The Science of Effective Pediatric Inpatient Nutrition 2005

1. The Science of Effective Pediatric Inpatient Nutrition 2005 Kevin M. Creamer M.D., FAAP Medical Director, PICU WRAMC Chief, Pediatric Nutrition Support Team

2. A hypothetical case • Starvin Marvin is a 2 y.o. who presents with a 2-3 week Hx of fevers, weight loss, pallor, decreased energy, appetite and activity • PE reveals Wt 13kg , down 1.5 kg, pallor, petechia,+ HSM • Labs reveal WBC 26 K with 50% blasts, anemia and thrombocytopenia

3. Hospital Course • Day 1 - NPO, IVFs, labs, Xrays • Day 2 – NPO for BM and LP, as well as Hickman • Day 3- Chemo, picky PO • Day 4-6 - continued poor PO, with emesis occasionally • Day 7-10 – emesis resolves, PO inadequate • Day 12 – pancytopenia, sepsis with GNR

4. Teaching points • Nutritionally-at-risk from the word GO • Debilitated Ortho spine patient • Recurrent bowel obstruction patient • No nutrition plan, No monitoring, No intervention • Hope is not a method • Could sepsis event been avoided??

5. Inpatient Nutrition Goals • Think about nutritional status on every patient • Outline the dynamic between illness, nutritional state and secondary morbidity • Recognize need to estimate/calculate goals calories in order to reach the goal • Individualized goals for time course, and disease process • Institute effective nutrition support with the help of Pediatric nutritionist

6. Acute Stress

7. The 5 W’s of Inpatient Nutrition Why, Who, When, Where, What ?

8. Acute Stress • Major Surgery, Sepsis, Burns, Trauma • Result in massive outpouring of catechols, ACTH, GH, ADH, glucagon, somatomedins • Insulin inhibition, elevation of glucose and free fatty acids • ↑ Inflammatory Cytokines: TNF, IL 1, IL-6 • PMN release and degranulation  Mucosal permeability • Stress hormones and mediators ↑ release of cAMP which down-regulate lymphoid immune activity

9. Acute Stress • NPO state starves gut mucosa • Gut mass  50% in 7 days of fasting • Gut contains 80% of body’s immune tissue • “GALT and MALT” • Intestinal sIgA ↓ in 5 days • ↑ Th1 pro-inflammatory lymphocytes • Major stress doubles protein turnover • Skeletal muscle cannibalized for fuel for enterocytes (glutamine) Stechmiller JK, Am J Crit Care, 1997

10. Bacterial Translocation • Disruption of mucosal barrier • Ischemia-reperfusion during shock  risk of ulceration and  permeability • Bacterial translocation • Culture(-), found bacterial DNA in blood stream • Cytokine amplification in lymphatics and liver

12. Bacterial Translocation • Enteral nutrition can prevent translocation • Trophic feeds stimulate gut hormones and nourish mucosa, increase blood flow, re-energize tight junctions, improve brush border • Enteral vs. Parenteral feeds -  postop septic related complications • Enteral feeds stimulate Th2 lymphocytes which  PMN adhesion in lung Deitch EA, Ann Surg, 1987, 1990;Border JR, AnnSurg, 1987; Carrico CJ, Arch Surg, 1986; Alverdy JC, Surgery, 1988; Moore J, JPEN, 1991,Kudsk,Am J Surg, 2002

13. WHY ?Is nutrition such a big deal? Malnutrition Prevalence Nutrition Status and Outcomes Gut Bacterial Translocation

14. Malnutrition Prevalence • 15 to 50 % of hospitalized pediatric inpatients are malnourished on presentation (down from 35-65%) • 15 to 20 % of critically ill patients • 33% patients with congenital heart disease • 39% awaiting elective surgery Parsons, AJCN,1980; Mize, Nutr Supt Ser, 1984; Merritt, Am J Clin Nutr, 1979, Huddleston KC, CC Clin of NA, 1993, Cameron, Arch Ped 1995, Cooper, J Ped Surg 1981

15. Malnutrition Snapshot • Inpatient population of Boston Children’s Hospital was surveyed Sept 24,1992 • 268 children ages 0-18 years • Using Waterlow criteria: • 25% were acutely malnourished, 27% were chronically malnourished • Of 17 ICU patients, 4 (24%) were classified with severe PEM Hendricks, Arch Ped Adol Med, 1995

