Trace Minerals - Chapter 12 PDF

Summary

This document provides an overview of trace minerals. Topics covered include functions, and storage forms of some trace minerals such as Iron, Zinc, Copper, Manganese, Selenium, Iodine, and Fluoride. It also details deficiencies and toxicity, and best dietary sources. The summary is part of a larger presentation.

Full Transcript

Trace Minerals
Chapter 12

1
 Trace Elements
Body storage is less than 5 grams
They are required in amounts less than 100 mg
per day in the diet.
The trace elements include:
Iron * Iodine
Zinc * Fluoride
Copper * Chromium
Manganese * Molybdenum
Selenium
2
 Iron (Fe)
Total body content of iron.004% of body weight
men - 3.6 grams (40 - 50 mg/kg body weight)
women - 2.4 grams (35 - 50 mg/kg body weight)

Storage – bone marrow, muscle, liver, spleen
- Hb (in RBC) accounts for 80% of the
body’s iron

3
 Functions of Iron
Major Function
Cellular respiration
- oxygen and CO2 transport

The adult human body contains iron in two major
forms:
1) functional iron (oxygen)
2) storage iron (iron)

4
 Functions of Iron
Air (oxygen) 1) functional iron in:
hemoglobin – Hb in
Lungs
RBC transports oxygen
blood blood
in the blood to body
cells and carries CO2
Hb + CO2 Hb + O2 away from cells for
elimination by the lungs
CO2 oxygen
myoglobin - serves as
an oxygen reservoir
Myoglobin within muscle to make
Muscle O2 available for muscle
Metabolism contraction
5
 Functions of Iron: Iron Recycled in the Body

Some losses
via sweat, skin, Transferrin carries
and urine iron in blood.

Some iron
delivered to
myoglobin
of muscle
Liver (and spleen) dismantles cells
RBC, packages iron into Bone marrow incorporates
transferrin, and iron into hemoglobin of
stores excess iron in RBCs and stores
ferritin and hemosiderin. excess iron in ferritin
and hemosiderin.

Some losses Iron-containing
if bleeding hemoglobin in RBCs
occurs carries oxygen.

2. Storage Iron: Ferritin and Hemosiderin – storage site for iron
6
Transferrin - Transports iron
 Types of Dietary Iron: Heme and Nonheme Iron in Foods

Only foods derived from
animal flesh provide
heme, but they also
contain nonheme iron.
Heme iron accounts for about
10% of the average daily
iron intake, but it is well
Key: absorbed (about 25%).
Heme
Nonheme iron accounts
Nonheme
for the remaining 90% but
it is less well absorbed
(about 17%).
All the iron in foods
derived from plants
is nonheme iron.

non-heme iron exists in 2 forms
i) ferrous iron (Fe ++): reduced form
ii) ferric iron (Fe+++): oxidized form Iron occurs in foods primarily as ferric iron 7
Iron absorption, transport, storage and loss.

8
 Factors affecting iron absorption
1) acidity of digestive environment (),  antacids  the
absorption of iron
2) vitamin C ()
3) fructose ()
4) MFP factor and protein ()
5) tannic acid (tea, coffee, nuts) ()
6) fibre ()
7) oxalates (spinach, greens, bind to iron) ()
8) calcium and phosphorous ()
9) EDTA (ethylenediamine tetra-acetate, found in food
additives) ()
10) lead ()
9
 Iron from Meals
A working estimate of absorbable iron can be
calculated from 5 components of a meal:
1) total iron (mg)
2) heme iron
3) nonheme iron
4) Vitamin C
5) MFP factor

10
 Iron Availability from Meals
Meals can be Low Medium High
classified as:
High < 1oz M,F,P 1-3oz M,F,P >3oz M,F,P
Medium Or Or Or
Low < 25mg Vit C 25-75mg >75mg Vit C
- availability of Vit C Or
iron
1-3oz M,F,P
By choosing plus
your meals 25-75mg
carefully, you Vit C
can increase iron
absorption

11
 Iron deficiency
If iron stores are depleted, the ability to synthesize
hemoglobin is reduced
Iron deficiency anemia
takes a long time to develop because the elimination
process is slow
RBC – 120 days (4 months)

