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Pediatric Health Volume 4, 2010 - Issue 5
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Perspective

Predicting Energy Requirements of Pediatric Patients with Disease: Which Methods are Appropriate?

Sue Yee Tan1 Department of Nutrition & Dietetics, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, 50300Kuala Lumpur, MalaysiaView further author information
,
Bee Koon Poh1 Department of Nutrition & Dietetics, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, 50300Kuala Lumpur, Malaysia;3 Tel.: +603 9289 7686/7511 Fax: +603 2694 [email protected]Correspondence[email protected]
View further author information
,
Rahman Jamal2 Department of Paediatrics, Faculty of Medicine, Universiti Kebangsaan Malaysia, Kuala Lumpur, MalaysiaView further author information
&
Ismail Mohd Noor1 Department of Nutrition & Dietetics, Faculty of Health Sciences, Universiti Kebangsaan Malaysia, 50300Kuala Lumpur, MalaysiaView further author information
Pages 479-489 | Published online: 02 Nov 2010

Bibliography

  • Allen LH , GillespieSR: What Works? A Review of the Efficacy and Effectiveness of Nutrition Interventions. Asian Development Bank, Manila, Philippines (2001).
  • Michaelsen KF , WeaverL, BrancaF, RobertsonA: Feeding and Nutrition of Infants and Young Children. Guidelines for the WHO European Region, with Emphasis on the Former Soviet Countries. WHO Regional Publications, Copenhagen, No. 87 (2000).
  • Kinney JM : Metabolic responses of the critically ill patient.Crit. Care Clin.11, 569–586(1995).
  • Bond SA , HanAM, WoottonSA, KohlerJA: Energy intake and basal metabolic rate during maintenance chemotherapy.Arch. Dis. Child.67, 229–232(1992).
  • Porter C , CohenN: Indirect calorimetry in critically ill patients: role of the clinical dietitian in interpreting results.J. Am. Diet. Assoc.96, 49–54, 57 (1996).
  • Mauer AM , BurgeesJB, DonaldsonSSet al.: Special nutritional needs of children with malignancies: a review.J. Parenter. Enter. Nutr.14(3), 315–324(1990).
  • Gibney ER : Energy expenditure in disease: time to revisit?Proc. Nutr. Soc.59, 199–207(2000).
  • Johnson RK : Energy. In: Krause‘s Food, Nutrition, and Diet Therapy (10th Edition). Mahan LK, Escott-Stump S (Eds). WB Saunders Company, USA, 19–30(2000).
  • Tang NLS , ChungML, EliaMet al.: Total daily energy expenditure in wasted chronic obstructive pulmonary disease patients.Eur. J. Clin. Nutr.56, 282–287(2002).
  • Reilly JJ : Energy balance and its measurement in childhood disease.Pediatr. Blood Cancer50, 452–455(2008).
  • Davies PSW : Energy requirements and energy expenditure in infancy.Eur. J. Clin. Nutr.46, S29–S35 (1992).
  • FAO/WHO/UNU: Human energy requirements. Report of a joint FAO/WHO/UNU Expert Consultation. FAO Food and Nutrition Technical Report Series 1. Food and Agriculture Organization, Rome, Italy (2004).
  • FAO/WHO/UNU: Energy and protein requirements. Report of a joint FAO/WHO/UNU expert consultation. WHO Technical Report Series No. 724. World Health Organization, Geneva, Switzerland (1985).
  • Gerrior S , JuanWY, BasiotisP: An easy approach to calculating estimated energy requirements.Prev. Chronic Dis.3(4), 1–4(2006).
  • Garrow JS , JamesWPT: Human Nutrition and Dietetics (9th Edition). Churchill Livingstone, London, UK (1993).
  • Warner JT , BellW, WebbDKH, GregoryJW: Daily energy expenditure and physical activity in survivors of childhood malignancy.Pediatr. Res.43(5), 607–613(1998).
  • Caspersen CJ , PowellKE, ChristensonGM: Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research.Public Health Rep.100, 126–31(1985).
  • Gibney E , EliaM, JebbSA, MurgatroydP, JenningsG: Total energy expenditure in patients with small-cell lung cancer: results of a validated study using the bicarbonate-urea method.Metabolism46(12), 1412–1417(1997).
  • Nelson KM , LongCL: Physiological basis for nutrition in sepsis.Nutr. Clin. Pract.3, 452–467(1989).
  • Knox LS , CrosbyLO, FeurerID, BuzbyGP, MillerCL, MullenJL: Energy expenditure in malnourished cancer patients.Ann. Surg.197(2), 152–162(1983).
  • Oosterveld MJS , Van der Kuip M, De Meer K, De Greef HJMM, Gemke RJBJ: Energy expenditure and balance following pediatric intensive care unit admission: a longitudinal study of critically ill children. Pediatr. Crit. Care Med.7(2), 147–153(2006).
