19 - Vitamins

Question 1

How was the RDI/amount of vitamins we need established initially?

Answer 1

Unethically. Early studies on the amount of an individual vitamin an individual needed was done in concentration camps during the 2nd world war. Individuals were starved of specific groups of food, they would see the consequences/symptoms of this, and then investigate what nutrients these foods had, and then supplement the individuals with these specific nutrients

Question 2

Why is it had to determine how much of an individual vitamin individuals need?

Answer 2

Vitamins are found in a complex matrix (food) - we don’t consume singular nutrients so it is hard to get a single diet WITHOUT a single nutrient to see its affect and how much of it we need

Question 3

Are RDIs/nutrient reference values accurate?

Answer 3

No they are arbituary but we use the best information we have.

Question 4

How are RDIs for nutrients/vitamins determined?

Answer 4

Nutrient requirements for individuals form a bell shaped curve i.e. there is a range of nutrient requirements depending on the individual and there is an assumption that for a population an individual will follow that curve. The RDIs are set at the high point of the bell curve so that it will cover 98% of that population requirements and for most will be much more than they need - as it is so high, some ones intake is often instead compared to the average daily intake of that population (middle of bell curve)

Question 5

Distinguish between macro and micronutrients?

Answer 5

macronutrients give us energy micro don’t

Question 6

If we fall below the RDI are we in danger of deficiency, and if we go above is it beneficial for our health?

Answer 6

Naive view
In reality, for a margin above and below the RDI/Adequate Intake there is a safety intake of nutrients. At the border of the safety areas is marginal,, and above/below this there is a danger of deficiency and toxicity.

Question 7

Why are vitamins toxic in large quantities above RDI?

Answer 7

They are powerful chemicals and become toxic

Question 8

Do we often see nutrient deficiencies in NZ?

Answer 8

Don’t often see single nutrient deficiencies caused by inadequate diets (primary deficiencies) but we DO see nutrient deficiencies in patients caused by other conditions (secondary deficiencies)
> may see scurvy in homeless

Question 9

What is an example of a condition that will cause secondary nutrient deficiency?

Answer 9

Malabsorption

Question 10

What are the water soluble vitamins and where do they come from?

Answer 10

The B vitamins (including folate and B12/cobalamin) and vitamin C

• thiamin
• riboflavin
• niacin etc.

Come from a VARIETY of souces

Question 11

What are the fat soluble vitamin and where do they come from?

Answer 11

Vitamin A - retinol, carotenes
Vitamin D - cholecalciferol
Vitamin E - tocopherols, tocotrienes
Vitamin K -

Come from foods that contain FAT

Question 12

Where does vit A come from?

Answer 12

Animal and dairy fats

Question 13

Where does vit D come from?

Answer 13

Fish oils and the sun

Question 14

Where does vit E come from?

Answer 14

Plant based sources

Question 15

Where does vit K come from?

Answer 15

Bacteria in the large bowel synthesise most of the vitamin K we absorb but also comes form leafy greens

Question 16

Compare the absorption of water and fat soluble vitamins

Answer 16

fat - need to first be transported WITH fat into the LYMPH, and then into the venous blood system.
water - are directly absorbed and travel freely in the blood at the SI

Question 17

Who are at risk of not getting enough fat soluble vitamins?

Answer 17

People with fat malabsorption because they absorbed with fats into the lymph
And people with fat digestion problems (only smaller FA molecules CAN get absorbed) for example people with not enough bile/liver synthesis or a blocked bile duct or pancreatic duct or pancreatic enzymes affected

Question 18

Compare transport of fat and water soluble vitamins?

Answer 18

fat - require protein carriers

water - travel freely in the blood

Question 19

compare storage of fat and water soluble vitamins?

Answer 19

fat - GOOD at storing fat soluble vitamins as are stored with fat in the LIVER (don’t have to consume as regularly)
water - water soluble vitamins are not stored. They travel freely around the body and have a short half life/ and we excrete them rapidly through the urine. Means we have to consume them regularly

Question 20

Where are fat soluble vitamins stored?

