9. MINERALS

Question 1

Define minerals

Answer 1

Minerals are inorganic elements that originate in the Earth that cannot be made by living organisms.

Question 2

Where do most of the minerals in our diet come from?

Answer 2

Directly from plants (or indirectly from animal sources).

Question 3

How are minerals absorbed and utilised in the human body?

Answer 3

Minerals are absorbed in the GIT (mostly in the small intestine) in their ionic state (with the exception of iron) and must be unbound from the organic compound with the help of digestive secretions (e.g., stomach acid) before being utilised by the body.

Question 4

What affects the mineral levels in plants?

Answer 4

It vary depending on the mineral content in soil.

Question 5

Minerals are found in all body tissues. Which two minerals make up the majority (approx. 75%) of the body’s total mineral content?

Answer 5

Calcium and phosphorus

Question 6

Name 5 macro-minerals

Answer 6

• Calcium (Ca)
• Phosphorus (P)
• Sulphur (S)
• Magnesium (Mg)
• Potassium (K)
• Sodium (Na)
• Chloride (Cl)

Question 7

List 5 trace-minerals

Answer 7

• Iron (Fe)
• zinc (Zn)
• iodine (I)
• Selenium (Se)
• manganese (Mn)
• Molybdenum (Mo)
• Copper (Cu)
• Chromium (Cr)
• Boron (B)
• Fluoride (F)
• Silicon (Si)

Question 8

In which state do macro-minerals exist in the body (and in food)?

Answer 8

Mainly in the ionic state (as cations or anions)

Question 9

List 5 key functions of minerals

Answer 9

1. Building tissues; e.g., skeletal system, teeth.
2. Nerve and muscle function.
3. Thyroid health (supporting metabolism).
4. Supporting immune health.
5. Components of enzymes

Question 10

Name 2 elements each which are Cations and Anions respectively?

Answer 10

Cations:
K+ (potassium), Mg2+ (magnesium), Ca2+ (calcium), Na+ (sodium)

Anions:
Cl- (chlorine as chloride); S- (sulphur as sulphate); P- (phosphorus as phosphate)

Question 11

Which factors can affect mineral bioavailability?

Answer 11

1.In mineral deficiency states, the body upregulates absorption of the mineral. In excess states, it downregulates absorption.

2. Food can enhance (e.g. ascorbic acid and Fe) or inhibit (e.g. phytates and Fe) absorption.
3. Other minerals present in food (or supplements) — can compete for absorption: (e.g. iron supplements reduce Zn absorption; Zn antagonises Cu absorption)

Question 12

In supplements, minerals are rarely found in their pure form. What are the carrier molecules called and name two organic and two inorganic forms

Answer 12

Carrier molecules called Ligands
Organic: Citrate, ascorbate, gluconate, glycinate.
Inorganic: Oxide, carbonate, sulphide, chloride.

Question 13

What are three challenges with mineral supplementation?

Answer 13

Tolerability, bioavailability and chemical reactivity.

Question 14

What is the most abundant mineral in the body and where is it mainly found?

Answer 14

• Calcium (Ca) is the most abundant mineral in the body accounting for 2% of body weight and 39% of the body’s mineral content.
• 99% of Ca in the body is found in mineralised connective tissues (bones and teeth).

• The rest (1%) is found in extra-cellular fluid, muscle and other tissues.

Question 15

How are blood calcium levels regulated?

Answer 15

Ca levels in blood are tightly regulated by parathyroid hormone (PTH), vitamin D and calcitonin (at the expense of the skeleton when dietary intake is inadequate).

Question 16

Which source of calcium is the most bio-available:
a) Full fat cow’s milk
b) Kale

Answer 16

b) Kale. Vegetable sources have the highest bioavailability, e.g., Ca from cruciferous vegetables is absorbed 2x as efficiently as Ca from dairy.

