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Reference List

Lactate and Ventilatory Thresholds

Beaver, W.L., Wasserman, K., Whipp, B.J., 1986. A new method for detecting anaerobic threshold by gas exchange. Journal of applied physiology 60, 2020–2027.

Bertuzzi, R., Nascimento, E.M., Urso, R.P., Damasceno, M., Lima-Silva, A.E., 2013. Energy System Contributions during Incremental Exercise Test. Journal of Sports Science and Medicine 12, 000–000.

Binder, R.K., Wonisch, M., Corra, U., Cohen-Solal, A., Vanhees, L., Saner, H., Schmid, J.-P., 2008. Methodological approach to the first and second lactate threshold in incremental cardiopulmonary exercise testing: European Journal of Cardiovascular Prevention & Rehabilitation 15, 726–734. doi:10.1097/HJR.0b013e328304fed4

Caiozzo, V.J., Davis, J.A., Ellis, J.F., Azus, J.L., Vandagriff, R., Prietto, C.A., McMaster, W.C., 1982. A comparison of gas exchange indices used to detect the anaerobic threshold. Journal of Applied Physiology 53, 1184–1189.

Cottin, F., Leprêtre, P.-M., Lopes, P., Papelier, Y., Médigue, C., Billat, V., 2006. Assessment of Ventilatory Thresholds from Heart Rate Variability in Well-Trained Subjects during Cycling. International Journal of Sports Medicine 27, 959–967. doi:10.1055/s-2006-923849

Cottin, F., Médigue, C., Lopes, P., Leprêtre, P.-M., Heubert, R., Billat, V., 2007. Ventilatory Thresholds Assessment from Heart Rate Variability during an Incremental Exhaustive Running Test. International Journal of Sports Medicine 28, 287–294. doi:10.1055/s-2006-924355

Dekerle, J., Baron, B., Dupont, L., Vanvelcenaher, J., Pelayo, P., 2003. Maximal lactate steady state, respiratory compensation threshold and critical power. Eur J Appl Physiol 89, 281–288. doi:10.1007/s00421-002-0786-y

Edwards, A.M., Clark, N., Macfadyen, A.M., 2003. Lactate and ventilatory thresholds reflect the training status of professional soccer players where maximum aerobic power is unchanged. Journal of Sports Science and Medicine 2, 23–29.

Galbraith, A., Hopker, J.G., Passfield, L., 2013. Changes in Laboratory and Field-Based Measurements in Highly Trained Endurance Runners Across a Training Year. Br J Sports Med 47, e4–e4. doi:10.1136/bjsports-2013-093073.4

Goodwin, M.L., Harris, J.E., Hernández, A., Gladden, L.B., 2007. Blood lactate measurements and analysis during exercise: a guide for clinicians. Journal of diabetes science and technology 1, 558–569.

Gravier, G., Delliaux, S., Ba, A., Delpierre, S., Guieu, R., Jammes, Y., 2013. Early Ventilation-Heart Rate Breakpoint during Incremental Cycling Exercise. Int J Sports Med. doi:10.1055/s-0033-1345145

Hashimoto, T., 2006. Colocalization of MCT1, CD147, and LDH in mitochondrial inner membrane of L6 muscle cells: evidence of a mitochondrial lactate oxidation complex. AJP: Endocrinology and Metabolism 290, E1237–E1244. doi:10.1152/ajpendo.00594.2005

Muniz-Pumares, D., Godfrey, R., Pedlar, C., Glaister, M., 2013. The Relationship Between Oxygen Uptake and Work Rate Below and Above Lactate Threshold. Br J Sports Med 47, e4–e4. doi:10.1136/bjsports-2013-093073.40

Rapoport, B.I., 2010. Metabolic Factors Limiting Performance in Marathon Runners. PLoS Computational Biology 6, e1000960. doi:10.1371/journal.pcbi.1000960

Schurr, A., 2006. Lactate: the ultimate cerebral oxidative energy substrate? Journal of Cerebral Blood Flow & Metabolism 26, 142–152.

Seiler, S., Tønnessen, E., 2009. Intervals, thresholds, and long slow distance: the role of intensity and duration in endurance training. Sportscience 13, 32–53.

Seipel, A., 2015. The Gas Exchange Threshold-Lactate Threshold Relationship Across Cycling Fitness Levels.

Shungu, D.C., Weiduschat, N., Murrough, J.W., Mao, X., Pillemer, S., Dyke, J.P., Medow, M.S., Natelson, B.H., Stewart, J.M., Mathew, S.J., 2012. Increased ventricular lactate in chronic fatigue syndrome. III. Relationships to cortical glutathione and clinical symptoms implicate oxidative stress in disorder pathophysiology: VENTRICULAR LACTATE, OXIDATIVE STRESS AND CEREBRAL BLOOD FLOW IN CFS. NMR in Biomedicine 25, 1073–1087. doi:10.1002/nbm.2772

Solberg, G., Robstad, B., Skjonsberg, O.H., Borchsenius, F., 2005. Respiratory gas exchange indices for estimating the anaerobic threshold. J Sports Sci Med 4, 29–36.

Stöggl, T., Sperlich, B., 2014. Polarized training has greater impact on key endurance variables than threshold, high intensity, or high volume training. Frontiers in Physiology 5. doi:10.3389/fphys.2014.00033

Støren, Ø., Rønnestad, B.R., Sunde, A., Hansen, J., Ellefsen, S., Helgerud, J., 2013. A time saving method to assess power output at lactate threshold in well-trained and elite cyclists: Journal of Strength and Conditioning Research 1. doi:10.1519/JSC.0b013e3182a73e70

Weston, S.B., Gabbett, T.J., 2001. Reproducibility of ventilation of thresholds in trained cyclists during ramp cycle exercise. Journal of Science and Medicine in Sport 4, 357–366. doi:10.1016/S1440-2440(01)80044-X

Wolpern, A.E., Burgos, D.J., Janot, J.M., Dalleck, L.C., 2015. Is a threshold-based model a superior method to the relative percent concept for establishing individual exercise intensity? a randomized controlled trial. BMC Sports Science, Medicine and Rehabilitation 7. doi:10.1186/s13102-015-0011-z

Yoshida, Y., Holloway, G.P., Ljubicic, V., Hatta, H., Spriet, L.L., Hood, D.A., Bonen, A., 2007. Negligible direct lactate oxidation in subsarcolemmal and intermyofibrillar mitochondria obtained from red and white rat skeletal muscle: Lactate and pyruvate oxidation in mitochondria. The Journal of Physiology 582, 1317–1335. doi:10.1113/jphysiol.2007.135095

Yu, H., Chen, X., Zhu, W., Cao, C., 2012. A quasi-experimental study of Chinese top-level speed skaters’ training load: threshold versus polarized model. Int J Sports Physiol Perform 7, 103–12.