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Reference List

Resting/Basal Metabolic Rate

Akbulut, G., RakIcıoğlu, N., 2012. The Effects of Diet and Physical Activity on Resting Metabolic Rate (RMR) Measured by Indirect Calorimetry, and Body Composition Assessment by Dual-Energy X-Ray Absorptiometry (DXA).

Alix, E. GillesBor, MaryvonneBouthier-Quintard, FrançoiseBuia, Jean MarieChlala, AndrCledat, Yvesd’Orsay, GenevièveLavigne, ChristianLevasseur, RégisMouzet, Jean BaptisteOmbredanne, Marie PierreSall, AgnèsGaillard, CathyRitz, Patrick, 2007. Energy Requirements in Hospitalized Elderly People. Journal of the American Geriatrics Society 55, 1085–1089. doi:10.1111/j.1532-5415.2007.01236.x

Bonganha, V., Libardi, C.A., Santos, C.F., Souza, G.V.D., Conceiçaõ, M.S., Chacon-Mikahil, M.P.T., Madruga, V.A., 2013. Predictive equations overestimate the resting metabolic rate in postmenopausal women. J Nutr Health Aging 17, 211–214. doi:10.1007/s12603-012-0395-3

Daly, J.M., Heymsfield, S.B., Head, C.A., Harvey, L.P., Nixon, D.W., Katzeff, H., Grossman, G.D., 1985. Human energy requirements: overestimation by widely used prediction equation. The American journal of clinical nutrition 42, 1170–1174.

Ferrie, S., Ward, M., 2007. Back to basics: Estimating energy requirements for adult hospital patients. Nutrition & Dietetics 64, 192–199.

Goedecke, J.H., Gibson, A.S.C., Grobler, L., Collins, M., Noakes, T.D., Lambert, E.V., 2000. Determinants of the variability in respiratory exchange ratio at rest and during exercise in trained athletes. American Journal of Physiology-Endocrinology And Metabolism 279, E1325–E1334.

Havemann, L., 2006. Fat adaptation followed by carbohydrate loading compromises high-intensity sprint performance. Journal of Applied Physiology 100, 194–202. doi:10.1152/japplphysiol.00813.2005

Lopes, E., Chaia, V., de Brito, R.S., 2013. Energy Expenditure Measured by Indirect Calorimetry in Obesity, in: Elkordy, A.A. (Ed.), Applications of Calorimetry in a Wide Context – Differential Scanning Calorimetry, Isothermal Titration Calorimetry and Microcalorimetry. InTech.

Martin, C.K., Heilbronn, L.K., Jonge, L., DeLany, J.P., Volaufova, J., Anton, S.D., Redman, L.M., Smith, S.R., Ravussin, E., 2007. Effect of calorie restriction on resting metabolic rate and spontaneous physical activity. Obesity 15, 2964–2973.

Popp, C., Tisch, J., Bridges, W., Traylor, D., Najm, N., Jesch, E., 2015. Time to Reach Steady State Resting Energy Expenditure in Healthy Adults Using Indirect Calorimetry. FASEB J 29, 632.4.

Shaneshin, M., Rezazadeh, A., Jessri, M., Neyestani, T., Rashidkhani, B., 2011. Validity of predictive equations for resting energy expenditure among Iranian women. Asia Pacific journal of clinical nutrition 20, 646–653.

Vaughan, R.A., Conn, C.A., Mermier, C.M., 2014. Effects of Commercially Available Dietary Supplements on Resting Energy Expenditure: A Brief Report. ISRN Nutrition 2014, 1–7. doi:10.1155/2014/650264

Weir, J. de V., 1949. New methods for calculating metabolic rate with special reference to protein metabolism. The Journal of physiology 109, 1.

Yu, Z., Völgyi, E., Wang, R., Ember, A., Wiklund, P., Alén, M., Tylavsky, F.A., Cheng, S., 2012. Comparison of heart rate monitoring with indirect calorimetry for energy expenditure evaluation. Journal of Sport and Health Science 1, 178–183. doi:10.1016/j.jshs.2012.07.004