Question 17

Name three foods that are good sources of Calcium

Answer 17

• Sage
• Sesame seeds
• Kale
• Sardines (incl. bones)
• Edamame beans
• Almonds
• Haricot beans
• Dairy foods such as cow’s milk

Question 18

Name 5 functions of Calcium in the body

Answer 18

1. Bone health
2. Cell signalling
3. Muscle contraction
4. Blood clotting
5. Neuro-transmitters

Question 19

Why would you consider the therapeutical use of Calcium in the following:
a) Mood-related PMS symptoms
b) Muscle cramps
c) Osteoporosis

Answer 19

a) Ca is required for the conversion of tryptophan to serotonin (it is a co-factor).

b) Ca mediates vasoconstriction (from increased concentration of Ca2+ ions in vascular smooth muscle cells).

c) Ca is crucial for building and preserving bone mass; it is an abundant mineral that binds to the collagen framework in bone, increasing its density.

Question 20

Where does the highest absorption of Ca occur, and why?

Answer 20

Ca is absorbed by all parts of the small intestine, but especially in the duodenum, where conditions are more acidic (due to the chyme that enters from the stomach), which increases absorption.

Question 21

Explain the difference between how Ca is absorbed:
a) actively
b) passively

Answer 21

a) Active absorption is controlled by vitamin D
(calcitriol), which binds to the enterocyte vitamin
D receptor (VDR) and increases the transcription
of calcium transporters called calbindins, which increase calcium movement from the GIT to the blood.

b) Passive absorption occurs without vit. D, when Ca is consumed.

Question 22

Which factors can affect mineral bioavailability?

Answer 22

1. Mineral status in the body — in mineral deficiency states, the body upregulates absorption of the mineral. In excess states, it downregulates absorption.
2. Substances present in food — can enhance (e.g., ascorbic acid and Fe) or inhibit
(e.g., phytates and Fe) absorption.
3. Other minerals present in food (or supplements) — can compete for absorption: (e.g., iron supplements reduce Zn absorption; Zn antagonises Cu absorption)”

Question 23

Which factors that inhibit absorption of Ca and which factors that increase excretion?

Answer 23

Factors that inhibit absorption:
*Low vitamin D status
*Low stomach acid (HCl dissolves calcium salts)
*High intake of phytates / oxalates
*Gastrointestinal dysfunction
*Other minerals (e.g., Mg, Fe, Zn)

Factors that increase excretion:
*Menopause (low oestrogen)
*High animal-protein diets (due to high levels of urea and sulphuric acid)
*High-salt diets
*High caffeine intake
*Medications (see drug interactions)

Question 24

Is loss of bone mineral density a asymptomatic or symptomatic condition?

Answer 24

Asymptomatic

Question 25

What is likely the problem with high cow’s milk dairy consumption and osteoporosis risk?

Answer 25

The protein component of cow’s milk is likely the problem, as dairy is high in sulphur-based amino acids (e.g., methionine), which can increase sulphuric acid formation — leaching calcium (an alkaline mineral) from bones.

Question 26

What are the risks of taking Ca?

Answer 26

*Kidney stones

*Soft tissue calcification, especially when vitamin D and K levels are inadequate

Studies mostly show that calcium supplementation is ineffective at preserving bone density when dietary intake is sufficient.

Question 27

Which minerals Ca interfere with?

Answer 27

Mg, Fe, Zn, P

Question 28

How much magnesium is in the human body, and where is it mainly found?

Answer 28

The body contains approx. 25g of Mg
60% in bone;
39% in cells and muscle;
1% in serum / extracellular fluid

Question 29

What are the core elements in haemoglobin and chlorophyll, and how are their structures similar?

Answer 29

Haemoglobin and chlorophyll are almost identical in their structure.
Haemoglobin having iron at its core, and
chlorophyll (the green plant pigment), magnesium

Question 30

Name three foods that are good sources of Magnesium

Answer 30

*Swiss chard
*Amaranth
*Pumpkin seeds
*Soy beans
*Cacao powder

Question 31

Name 5 functions of Magnesium in the body

Answer 31

1. Energy production
2. Cell signalling
3. Blood clotting
4. Muscle relaxation
5. Sleep and calming

Question 32

How is magnesium absorbed and excreted in the body

Answer 32

*30–50% of dietary magnesium is absorbed, mostly in the distal small intestine (ileum)
*Phosphate and calcium can inhibit magnesium absorption
*Magnesium is excreted in urine, feces, and to a lesser extent during exercise and sweating
*Kidneys primarily regulate magnesium homeostasis

Question 33

Why do serum magnesium levels not accurately reflect magnesium status?