16. Nutrition and Outcome Robinson G, JPEN, 1987

17. Nutrition and Outcome Low Prealbumin 95% specific, in 147 consecutive admissions 8 measures of malnutrition in 134 patients 50 cardiac surgery patients assessed • Low Prealbumin predictive post-op infectious complication Potter, Clin Invest Med, 1999; Weinsier,Am J Clin Nut, 2005 Leite, Rev Paul Med, 1995

18. Nutrition Screen predictive of outcome in 25 RSV PICU admits Mezoff, Pediatrics, 1996

19. Nutrition and Outcome • 60 PICU patients had nutrition status evaluated, with PSI, and TISS applied • Acute PEM associated (P<0.01) with  physiologic instability,  mortality and  quantity of care • Malnutrition can result in delayed wound healing, respiratory failure, increased potential for infection, death Pollack MM, JPEN, 1985

20. Nutrition and Outcome Bassili HR, JPEN,1980

21. Nutrition and Outcome • PICU Outcomes in 323 patients after Nutrition support team instituted • Use of Enteral nutrition (EN) in medical patients increased 25% to 67% • Mortality risk decreased 83% for those receiving EN >50% of LOS • EN independent predictor of survival in multiple regression analysis. Gurgueira, JPEN, 2005

22. WHO ?Needs to know? Gets assessed? ALL Physicians! ALL Patients!

23. Nutrition Dichotomy • 79 FP residents • Nutrition Interest (72.2%) vs. Perceived Knowledge • Parenteral and enteral nutrition 34.2%, Infant nutrition 27.5 %, Nutrition assessment 17.7% • 3416 Primary Care physicians • < 40% practiced what they preached Lasswell AB, J of Med Ed, 1984, Levine BS, Am J Clin Nut, 1993

24. Nutrition Practice: Uphill battle • Adult ICU group found their patients only received 52% of goal calories • Reasons included physician under ordering, frequent cessations, and slow advancement • Designed a protocol but only 58% went on it Spain, JPEN, 1999

25. I wonder if I’m missing out on some critical piece of information

26. Nutrition Screen • Should be completed within 24 hours of admission • High risk surgical patients should be screened weeks to months ahead of planned surgery • Multidisciplinary team • Supplement , reassess, or reschedule In your continuity clinic

27. Nutritionally-at-risk • Weight for age < 10th % tile • Weight for Height < 10th % tile • Acute weight loss > 5% over 1 month or >10% total • Birth weight < 2 SD below mean for gestational age • Increased metabolic requirements 2 chronic disease • Impaired ability to ingest or tolerate oral feeds • Weight % tile crossing 2 contour lines over time (FTT)

28. Prealbumin • Transthyretin has nothing to do with albumin • Small body pool and half life of 2 days makes prealbumin an reasonable monitor of visceral protein homeostasis • Drops during the first 3-5 days of stress it should rise thereafter • Daily rise of 1mg/dl indicates anabolism

29. Plasma Protein Stress Response Fleck, A. Br J Clin Pract, 1988

30. Prealbumin as a predictor • Surgically stressed Infants • Prolonged ↑ CRP with ↓ Prealbumin had ↑ mortality • Strongest predictor POD#5 prealbumin depression • Prealbumin ideal nutrition screen for: • 50 children with solid tumors • before and during chemo • 86 Adult post-op patients requiring TPN Chwals WJ, Surg Clin NA, 1992, Elhasid, Cancer, 1999, Erstad, Pharmaco, 1994

31. Prealbumin • Measure twice weekly • Once 65% of needs met expect levels to rise 1mg/dl a day • If weekly rise is less than 4mg/dl • check N2 balance and CRP to determine if cause is nutritional inadequacy or ongoing SIRS Expert roundtable, 10th World Congress of Gastroenterolgy

32. WHEN?Should I start? Early Enteral vs Standard timing

33. Enteral Contraindications • Intubation/extubation planned within 4° • Hemodynamic instability requiring escalation in therapy • Intestinal obstruction • Massive UGI bleed • Gut ischemia • I’m nervous about this kid

34. Early feeds vs. Standard • Adults with gut malignancies and neurotrauma has shorter LOS and fewer infections when fed early • 19 controlled studies (24° vs 3-5 days) • 16/19 studies showed improved outcome • Improved healing,  complications and LOS • Recommended for critically ill surgical pts Braga, CCM, 2001 Grahm T, Neurosurgery, 1989 Taylor, CCM 1999 Heyland DK, CC Clin of NA, 1998 Zaloga. CCM 1999

