Module 12.1 - Nutritional Considerations

Question 1

What are some characteristics of malnutrition?

Answer 1

• Independent risk factor for patient morbidity and mortality in hospitalized patients
• Prevalence as high as 40% among critically ill adults due to lack of proper evaluation and failure to optimize nutritional support early in hospitalization
• Associated with increased healthcare costs
• No standard methods of screening or diagnostic criteria
• Inflammation/infection has been identified as risk factor for malnutrition due to a marked increase in metabolism, leading to greater energy (caloric) requirements and loss of lean body mass
• Independent of type and severity of disease, duration of hospitalization impacts the risk of malnutrition; longer the stay = increase risk
• Laboratory markers are NOT reliable by themselves, should be used in conjunction with a thorough physical exam.

Question 2

What are 6 laboratory measures of malnutrition?

Answer 2

1. Serum albumin

• Produced by the liver
• Half-life 14-20 days (synthesis requires amino acids and adequate liver function)
• Functions as a carrier molecule for certain minerals, hormones, fatty acids and assists in maintaining oncotic pressure in the capillaries
• Low in malnutrition (<3.5 grams/dl), infection, burns, fluid overload, liver failure, cancer and nephrotic syndrome
• Unreliable as a stand-alone marker for nutritional status since it is affected by a multitude of disease processes.
• Older adults: in functionally impaired elderly, albumin has a low specificity for identifying nutritional status.

2. Pre-Albumin

• Produced by the liver
• Half-life 2-3 days (reflects changes in nutritional status sooner than albumin)
• Affected by the same inflammatory states as albumin- infections and liver disease
• Low in malnutrition:< 10 gm/dl severe depletion, 10-15 grams/dl moderate depletion
• Can be low in liver failure and elevated in renal failure
• More reliable indicator of acute changes in a patient’s nutritional status
• Since it is degraded by the kidneys, any renal dysfunction causes an increase in pre-albumin serum levels.

3. Transferrin or Total Iron Binding Capacity (TIBC)

• Half-life 10 days
• Serum protein synthesized in the liver
• Low in protein energy malnutrition (can also be affected by iron status as in chronic blood loss anemia causing an elevated transferrin level due to increased iron absorption)
• Mild depletion 151-200 mg/dl
• Moderate depletion 100-150mg/dl
• Severe depletion, < 100 mg/dl
• Transferrin also increases in renal failure. Oral contraceptives and estrogen also alter serum transferrin levels.
• Poor serum marker for assessing nutritional status

4. Hemoglobin

• Low hemoglobin leads to inadequate oxygen perfusion to cells resulting in decreased energy production affecting multi-functions-including healing and growth

5. Hematocrit

• A volume measurement that verifies hemoglobin level

6. Lymphocyte count

• Low lymphocyte count indicates decreased ability to fight off infections/increased susceptibility to infections
• Chronic steroid use can decreased lymphocyte count

Question 3

When evaluating malnutrition what should you focus on when conducting a history & physical assessment?

Answer 3

Focus on general characteristics, such as:

• Edema, ankle and sacral
• Subcutaneous fat loss
• Muscle wasting
• Ascites
• Skin, mucous membranes, hair, nails

History should include:

• Weight loss in past 6 months
• Changes in dietary intake
• Gastrointestinal symptoms (n,v, change in bowel habits)
• Functional capacity (poor exercise tolerance, reduced mobility/endurance)
• Disease and its relation to nutritional requirements (hx of cancer, crohn’s disease, rheumatoid arthritis. Cardiopulmonary disease, infection)

Question 4

How do you determine a patient’s calorie needs?

Answer 4

Kilocalories per kilogram of body weight (may use actual or desired weight depending upon goal of therapy)

• Average adult: 30kcal/kg or 13 kcal/lb of body weight/24 hours
• For weight gain: 35 or more kcal/kg is appropriate
• For weight loss: 25 kcal/kg
• 1 lb of body weight = 3500 kcal
• For fever: 7% increase in kcal/24 hours needed for each degree > 37.0C

Question 5

How do you determine a patient’s fluid requirements?

Answer 5

• One mL (cc) of fluid/kcal/24 hours (30-35 ml/kg of body weight) is usual- decaffeinated beverages
• Elevation in vital signs, placements of drains, nausea/vomiting, diarrhea etc. requires an increase of 150mL/24 hours for each degree rise in body temperature above normal (37.0C)

Question 6

How do you determine a patient’s protein requirements?