Answer 33

Due to 99% of magnesium residing inside our cells.

Question 34

Why would you consider the therapeutical use of Magnesium in the following:
a. Fatigue
b. Insulin resistance — diabetes, PCOS
c. Stress / anxiety

Answer 34

a. Needed to convert ADP to ATP
b. Essential for glucose metabolism
and insulin sensitivity (Mg is a co- factor, modulating glucose transport — needed for the activity of tyrosine kinase
b. Mg is used as a co-factor for GABA synthesis

Question 35

What is ‘tolerable upper limit’ (TUL) for Mg supplementation

Answer 35

400 mg

Question 36

Who should be cautious using high dose of Mg?

Answer 36

Someone with hypotension

Question 37

Which form of Mg has high bioavailability?

Answer 37

Mg glycinate, citrate and malate

Question 38

What are the common causes of Mg insufficiency?

Answer 38

• Poor nutrition (high in processed foods, low in dark green vegetables,
• Chronic stress (increases Mg excretion)
• Alcoholism
• Other malabsorption conditions.

Question 39

What are the symptoms of Mg insufficiency

Answer 39

• Fatigue and insomnia.
• Anxiety, depression, irritability, panic attacks.
• Muscle cramps / spasms / twitches.
• Headaches (e.g., tension-type and migraines).
• Palpitations

Question 40

Give three examples of the functions of zinc as a co-factor in metalloenzymes. How do these enzymes contribute to different biological processes?

Answer 40

• Antioxidant activity (Superoxide dismutase -SOD),
• Alcohol breakdown (Alcohol dehydrogenase)
• Protein digestion (Carboxypeptidase)
• Other enzymes involved in haem synthesis, folate absorption and DNA / RNA synthesis.

Question 41

Name three foods that are good sources of Zinc

Answer 41

• Oysters
• Sesame
• Rye flour
• Calf’s liver
• Chickpeas

Question 42

Name five functions of Zinc in the body

Answer 42

• Reproduction
• Cell proliferation
• Endocrine
• Sensory function
• Immunity and antioxidant
• Digestion

Question 43

Why would you consider the therapeutic use of Zinc in the following:
a) Thyroid health
b) Frequent infections
c) Weak digestion

Answer 43

a) Needed for T4 to T3 conversion
b) Increases phagocyte, natural killer cell, T- and B-cell activity
c) Zn is used for the production of HCl and the synthesis of pancreatic enzymes

Question 44

What enhances and inhibits Zn absorption

Answer 44

• Protein generally enhances Zn absorption
• Phytates in plants inhibit absorption. (Phytate levels can be reduced by soaking, sprouting and fermenting).
• Excess Ca, Cu and non-haem Fe may also inhibit Zn absorption

Question 45

The absorption of which mineral is antagonised by Zn supplementation?

Answer 45

Copper

Question 46

List five signs and symptoms of Zn deficiency

Answer 46

• Poor sense of taste and smell.
• Recurrent infections, delayed wound healing.
• Skin disorders (e.g., acne), dandruff, white spots on fingernails.
• Infertility (male and female) and low libido.
• Signs of weak digestion (e.g., bloating, fatigue).

Question 47

When using Zn supplements, which form is well-absorbed?

Answer 47

Zn picolinate
Zn citrate
Zn acetate
Zn glycinate

Question 48

What is Tolerable Upper Limit (TUL) for Zn

Answer 48

40 mg

Question 49

What is typical supplemental dosage for Zn

Answer 49

Between 15–25 mg / day and it’s advised to take with food, as taken on an empty stomach can cause stomach upset

Question 50

Phosphorus (P) is the body’s second most abundant mineral. What percentage of phosphorus is found in the body and where?

Answer 50

About 85% of P is found combined with Ca in hydroxyapatite crystals of bones and teeth.

Question 51

Name three foods that are good sources of Phosphorus?

