6.9 - Malnutrition and nutritional assessment

Question 1

Define malnutrition.

Answer 1

A state in which deficiency, excess or imbalance, of energy, protein or other nutrients, results in a measurable adverse effect on body composition, function and clinical outcome

Question 2

How does prevalence of malnutrition change by age?

Answer 2

• curvilinear relationship where highest rates of malnutrition are in youngest and oldest age groups
• more common in women than men

Question 3

How does prevalence of malnutrition differ in wards?

Answer 3

Oncology and care of elderly wards have highest rates

Question 4

How many people on admission to hospital have malnutrition?

Answer 4

1 in 3 –> shows a lot of malnutrition occurs in community

Question 5

What % of people have lost weight at discharge and what is the weight loss in?

Answer 5

• 70% have lost weight at discharge - mainly lost muscle mass
• most weight loss seen in those who were initially malnourished at admission

Question 6

What does hospitalisation exacerbate in relation to malnutrition?

Answer 6

Hospitalisation exacerbates nutrition risk

Question 7

Generally, which groups are affected by malnutrition? (5)

Answer 7

• older people over 65, particularly if admitted to hospital
• people with long term conditions like diabetes, kidney disease and chronic lung disease
• people with chronic progressive conditions like cancer, dementia
• those who abuse drugs or alcohol
• patients with GI dysfunction

Question 8

What can the causes of malnutrition in hospital be divided into? (3)

Answer 8

• reduced intake
• maldigestion, malabsorption
• altered metabolism

Question 9

What can cause reduced intake related malnutrition in hospital? (9)

Answer 9

• contraindicated
• disease-related anorexia (loss of appetite due to pathophysiology and modification of central regulation of feeding behaviour)
• taste changes
• nil by mouth
• food options
• depression
• inactivity
• oral health
• fatigue

Question 10

What can cause maldigestion/malabsorption related malnutrition in hospital? (4)

Answer 10

• function
• length
• losses
• drug-nutrient interactions

Question 11

What can cause altered metabolism related malnutrition in hospital?

Answer 11

• injury
• shock (1-2 days) - nutrition goal: survival, reduced % energy expenditure
• catabolism (2 days-weeks) - nutrition goal: cover metabolic needs, energy expenditure rises and falls
• anabolism (after weeks) - nutrition goal: muscle recovery, energy expenditure stable

Question 12

What is the impact of malnutrition on postoperative mortality?

Answer 12

• 1936: post-op mortality was 10x greater in those who had lost >20% bodyweight preoperatively, compared to those who had lost less (perforated duodenal ulcer surgery)
• 2022 - malnutrition directly caused 77 hospital deaths, and contributory factor to 436 hospital deaths

Question 13

What does malnutrition cause overall?

Answer 13

Physical and functional decline, and poorer clinical outcomes

Question 14

What does malnutrition increase? (6)

Answer 14

• mortality
• septic and post-surgical complications
• length of hospital stay
• pressure sores
• readmissions
• dependency

Question 15

What does malnutrition decrease? (4)

Answer 15

• wound healing
• response to treatment
• rehabilitation potential
• quality of life

Question 16

How much does malnutrition cost England per year?

Answer 16

• £19.6 billion –> 15% of total expenditure on health and social care
• most of costs are in secondary healthcare
• health costs said to be 3x greater for malnourished than well nourished patients

Question 17

What is the order for diagnosing malnutrition?

Answer 17

• screen - a simple tool to identify risk, not assessment or diagnosis
• assess (dietitian) - a systematic process of collecting and interpreting information to determine the nature and cause of the nutrient imbalance
• diagnose - nutrition diagnosis

Question 18

How can we screen for malnutrition?

Answer 18

• MUST (Malnutrition Universal Screening Tool) - based on BMI, unplanned weight loss and presence of acute disease
• categorises patients as being low, medium or high risk and gives guidelines for treating each
• carried out by any HCP

Question 19

What is a limitation for using MUST as a screening tool for malnutrition?

Answer 19

Can miss malnourished populations e.g. where overhydration is common like in ascites and oedema, or where specific screening for functional impairment is desired

Question 20

What does a dietitian look at when assessing patients for malnutrition? (9)

Answer 20

• anthropometry
• body composition
• function
• biochemistry
• clinical
• dietary
• social history
• physical exam
• requirements

Question 21

Which two groups of people should nutrition support be considered for?

Answer 21

• malnourished
• at risk of malnutrition

Question 22

What are the requirements for being malnourished? (3)

Answer 22

• BMI <18.5 kg/m2 OR
• unintentional weight loss >10% past 3-6 months out of last 12 months OR
• BMI <20kg/m2 + unintentional weight loss >5% past 3-6 months out of last 12 months

Question 23

What are the requirements to be at risk of malnutrition? (2)

Answer 23

• have eaten little or nothing for >5 days and/or are likely to eat little or nothing for the next 5 days or longer OR
• have a poor absorptive capacity, and/or have high nutrient losses and/or have increased nutritional needs from causes such as catabolism

Question 24

What is the algorithm of treatment of malnutrition? (Look at image on slide)

Answer 24

• is oral nutrition possible & safe?
• Y = oral nutrition support - counselling, supplements, texture modification, thickeners; consider need for modified diet according to clinical condition e.g. reduced Na+, MCT, peptides
  
  • regularly monitor intake, if inadequate –> enteral tube feeding - short term (fine bore naso-enteral tube) or long term, regularly monitor adequacy
• N = is GI tract functional & accessible?
  