Answer 6

• Protein required per day ranges from 0.8-2 grams/kg of body weight
• Renal and hepatic diseases necessitate lower levels of protein due to inability of body to convert ammonia to urea in liver or to excrete urea via the kidneys
• Protein is primary source of all nitrogenous waste products
• Protein should account for 20% of daily kcal intake- needed for tissue growth

Question 7

How do you determine a patient’s carbohydrate requirements?

Answer 7

• Accounts for largest proportion of kcal in most diets- approx. 50% of daily kcal need
• Patients with compromised respiratory function should eat less than average carbohydrate amounts since more oxygen (and release of co2) is required than for protein and fat metabolism

Question 8

How do you determine a patient’s fat requirements?

Answer 8

• Substituting fat for carbohydrates can reduce stress on the respiratory system since fat uses less oxygen and produces the least amount of carbon dioxide.

Question 9

How do you determine a patient’s vitamin/mineral requirements?

Answer 9

• Use recommended dietary allowance (RDA) as guided
• Consult dietician for individual needs
• Avoid over supplementation since the liver and kidneys excrete excess vitamins

Question 10

How do you determine a patient’s electrolyte requirements?

Answer 10

• Replace deficits as per laboratory results
• Avoid excessive amounts, especially in renal disease

Question 11

What are the 2 types of nutritional support?

Answer 11

1. Parenteral (vascular feeding): appropriate when GI tract is non-functional

2. Oral/Enteral feeding: appropriate when GI tract is functioning; the preferred method of feeding

Question 12

When should patients begin receiving entral feeding?

Answer 12

• Start early within the first 24-48 hours following admission
• Withhold in setting of hemodynamic compromise
• Gastric or small bowel feeding is acceptable
• If high risk for aspiration, enteral access tube feeds should take place in small bowel
• If enteral feeding > 6 weeks, refer for gastrostomy tube placement
• If enteral feeding < 6 weeks, feed through trans-nasal tube
• Withhold feeds for repeated high gastric residual volumes and place tip in small bowel

Question 13

What are the 6 enteral routes of nutritional support?

Answer 13

1. Nasogastic tube:

• Tip of tube in stomach
• Most similar to route of normal digestion
• Acid reflux common
• Lack of integrity of gastric mucosa contradicts use

2. Nasoduodenal tubes:

• End of tube located in duodenum
• Acid reflux/aspiration less common
• May require partially predigested form of formula

3. Nasojejunal tube:

• End of tube located in jejunum
• Formula type depends on area of jejunum that is used; intact for upper portion and hydrolyzed for mid to lower portion

4. Enterostomies: surgically created openings from exterior GI tract for long-term use (> 6 weeks) or when trans-nasal tube is contraindicated (ENT cancer)

• Types include esophagostomy (distal tip in stomach)
• Intact or blenderized formulas appropriate

5. Gastrostomy:

• 2 types:
  
  • Percutaneous endoscopic gastrostomy (PEG)
    
    • Placed by GI endoscopy
    • Intact formula appropriate
    • Can be used 24 hours after placement
  • Percutaneous Gastrostomy (G tube)
    
    • Placed by Interventional Radiology using fluoroscopy
    • Intact formula appropriate
    • May be used in 24 hours

6. Jejunostomy:

• Percutaneous endoscopic jejunostomy is an extension of percutaneous or endoscopic placed gastrostomy tube
• Distal tip lies in jejunum

Question 14

What are some complications with enteral feeding?

Answer 14

• GI complications: diarrhea, cramping, constipation, gastric retention
• Monitor for electrolyte imbalances and hyperglycemia
• Consult a dietitian for formula and kilocalorie needs

Question 15

How is parenteral nutritional support initiated?

Answer 15

• Consult dietitian, nutritional support team, to include pharmacist
• In patients who are not malnourished prior to acute illness, only initiate after first 7 days of hospitalization- if enteric nutrition not available or contraindicated
• If evidence of malnutrition exists on admission and enteric nutrition contraindicated, begin parenteral nutrition following admission and stabilization.
• Parenteral nutrition provided for a short duration (< 7 days) is not shown to produce outcome effect and can actually increase risks to patient.
• Concentrations of dextrose > 10% require use of central line dedicated to parenteral nutrition.

Question 16

What should you monitor on patients with parenteral nutrition?

Answer 16

• Monitor blood glucose every 6 hours
• Monitor electrolytes cbc, ca, mg, phos, lft’s and triglyceride levels
• Infuse fat emulsions slowly
• Involve parenteral nutrition team
• Trend lab results weekly at minimum

Question 17

What are some complications associated with parenteral nutrition?

Answer 17

• Metabolic complications, hyperglycemia, hypercapnia
• High risk for infection due to glycemic content
• Risk of pancreatitis with lipid infusion