Answer 51

• Raw spinach
• Avocado
• Quinoa
• Pistachio
• Clams
• Calf’s liver

Question 52

Name two functions of Potassium in the body

Answer 52

• Osmotic pressure and electrolyte balance (nerve transmission, muscle function)
• Enzyme co-factor (involved in energy metabolism, cellular growth)

Question 53

What are the symptoms of Potassium deficiency?

Answer 53

• Muscle cramps / fatigue / weakness
• High blood pressure / irregular beat
• Mental confusion / fatigue / irritability
• Insomnia
• Insatiable thirst

Question 54

Name three causes of Potassium deficiency

Answer 54

• Diarrhoea
• Vomiting
• Diuretics that enhance K loss
• Chronic renal disease
• Laxative abuse

Question 55

Which organ tightly regulates Potassium levels in the body?

Answer 55

Kidneys

Question 56

True or false?

“It’s possible to consume too much potassium from food”

Answer 56

False

Question 57

Name three functions of Sodium and Chloride

Answer 57

• pH balance & blood pressure
• Nerve transmission
• Digestion

Question 58

Name 4 types of salt

Answer 58

• Table salt
• Sea salt
• Himalayan salt
• Grey / Celtic salt

Question 59

Which type of salt can contribute
to hypertension, atherosclerosis,
insulin resistance and cancers (i.e., gastric)

Answer 59

Table salt

Question 60

Sodium and Chloride deficiency is extremely rare but when it does occur, it is usually a result of which medical conditions?

Answer 60

• Persistent diarrhoea
• Overuse of diuretics
• Vomiting
• Chronic renal disease
• Liver disease
• Cachexia (wasting condition)
• Ulcerative colitis

Question 61

How much Iron do we have of in our bodies and WHERE it is distributed?

Answer 61

We have between 3–4 g of iron in our bodies distributed throughout blood, bone marrow, muscles, and enzymes.

Question 62

Name TWO dietary forms of iron

Answer 62

• Non-haem iron (plant and animal foods) — ferric form of iron.
• Haem iron (animals: meats, poultry, fish) — ferrous form of iron

Question 63

Name three foods that are good sources of Iron (Fe)

Answer 63

• Pumpkin
• Quinoa
• Clams, calf’s liver
• Soybeans
• Spinach

Question 64

Name five functions of Iron in the body

Answer 64

• Oxygen transport and storage
• Energy (ATP) production
• Endocrine system
• Immune function
• Neurotransmitter synthesis

Question 65

Why would you consider the therapeutic use of Iron in the following:
a) Thyroid support (hypothyroidism)
b) Immune function
c) Fatigue, mitochondrial support

Answer 65

a) Iron is needed for the activity of the enzyme ‘thyroid peroxidase’, which is required to synthesise thyroid hormones.

b) Lymphocyte proliferation and maturation.

c) A component of cytochrome enzymes in the electron transport chain.

Question 66

When iron stores are high, the liver converts ferritin into another storage protein which releases iron more slowly. Name that storage protein.

Answer 66

Hemosiderin

Question 67

On which factors does iron absorption depend?

Answer 67

Factors like:
* GI tract health,
* The presence of supportive / inhibiting nutrients (e.g., vitamin C / phytates), and
* The food source (haem v. non-haem).

Question 68

How can an individual’s intake of non-haem iron be optimised?

Answer 68

• Eliminate junk food (nutrient-depleted, highly-processed foods).
• Build meals around Fe-rich foods:
  E.g., dark green vegetables, beans, whole grains.
• Eat high vitamin C vegetables and fruit with meals (peppers,
  cruciferous, kiwis, oranges, lemon) to promote Fe absorption.
• Avoid drinking black tea and dairy at mealtimes.
• Eat foods that contain yeast (e.g., bread), are sprouted (e.g., bean sprouts), and fermented (e.g., tempeh) to reduce inhibitors like phytates.

Question 69

What are the signs & symptoms of Iron deficiency?

Answer 69

• Symptoms: Fatigue on exertion, weakness,
  headaches, apathy, breathlessness, poor resistance to cold temperatures.
• Signs: Pallor, nail spooning, hair loss, tachycardia.

Question 70

Why is there a high risk of Iron toxicity?

