1. Lozano JA, Galindo JD, García-Borrón JC et al. Bioquímica para ciencias de la salud. Edit. McGraw-Hill-Interamericana de España. Madrid. 1995. Pp 537-541.
  2. Sastre Gallego A, Gómez Candela C. Soporte nutricional en el paciente oncológico. Edit. You and Us S.A. Madrid. 2004. Pp 71-77.
  3. Young VR. Energy metabolism and requirements in the cancer patients. Cancer Res. 1977; 37: 2336-2347.
  4. DeWys WD. Pathophysiology of cancer cachexia: current understanding and areas for future research. Cancer Res. 1982; 42:721s-725s.
  5. K.M. Argilés, S. Busquets, F. J. López-Soriano y M. Figueras. Fisiopatología de la caquexia neoplásica. Nutr Hosp 2006, 21:4-9.
  6. Tisdale MJ. Mechanism of cancer cachexia. Physiol Rev. 2009; 89: 381-410.
  7. Deberardinis RJ, Sayed N, Ditsworth D, Thompson CB. Brick by brick: metabolism and tumor cell growth. Curr Opin Genet Dev. 2008 Feb; 18(1):54-61. Epub 2008 Apr 2.
  8. Kroemer G, Pouyssegur J. Tumor cell metabolism: cancer's Achilles' heel. Cancer Cell. 2008 Jun;13(6):472-82.
  9. Christopher P, Holroyde CP, Axelrod RS, Skutches CL et al. Lactate Metabolism in Patients with Metastatic Colorectal Cancer. Cancer Res 1979; 39:4900-4904.
  10. Sculier JP, Nicaise C, Klatersky J. Lactic acidosis: a metabolic complication of extensive metastatic cancer. Eur J Cancer Oncol 1983; 19: 597-601.
  11. Semenza GL. Tumor metabolism: cancer cells give and take lactate. J Clin Invest. 2008;118(12):3835–3837. doi:10.1172/JCI37373.
  12. Pierre Sonveaux et al. Targeting lactate-fueled respiration selectively kills hypoxic tumor cells in mice. J Clin Invest. 2008;118(12):3930–3942. doi:10.1172/JCI36843.
  13. Kennedy KM, Dewhirst MW. Tumor metabolism of lactate: the influence and therapeutic potential for MCT and CD147 regulation. Future Oncol. 2010 Jan; 6(1):127-48.