35. Early feeds: Pediatrics • Tolerated pediatric burn patients • 42 ventilated children (76% on vasoactive meds) • Transpyloric feeding tubes placed at bedside • 74% of patients reached full feeds within 24 hrs, rest within 48 hrs • No complications Chellis MJ, JPEN, 1996, Trocki, Burns, 1995

36. All is Not Rosy • All Mechanical Ventilated patients • Lots of exclusions Ibraham, JPEN, 2002

37. WHERE? In the gut do I put the food? Oral vs.Tube feeding Gastric vs. Transpyloric feeds

38. Tube Feeding Considerations • Nutritionally-at-risk with inadequate oral intake for the past 3-5 days. • Meeting <50% estimated needs orally for previous 7-10 days. • Shorten to 3-5 days if traumatized or severely catabolic • Disease state preventing adequate P.O. intake for >5 days

39. Gastric vs. Transpyloric • No aspiration difference in 54 patients receiving gastric vs transpyloric radiolabeled feeds • 33 mechanicaly ventilated  Micro-aspiration 7.5 >> 3.9% in NJ fed patients • 80 adult trauma victims • Duodenally fed patients reached goal calories 34 vs. 44 hours with had less pneumonia 27% vs 42%* • 80 ventilated adults randomized • gastric feeds + E-mycin 200 mg q8 (55% / 74%) • Transpyloric feeds (44% / 67%) Esparza, Intens C Med, 2001,Kortbeek, J Trauma, 1999, Heyland, CCM, 2001, Boivin, CCM, 2001

40. Transpyloric • 59 ventilated children randomized to receive continuous or interrupted transpyloric feeds during the day before and of extubation • Continuous group got >90% goal calories both day vs 73% and 46% • No aspiration events or difference in adverse events Lyons, JPEN, 2002

41. Neuromuscular blockade and ECMO? • May decreased REE by 10-15 % • Primary Neurotransmitter in Gut is VIP not acetylcholine • Neuromuscular blockade work via AcH receptors • By what mechanism do neuromuscularly blocked patients become intolerant of enteral feeds? • Gastric atony 2° Benzodiazepines and narcotics • Enteral feeds for Pediatric ECMO patients is safe with trends toward improved survival Pettignano, CCM, 1998

42. Enteral Pitfalls • 2 adult studies with 95 ICU pts, had 66%-78% of goal feeds prescribed, 52%- 71% delivered • Gastric Intolerance (Residuals #1) • BZD and Narcs effect stomach > intestine • Airway management • 22/26 PICU pts had feeds held for extubation that only 5 got • Diagnostic procedures • Some ventilated patients fed right up to OR McClave SA, CCM, 1999,DeJonghe, CCM, 2001, Fry-Brower +McCunn, CCM(a), 2002,

43. WHAT?Amount of calories do I Feed Them? How much to feed Trophic feeds Enteral vs. Parenteral Lipid phobia

44. Caloric Goals? • Brazilian PICU reviewed 37 charts • Only 3 had an assessment done in 425 days • No Patient had caloric goals set • Only 29.7% met goals • 80.5 % fed Parenterally Leite, Rev Assoc Med Bras, 1996

45. Steady State Energy Requirements

46. Energy Requirements • Calorie needs change during the course of the hospitalization. • Hemodynamically unstable? • Ventilated vs Extubated • Ebb phase (Hypometabolic): obligate (–) nitrogen balance during acute critical illness • No need for growth calories (BMR may suffice?) • Watch out for overfeeding • Steatosis, Hyperglycemia, Hypertriglyceridemia

47. Therapeutic window • 187 critically ill adults >96º in ICU • Tertiles of % ACCP recommended caloric intake • Patients receiving 33-65% goal Vs. <33% (18kcal/kg) • OR survival 1.22, discharge without sepsis 1.2, without vent 1.8 • Patients > 65% goal OR 0.82, 0.75, 0.69 • Sickest patients (SAPS>50) • Did worse when they received >33% goal Krishnan, Chest, 2003

48. Energy Requirements • Flow phase (Hypermetabolic) • As the child improves and becomes anabolic, calorie needs for growth and activity must be included • Underestimating needs can increase risk for infection, poor wound healing, poor growth, and overall poor outcome

49. Energy Requirements • 12 Septic and 12 Traumatized patients • Total energy expenditure and REE measured for 2 separate 5-day periods • TEE Sepsis 25kcal/kg >>> 47kcal/kg • TEE Trauma 31kcal/kg >>> 59kcal/kg • Second week TEE: indirect calorimetry X1.8 • TEE remained elevated for weeks Uehara, CCM,1999

50. 1º Fever ↑12%