Answer 70

Because there is no physiological mechanism for iron excretion

Question 71

Why can iron overload be harmful?

Answer 71

• Free iron is a pro-oxidant and can cause oxidative damage (associated with atherosclerosis, cancer, Alzheimer’s, etc.)
• Iron is a bacterial growth factor and can cause increased infection rates (hence only 1% of iron in the body is unbound).
• Excess iron can accumulate in organs (e.g., the brain and liver)

Question 72

What can contribute to iron overload?

Answer 72

• Haemochromatosis (a common genetic disorder affecting 1 in 250 individuals that enhances iron absorption).
• Indiscriminate use of iron supplements.
• High-dose vitamin C supplementation.
• Excessive red meat (haem-iron) consumption, which has been linked to greater iron stores and a higher risk of:
  – Some cancers (e.g., colon, prostate).
  – Diabetes mellitus and heart disease.

Question 73

Which other minerals interact with Iron?

Answer 73

• Zinc
• Copper
• Calcium

Question 74

Which vitamin enhances the absorption of non-haem Iron?

Answer 74

Vitamin C

Question 75

Name a non-metallic trace element found in the body mainly as part of the antioxidant enzyme ‘glutathione peroxidase’.

Answer 75

Selenium

Question 76

Which population groups are at a higher risk of developing iron deficiency?

Answer 76

• Women of reproductive age (menstrual blood loss).
• Pregnancy (↑ blood volume; blood loss in labour).
• Times of rapid growth (e.g., teenagers)

Question 77

Name 5 food sources of Selenium

Answer 77

• Brazil nuts, sunflower
• Whole wheat (durum), rye
• Yellowfin tuna, swordfish, clams, oysters
• Garlic, mushrooms
• Calf’s liver, pork, turkey, chicken

Question 77

Name FOUR functions of Selenium

Answer 77

• Antioxidant
• Immunity
• Thyroid hormones
• Reproduction

Question 78

Why would you consider the therapeutic use of Selenium in the following:
a) Hypothyroidism
b) Male fertility
c) Heavy metal detox

Answer 78

a) Conversion of thyroxine (T4) to triiodothyronine (T3).

b) Selenium is needed for sperm motility

c) A co-factor in glutathione peroxidase (an enzyme that protects cells from free radical damage).

Question 79

Where in the body is Selenium absorbed?

Answer 79

Selenium is mostly absorbed in the duodenum (55–85% absorption rate)

Question 80

Which is more bioavailable - selenium from plant, animal sources or supplements?

Answer 80

Selenium from plant sources (selenomethionine) is more bioavailable (>80%)

Question 81

Name THREE signs of Selenium deficiency.

Answer 81

• Cardiomyopathy,
• Muscle pain, weakness,
• Elevated liver enzymes,
• Growth retardation,
• Infertility

Question 81

Se is among the most toxic of the essential minerals. What is the TUL for adults per day?

Answer 81

adults is 300 μg / day

Question 81

Toxicity symptoms of Se include:

Answer 81

• Brittle hair and nails (or loss of nails)
• Skin lesions, dermatitis, secondary infections
• Depression, neurological abnormalities
• Garlic odour (from expiration of dimethylselenide)

Question 82

Name TWO nutrient interactions of Selenium

Answer 82

• In severe iodine deficiency, Se supplementation can trigger / exacerbate hypothyroidism by accelerating T4 metabolism.
• Ingestion of large amounts of DHA and EPA increases the requirement for selenium.
• Studies suggest that supplementing with Zn / Cu may increase Se requirements.
• Se deficiency aggravates the effects of vitamin E deficiency in animal studies.

Question 83

Where is Cu absorbed in the body?

Answer 83

• Mostly in the small intestine
• Stomach to a lesser degree (enhanced by stomach acid)

Question 84

Where Cu is excreted?

Answer 84

It is excreted in bile.

Question 85

Name FIVE food sources of Cu?

Answer 85

• Sesame, cashews, sunflower
• Quinoa, oats, chickpeas
• Shiitake, avocado, garlic
• Calf’s liver
• Oysters

Question 86

Name FIVE functions of Cu

Answer 86

• A component of the antioxidant enzymes
• Supports the structure of skin, blood vessel and bone
• Formation of erythrocytes
• Part of innate immune system that kills bacteria
• Nervous system - formation and maintenance of the myelin sheath.

