ICM - Nutrition

Question 1

Which patients may need nutritional support?

Answer 1

1. Malnourished patients:
   - BMI <18.5
   - Unintentional weight loss of >10% in last 3-6 months
   - BMI <20 and unintentional weight loss of >5% in last 3-6 months
2. Risk of malnutrition
   - Eaten nothing for last 5 days/expected to eat nothing for 5 days or more
   - Poor absorptive capacity or high nutritional losses
   - High catabolic state

Question 2

Which patients are at risk of refeeding syndrome?

Answer 2

1. One or more of:- BMI <16- Unintentional weight loss >15% in last 3-6 months- No nutritional intake for 10 days- Low levels of potassium, phosphate or magnesium2. Two or more of:- BMI <18.5- Unintentional weight loss >10% in last 3-6 months- No nutrition for >5 days- History of alcohol abuse or medications (e.g. insulin, chemo, antacids, diuretics).Reintroduction of nutritional requirements should be done in consultation with dietician and nutritional team.- consider reintroducing at 30% of normal energy and protein requirements - build up slowly over 7 days.- Ensure adequate B vitamin replacement (Pabrinex one daily/oral B vitamins, thiamine and multivitamins) for 10 days.- Monitor and replace potassium, phosphate and magnesium.

Question 3

What are the basic daily nutritional requirements for an adult?

Answer 3

Energy: 25-35kcal/kg/day
Protein: 0.8-1.5g/kg/day
Nitrogen: 0.13-0.24g/kg/day
Fluid: 30-35ml/kg/day
Electrolytes:
- Na 1mmol/kg/day
- K 1mmol/kg/day
- Cl 1-2mmol/kg/day
- Mg 0.1mmol/kg/day
- Ca 0.1 mmol/kg/day
- PO 0.4 mmol/kg/day
- Vitamins, minerals and micronutrients```

Question 4

When should reduced nutritional support be considered?

Answer 4

In:
- Critically ill patients
- - Patient without nutrition for 5 days
- Energy and protein requirements should be introduced at 50% for first 48hrs and then slowly increased.Electrolyte, fluids, vitamins and minerals should be met at 100%

Question 5

How can you assess a patient’s nutritional state?

Answer 5

1. Clinical assessment2. BMI3. Laboratory studies

Question 6

How can you assess a patient’s nutritional requirements?

Answer 6

1. Indirect calorimetry2. Equations (Schofield) - become less accurate the more critically unwell3. Weight-based

Question 7

How can you assess a patient’s nutritional state?

Answer 7

1. Clinical assessment - recent weight loss, severity of illness, GI dysfunction, MUST scoring.
2. Anthropometric assessments - BMI, MUAC.
3. Laboratory markers

Question 8

How can you assess a patient’s nutritional requirements?

Answer 8

1. Indirect calorimetry
2. Nutritional index equations (Schofield, Harris-Benedict) - become less accurate the more critically unwell
3. Weight-based/IBW

Question 9

Is there an increased mortality risk associated with parenteral nutrition?

Answer 9

Parenteral nutrition does not increase mortality at 30 days (CALORIES)
Early parenteral nutrition not found to improve outcome (EPaNIC)

Question 10

What is refeeding syndrome?

Answer 10

A constellation of features resulting from the rapid reinstitution of feeding/carbohydrate in patient’s who have been food/calorie deprived.
The reinstitution of carbohydrate and feed results in a surge in insulin release with a rapid intracellular shift of K, PO4, Mg.
Clinical features include:
- severe muscle weakness
- respiratory failure
- cardiac arrhythmias
- hypotension
- coma

Question 11

What is the respiratory quotient?

Answer 11

RQ = CO2 produced / O2 consumed
If metabolism consists solely of lipids, the respiratory quotient is approximately 0.7, for proteins it is approximately 0.8, and for carbohydrates it is 1.0

Question 12

What is the MUST Score?

Answer 12

‘MUST’ is a five-step screening tool to identify adults, who are malnourished, at risk of malnutrition
(undernutrition), or obese

Step 1
Measure height and weight to get a BMI score using chart provided. If unable to obtain
height and weight, use the alternative procedures shown in this guide.

Step 2
Note percentage unplanned weight loss and score using tables provided.

Step 3
Establish acute disease effect and score.

Step 4
Add scores from steps 1, 2 and 3 together to obtain overall risk of malnutrition.

Step 5
Use management guidelines and/or local policy to develop care plan.