Symptoms: fatigue, headache, pale (RBC contain
less hemoglobin)
12
 Iron Deficiency
Causes:
not enough dietary iron
decreased absorption of iron
hemorrhaging
excessive blood donations
– Iron content of blood – 0.5 mg/100ml
– Donate blood (500 ml) – lose 2.5 mg iron
It is estimated that as much as 80% of the world’s
population may be iron deficient and 30% suffer
from iron deficiency anemia.
13
 Iron deficiency in Athletes
i) can decrease performance because muscles lack oxygen
ii) hemolysis (rupturing of RBC due to constant pounding (foot strike)
during running)
iii) female runners (menstruation)

“sports anemia” – not a true anemia, however early in training, athletes
may develop low blood Hb (temporary)
- strenuous activity promotes destruction of the more fragile, older
RBC, which reduces blood’s iron content temporarily
- Strenuous activity also expands the blood’s plasma volume,
thereby reducing the RBC count per unit of blood, but the RBC do
not  in size or #, so oxygen-carrying capacity is not hindered

* iron-deficincy anemia requires iron supplementation, but sports
anemia does not. 14
Iron Deficiency Anemia
Occurs when the oxygen carrying capacity of blood is decreased
because there is insufficient iron to make hemoglobin. Diagnosed
when either the volume of RBC (hematocrit), proteins containing
iron (hemoglobin and ferritin), or serum iron levels are low.

Normal RBC (a) appear larger and darker in colour than RBC in iron deficiency
anemia (b). 15
 Iron deficiency anemia

Blood cells in iron-deficiency anemia are small
(microcytic) and pale (hypochromic) because they
contain less hemoglobin.
16
Iron Deficiency

17
 Iron Toxicity
Usually develops because the body lacks a
mechanism for excreting excess iron
therefore, iron accumulates in the body
results in cell death (necrosis)
Toxicity can also result from supplementation

This condition is known as hemosiderosis
Hemosiderosis: large deposits of the iron storage
protein hemosiderin in the liver and other tissues
Hemochromotosis: an advanced stage of
hemosiderosis 18
Iron Toxicity

19
a: this value is an AI,
all other values are
RDAs
Iron in human milk
is more bioavailable
than infant formula.
If infants are not fed
breast milk, iron
fortified infant
formula is
recommended.

b: value is RDA for a
mixed diet

20
 Dietary Sources of Iron
30 ml (2 tbsp) blackstrap molasses: 7 mg
250 ml cooked lentils: 6 mg
250 ml raw spinach: 2 mg
250 ml cooked spinach: 7 mg
100 g tofu: 5 mg
250 ml almonds: 4 mg
200 g sirloin steak: 4 mg
200 g chicken breast: 2 mg
200 g baked potato with skin: 2 mg
Both plant and animal sources are good sources of iron
(meat is absorbed better: heme iron)
(cooking in iron pans increases the iron content of foods)
21
Iron content of foods: both animal and plant foods are good sources.

22
 Zinc
The adult body stores about 2 grams (.002% body weight)
Found in all tissues, but high [ ]’s are found in the
muscles and bones
Also:
- male reproductive organs (prostate glands, sperm)
- pancreas, liver

23
 Circulation of Zinc in the Body

Zinc in food

If the body
Mucosal cells in does not
the intestine store need zinc
Zinc is excreted in
excess zinc in shed intestinal cells.
metallothionein.
The pancreas uses
zinc to make
If the body
digestive enzymes
needs zinc
and secretes them
into the intestine.
Metallothionein releases
zinc to albumin and
transferrin for transport
to the rest of the body.

24
 Zinc: Functions and Deficiencies
Function Deficiency
Sexual maturation (puberty) in Delayed sexual maturation
males (puberty) in males
Growth in children Delayed growth in children
Component of insulin (regulates Impaired glucose regulation
blood glucose) (hyperglycemia)
Wound healing (synthesis of Poor wound healing, skin
collagen) lesions
Taste perception Impaired sense of taste
Transports Vitamin A Night blindness
Involved in the functioning of
over 300 different enzymes,
including superoxide
dismutase (anti-oxidant)
25
 Deficiency of Zinc
Delayed growth in children
Delayed sexual maturation
(puberty) in males

Middle Eastern diets are typically
low in zinc containing foods
(meat) and high in fibre

Man on right, normal height
Boy on left, 17 yrs old, 4 ft tall

26
 Zinc Toxicity
vomiting, diarrhea, headaches (due to supplementation not diet)
Chronic
Anemia - reduced Hb production (interferes with iron)
Copper deficiency (zinc interferes with copper)

