CHEMPATH: Nutrition

Question 1

List 5 fat-soluble vitamins.

Answer 1

Question 2

List 6 water-soluble vitamins.

Answer 2

Question 3

Which FSV can be tested for? Why are these tests rarely done?

Answer 3

Stored in adipose tissue (so very few patients in UK will be deficient in these). People in the UK are more at risk of excess vitamins.

• Vitamin A is rarely tested – may be tested if e.g. bariatric surgery presenting with colourblindness
• Vitamin D deficiency is quite common (25-hydroxyvitamin D is the precursor that is measured – but this is not the most specific test because at cellular level 1,25-hydroxyvitamin D would be better but this is expensive)
• Vitamin E – rarely causes anaemia and neuropathy, some suggest it may be a marker for malignancy.
• Vitamin K – causes defective clotting if deficient; if high INR and bleeding on warfarin then can be given vitamin K can be given as a treatment.

Question 4

What deficiencies in water-soluble deficiencies/excesses may occur? How do they present? How common are these?

Answer 4

More common to have a deficiency in (rather than excess)

Beri-Beri – vitamin B1** / **thiamine deficiency:

• Wet – characterised by CVD (patients may present with oedema and other heart failure features)
• Dry – characterised by neurological disease
  
  • Some may have Wernicke’s encephalopathy
  • Pabrinex is given to alcoholics to prevent Wernicke’s encephalopathy

The test for B1 takes a long time so people are usually treated with thiamine on the assumption

B2 deficiency – glossitis; may be measured in serum but rarely done

B3 deficiency= pellagra (niacin/B3 deficiency) is characterised by a TRIAD of:

• Diarrhoea
• Dermatitis
• Dementia
• Death (if untreated)
• Suspect this deficiency in old patients with dementia and dermatitis. No test available.

B6 deficiency – dermatitis, anaemia. Excess can cause neuropathy. Test not done in clinical practice.

Cobalamin/B12 deficiency – patients with AI conditions such as diabetes/thyroid disease may be at risk of other AI conditions e.g. pernicious anaemia. Measured commonly in serum as may be caused by pernicious anaemia.

Vitamin C ascorbate – rare nowadays à scurvy

Folate deficiency – important to measure in macrocytic anaemia (low Hb and high MCV), folate deficiency can cause neural tube defects to foetus.

Question 5

Which trace elements can cause disease when in excess/deficient?

Answer 5

• Iron:
  
  • Deficiency –> microcytic hypochromic anaemia
  • Excess may be caused by haemochromatosis. Can result in infertility due to deposition in testes à 1o hypogonadism.
• Iodine: deficiency early on can cause later goitre and thyroid deficiency in life. But cereals are fortified in UK with iodide/iodine.
• Zinc: rarely measured but may cause dermatitis in deficiency
• Copper : deficiency can cause anaemia but excess may be caused by Wilson’s.
  
  • Caeruloplasmin is a copper-binding protein which is LOW in Wilson’s disease
• Fluoride: deficiency can cause dental caries, fluorosis (problem with staining of teeth)

Question 6

Which protein is low in Wilson’s disease?

Answer 6

Caeruloplasmin is a copper-binding protein which is LOW in Wilson’s disease

Question 7

What is the triad of pellagra? Which vitamin causes this?

Answer 7

• Diarrhoea
• Dermatitis
• Dementia
• Death (if untreated)

B3/niacin

Question 8

Which vitamin deficiency causes Beri Beri?

Answer 8

B1/thiamine

Question 9

What are the food group compositions of an ideal diet?

Answer 9

• 50% carbohydrates
• 33% fat (western diets have gradually increased in fat)
• 17% protein

Question 10

What is most energy expenditure made up of?

Answer 10

Resting energy expenditure (REE)

This cannot be changed

But intake and exercise may be altered

Question 11

Which hormones affect energy homeostasis?

