BACKGROUND: Accurate estimation of children's resting energy expenditure (REE) is important for planning dietary therapy. OBJECTIVE: Our objective was to compare the utility of 5 REE prediction equations in a diverse sample of young children. DESIGN: REE was obtained in 502 black and white girls and boys aged 6-11 y by using indirect calorimetry at 4 US sites. Measured REE and REE predicted from the equations were compared. RESULTS: None of the equations provided both accurate and unbiased estimates of REE. Two new sets of sex-specific equations including race as a factor were generated and evaluated. One set used easily measured variables-females: REE = 0.046 x weight - 4.492 x 1/height(2) - 0.151 x race + 5.841; males: REE = 0.037 x weight - 4.67 x 1/height(2) - 0.159 x race + 6.792-and accounted for 72% and 69%, respectively, of REE variance. The other set used body-composition variables-females: REE = 0.101 x fat-free mass + 0.025 x fat mass + 0.293 x height(3) - 0.185 x race + 1.643; males: REE = 0.078 x fat-free mass + 0.026 x fat mass - 2.646 x 1/height(2) - 0.244 x race + 4.8-and accounted for 75% and 71%, respectively, of REE variance. When split by race and adiposity, the small bias generated could be corrected to within 0.25 MJ (60 kcal) of the mean measured value. CONCLUSION: Sex-specific equations must take race into account to predict REE adequately in children.
BACKGROUND: Accurate estimation of children's resting energy expenditure (REE) is important for planning dietary therapy. OBJECTIVE: Our objective was to compare the utility of 5 REE prediction equations in a diverse sample of young children. DESIGN: REE was obtained in 502 black and white girls and boys aged 6-11 y by using indirect calorimetry at 4 US sites. Measured REE and REE predicted from the equations were compared. RESULTS: None of the equations provided both accurate and unbiased estimates of REE. Two new sets of sex-specific equations including race as a factor were generated and evaluated. One set used easily measured variables-females: REE = 0.046 x weight - 4.492 x 1/height(2) - 0.151 x race + 5.841; males: REE = 0.037 x weight - 4.67 x 1/height(2) - 0.159 x race + 6.792-and accounted for 72% and 69%, respectively, of REE variance. The other set used body-composition variables-females: REE = 0.101 x fat-free mass + 0.025 x fat mass + 0.293 x height(3) - 0.185 x race + 1.643; males: REE = 0.078 x fat-free mass + 0.026 x fat mass - 2.646 x 1/height(2) - 0.244 x race + 4.8-and accounted for 75% and 71%, respectively, of REE variance. When split by race and adiposity, the small bias generated could be corrected to within 0.25 MJ (60 kcal) of the mean measured value. CONCLUSION: Sex-specific equations must take race into account to predict REE adequately in children.
Authors: D Gallagher; M Visser; R E De Meersman; D Sepúlveda; R N Baumgartner; R N Pierson; T Harris; S B Heymsfield Journal: J Appl Physiol (1985) Date: 1997-07
Authors: J A Yanovski; S Z Yanovski; K M Filmer; V S Hubbard; N Avila; B Lewis; J C Reynolds; M Flood Journal: Am J Clin Nutr Date: 1996-12 Impact factor: 7.045
Authors: B Adar Emken; Ming Li; Gautam Thatte; Sangwon Lee; Murali Annavaram; Urbashi Mitra; Shrikanth Narayanan; Donna Spruijt-Metz Journal: J Phys Act Health Date: 2011-05-11
Authors: Natalie S Hauser; Irini Manoli; Jennifer C Graf; Jennifer Sloan; Charles P Venditti Journal: Am J Clin Nutr Date: 2010-11-03 Impact factor: 7.045
Authors: M M Broadney; F Shareef; S E Marwitz; S M Brady; S Z Yanovski; J P DeLany; J A Yanovski Journal: Pediatr Obes Date: 2018-04-26 Impact factor: 4.000
Authors: Catherine J Klein; Stephan A Villavicencio; Amy Schweitzer; Joel S Bethepu; Heather J Hoffman; Nazrat M Mirza Journal: J Am Diet Assoc Date: 2011-08
Authors: Maximilian G Hohenadel; Tim Hollstein; Marie Thearle; Martin Reinhardt; Paolo Piaggi; Arline D Salbe; Jonathan Krakoff Journal: Metabolism Date: 2019-01-09 Impact factor: 8.694
Authors: M A Adeyemo; J R McDuffie; M Kozlosky; J Krakoff; K A Calis; S M Brady; J A Yanovski Journal: Diabetes Obes Metab Date: 2015-01-11 Impact factor: 6.577
Authors: Diane C Adler-Wailes; Vipul Periwal; Asem H Ali; Sheila M Brady; Jennifer R McDuffie; Gabriel I Uwaifo; Marian Tanofsky-Kraff; Christine G Salaita; Van S Hubbard; James C Reynolds; Carson C Chow; Anne E Sumner; Jack A Yanovski Journal: J Clin Endocrinol Metab Date: 2013-02-28 Impact factor: 5.958
Authors: David M Savastano; Marian Tanofsky-Kraff; Joan C Han; Cong Ning; Rachael A Sorg; Caroline A Roza; Laura E Wolkoff; Kavitha Anandalingam; Kyra S Jefferson-George; Roberto E Figueroa; Ethan L Sanford; Sheila Brady; Merel Kozlosky; Dale A Schoeller; Jack A Yanovski Journal: Am J Clin Nutr Date: 2009-08-05 Impact factor: 7.045
Authors: Sarah T Henes; Doyle M Cummings; Robert C Hickner; Joseph A Houmard; Kathryn M Kolasa; Suzanne Lazorick; David N Collier Journal: Nutr Clin Pract Date: 2013-08-06 Impact factor: 3.080