  • Jeschke MG , MlcakRP, FinnertyCCet al.: Burn size determines the inflammatory and hypermetabolic response.Crit. Care11, 1–11(2007).
  • Mlcak RP , JeschkeMG, BarrowRE, HerndonDN: The influence of age and gender on resting energy expenditure in severely burned children.Ann. Surg.244(1), 121–130(2006).
  • Singhal A , ParkerS, LinsellL, SerjeantG: Energy intake and resting metabolic rate in preschool Jamaican children with homozygous sickle cell disease.Am. J. Clin. Nutr.75, 1093–1097(2002).
  • Barden EM , ZemelBS, KawchakDA, GoranMI, Obene-FrempongK, StallingsVA: Total and resting energy expenditure in children with sickle cell disease.J. Pediatr.136, 73–79(2000).
  • den Broeder E , OeseburgB, LippensRJJet al.: Basal metabolic rate in children with solid tumor.Eur. J. Clin. Nutr.55, 673–682(2001).
  • Weekes CE : Controversies in the determination of energy requirements.Proc. Nutr. Soc.66, 367–377(2007).
  • Elia M : Changing concepts of nutrient requirements in disease: implications for artificial nutritional support.Lancet345, 1279–1284(1995).
  • Green GJ , WeitzmanSS, PencharzPB: Resting energy expenditure in children newly diagnosed with stage IV neuroblastoma.Pediatr. Res.63, 332–336(2008).
  • Leitch CA , KarnCA, EnsingGJ, DenneSC: Energy expenditure after surgical repair in children with cyanotic congenital heart disease.J. Pediatr.137, 381–385(2000).
  • Reilly JJ , VenthamJC, RalstonJM, DonaldsonM, GibsonB: Reduced energy expenditure in preobese children treated for acute lymphoblastic leukemia.Pediatr. Res.44(4), 557–562(1998).
  • Mayer EIE , ReuterM, DopferRE, RankeMB: Energy expenditure, energy intake and prevalence of obesity after therapy for acute lymphoblastic leukemia during childhood.Hormone Res.53, 193–199(2000).
  • Varille V , CezardJP, de Lagausie P et al.: Resting energy expenditure before and after surgical resection of gut lesions in pediatric Crohn‘s disease. J. Pediatr. Gastroent. Nutr.23(1), 13–19(1996).
  • Daly JM , HeymsfieldSB, HeadCAet al.: Human energy requirements: overestimation by widely used prediction equation.Am. J. Clin. Nutr.42, 1170–1174(1985).
  • MacDonald A , HildebrandtL: Comparison of formulaic equations to determine energy expenditure in the critically ill patient.Nutrition19, 233–239(2003).
  • Reilly JJ , NessAR, SherriffA: Epidemiological and physiological approaches to understanding the aetiology of pediatric obesity: finding the needles in the haystacks.Pediatr. Res.61, 646–652(2007).
  • Ringwald-Smith K , WilliamsR, MackertP, StricklinL, SargentT, BowmanL: Comparison of energy estimation equations with measured energy expenditure in obese adolescent patients with cancer.J. Am. Diet. Assoc.99, 844–848(1999).
  • Briassoulis G , VenkataramanS, ThompsonAE: Energy expenditure in critically ill children.Crit. Care Med.8(4), 1166–1172(2000).
  • Metsios GS , Stavropoulos-KalinoglouA, PanoulasVFet al.: New resting energy expenditure prediction equations for patients with rheumatoid arthritis.Rheumatology47, 500–506(2008).
  • Harris JA , BenedictFG: A Biometric Study of Basal Metabolism In Man (No. 279). Carnegie Institute of Washington, Washington DC, USA (1919).
  • Schofield WN : Predicting basal metabolic rate, new standards and review of previous work.Hum. Nutr. Clin. Nutr.39, 5–41(1985).
  • Sy J , GourishankarA, GordonWEet al.: Bicarbonate kinetics and predicted energy expenditure in critically ill children.Am. J. Clin. Nutr.88, 340–347(2008).
  • Mehta NM , BechardLJ, LeavittK, DugganC: Cumulative energy imbalance in the pediatric intensive care unit: role of targeted indirect calorimetry.J. Parenter. Enteral Nutr.33(3), 336–344(2009).
  • Kaplan AS , ZemelBS, NeiswenderKM, StallingsVA: Resting energy expenditure in clinical pediatrics: measured versus prediction equations.J. Pediatr.127, 200–205(1995).
  • Murphy MD , Ireton-JonesCS, HilmanBC, GormanMA, LiepaGU: Resting energy expenditures measured by indirect calorimetry are higher in preadolescent children with cystic fibrosis than expenditures calculated from prediction equations.J. Am. Diet. Assoc.95(1), 30–33(1995).