Zinc lozenges are marketed to shorten the duration
and severity of the common cold
Research to date: Controversial and inconclusive
Side effects of zinc lozenges:
– nausea, bad taste reactions
27
Best Dietary Sources of Zinc:
protein containing foods (animal products)
75 g
75 g crab
Oysters
6 mg
59 mg

125 ml
Garbanzo
beans
90 g 1 mg
Ham
1.7 mg

90 g beef
90 g 6 mg
Chicken
1 mg

RDA: Males 11 mg/day
28
Females 8 mg/day
Zinc content of animal food sources

29
Zinc content of plant and animal food sources

30
Zinc content of food: Protein foods are the best sources

31
 IODINE
Distribution in the Body
total iodine - 20 mg
75% - thyroid gland (hormones)
25% - all body tissues with higher [ ]’s in the
skeletal muscle, blood, ovaries

Iodine (referring to foods) is converted to
iodide (referring to in the body)
32
 Metabolism and Function of Iodine
Iodine functions in the synthesis of 2 thyroid
hormones:
1) thyroxine (T4) (also called tetra-iodothyronine)
2) triiodothyronine (T3) (active form)
Synthesis of these 2 hormones begins with the
formation of a large iodine containing protein called
thyroglobulin
Thyroglobulin – releases T4 and T3 in the blood
– causing greater utilization of O2
– increases BMR

33
 Deficiency of Iodine
Goiter - a swelling of the thyroid
when the diet is low in iodine, a hormone called
TSH is released
TSH - thyroid stimulating hormone (product of the
pituitary gland);
TSH is also called thyrotropin

TSH - controls thyroid metabolism by increasing the
# and size of the thyroid cells
34
Iodine and Thyroid When thyroid hormone
Hormones levels drop too low, TSH
is released and stimulates
the thyroid gland to take
up iodine and synthesize
more hormones.

If iodine is not available
(brown arrows), thyroid
hormones cannot be made
and the stimulation
continues, causing the
thyroid gland to enlarge.

35
 Deficiency of Iodine
The thyroid gland
will get larger in
order to try to
synthesize and
release its
hormones
Goitre is a
compensating
mechanism for low
serum levels of
iodine 36
Deficiency of Iodine

If the Goitre gets
too large, it can
interfere with
breathing

Goitre occurs more
in women than men
37
 Deficiency of Iodine
Goitre can also develop by ingesting goitrogens
Goitrogens interfere with the functioning of the
thyroid gland (must be consumed in VERY, VERY
large quantities to develop goitre)
- cabbage - cauliflower
- brussel sprouts - broccoli
- turnip - mustard seeds
- spinach - strawberries
- peaches - peanuts, soybeans
38
 Deficiency of Iodine
Cretinism
a severe iodine deficiency that affects the fetus
during pregnancy
irreversible
causes mental and physical retardation
Prevented by treatment of iodine during pregnancy

39
 Toxicity of Iodine
25 - 50 times above the DRI
Toxicity interferes with thyroid function
The thyroid gland becomes overactive and gets
larger so it can synthesize more hormones

40
 Iodine: RDA and Dietary Sources
DRI - 150 ug/day UL: 1100 ug/day
table salt: all salt sold in Canada (including sea salt) must
be iodized
2g of iodized salt (0.5 tsp) contains enough iodine to meet
RDA (potassium iodide)
Processed foods (because they contain table salt)

other sources:
seafood (ocean) (soil in the ocean is high in iodine)
vegetables (grown in rich iodine soils) (not in this area of
Canada)
Since the introduction of iodized table salt in Canada,
1930’s, iodine deficiency is rare 41
 Selenium
Main function:
Antioxidant (spares Vitamin E)
Part of the enzyme glutathione peroxidase, which
prevents free-radical formation and protects cell
membrane destruction

42
Selenium Spares Vitamin E

43
 Deficiency of Selenium
Keshan’s disease - heart disease caused by selenium
deficiency (heart enlargement)
Mild deficiency: impaired heart function
Severe deficiency: heart failure

First reported by the Chinese
The disease is prevalent in regions where the soil is poor in
selenium

