, enlargement,
accumulation of fat |
- Cholecalciferol (Vitamin D3)
- Can be produced from cholesterol by the
action of ultraviolet light.
- Can be formed from a protovitamin
- Stored in the liver
- Functions in the absorption of calcium and
phosphorus
- Acts directly on bone
- Affects reabsorption of calcium and
phosphorous by kidney
Requirements
- Impossible to state requirement exactly
- In infants, 135 IU prevents rickets, but
300 - 400 IU results in more rapid growth and earlier
eruption of teeth.
- In older children, from 300 to 400 IU
favors calcium retention.
- Food and Nutrition board recommends 400 IU
from birth to age 22 years.
Requirements
| Age |
Requirement |
| |
|
| Birth to 18
years |
400 IU |
| Adolescence |
300 IU |
| Adult |
200 IU |
| Pregnancy |
+ 200 IU |
Sources: sunlight, fish, egg yolk, butter,
organ meats.
Functions
- Conversion to a hormone that improves
absorption of calcium and phosphorous, mobilization of
calcium form bone and control of excretion of phosphorus
by the kidneys.
- Vitamin D may also play a role in
regulation of amino acid levels in the blood and the
level of citric acid in tissues and bones.
Vitamin D Deficiency
- Poor growth and lack of normal bone
formation in children (Rickets)
- In adults a softening of bone know as
osteomalacia can
occur.
- Symptoms are similar to a lack of calcium.
The calcium is present, but not absorbed efficiently.
- Others include poor tooth development,
muscular weakness, listlessness and enlarged
skull.
Toxicity - double the
recommended intake for a few months can be toxic:
- Intakes of from 3,000 to 4,000 IU/day
result in elevated serum calcium levels.
- Intake of over 20,000 IU/day may result in
serious toxicity. Symptoms include:
- Vomiting, Diarrhea, Weakness, Loss of
weight, Kidney damage
| Bones |
Increased calcium
withdrawal |
| Blood |
Increased Ca and P level |
| Nervous |
Loss of appetite,
irritability, headache, excessive thirst |
| Excretory |
Kidney stones, renal
damage |
| Tissues |
Calcification of soft
tissues, death |
- Alpha tocopherol
- Widely available in normal diet
Functions:
- Detoxify oxidizing radicals that arise in
metabolism
- Stabilize cell membranes
- Regulate oxidation reactions
- Protect Vitamin A and PUFA from oxidation
In animals, Vitamin E has been shown to:
- Be essential for fertility in rats
- Be essential for male potency in rats
- Protect against a form of muscular
dystrophy in rats and lambs
In humans, Vitamin E does not:
- Lower high blood lipids or cholesterol
- Decrease hot flashes
- Decrease risk of bladder cancer
- Prevent heart attacks
- Restore or improve sexual potency
- Improve athletic ability
Requirement increases as intake of PUFA
increases.
- RDA for men = 10 TE or 15 IU
- For women = 8 TE or 12 IU
Excess intake can impair function of G.I. tract
and increase time for blood clotting
Human Deficiency
- Vitamin E is required for normal creatine
excretion and for prevention of blood disorders
(hemolysis test).
- Not related to: Athletic performance,
heart disease, sex drive, muscular dystrophy, sterility
or longevity.
Animal Deficiencies
- In rats, males become sterile and pregnant
females are unable to carry to term. Also related to
nutritional muscular dystrophy.
- In chicks brain lesions have been
observed, as well as liver damage and muscular symptoms
in mice, pigs, dogs and other animals.
Functions
- No known coenzyme role, nor requirement in
any known enzymatic reaction.
- Symptoms in all animals can be prevented
by other antioxidants or much lower levels of selenium.
- Several generations of experimental
animals have been raised without vitamin E with no
adverse effects as long as other antioxidants are
present.
- Phylloquinone - plants K1
- Menaquinone - bacteria K2
- Diet and intestinal bacterial contribute
to supply
- Storage in body is minimal
- Functions in normal blood clotting
Sources - green leafy vegetables, cabbage, cauliflower
- Routinely given to newborns after birth
- Safe and adequate intake = 70 to 140
mg/day
- Synthesized by intestinal microflora
- May have secondary deficiency due to
administration of sulfa drugs.
- Resistant to heat and oxygen, destroyed by
strong acid or alkali
Deficiency
- Deficiencies are rare in all animals.
- Found in chickens fed diets very low in
alfalfa.
- In other animals, usually results from
prolonged treatment with antibiotics.
Role in Body
- Functions in formation of a protein,
prothrombin, in the liver.
- Prothrombin is required for normal blood
clotting.
- No known function other than prothrombin
formation.
Requirements
- No allowance set be FNB.
- Normally produced by intestinal
microflora.
- Deficiencies are possible in premature
infants. Infant formulas are fortified to a level of 100
mcg/liter.
- Toxicity does not appear to be a problem
in people of normal health. People who are taking
medication to control the rate of bllod clooting
(anticoagulants - also known as blood thinners) must be
carful that they do not consume too much vitamin K or the
proper dosage of medication is difficult to determine.
Send
Mail to Mike Mangino
Send Mail to
Stephanie Smith