  • Mayes T , GottschlichMM, KhouryJ, WardenGD: Evaluation of predicted and measured energy requirements in burned children.J. Am. Diet. Assoc.96, 24–29(1996).
  • Suman OE , MlcakRP, ChinkesDL, HerndonDN: Resting energy expenditure in severely burned children: analysis of agreement between indirect calorimetry and prediction equations using the Bland-Altman method.Burns32(3), 335–342(2006).
  • Poh BK , TanSY, RahmanAJ: Assessment of basal metabolic rate among pediatric cancer patients at Hospital UKM. Proceedings of: The 5th National Symposium on Health Sciences. Putrajaya, Malaysia, 25–26 May (2004).
  • Vazquez Martinez JL , Martinez-RomilloPD, Diez Sebastian J, Ruza Tarrio F: Predicted versus measured energy expenditure by continuous, online indirect calorimetry in ventilated, critically ill children during the early postinjury period. Pediatr. Crit. Care Med.5(1), 19–27(2004).
  • Shakur YA , RichardsH, PencharzPB: Is it necessary to measure resting energy expenditure in clinical practice in children?J. Pediatr.152, 437–9(2008).
  • White MS , ShepherdRW, McEnieryJA: Energy expenditure in 100 ventilated, critically ill children: improving the accuracy of predictive equations.Crit. Care Med.28(7), 2307–2312(2000).
  • Goran MI , BroemelingL, HerndonDN, PetersEJ, WolfeRR: Estimating energy requirements in burned children: a new approach derived from measurements of resting energy expenditure.Am. J. Clin. Nutr.54, 35–40(1991).
  • Derumeaux-Burel H , MeyerM, MorinL, BoirieY: Prediction of resting energy expenditure in a large population of obese children.Am. J. Clin. Nutr.80, 1544–1550(2004).
  • Reeves MM , CapraS: Predicting energy requirements in the clinical setting: are current methods evidence based?Nutr. Rev.61, 143–151(2003).
  • Wilmore DW : The Metabolic Management of the Critically Ill. Plenum Publishing Corporation, NY, USA (1977).
  • Long CL , SchaffelN, GeigerJW, SchillerWR, BlakemoreWS: Metabolic response to injury and illness: estimation of energy and protein needs from individual calorimetry and nitrogen balance.J. Parenter. Enter. Nutr.3, 452–456(1979).
  • Elia M : Artificial nutritional support.Med. Int.82, 3392–3396(1990).
  • Mehta N , Compher C; ASPEN Board of Directors: ASPEN Clinical guidelines: nutrition support of the critically ill child. J. Parenter. Enteral Nutr.33(3), 260–276(2009).
  • Goran MI : Estimating energy requirements: regression based prediction equations or multiples of resting metabolic rate.Public Health Nutrition8(7A), 1184–1186(2005).
  • Ridley K , OldsTS: Assigning energy costs to activities in children: a review and synthesis.Med. Sci. Sports Exerc.40(8), 1439–1446(2008).
  • Muller MJ , Bosy-WestphalA, KlausSet al.: World Health Organization equations have shortcomings for predicting resting energy expenditure in persons from a modern, affluent population: generation of a new referenece standard from a retrospective analysis of a German database of resting energy expenditure.Am. J. Clin. Nutr.80, 1379–1390(2004).
  • Torun B : Energy requirements of children and adolescents. Report of a joint FAO/WHO/UNU Expert Consultation. FAO Food and Nutrition Technical Report Series 1. Food and Agriculture Organization, Rome, Italy, 20–24(2001).
  • Bouchard C , TremblayA, LeblancC, LortieG, SavardR, TheriaultG: A method to assess energy expenditure in children and adults.Am. J. Clin. Nutr.37, 461–467(1983).
  • Mullen JL : Indirect calorimetry in critical care.Proc. Nutr. Soc.50, 239–244(1991).
  • Reeves MM , DaviesPSW, BauerJ, BattistuttaD: Reducing the time period of steady state does not affect the accuracy of energy expenditure measurements by indirect calorimetry.J. Appl. Physiol.97, 130–134(2004).
  • Framson CM , LeLeikoNS, DallalGE, RoubenoffR, SnellingLK, DwyerJT: Energy expenditure in critically ill children.Pediatr. Crit. Care Med.8(3), 264–267(2007).
  • de Klerk G , HopWCJ, de Hoog M, Joosten KEM: Serial measurements of energy expenditure in critically ill children: useful in optimizing nutritional therapy? Intensive Care Med.28, 1781–1785(2002).