Question 87

What can induce Cu deficiency?

Answer 87

• Long-term high zinc supplementation (>50 mg / day) depresses Cu absorption and restricts utilisation of Cu).
• Infants fed cow’s milk (dairy is a very poor source of copper).

Question 88

What are the most frequent signs and symptoms of Cu deficiency?

Answer 88

• Anaemia (due to Cu role in iron metabolism).
• Bone fractures (due to Cu role in collagen structure).
• Impaired growth and reduced skin pigmentation.
• Recurrent infections

Question 89

What are the symptoms and potential causes of acute copper toxicity, and how is it typically manifested?

Answer 89

Acute toxicity is typically only seen from contaminated drinking water (e.g., copper pipes) or genetic disorders (Wilson’s disease).

– Symptoms of acute Cu toxicity include vomiting, diarrhoea, liver / kidney damage, haemolytic anaemia, coma and death.

– Investigate water supply, supplementation or high-Cu food intake.

Question 90

What are the symptoms of copper overload, and what factors, especially in women, may contribute to this condition?

Answer 90

Copper overload is more common, especially in women as oestrogen can cause Cu retention.

– Symptoms of Cu overload include emotional instability, ADHD, intolerance to OCP, low immunity (Zn deficiency), skin sensitivity to cheap metal, allergies, acne and more.

– In Cu overload, explore Zinc deficiency and gut function.

Question 91

Which mineral is a component of thyroid hormones which regulate the metabolic rate of all cells in the body?

Answer 91

Iodine (I)

Question 92

List THREE food sources of Iodine

Answer 92

• Sea vegetables
• Ocean fish and shellfish such as cod and scallops
• Eggs and dairy foods (due to the fortification of animal feed)

Question 93

Name THREE functions of Iodine

Answer 93

• Thyroid hormones
• Brain health
• Metabolism

Question 94

Outline the process of thyroid hormone production in the body.

Answer 94

Making thyroid hormones:
* The thyroid gland ‘traps’ iodine from the blood.

• Thyroid hormone is made by binding iodine and the amino acid tyrosine to a glycoprotein called thyroglobulin.
• The rate of iodine capture is under the control of TSH (thyroid stimulating hormone).
• The selenium-dependent enzyme, iodothyronine deiodinase converts the relatively inactive T4 to the active T3.

Question 95

Iodine deficiency leads to decline in thyroid hormone production and if prolonged, it can lead to which condition? What are related signs and symptoms?

Answer 95

Hypothyroidism with symptoms like: fatigue, weight gain and depression. Prolonged ID can lead to a goitre (enlarged thyroid).

Question 96

What are the consequences of severe iodine deficiency during pregnancy, and what daily intake of iodine is recommended by the WHO to prevent these adverse effects?

Answer 96

It causes extreme and irreversible mental and physical retardation. A daily intake of 150 mcg is recommended

Question 97

What is the tolerable upper limit (TUL) for Iodine

Answer 97

600 mcg

Question 98

Which nutrients are crucial for iodine utilisation?

Answer 98

Nutrients such as tyrosine, Zn, Mg and B vitamins are crucial for iodine utilisation

Question 99

What are ‘goitrogens’? Give two examples of foods that contain these.

Answer 99

Substances in food that interfere with iodine uptake in the thyroid.
Foods like soya, millet and raw brassica vegetables

Question 100

Where is Manganese stored in the body?

Answer 100

It is stored mostly in bone (>40%) and very metabolically active organs such as liver, kidneys, pancreas and brain.

Question 101

List FOUR food sources of Manganese

Answer 101

• Wheat germ
• Hazelnuts, pine nuts, walnuts
• Cloves, saffron, ginger, black pepper
• Blue mussels

Question 101

Name THREE functions of Manganese (Mn)

Answer 101

• Facilitate the metabolism of carbohydrates, amino acids and cholesterol.
• Structural - collagen formation
• Cofactor for the antioxidant ‘Mn superoxide dismutase’ (MnSOD)

Question 102

Name the essential trace mineral that potentiates the action of insulin

Answer 102

Chromium (Cr)

Question 103

List FOUR food sources of Chromium (Cr)

Answer 103

• Broccoli, green beans
• Barley, oats, whole wheat
• Turkey
• Black pepper (2tsp)

Question 104

What is the key therapeutic use for chromium?
Explain how this works.