Answer 20

With fat in the liver

Question 21

Compare the toxicity of fat and water soluble vitamins?

Answer 21

fat - as they are stored well it is LIKELY that when consumed as supplements they can reach toxicity levels
water - LESS LIKELY to become toxic with supplements

Question 22

Which type of vitamin is more likely to become toxic when consumed via supplements

Answer 22

Fat soluble - do not readily excrete and already have a good store in the body

Question 23

Do borocca and vitamin C supplements contain the RDI of vitamin C?

Answer 23

They contain MUCH more and RDI is already at the extreme end of the bell shaped distribution for the populations needs. Over a short period of time this will do no harm as it is readily excreted but high doses of vit C MAY cause damage long term

Question 24

Compare the requirements of of fat and water soluble vitamins?

Answer 24

water - need in frequent doses i.e. every 1-3 days

fat - need in less frequent but periodic doses (weeks or months)

Question 25

Compare the excretion of fat and water soluble vitamins?

Answer 25

water - kidneys detect and excrete excess in urine

fat - less rapidly excreted and tend to remain with fat in fat storage sites

Question 26

What does knowing the site of absorption help us with?

Answer 26

Means if a patient has had surgery to part of the GI tract, injury, or damage then we know what nutrients they may be at risk of deficiency/malabsorption of as they can’t absorb them adequately

Question 27

Where is B12 absorbed?

Answer 27

terminal ileum along with bile salts

Question 28

What is absorbed at the stomach?

Answer 28

Ethanol and water

Question 29

What 5 things affect the bioavailability of nutrients?

Answer 29

1. The efficiency of digestion and transit time
2. Previous intake and an individuals nutrition status can affect the bio-availability of nutrients
3. The other foods consumed simultaneously
4. The food preparation method
5. Source of the nutrient i.e. synthetic vs natural

Question 30

Give an example of how efficiency of digestion and transit time may affect the bioavailability of nutrients

Answer 30

Efficiency of digestion - malabsorption syndromes (i.e. not enough bile salts or pancreatic enzymes to breakdown fats) or part of the gut removed
Transit time - during rapid peristalsis i.e. during diarrhoea the gut may not have enough time to absorb nutrients

Question 31

How does the food consumed simultaneously affect the bio-availability of nutrients?

Answer 31

Some food structures can BIND certain nutrients and stop them being absorbed, and some foods have anti-enzymes that stop nutrients being digested and absorbed

Question 32

How does the food preparation method affect the bioavailability of nutrients?

Answer 32

WATER soluble vitamins are easily OXIDISED and destroyed - this means you should not cook them for a long time and in not a lot of water as the nutrients, including folate will leave the food into the water

Question 33

How does the source of the vitamin affect the bioavailability of nutrients?

Answer 33

Synthetic (supplements and cereals) or natural (food) have different bioavailabilities of nutrients, absorb differently and have different structures

Question 34

What are the majority of B vitamins involved in?

Answer 34

Energy production
Metabolism of energy yielding intermediates
Act as co-factors for redox reactions
Also act as transaminases and in methylation

Question 35

What is thiamine (B1) essential for?

Answer 35

Like all B vitamins it is essential for energy production and metabolism.
Thiamine is needed to act as a co-factor to convert pyruvate to acetyl-coA and again IN the krebs cycle as a co-factor for redox reactions to occur to drive the metabolic pathway and produce energy

Question 36

What does thiamine deficiency affect?

Answer 36

As it is important for metabolism and energy production a deficiency of thiamine affects MANY systems

Question 37

What happens if you treat a starving, malnourished patient with FOOD but not thiamine?

Answer 37

Re-Feeding Syndrome (example of a primary nutrient deficiency)

It can drive further thiamine deficiency because you have increased the fuels for energy production/metabolism but don’t have enough to thiamine to meet the demand.

Question 38

Does primary thiamine deficiency occur in NZ?

Answer 38

Rare in NZ but in countries where carbs is their food staple and so they are used to eating more wholegrains > famine > have to consume refined grains i.e. white rice, then they can become thiamine deficient

Question 39

How does thiamine deficiency present?

