Proefschrift Kerklaan

Chapter 1

107. White MS, Shepherd RW, McEniery JA. Energy expenditure measurements in ventilated critically ill children: within- and between-day variability. JPEN J Parenter Enteral Nutr 1999;23:300-4. 108. Mehta NM, Smallwood CD, Joosten KF, Hulst JM, Tasker RC, Duggan CP. Accuracy of a simplified equation for energy expenditure based on bedside volumetric carbon dioxide elimination measurement--a two-center study. Clin Nutr 2015;34:151-5. 109. Framson CM, LeLeiko NS, Dallal GE, Roubenoff R, Snelling LK, Dwyer JT. Energy expenditure in critically ill children. Pediatr Crit Care Med 2007;8:264-7. 110. Mehta NM, Bechard LJ, Leavitt K, Duggan C. Cumulative energy imbalance in the pediatric intensive care unit: role of targeted indirect calorimetry. JPEN J Parenter Enteral Nutr 2009;33:336-44. 111. White MS, Shepherd RW, McEniery JA. Energy expenditure in 100 ventilated, critically ill children: improving the accuracy of predictive equations. Crit Care Med 2000;28:2307-12. 112. Mlcak RP, Jeschke MG, Barrow RE, Herndon DN. The influence of age and gender on resting energy expenditure in severely burned children. Ann Surg 2006;244:121-30. 113. Feferbaum R, Leone C, Siqueira AA, et al. Rest energy expenditure is decreased during the acute as compared to the recovery phase of sepsis in newborns. Nutrition & metabolism 2010;7:63. 114. Hulst JM, van Goudoever JB, Zimmermann LJ, et al. Adequate feeding and the usefulness of the respiratory quotient in critically ill children. Nutrition 2005;21:192-8. 115. Letton RW, Chwals WJ, Jamie A, Charles B. Early postoperative alterations in infant energy use increase the risk of overfeeding. J Pediatr Surg 1995;30:988-92; discussion 92-3. 116. Coss-Bu JA, Jefferson LS, Walding D, David Y, Smith EO, Klish WJ. Resting energy expenditure in children in a pediatric intensive care unit: comparison of Harris-Benedict and Talbot predictions with indirect calorimetry values. Am J Clin Nutr 1998;67:74-80. 117. McClave SA, Lowen CC, Kleber MJ, McConnell JW, Jung LY, Goldsmith LJ. Clinical use of the respiratory quotient obtained from indirect calorimetry. JPEN J Parenter Enteral Nutr 2003;27:21-6. 118. McClave SA, Snider HL. Use of indirect calorimetry in clinical nutrition. Nutr Clin Pract 1992;7:207- 21. 119. Makk LJ, McClave SA, Creech PW, et al. Clinical application of the metabolic cart to the delivery of total parenteral nutrition. Crit Care Med 1990;18:1320-7. 120. Stapel SN, de Grooth HJ, Alimohamad H, et al. Ventilator-derived carbon dioxide production to assess energy expenditure in critically ill patients: proof of concept. Crit Care 2015;19:370.

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