  • Y = enteral tube feeding
  • N = parenteral nutrition (if limited tube feeding possible, enteral tube feeding)

Question 25

What nutritional options are available via the oral nutrition support route? (5)

Answer 25

• fortification of meals and snacks
• altered meal patterns
• practical support
• oral nutritional supplements (ONS)
• tailored dietary counselling

Question 26

When do we consider oral nutrition support?

Answer 26

Consider for any patient with inadequate food and fluid intakes to meet requirements, unless they cannot swallow safely, have inadequate gastrointestinal function or if no benefit is anticipated e.g. end of life care

Question 27

Define artificial nutrition support.

Answer 27

The provision of enteral or parenteral nutrients to treat or prevent malnutrition

Question 28

Is enteral nutrition (EN) superior or inferior to parenteral nutrition (PN)?

Answer 28

EN is superior to PN

Question 29

What is the aim where parenteral nutrition is used?

Answer 29

To return to enteral –> oral feeding as soon as clinically possible

Question 30

What is the access for enteral nutrition (EN)?

Answer 30

Is gastric feeding possible?

• Y = naso-gastric tube (NGT)
• N = naso-duodenal tube (NDT) / naso-jejunal tube (NJT)

Question 31

What is the access for enteral nutrition (EN) for long term (>3 months)?

Answer 31

Gastrostomy / jejunostomy

Question 32

When is NGT contraindicated?

Answer 32

E.g. if there is a gastric outlet obstruction, in which case NDT or NJT needed

Question 33

What types of nutritional feeds in enteral nutrition are there? (8)

Answer 33

• renal
• low sodium
• respiratory
• immune
• elemental
• peptide
• high energy
• high protein

Question 34

What complications are associated with enteral nutrition (EN)? (4)

Answer 34

• misplaced NGTs - caused 21 deaths and 79 cases of harm from 2005-2011
• mechanical - misplacement, blockage, buried bumper
• metabolic - hyperglycaemia, deranged electrolytes
• GI - aspiration, vomiting, diarrhoea, nasopharyngeal pain, laryngeal ulceration

Question 35

When NGT is placed, what needs to be taken?

Answer 35

• aspirate needs to be taken from tube showing pH<5.5 which shows acidity in stomach
• if pH>5.5, chest X-ray is done

Question 36

What is parenteral nutrition (PN)?

Answer 36

The delivery of nutrients, electrolytes and fluid directly into venous blood (bypassing GI tract)

Question 37

What are the indications for parenteral nutrition (PN)? (2)

Answer 37

• an inadequate or unsafe oral and/or enteral nutritional intake OR
• a non-functioning, inaccessible or perforated gastrointestinal tract

Question 38

What is the access for parenteral nutrition?

Answer 38

• central venous catheter (CVC) in subclavian, femoral or jugular veins with tip at superior vena cava and right atrium
• peripherally inserted catheter with tip still at SVC but catheter inserted from antecubital fossa and pushed into central vein
• different CVCs for short/long term use

Question 39

What is the composition of the nutrient bags in parenteral nutrition?

Answer 39

• ready-made or bespoke ‘scratch’ bags
• MDT confers to set fluid and electrolyte targets for the day

Question 40

What are the complications of parenteral nutrition? (3 types)

Answer 40

• metabolic - hyperglycaemia, deranged electrolytes, abnormal liver enzymes, oedema, hypertriglyceridemia
• mechanical - pneumothorax, haemothorax, thrombosis, cardiac arrhythmias, catheter occlusion, thrombophlebitis (blood clot to form and block veins, usually legs), extravasation (leakage of fluids from vein into surrounding tissues)
• catheter-related infections

Question 41

Does nutrition support benefit the malnourished patient?

Answer 41

• yes - study showed patients receiving nutritional support had significantly lower levels or mortality vs control group
• also associated with reduction in non-elective hospital admissions, higher energy and protein intake and weight increase

Question 42

What is albumin?

Answer 42

The most abundant circulating protein in plasma of healthy people, and is synthesised in liver

Question 43

What is albumin synthesis stimulated by?

Answer 43

Hormones like insulin, cortisol and growth hormone

Question 44

What is hypoalbuminaemia associated with?

Answer 44

Poor prognosis

Question 45

What is albumin inhibited by?

Answer 45

• inflammation - it is a negative acute phase protein
• inflammatory factors specifically include IL-6 and TNF

Question 46

What is the acute phase response?

Answer 46

• inflammatory stimulus –> activation of monocytes and macrophages –> release cytokines
• cytokines act on liver to stimulate production of some proteins whilst downregulating others e.g. albumin
• degradation and transcapillary losses of albumin also increase in this state

Question 47

Is albumin a valid marker of malnutrition in the acute hospital setting?