Answer 11

• INSULIN release after eating causes the feeling of satiety and causes an increase in energy expenditure (thermogenesis)
• White adipose tissue makes up the majority of adipose tissue in the body (largest endocrine gland in the body)
• ADIPONECTIN is produced by adipose tissue BUT this is reduced in obese people and may lead to insulin resistance
• LEPTIN is an anti-hunger hormone also produced by white adipose tissue
• GHRELIN is a hunger-hormone
• PYY is a satiety hormone that is produced in the intestines (PYY levels increase after eating a meal)

NOTE: fat content is the most variable component of body composition (10-35%)

Question 12

What is the human body composed of mostly?

Answer 12

Normally: 98% O2, C, H, Na, Ca

• 60-70% water
• 10-35% fat (very variable)
• 10-15% protein (fairly constant)
• 3-5% minerals

Question 13

How does BMI affect mortality?

Answer 13

Low - usually due to cancers

High - due to CVD

Question 14

How is obesity defined? What about overweight in South Asians?

Answer 14

• Body mass index (BMI) = weight/height²
  
  • 25-30 = overweight
  • >30 = obese
  • >40 = morbid obesity

NOTE: > 23 is considered overweight for South Asians – this is because South Asians have a tendency to develop central adipose tissue and they are at increased risk of diabetes and cardiovascular disease due to visceral adiposity

Question 15

What is increased waist circumference linked to? What are tthe cut-offs?

Answer 15

Linked to CHD

Question 16

What are the complications of obesity?

Answer 16

• Obstructive sleep apnoea is a common issue in obesity – airways collapse waking the patient up several times at night
• Obesity increases the risk of 12 types of cancer
• Gynaecological problems include PCOS which can affect fertility
• Western diet has increased in fat and decreased in CHO

Question 17

What is the daily required protein intake for males/females?

Answer 17

• Normal intake (daily) à used for protein synthesis/breakdown/oxidation
  
  • Male - 84 g
  • Female - 64 g

Question 18

What are the 3 categories of proteins by use?

Answer 18

• Indispensable - cannot be made in the diet and must be obtained from the diet e.g. leucine
• Conditionally indispensable - amino acids that are needed at certain parts of your life e.g. cysteine
  
  • Some amino acids cannot be synthesised when you are young
  • The foetus may need certain amino acids during pregnancy (i.e. cysteine)
• Dispensable (the body can produce them) – there are 5 of these e.g. alanine

Question 19

List 3 assessments for protein intake.

Answer 19

• Nitrogen excretion and balance
• Tracer techniques
• Clinically look at muscle bulk

Question 20

Which are the ‘best’ fatty acids? Which are the ‘worst’?

Answer 20

• Polyunsaturated fatty acids (PUFA) are good lipids AKA essential fatty acids (EFA)
• Trans-fatty acids are bad

Question 21

What determines levels of LDL cholesterol?

Answer 21

Dietary fat

• Patients with high saturated fat –> high LDLs
• Patients with high intake of PUFA –> lower cholesterol (mainly LDL)

Question 22

What are the benefits of HDLs? What can alter HDL levels?

Answer 22

• Increased HDL is associated with reduced ischaemic heart disease risk
  
  • Women have higher HDL levels
  • Alcohol can cause an increase in HDLs
  • Obesity lowers HDLs

Question 23

Does fasting have any effects on cholesterol levels?

Answer 23

No, HDL/LDL do not change with fasting (so no need to fast before test)

But TGs change with fasting

Question 24

What are TGs? How are they absorbed from food?

Answer 24

• TGs are made up of glycerol and fatty acids
• Pancreatic lipase breaks down the fatty acids by hydroxylation to make monoglycerides which are then absorbed in the intestine
• Fatty acids are absorbed, assimilated and deposited in adipose tissue

Fatty acids –pancreatic lipase hydroxylation–> monoglycerides

Question 25

What is shown on the image below? What makes the fatty acids different?

Answer 25

What makes them different is the hydrogen bonds between the carbons.