Question 13

What are proteins?

Answer 13

Proteins are macromolecules that comprise one or more long chains of amino acid

Protein synthesis occurs in all cells of the body via transcription and then translation.

Protein breakdown also occurs in all cells of the body catalysed by various enzymes, which include proteases.

Question 14

What proteins are made in the liver?

Answer 14

Protein synthesis is stimulated by insulin and growth hormone. Some of the most important plasma proteins are synthesised in the liver.

Plasma proteins
Albumin
Globulin
Fibrinogen
CRP (an infection marker)
Clotting factors – Factors II, VII, IX and X are Vitamin K dependent
Thrombopoietin
Angiotensinogen

Question 15

How are proteins catabolised?

Answer 15

This is done through the processes of transamination and deamination, before the ammonia generated is cleared in the urea cycle.

Through transamination, amino acids are converted into keto acids. The end result of this step is the generation of glutamate.

Deamination - Glutamate is metabolised further by glutamate dehydrogenase. The amine group is removed and rapidly forms ammonia (NH3) and subsequently ammonium (NH4+), alongside a-ketoglutarate. The ammonium is highly toxic and must therefore be removed through the urea cycle

The urea cycle occurs both within the mitochondria and cytoplasm of the hepatocyte. Through this process, the toxic ammonia is converted into harmless urea, which is easily excreted.

Question 16

How does ammonia lead to hepatic encephalopathy?

Answer 16

Ammonia crosses the blood-brain barrier where it is metabolised by astrocytes to form glutamine. Glutamine increases the osmotic pressure in the brain, leading to brain oedema

Question 17

When might the obese population need ICU?

Answer 17

Due to treatment of their disease, complication of their disease or unrelated.

Treatment of - Elective or acute postoperative care (e.g. after bariatric, major abdominal, or vascular surgery).

Because of - Treatment of a primary medical condition.
Complications due to co-morbid diseases.

Unrelated -
- Trauma: bone and soft tissue injury, or infection.
-A relatively minor insult, for example, a chest infection or rib fractures, may cause acute respiratory decompensation in these patients.

Question 18

What are some of the respiratory issues that can occur with obesity?

Answer 18

Intubation
- limited neck mobility and mouth opening, large breasts, short neck, large tongue, excessive palatal and pharyngeal soft tissue, high anterior larynx, short sternomental distance, receding mandible, prominent teeth, Mallampati score of 3 or more, and a large neck circumference
- Diaphragmatic splinting due to excess abdominal fat causes decreased expiratory reserve volume and functional residual capacity (FRC)

Trachy - sizes too short, difficulty identifying anatomy,

MV - obesity reduces FRC, forced expiratory volume in 1 s, MV, and lung and chest wall compliance. All these coupled with high airway resistance due to reduced lung volume increases the work of breathing up to four-fold. This leads to ventilation–perfusion mismatch and dangerous levels of hypoxia.

Prone to C02 narcosis due to OSA

Question 19

Other than respiratory, what are some of the other concerns with obese patients in the ICU?

Answer 19

Access and monitoring
- palpating pulses
- BP cuff
- ECG electrodes
- PVC, CVC and A line insertion

Drugs
- altered regional blood flow and volume of distribution, impaired metabolism, and renal clearance
- often have to dose drugs on TBW or ABW
- opiods can accumulate in fatty tissues

VTE - higher risk

Nutrition - Critically ill morbidly obese patients are prone to develop protein malnutrition as a result of metabolic stress, despite having excess body fat stores. The elevated basal insulin level in obesity suppresses lipid mobilization from body stores, causing an accelerated breakdown of protein to glucose.

Skin and Soft tissue - prone to pressure sores and poor wound healing

Nursing - bariatric beds, more staff need to turn,

Question 20

What is short bowel syndrome?

Answer 20

Short bowel syndrome (SBS) in adults is defined as less than 180 to 200 centimeters of remaining small bowel (normal length 275 to 850 cm) leading to the need for nutritional and fluid supplements

Question 21

What are some of the complications for short bowel syndrome?

Answer 21

Weight loss,
Steatorrhea,
Diarrhea,
Electrolyte imbalance,
Vitamin deficiencies
Nephrolithiasis due to hyperoxaluria,
Cholelithiasis,
Transient gastric hypersecretion,
Bacterial overgrowth,
Dehydration,
Hyponatremia,
Potassium deficiency,
Magnesium deficiency,
Renal failure,
.