Cause of Keshan’s disease is unknown however, adding
selenium to the diet seems to prevent it
44
 Toxicity of Selenium
Works as a pro-oxidant
found in regions where soil is high in selenium
or supplementation - long term ingestion of 1 mg
or more/day
symptoms
damage to nervous tissue (CNS disorders)
damage to skin (rash), hair (loss), nails (brittle)
chronic fatigue/irritability
garlic breath odor
45
 Selenium: DRI/dietary sources
RDA: 55 ug/day (M + F)
UL: 400 ug/day

Protein sources
Whole grains

46
Selenium in the Diet

47
 Copper
The body stores about 100 mg
Variety of tissues (muscles, liver, brain, highest storage)

Main Function
In plasma, about 95% occurs as the copper-protein complex
called ceruloplasmin
ceruloplasmin is important in iron metabolism (ferrous to
ferric iron), contributing to iron absorption and formation of
Hemoglobin

48
 Copper – Other Functions
Defend against free radicals (superoxide dismutase*)

Synthesize collagen (lysyl oxidase*)

Energy metabolism (ETC) (cytochrome C oxidase*)

(* Copper containing enzymes)

49
 Copper Deficiency (Rare)

Animal studies: raises blood cholesterol, damages
blood vessels (question about deficiency leading to
CVD in humans: inconclusive)

excess zinc, iron, and Vitamin C interferes with
copper

50
 Copper Deficiency (rare genetic disorder)
May result in anemia (due to copper’s role in iron metabolism)

Menkes Disease (use to be called Menke’s Kinky Hair Syndrome)
rare genetic disorder
defect of copper absorption from the intestine
Symptoms
rapid degeneration of nerve tissue
skeletal abnormalities
a “steely” texture of the hair (there is a defective keratinization and
pigmentation of the hair)
light patches or streaks in hair (white)

51
 Copper - toxicity
Toxicity is rare from diet but can be seen in
supplementation (more than 20 mg)
name of supplement: cupric oxide
symptoms - vomiting, diarrhea

52
 Copper toxicity (rare genetic disorder)
Wilson’s disease - an inherited condition that produces
copper toxicity because of defective excretion (progressive)
Copper accumulates in the liver and brain
Symptoms
tissue necrosis (esp in the liver)
mental deterioration
tremor
loss of coordination
Treatment: low copper diet and drugs (also zinc
supplements) that bind the copper and allows it to be
excreted in the urine
53
 DRI/Dietary Sources of Copper
RDA: 900 ug/day UL: 10,000 ug/day
(10 mg/day)

Water (copper plumbing)
Richest dietary source: organ meat
Seafood
Nuts, seeds
Legumes
Whole grains
54
 Manganese
Total body content - 20 mg
dietary calcium and iron decrease Mg absorption
Functions: acts as a cofactor in enzymes
(cofactor – a substance that binds to an enzyme to
activate it)
Assist in bone formation (normal growth)
CHO metabolism - conversion of pyruvate to a
compound in the Kreb’s cycle (_____________)
Needed for the activity of superoxide dismutase
(like copper and zinc) 55
 Toxicity of Manganese
Not usually found from dietary intake
has been found in miners of manganese ore mines
(inhale dust)
Symptoms
tremor
loss of coordination

56
 DRI/Dietary Sources Manganese
AI: males 2.3 mg/day
AI: females 1.8 mg/day
UL: 11 mg/day

Best Sources: Whole grains, Nuts, Legumes
Green leafy vegetables
Tea

57
 FLUORIDE
Body contains less than 1 gram
absorption is mainly in the stomach and SI
approx. 1/2 is retained in the teeth and bones

Function
Protects bone and dental tissue
bone containing fluoride is more stable and more
resistant to degeneration (may prevent osteoporosis?)
fluoride also helps teeth become resistant to decay
58
 Protection of bones and teeth - Fluoride
When bones and teeth become calcified,
- a crystal is formed from calcium and phosphorous
this crystal is called hydroxyapatite
- the fluoride then replaces the OH group of the
crystal hydroxyapatite to form fluorapatite
fluoroapatite deposits on the bones and teeth to
protect them and prevent tooth decay

59
 Fluoride: dietary sources
Dietary Sources: drinking water (not all cities, not
in most bottled water), toothpaste, fish, tea