Answer 39

Wet (due to congestive heart failure) OR dry beriberi

Question 40

What is wet beriberi?

Answer 40

• primary thiamine deficiency can cause congestive cardiac failure
• heart doesn’t function as well and so blood doesn’t flow around the body as efficiently
• blood stasis in lower limbs/accumulates/increases hydrostatic pressure in the lower limbs
• fluid exudes out of vessels into surrounding tissue (odema)
• results in pitting/impressions left on skin that doesn’t bounce back due to the fluid under the skin

Question 41

What is dry beriberi?

Answer 41

• no heart issues
• causes muscle wasting
• affects eyes
• affects NERVOUS system so can’t control muscles properly (can get foot drop)
• metabolically important so often affects metabolically demanding organs (brain/muscles)

Question 42

Why may a dry beriberi occur rather than a wet beriberi?

Answer 42

not sure - may be chronic vs long term deficiency or older vs young

Question 43

What is the main cause of thiamine deficiency in the western world?

Answer 43

Alcoholism and re-feeding syndrome

Question 44

How does alcohol cause thiamine deficiency?

Answer 44

• causes some malabsorption which causes most alcoholics to be thiamine deficient
• alcohol causes metabolic breakdown of the liver and stresses the liver
• alcohol results in the conversion of thiamine to its active form (TPP) to be reduced

Question 45

What is Wernicke Encephalopathy?

Answer 45

• the alcohol and thiamine deficiency damage nerves
• results in alcohol related brain damage causing language problems, walking difficulty and unusual eye movements
• reversible with thiamine supplementation

Question 46

Is Wernicke Encephalopathy or Korsakoff Syndrome reversible?

Answer 46

Wernicke Encephalopathy is reversible but if it progresses untreated into Korsakoff Syndrome, then it becomes irreversible

Question 47

What can untreated Wernicke Encephalopathy progress into?

Answer 47

Korsakoff syndrome

• causes amnesia
• inability to learn and decline in cognitive function
• confabulation/babbling
• irreversible

Question 48

What is folate found in?

Answer 48

Leafy greens and some fruits

Question 49

What is the food form of folate and what is the fortified/supplement form?

Answer 49

Polyglutamate = foods
Monoglutamate = fortified foods/supplements (absorbed better)

Question 50

How is folate digested?

Answer 50

In the SI glutamates are removed from folate and a methyl group added (hence why fortified monoglutamate forms of folate are absorbed better as already have most glutamates removed)
- means damage to the enterocyte can cause folate malabsorption

Question 51

Relationship between B12 and folate?

Answer 51

Inter-related and co-exist. Act as co-factors and methyl donors

Question 52

How can folate mask B12 deficiency?

Answer 52

Because they are inter-dependent in the methylation cycle, with a deficiency in B12 part of the cycle, folate alone can drive part of the cycle, though less efficiently, to produce DNA

Question 53

What are 6 causes of folate deficiency?

Answer 53

1. Low dietary intake (primary deficiency isn’t common)
2. Reduced absorption in the SI (damaged enterocytes i.e. Celiacs)
3. Anti-seizure drugs
4. Folate antagonists - i.e. cancer drugs block folate as needed for new cell proliferation
5. Alcohol - increased breakdown, decreased absorption and often accompanied by poor diet
6. Pregnancy as folate requirements increase

Question 54

3 consequences of folate deficiency?

Answer 54

1. Megaloblastic anaemia/macrocytic anaemia (same as B12)
2. Neural tube defects during fetal development i.e. spina bifida (protrusion of spinal cord as not covered in development)
3. May be an increased risk of cancer and heart disease and mental abnormalities due to folates role in the production of homocysteine

Question 55

Why does megaloblastic anaemia occur?

Answer 55

Large mishapen RBCs due to reduction in methylation and so DNA production

Question 56

Why does a folate deficiency cause an increased risk of cancer, heart disease and mental abnormalities

Answer 56

Due to its role in the production of homocysteine

Question 57

Why is folate important in NZ?

