Reference List

Weight Loss and Fat Oxidation

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Achten, J., Jeukendrup, A.E., 2004. Optimizing fat oxidation through exercise and diet. Nutrition 20, 716–727. doi:10.1016/j.nut.2004.04.005

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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.

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Manning, Kelly. “Effects Of Exercise Training On Fat Oxidation In Untrained Overweight And Obese Females,” 2011.

McNeil, J., Schwartz, A., Rabasa-Lhoret, R., Lavoie, J.-M., Brochu, M., Doucet, É., 2015. Changes in Leptin and Peptide YY Do Not Explain the Greater-Than-Predicted Decreases in Resting Energy Expenditure After Weight Loss. The Journal of Clinical Endocrinology & Metabolism 100, E443–E452. doi:10.1210/jc.2014-2210

Menshikova, E. V. “Effects of Weight Loss and Physical Activity on Skeletal Muscle Mitochondrial Function in Obesity.” AJP: Endocrinology and Metabolism 288, no. 4 (December 7, 2004): E818–25. doi:10.1152/ajpendo.00322.2004.

Noordhof, D.A., de Koning, J.J., Foster, C., 2010. The maximal accumulated oxygen deficit method. Sports medicine 40, 285–302.

Paoli, A., A. Rubini, J. S. Volek, and K. A. Grimaldi. “Beyond Weight Loss: A Review of the Therapeutic Uses of Very-Low-Carbohydrate (ketogenic) Diets.” European Journal of Clinical Nutrition 67, no. 8 (2013): 789–96.

Phillips, V., 2009. Effects of Exercise Training Modalities on Fat Oxidation in Overweight and Obese Women. University of Otago.

Phinney, Stephen D., Edward S. Horton, Ethan AH Sims, John S. Hanson, Elliot Danforth Jr, and Betty M. Lagrange. “Capacity for Moderate Exercise in Obese Subjects after Adaptation to a Hypocaloric, Ketogenic Diet.” Journal of Clinical Investigation 66, no. 5 (1980): 1152.

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Pruchnic, R. “Exercise Training Increases Intramyocellular Lipid and Oxidative Capacity in Older Adults.” AJP: Endocrinology and Metabolism 287, no. 5 (November 1, 2004): E857–62. doi:10.1152/ajpendo.00459.2003.

Ranneries, C., Bülow, J., Buemann, B., Christensen, N.J., Madsen, J., Astrup, A., 1998. Fat metabolism in formerly obese women. American Journal of Physiology-Endocrinology And Metabolism 274, E155–E161.

ShahinRiyahi-Malayeri, H., AliGaeini, A., 2014. Serum Chemerin Levels and Insulin Resistance Response to High-Intensity Interval Training in Overweight Men.

Talanian, J.L., Galloway, S.D.R., Heigenhauser, G.J.F., Bonen, A., Spriet, L.L., 2006. Two weeks of high-intensity aerobic interval training increases the capacity for fat oxidation during exercise in women. Journal of Applied Physiology 102, 1439–1447. doi:10.1152/japplphysiol.01098.2006

Thangaratinam, S., Rogozińska, E., Jolly, K., Glinkowski, S., Duda, W., Borowiack, E., Roseboom, T., Tomlinson, J., Walczak, J., Kunz, R., Mol, B., Coomarasamy, A., Khan, K., 2012. Interventions to reduce or prevent obesity in pregnant women: a systematic review. Health Technology Assessment 16. doi:10.3310/hta16310

Thivel, D., Isacco, L., Montaurier, C., Boirie, Y., Duché, P., Morio, B., 2012. The 24-h Energy Intake of Obese Adolescents Is Spontaneously Reduced after Intensive Exercise: A Randomized Controlled Trial in Calorimetric Chambers. PLoS ONE 7, e29840. doi:10.1371/journal.pone.0029840

Thompson, D.L., Townsend, K.M., Boughey, R., Patterson, K., Bassett Jr, D.R., 1998. Substrate use during and following moderate-and low-intensity exercise: implications for weight control. European journal of applied physiology and occupational physiology 78, 43–49.

Trexler, E.T., Smith-Ryan, A.E., Norton, L.E., 2014. Metabolic adaptation to weight loss: implications for the athlete. J Int Soc Sport Nutr 11.

Venables, M. C. “Determinants of Fat Oxidation during Exercise in Healthy Men and Women: A Cross-Sectional Study.” Journal of Applied Physiology 98, no. 1 (September 17, 2004): 160–67. doi:10.1152/japplphysiol.00662.2003.

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