Research Study: Brampton, Mississauga,
Caledon
Children in Mississauga and Brampton had fewer
cavities (37%) than children in Caledon (50%)
Why? Brampton and Mississauga have fluoridated
water, Caledon does not
60
 Research on Fluorididated Water
Hutton, W. L., Brantford-Sarnia-Stratford fluoridation caries study
Brantford, ON became the 1st city in Canada to artificially fluoridate its water
The development of dental cavities was compared in Brantford, Stratford (naturally
fluoridated water), and Sarnia (no fluoride in the water supply)

Results:
1% of Sarnia children were cavity free
16% of Brantford and Stratford children were cavity free

Children who had decay free permanent incisors
Sarnia children: 50%
Brantford children: 87%
Stratford children: 89%
This study, along with other research, was used to make recommendations to
fluoridate water supplies that do not have fluoride

61
Fluoride and Dental Carries in Children

62
 Deficiency/Toxicity of Fluoride
Deficiency
Tooth decay, imperfect
development of teeth

Toxicity (over 20mg over many
years)
Fluorosis - a condition of the
teeth due to ingestion of too
much fluoride (found in areas
where fluoride content in
water is very high)
teeth become “mottled” or
stained (looks like tea, coffee,
or smoking stains) Fluorosis - toxicity
Toxicity does NOT occur from drinking water containing NORMAL amounts of
fluoride!!
Toxicity does NOT occur from using toothpaste with fluoride!! (however, there are
guidelines for children under 12 and toothpaste) 63
 Fluoride Myths
Fluoride increases the risk of
developing cancer

NO research to date has found a
correlation between fluoride and
cancer

64
 DRI of Fluoride
Health Canada recommends that the water supply
should be fluoridated to 1ppm (1mg per litre)

AI (males): 4 mg/day
AI (females): 3 mg/day

UL: 10 mg/day

65
 Chromium
The major function is to enhance the activity of
insulin in the metabolism of glucose (glucose
tolerance factor (GTF))
particularly in maintaining the rate at which
glucose is removed from blood for uptake into
muscle and liver
impaired glucose tolerance can result from a
chromium deficiency
However, chromium supplementation has not been
shown to improve glucose or insulin responses in
diabetics
66
 Chromium dietary sources/DRI
GTF has been purified in brewers yeast, therefore is
found in yeast (bread) and beer
Main Dietary Sources:
Whole grains, nuts, meats

AI (males): 35 ug/day
AI (females): 25 ug/day

UL: none, no toxic effects have been found
67
 Molybdenum
Functions as a cofactor for many enzymes
as a part of xanthine oxidase, it plays a role in the:
- metabolism of nucleic acids (RNA, DNA)
- formation of uric acid
xanthine oxidase also contains iron, therefore
molybdenum is important in the mobilization of
ferritin iron from liver reserves
RDA: 45 ug/day
UL: 2 mg/day
Dietary sources: milk, grains, legumes, organ meats
68
Summary of Trace Elements: Table 12.1 in textbook
Slides 70 and 71 are the same summary

69
Summary of Trace Elements

70
Summary of Trace Elements (continued)

71
Benefits and Risks of Trace Element Supplements

72
 Review Questions
___and ____(iron storage proteins) 1. transferrin

______ Iron transport protein 2. heme

______ oxygen-holding protein of 3. ferritin
the muscle cell
4. myoglobin

5. hemosiderin

6. hemotocrit

73
 Review Questions
The iron content of blood is approximately ________________ mg/100ml blood

Excess iron may cause ______________________________, a condition characterized by
deposits of the iron storage protein ________________________ in the liver, heart, joints,
and other tissues.

___________________________ releases zinc to albumin and transferrin for transport to the
rest of the body.

What food group provides the most amount of zinc?

Iodine functions in the production of two thyroid hormones. Name them.

What is the main function of selenium?

Copper is necessary for the absorption and use of _____________ in the formation of Hb.

74
 Review Questions
Manganese toxicity is more likely to occur from
__________________________________________________________ rather than dietary
sources.

Manganese acts as a cofactor for many enzymes that facilitate the metabolism of CHO, fat,
protein, specifically helps in the conversion of pyruvate to _______________________.

Fluoride toxicity is called _______________________________.

What is the main function of fluoride?

Water should contain ______________ of fluoride.

What is the main function of chromium?

Molybdenum functions as a cofactor for metalloenzymes. As a part of
_________________________________________in the metabolism of nucleic acids and the
formation of uric acid.
75