Answer 57

NZ has a high rate of NTDs

In countries with mandatory fortification of folic acid rates are considerably lower.

Question 58

Why are people suggesting fortifying foods with folic acid rather than supplements during pregnancy? (fortification is currently voluntary in NZ)

Answer 58

Half of pregnancies are unplanned and then don’t know until 12 weeks and by then it is too late the damage of folate deficiency would have already occurred.

Question 59

When is prescription of folic acid (and iodine supplement) free and recommended to take

Answer 59

4 weeks prior to pregnancy and in the first 12 weeks of pregnancy i.e. when there is critical development of the CNS, heart, etc so when the embryo is metabolically active and folate is needed for methylation to form new dna and cells

Question 60

When is the folate dose increased?

Answer 60

When there is previous history of NTD

Question 61

What form of vit a is in animal and plant foods?

Answer 61

animal - retinyl esters

plant - B - carotene

Question 62

What forms of vit a are in the body and what do they do?

Answer 62

Retinol - reproduction
Retinal - vision
Retinoic acid - growth regulation

Question 63

Vitamin A roles in the body?

Answer 63

Vision including health of the cornea and avoiding night blindness
Protein synthesis and cell differentiation i.e. maintaining mucus membrane cells important for immune function

Question 64

Who do vitamin A problems often occur in and how to prevent it?

Answer 64

Children - need animal fat in diets to provide retinyl esters or some areas do mass dosing of vitamin A when kids get immunisations

Question 65

How does deficiency of vitamin A present and do we see it in New Zealand?

Answer 65

See as keratinisation of the skin (chicken skin). Do see in NZ - adolescents often present asking about acne problems and found to have marginal vitamin A deficiencies (acne products often have high vit A)

Question 66

Is overconsumption of B-carotene likely to be toxic?

Answer 66

B-carotene is found in many fruits and vegetables.
Has inefficient conversion to vitamin A so cannot over-consume vitamin A to the point of toxicity from FOOD (go orange due to pigment)

Question 67

Is over-consumption of retinol likely to be toxic?

Answer 67

Vitamin A is a fat soluble vitamin so can get over-consumption and toxicity from supplements

Question 68

What are other names for vitamin D

Answer 68

• calciferol
• cholecalciferol (animal version of vitamin D
• ergocalciferol (plant version)
• calcitriol

Question 69

Where do most NZers get most of their vitamin D from?

Answer 69

sun

Question 70

How do we form vitamin D?

Answer 70

The UV light from the sun coverts the precursor 7 - dehydrocholesterol into active vitamin D

• without the sun we aren’t able to do this conversion to form vitamin D
• elderly and adolescents

Question 71

Who is at risk of vit D deficiency?

Answer 71

• all in winter as less sun
• elderly and housebound
• vit D precursors also have to be hydroxylated by both the liver and kidney so people with liver and kidney disease won;t be able to form metabolically active vitamin D

Question 72

What is the active form of vit D called?

Answer 72

1, 25 - hydroxyvitamin D

Question 73

Do we see vit D deficiency in NZ, if so what is the treatment?

Answer 73

Yes - both primary and secondary (due to liver or kidney problems)
Need to give the ACTIVE vit D supplement/form of the vitamin

Question 74

Consequences of vit D deficiency?

Answer 74

• rickets in kids
• osteomalacia in adults
• insufficient bone mineralisation leading to bow legged when start to hold weight
• retirement homes (esp bed bound) are supplemented
• especially see in refugees

Question 75

What groups of people need vitamin and mineral supplementation? People with …

Answer 75

• poor nutrient intake
• increased nutrient requirements
• increased metabolic demands (surgery/trauma)
• maldigestion/malabsorption (liver disease/diarrhoea)
• drug-nutrient interactions
• medical treatments (chemo)
• need for pharmalogical doses
  > HEALTHY people do NOT as long as have a varied diet

Question 76

Why do you need to check with patient’s supplement use?

Answer 76

• toxicity

- drug-nutrient interactions