  • McCloskey M , RedmondAOB, McCabeC, PyperS, WesterterpKR, ElbornSJ: Energy balance in cystic fibrosis when stable and during respiratory exacerbation.Clin. Nutr.23, 1405–1412(2004).
  • Sherman MS , PillaiA, JacksonA, Heiman-PattersonT: Standard equations are not accurate in assessing resting energy expenditure in patients with amyotrophic lateral sclerosis.J. Parenter. Enteral. Nutr.28(6), 442–446(2004).
  • White MS , ShepherdRW, McEnieryJA: Energy expenditure measurements in ventilated critically ill children: within- and between-day variability.J. Parenter. Enteral Nutr.23, 300–304(1999).
  • Wells JCK : Energy metabolism in infants and children.Nutrition14, 817–820(1998).
  • Walker RN , HeubergerRA: Predictive equations for energy needs for the critically ill.Respir. Care54(4), 509–521(2009).
  • Livingstone MBE , CowardWA, PrenticeAMet al.: Daily energy expenditure in free-living children: comparison of heart-rate monitoring with the doubly labelled water (2H218O) method.Am. J. Clin. Nutr.56, 343–352(1992).
  • Sirard JR , PateRR: Physical activity assessment in children and adolescents.Sports Med.31(6), 439–454(2001).
  • Bitar A , VermorelM, FellmannNet al.: Heart rate recording method validated by whole body indirect calorimetry in 10-yr-old children.J. Appl. Physiol.81(3), 1169–1173(1996).
  • Lifson N , McClintockR: Theory of use of the turnover rates of body water for measuring energy and maternal balance.J. Theor. Biol.12, 46–74(1966).
  • Speakman JR : The history and theory of the doubly labeled water technique.Am. J. Clin. Nutr.68(4), 932S–938S (1998).
  • Walczyk T , CowardA, SchoellerDAet al.: Stable isotope techniques in human nutrition research: concerted action is needed.Food Nutr. Bull.23(3), 69–75(2002).
  • Schoeller DA : Recent advances from application of doubly labeled water to measurement of human energy expenditure.J. Nutr.129, 1765–1768(1999).
  • Trabulsi J , SchoellerDA: Evaluation of dietary assessment instruments against doubly labeled water, a biomarker of habitual energy intake.Am. J. Physiol. Endocrinol. Metab.281, E891–E899 (2001).
  • Goran MI , PoehlmanET, JohnsonRK: Energy requirement across the life span: new findings based on measurement of total energy expenditure with doubly labeled water.Nutr. Res.15(1), 115–150(1995).
  • Whitehead RG , PaulAA: Longitudinal study on energy needs: an appraisal of revised estimates for the dietary energy needs of children through to adolescence. In: Feeding From Toddlers to Adolescence. Nestle Nutrition Workshop Series. Ballabriga A (Ed.), Lippincott-Raven Publishers, PA, USA (1996).
  • Butte NF , WongWW, HopkinsonJM, HeinzCJ, MehtaNR, SmithEO: Energy requirements derived from total energy expenditure and energy deposition during the first 2 years of life.Am. J. Clin. Nutr.72, 1558–1569(2000).
  • Black AE , CowardWA, ColeTJ, PrenticeAM: Human energy expenditure in affluent societies: an analysis of 574 doubly labeled water measurements.Eur. J. Clin. Nutr.50, 72–92(1996).
  • Torun B , DaviesPSW, LivingstoneMBE, PaolissoM, SackettR, SpurrGB: Energy requirements and dietary energy recommendations for children and adolescents 1 to 18 years old.Eur. J. Clin. Nutr.50(Suppl. 1), S37–S81 (1996).
  • Ball EJ , O‘ConnerJ, AbbottRet al.: Total energy expenditure, body fatness, and physical activity in children aged 6–9 years.Am. J. Clin. Nutr.74, 524–528(2001).
  • Davies PSW , LivingstoneMBE, PrenticeAMet al.: Total energy expenditure during childhood and adolescents.Proc. Nutr. Soc.50, 14A (1991).
  • Tabachnick BG , FidellLS: Using Multivariate Statistics (3rd Edition). Harper Collins College Publishers, NY, USA (1996).
  • Elia M , JonesGM, JenningsGet al.: Estimating energy expenditure from specific activity of urine urea during lengthy subcutaneous NaH14CO3 infusion.Am. J. Physiol. Endocrinol. Metab.269, E172–E182 (1995).
  • Garza JJ , ShewSB, KeshenTH, DzakovicA, JahoorF, JaksicT: Energy expenditure in ill premature neonates.J. Pediatr. Surg.37, 289–293(2002).
  • Kien CL : Isotopic dilution of CO2 as an estimate of CO2 production during substrate oxidation studies.Am. J. Physiol.257, E296–E298 (1989).

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