ENTERAL AND PARENTERAL NUTRITION IN CRITICALLY ILL CHILDREN

1. ENTERAL AND PARENTERAL NUTRITION IN CRITICALLY ILL CHILDREN Mudit Mathur, M.D. SUNY Downstate Medical Center

2. LEARNING GOALS • Impact of Critical Illness • Importance of Nutrition • Goals of nutritional support • Nutritional requirements • Enteral vs Parenteral • When and how to initiate and advance Nutrition • Monitoring

3. IMPACT OF CRITICAL ILLNESS-1 • Physiologic stress response : Catabolic phase • increased caloric needs, urinary nitrogen losses • inadequate intake wasting of endogenous protein stores, gluconeogenesis • mass reduction of muscle-protein breakdown

4. IMPACT OF CRITICAL ILLNESS-2 • Increased energy expenditure • Pain • Anxiety • Fever • Muscular effort-WOB, shivering

5. RESPONSE TO INJURY

6. WHY IS NUTRITION IMPORTANTCRITICAL ILLNESS + POOR NUTRITION = • Prolonged ventilator dependency • Prolonged ICU stay • Heightened susceptibility to nosocomial infections MSOF • Increased mortality with mild/moderate or severe malnutrition

7. NUTRITION: OVERALL GOALSACCP Consensus statement, 1997 • Provide nutritional support appropriate for the individual patient’s • Medical condition • Nutritional status • Available routes for administration

8. NUTRITION: OVERALL GOALS • Prevent/treat macro/micronutrient deficiencies • Dose nutrients compatible with existing metabolism • Avoid complications • Improve patient outcomes

9. ENTERAL OR PARENTERAL

10. IMPACT OF STARVATION-1 • Negative nitrogen balance, further wt loss • Morphological changes in the gut • Mucosal thickness • Cell proliferation • Villus height • Functional changes • Increased permeability • Decreased absorption of amino acids

11. IMPACT OF STARVATION-2 • Enzymatic/Hormonal changes • Decreased sucrase and lactase • Impact on immunity • Cellular: Decreased T cells, atrophied germinal centers, mitogenic proliferation, differentiation, Th cell function, altered homing • Humoral: Complement, opsonins, Ig, secretory IgA • (70-80% of all Ig produced is secretory IgA) • Increased bacterial translocation

12. ENTERAL or PARENTERAL? • Enteral Nutrition: Superior to Parenteral • Trophic effects on intestinal villus • Reduces bacterial translocation • Supports Gut-associated Lymphoid Tissue • Promotes secretory IgA secretion and function • Lower cost • Parenteral Nutrition • IV access • Infectious risk

13. ENTERAL WITH PARENTERALIS THE COMBINATION BETTER • 120 adult patients, (medical and surgical) • Combination vs enteral feeds alone • Prospective, randomized, double blind, controlled • RBP, pre albumin increased significantly D 0-7 • No reduction in ICU morbidity • No reduction in ICU LOS/ vent, MSOF, dialysis • Reduced hospital stay (by 2 days) • Mortality at 90 days and 2 years was identical Bauer et al, Intensive care med. 2000: 26, 893-900

14. A PRACTICAL APPROACH-1 • Nutritional assessment • History-preexisting malnutrition, underlying disease, recent wt loss (> 5% in 3 wks or >10% in 3 months) • Physical-anthropometrics, BMI, evidence of wasting • Labs-albumin (t ½ 18-21 d), transferrin (t ½ 8 d), prealbumin (t ½ 2 d), RBP (t ½ 0.5 d)

15. A PRACTICAL APPROACH-2 Assessment of the present illness • Hypermetabolism-burns, sepsis, MSOF, trauma • GI surgical procedures-prolonged NPO • End-organ failure (Hepatic/renal etc) Metabolic Cart-facilitates assessment of energy expenditure, Respiratory Quotient

16. WHEN TO INITIATE ENTERAL NUTRITION: • ASAP-usually within 24 hours in severe trauma, burns and catabolic states • Contraindications to enteral nutrition: • Nonfunctional gut, anatomic disruption, gut ischemia • Severe peritonitis • Severe shock states

17. ROUTE OF FEEDING • Nasogastric • Requires gastric motility/emptying • Transpyloric • Effective in gastric atony/ colonic ileus • Silicone/polyurethane tubing • Positioning, Prokinetic agents/ fluoroscopic/ pH/ endoscopic guidance • Percutaneous/surgical placement • PEG if > 4 weeks nutritional support anticipated • Jejunostomy if GE reflux, gastroparesis, pancreatitis

18. POTENTIAL DRAWBACKS OF ENTERAL FEEDS • Gastric emptying impairments • Aspiration of gastric contents • Diarrhea • Sinusitis • Esophagitis /erosions • Displacement of feeding tube

19. NUTRITIONAL REQUIREMENTS • 25-30 non protein Kcal/kg/d adult males • 20-25 non protein Kcal/kg/d adult females • Children: BMR 37-55 Kcal/kg/d (50% of EE) + Activity + growth • Factors increasing EE • Fever 12% • Burns upto 100% • Sepsis 40-50 % • Major surgery 20-30%

20. Resting Energy Expenditure

21. Factors adding to REE

22. NUTRITIONAL REQUIREMENTS • Initial protein intake 1.2-1.5 gram/kg/d • Micronutrients-added if feeds are small in volume or patient has excessive losses • Tailor individually, 24-30 cal/oz formula • Usually continuous feeds are tolerated better • Add for catch up growth upon recovery • Adequate calories = adequate growth