Saturated– bad – no hydrogen bonds

Monosaturated – middle – 1 hydrogen bonds between carbons

Polyunsaturated fatty acids – best in the diet – multiple hydrogen bonds between carbons

Trans-monosaturates – worst in body because hydrogen bonds not in same plane as the carbon atoms

Cis-monosaturates – bonds are in the same plane as the carbon atoms

Question 26

What % of food intake should be carbohydrates? Which types?

Answer 26

Should be 40-80% of energy intake

• 80% of carbohydrate intake should be complex carbohydrates
• 20% should be simple carbohydrates (from good sources such as fruit)
• Non-starch polysaccharides = fibre (this is not absorbed but helps bulk up the stools)

Question 27

Nutrients can interact with genes and cause which types of diseases?

Answer 27

• CVD
• Obesity
• Alcoholism
• T2DM
• Pregnancy
• Most malignancy
• Many GI conditions

Question 28

What are the 5 features/risks associated with metabolic syndrome?

Answer 28

Increases risk of all obesity related conditions

Question 30

What are the treatments for obesity?

Answer 30

• Exclude endocrine causes
  
  • Hypothyroidism
  • Cushing’s syndrome
  • Acromegaly
• Exclude complications of obesity
• Educate
• Diet and exercise
• Medical therapy
  
  • Orlistat (pancreatic lipase inhibitor)
  • GLP-1 (causes a feeling of satiety)
• Surgical therapy

Question 31

What are the benefits of losing weight r.g. 10% of body weight?

Answer 31

Question 32

What does an adjustable band bariatric surgery involve?

Answer 32

• Silicone ring put around top of the stomach
• Silicone ring is attached to a port that sits in the adipose tissue near the stomach
• Needle can be inserted into port and fluid adjusted
• WARNING: the band can erode into the mucosa = emergency

Question 33

What does a Roux-en-Y Gastric Bypass involve? Why is it the best metabolic procedure for obesity?

Answer 33

• The stomach is made much smaller
• The first part of the duodenum and most of the stomach is bypassed
• The second part of the intestine is connected to the small stomach
• This can cause rapid resolution of T2DM so considered the best metabolic procedure

Question 34

What does a duodena-jejunal sleeve involve? Why is it not a long term option?

Answer 34

• This is a sleeve from stomach pyloric sphincter –> jejunum
• This can be inserted with an endoscope –> allow food to bypass the duodenum (no mix with bile salts
• It can only stay in for a year

Question 35

List the benefits of bariatric surgery.

Answer 35

• Resolution/improvement of T2DM
• Resolution/improvement of hypertension
• Improved lipid profile
• Resulting in overall reduction in cardiac risk
• Resolution of obstructive sleep apnoea
• Resolution of PCOS and improved fertility
• Reduced cancer related deaths
• Regression of non-alcoholic fatty liver disease
• Reduced mortality

Question 36

Name 2 conditions which can occur with deficiency of proteins.

Answer 36

Marasmus - lack of intake of CHO, lipids and proteins

Kwashikor - protein only deficient

Question 37

What condition is shown? Describe the other features.

Answer 37

• Marasmus = lack of intake of CHO, lipids and protein
  
  • Shrivelled
  • Growth retarded
  • Severe muscle wasting
  • No SC-fat

Question 38

What condition is shown? Describe the other features.When is it commonly seen?

Answer 38

• Kwashiorkor – protein ONLY deficiency (common in areas of famine)
  
  • Oedematous
  • Scaling/ulcerated
  • Lethargic
  • Large liver, SC-fat
  • Protein deficient

Question 39

What is the single biggest risk factor for MI?

Answer 39

Measurement of high total plasma cholesterol and lipoprotein levels

Question 40

Most important measurement in degree of adiposity and CVD risk?

Answer 40

Waist circumference

Question 41

Alcohol intoxication treatment?

Answer 41

A: Thiamin (B1)/Pabrinex treatment is important in alcoholic patients

Question 42

What is most important lifestyle change to lower LDL?

Answer 42

A: Reducing saturated fatty acids is important from getting LDL to go up

Question 43

What is important to prevent neural tube defects?

Answer 43

Folic acid intake