Answer 104

Blood sugar regulation. Cr is a component of ‘chromodulin’, which is a protein that increases the sensitivity of the enzyme ‘tyrosine kinase’, so that when insulin binds to its receptor, its action is enhanced and subsequently glucose uptake by cells in facilitated.

In addition to carbohydrate (glucose) metabolism, insulin also influences the metabolism of fats and protein.

Question 105

What are the symptoms of Chromium (Cr) deficiency?

Answer 105

• Anxiety
• Sugar cravings
• Fatigue

Question 106

What is an adequate intake (AI) of Chromium for adults

Answer 106

from 30–44 mcg / day

Question 107

Which mineral can interact with Chromium?

Answer 107

Fe overload (haemochromatosis) can impair Cr transport.

Question 108

Of which important molecules, is sulphur a key component?

Answer 108

• Acetyl CoA — a key molecule for ATP production.
• Vitamins: Biotin, thiamine — essential B-vitamins.
• Key antioxidants: Glutathione, lipoic acid.
• Mineral transporters: Metallothionein (a metal-binding protein).
• Methylsulfonylmethane (MSM) — inhibits cartilage breakdown.

– S is in four amino acids: Methionine, Cysteine, Taurine.

Question 109

List FOUR rich food sources of sulphur

Answer 109

• Alliums: E.g., garlic, onions, shallots, leeks, chives
• Cruciferous (brassicas): Broccoli, cauliflower, cabbage, Brussels sprouts, turnips, kale, spring greens, radish.
• Legumes: Especially soya beans, black beans
• Eggs and dairy: Parmesan, gorgonzola, cheddar
• Protein foods: Meat, poultry, fish and seafood

Question 110

Name FOUR functions of sulphur

Answer 110

• Antioxidant - create glutathione (the body’s primary endogenous antioxidant)
• Sulphur is needed to produce insulin
• A key component of collagen
• Phase II liver detox

Question 111

What are the signs and symptoms of sulphur deficiency?

Answer 111

• Brittle hair, nails, joint pain (i.e., cartilage degeneration),
• Slow wound-healing,
• Hormone imbalances.

Question 112

Molybdenum (Mo) is an essential trace mineral that is a co-factor for which enzymes involved in detoxification?

Answer 112

• Sulphite oxidase: Detoxification of sulphite to sulphate to prevent the dangerous accumulation of sulphites in the body.
• Xanthine oxidase: Formation of uric acid from purine breakdown.
• Aldehyde oxidase: The clearance of drugs containing aldehydes

Question 113

Name one food source of molybdenum (Mo)

Answer 113

• Legumes (the richest source)
• Whole grains, nuts, green leafy vegetables, beef liver and milk

Question 114

What is the average consumption of molybdenum (Mo) per day

Answer 114

Recommended levels (adults: 45 mcg / day; TUL 2 mg)

Question 115

Name THREE minerals that are not considered essential in humans but plays a role in bone development

Answer 115

• Boron (B)
• Silicon (Si)
• Fluoride (F)

Question 116

Which non essential mineral is highly toxic, especially to the thyroid gland and tooth enamel?

Answer 116

Fluoride (F)

Question 117

Name FIVE drug-mineral Interactions

Answer 117

• Statins: Se lowers drug effect; interacts with Mg & K
• Omeprazole: depletes Ca, Fe, Zn
• ACE inhibitors: Increases Mg; Lowers Zn; Fe interacts with
• Anticoagulants: depletes Zn; interacts with Se
• Antibiotics: Mg, Ca, Zn, Mn, Fe lowers drug effectiveness; depletes K.
• Diuretics: increases Ca; depletes Mg, K, Zn
• Levothyroxine: Mg, Fe, Ca lowers drug effectiveness