23. FORMULA COMPOSITION • Carbohydrates: 60-70% of non protein calories • Polysaccharides/disaccharides/monosaccharides • Glucose polymers better absorbed • Lipids: 30-40% of non protein calories • Source of EFA • Concentrated calories-but poorer absorption • MCT direct portal absorption-better

24. FORMULA COMPOSITION • Proteins • -polymeric (pancreatic enzymes required) or peptides • Small peptides from whey protein hydrolysis absorbed better than free AA • Fibers • Insoluble-reduce diarrhea, slower transit-better glycemic control • Degraded to SCFA-trophic to colon

25. COMPOSITION-SPECIAL FORMULAS • Pulmonary: High fat( 50%), Low CHO • Hepatic: High BCAA, low aromatic AA, <0.5 gm/kg/d protein in encephalopathy • Renal: Low protein, calorically dense, low PO4 , K, Mg GFR >25: 0.6-0.7 g/kg/d GFR <25: 0.3 g/kg/d • Immune-enhancing

26. IMMUNE MODULATION • Glutamine • Arginine • Fatty acids (w-3) • Nucleotides • Vitamins and minerals Pediatric burn patients: Arginine & w-3 fatty acid supplements reduce infections, LOS ( Gottslisch: J Parenter. Ent. Nutr. 14: 225, 1990)

27. IMMUNE MODULATION • Glutamine+arginine+Branched chain AA (Immunaid) • Arginine+omega-3 Fatty acids+RNA (Impact) • EN started within 36 hrs • Mortality, bacteremic episodes reduced • More pronounced effect in APACHE II 10-15 Galban et al, CCM, 2000; 28: 3, (643-48)

28. IMMUNE MODULATIONMECHANISMS ARE UNCLEAR • Reduction of duration and magnitude of inflammatory response • Will this disrupt the balance between pro and anti-inflammatory processes?? • Of the multiple ingredients in these special formulas: which is “the” one • Beneficial effects seen in patients achieving early EN

29. IMMUNE MODULATION Conclusive studies, clear indications & Cost-benefit analysis are still needed

30. ENTERAL NUTRITION IN CRITICAL ILLNESS: • Maintains nutritional status • Prevents catabolism • Provides resistance to infection • Potential effect on immune modulation

31. PARENTERAL NUTRITION (PN) The PN formulation is based on: • Fluid Requirements • Energy Requirements • Vitamins • Trace elements • Other additives-Heparin, H2 blocker etc

32. Fluid Requirements Fluid requirements = maintenance + repair of dehydration + replacement of ongoing losses. • Maintenance Fluid Requirements 1 - 10 kg = 100 ml/kg/day 10 - 20kg = 1000 ml + 50 ml for each kg > 10 kg 20 kg = 1500 ml + 20ml for each kg > 20 kg • PN generally should be used for the maintenance needs. • Deficit and replacement of losses should be provided separately. • Remember to consider medications, flushes, drips, pressures lines and other IV fluids in your calculations.

33. Energy Requirements Total Daily Energy Requirements (kcal/day) = Resting Energy Expenditure (REE) + REE  (Total Factors) Factors = Maintenance + Activity + Fever + Simple Trauma + Multiple Injuries + Burns + Growth

34. PN-suggested guidelines for Initiation and Maintenance

35. Resting Energy Expenditure

36. Factors adding to REE

37. Suggested monitoring Protocol

38. Calculations Dextrose • ____g/100ml Dextrose  ____ml/day = ____grams/day • _____g/day  (weight  1.44) = _____mg/kg/min • _____g/kg/day  3.4 kcal/g = _____ kcal/kg/day

39. Calculations Fat • 20 grams/100ml Fat  _____ml/day = _____grams/day • _____g/kg/day  9 kcal/g = _____ kcal/kg/day

40. Calculations • grams Protein  6.25 = _____ Nitrogen • Non-protein calories  Nitrogen = Calorie:Nitrogen ratio

41. DANGERS OF OVERFEEDING • Secretory diarrhea (with EN) • Hyperglycemia, glycosuria, dehydration, lipogenesis, fatty liver, liver dysfunction • Electrolyte abnormalities: PO4 , K, Mg • Volume overload, CHF • CO2 production- ventilatory demand • O2 consumption • Increased mortality (in adult studies)

42. MONITORINGPrevent Overfeeding • Carbohydrate: High RQ indicates CHO excess, stool reducing substances • Protein: Nitrogen balance • Fat: triglyceride • Visceral protein monitoring • Electrolytes, vitamin levels • Caloric requirement assessment by metabolic cart

43. CONCLUSIONS • Start nutrition early • Enteral route is preferred when available • Set goals for the individual patient • Dose nutrients compatible with existing metabolism • Appropriate monitoring is essential • Avoid overfeeding

44. QUESTION 1 • When should nutritional support be initiated in critically ill patients? • Only after extubation • After 3 days of NPO status • After 5 days of NPO status • After 7 days of NPO status • ASAP, preferrably within 24 hours of admission

45. QUESTION 2 • What would be the preferred mode for nutritional support in a 10 year old boy with head injury, raised ICP and aspiration pneumonia that developed after he vomited during intubation in the field. • Parenteral nutrition • Enteral nutrition • A combination of enteral and parenteral nutrition • IV fluids alone until ICP is better controlled.

46. QUESTION 3 • What would be the initial TPN composition for a 10 kg 18 month year old child • Glucose 10%, Protein 20 g/day, lipids 5g/d • Glucose 10%, Protein 10 g/day, lipids 15g/d • Glucose 15%, Protein 5 g/day, lipids 20g/d • Glucose 12.5%, Protein 20 g/day, lipids 10g/d • Glucose 10%, Protein 10 g/day, lipids 10g/d