Answer 47

• no
• albumin synthesis decreases during inflammation so not a valid marker of nutritional status
• best evidence is hypoalbuminaemia in obese trauma patients
• dietitian focused on aetiology/impact of inflammatory state on nutrition status

Question 48

What is refeeding syndrome?

Answer 48

A group of biochemical shifts & clinical symptoms that can occur in the malnourished or starved individual on the reintroduction of oral, enteral or parenteral nutrition

Question 49

What changes happen in the body in starvation? (7)

Answer 49

• reduction in insulin and increase in glucagon secretion to increase glucose
• liver glycogen stores and amino acids in skeletal muscle are metabolised into glucose
  
  • once these stores are depleted in 1-3 days, metabolism shifts to derive energy from ketone production due to free fatty acids being released from fat stores (used instead of amino acids)
  • this shift spares skeletal muscle breakdown and fat free mass is preserved to an extent
• decreased metabolic rate and brain adapts to use ketone bodies instead of glucose, resulting in loss of fat mass
• action of cellular pumps is reduced to reduce energy expenditure, with electrolytes leaking across cell membrane instead
• increase in extracellular water, total body water and sodium (sodium and fluid leak into cells leading to sodium and fluid intolerance)
• depletion of total body potassium, magnesium and phosphate (serum concs maintained, IC stores depleted)
• micronutrient stores deplete and thiamine deficiency is likely (water soluble and body has limited stores)

Question 50

What features are seen in refeeding syndrome? (5)

Answer 50

• hypokalaemia
• hypomagnesaemia
• hypophosphataemia
• thiamine deficiency
• salt and water retention –> oedema

Question 51

What happens when carbohydrates are introduced into a starving body?

Answer 51

• insulin secretion occurs, stimulating sodium-potassium ATPase pump, requiring Mg as a cofactor
• drives K+ into cells and Na+ and fluid out of cells into extracellular space
• phosphate driven into cells as it’s required for energy storage as ATP
• results in increased cellular uptake in glucose, K+, Mg2+ and phosphate and reduction in extracellular concs
• thiamine is a coenzyme in carb metabolism and deficiency can occur on refeeding in a vit B depleted patient

Question 52

What problems does refeeding carbohydrates into a starving body cause?

Answer 52

• low electrolyte concentrations and thiamine deficiency = clinical problems
• carbohydrates reduce sodium and fluid excretion, expanding ECF compartment –> refeeding oedema and fluid overload

Question 53

What are the consequences of refeeding syndrome (RFS)? (4)

Answer 53

• arrhythmia, tachycardia, CHF –> cardiac arrest, sudden death
• respiratory depression
• encephalopathy, coma, seizures, rhabdomyolysis (breakdown of muscle tissue = release of muscle fibre contents into blood = harms kidney)
• Wernicke’s encephalopathy

Question 54

Who can refeeding syndrome also occur in?

Answer 54

• refeeding syndrome can occur in overweight individuals particularly those who have eaten nothing for protracted periods
• patients with normal levels of K+, Mg2+ and PO4(3-) can still develop refeeding syndrome

Question 55

What is the criteria for defining risk of refeeding syndrome?

Answer 55

• at risk
• high risk
• extremely high risk

Question 56

Who is at risk of refeeding syndrome?

Answer 56

Very little or no food intake for >5 days

Question 57

Who is at high risk for refeeding syndrome?

Answer 57

> /=1 of the following:

• BMI<16kg/m2
• unintentional weight loss >15% for 3-6/12 months
• very little/no nutrition for >10 days
• low K+, Mg2+, PO4 prior to feeding

OR >/=2 of the following:

• BMI<18.5kg/m2
• unintentional weight loss >10% for 3-6/12 months
• very little/no nutrition for >5 days
• PMHx alcohol abuse or drugs (insulin, chemo, antacids, diuretics)

Question 58

Who is at extremely high risk for refeeding syndrome?

Answer 58

• BMI<14kg/m2
• negligible intake >15 days

Question 59

What is the management of refeeding syndrome?

Answer 59

1. administer thiamine 30 minutes before and for the first ten days of feeding following Trust policy
2. correct and monitor electrolytes daily following Trust policy
3. start: 10-20kcal/kg of nutrition given of which 40-50% of energy is carbs, micronutrients from onset of feeding
4. monitor fluid shifts and minimise risk of fluid and Na+ overload

Question 60

What is an acute disease that can cause malnutrition?

Answer 60

Severe acute pancreatitis –> can also cause disease-related anorexia

Question 61

What is the difference between clear and free fluids?

Answer 61

• clear fluids: transparent fluids with minimal fats (and sometimes minimal protein) - trying to avoid gut stimulation and the need to digest nutrients
• free fluids: liquid at room temperature - can contain fat, proteins and carbohydrates

Question 62

How should patients with severe acute pancreatitis receive nutrition support?

Answer 62

• bedside nasogastric (NG) tube - feed into stomach and see whether this is tolerated
• progressive pancreatitis = collections in and around gland can obstruct stomach –> patients unable to release food from stomach
• in this situation may need to place tube further down e.g. trial naso-jejunal tube (NJT) feeding