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The following HTML text is provided to enhance online readability. Many aspects of typography translate only awkwardly to HTML. Please use the page image as the authoritative form to ensure accuracy. 13. Roman, D.D., and P.W. Sperduto. 1995. Neuropsychological effects of cranial radiation: Current knowledge and future directions. Int. J. Radiat. Oncol. Biol. Phys. 31: 983-998. 14. Surma-aho, O., M. Niemalä, J. Vilkki, M. Kouri, A. Brander, O. Salonen, A. Paetau, M. Kallio, J. Pyykkönen, and J. Jääskeläinen. 2001. Adverse long-term effects of brain radiotherapy in adult low-grade glioma patients. Neurology 56: 1285-1290. 15. Shaw, E.G., and M.E. Robbins. 2005. Central nervous system. In Radiation Toxicity: A Practical Guide (W. Small and G.E. Woloschak, eds.). Kluwer Academic Publishers, New York, N.Y. 16. Tofilon, P.J., and J.R. Fike. 2000. The radioresponse of the central nervous system: A dynamic process. Radiat. Res. 153: 357-370. 17. Gaber, M.W., O.M. Sabek, K. Fukatsu, H.G. Wilcox, M.F. Kiani, and T.E. Merchant. 2003. Differences in ICAM-1 and TNF-α expression between large single fraction and fractionated irradiation in mouse brain. Int. J. Radiat. Biol. 79: 359-366. 18. Jaenke, R.S., M.E.C. Robbins, T. Bywaters, E. Whitehouse, M. Rezvani, and J.W. Hopewell. 1993. Capillary endothelium: Target site of renal radiation injury. Lab. Invest. 57: 551-565. 19. Rubin, P., J. Finkelstein, and D. Shapiro. 1992. Molecular biology mechanisms in the radiation induction of pulmonary injury syndromes: Interrelationship between the alveolar macrophages and the septal fibroblast. Int. J. Radiat. Oncol. Biol. Phys. 24: 93-101. 20. Robbins, M.E.C., and W. Zhao. 2004. Chronic oxidative stress and radiation-induced late normal tissue injury: A review. Int. J. Radiat. Biol. 80: 251-259. 21. Robbins, M.E.C., and W. Zhao. 2004. Chronic oxidative stress and radiation-induced late normal tissue injury: A review. 22. Yoneoka, Y., M. Satoh, K. Akiyama, K. Sano, Y. Fujii, and R. Tanaka. 1999. An experimental study of radiation-induced cognitive dysfunction in an adult rat model. Br. J. Radiol. 72: 1196-1201. 23. Hodges, H., N. Katzung, P. Sowinski, J.W. Hopewell, J.H. Wilkinson, T. Bywaters, and M. Rezvani. 1998. Late behavioral and neuropathological effects of local brain irradiation in the rat. Behav. Brain Res. 91: 99-114. 24. Brown, W.R., C.R. Thore, D.M. Moody, M.E. Robbins, and K.T. Wheeler. 2005. Vascular damage after fractionated whole-brain irradiation in rats. Radiat. Res. 164(5): 662-668. 25. Brenner, D.J., and E.J. Hall. 1992. Commentary 2 on Cox and Little: Radiation-induced oncogenic transformation: The interplay between dose, dose protraction, and radiation quality. Adv. Radiat. Biol. 16: 167-179. 26. Curtis, S.B. 1994. Importance of dose rate and cell proliferation in the evaluation of biological experimental results. 27. Curtis, S.B. 1996. Possible effects of protracted exposure to the additivity risks from space radiations. 28. Hall, E.J. 1994. Radiobiology for the Radiologist, 4th Edition. J.B. Lippincott Co., Philadelphia, Pa. 29. Tofilon, P.J., and J.R. Fike. 2000. The radioresponse of the central nervous system: A dynamic process. Radiat. Res. 153: 357-370. 30. Gaber, M.W., O.M. Sabek, K. Fukatsu, H.G. Wilcox, M.F. Kiani, and T.E. Merchant. 2003. Differences in ICAM-1 and TNF-α expression between large single fraction and fractionated irradiation in mouse brain. Int. J. Radiat. Biol. 79: 359-366. 31. Jaenke, R.S., M.E.C. Robbins, T. Bywaters, E. Whitehouse, M. Rezvani, and J.W. Hopewell. 1993. Capillary endothelium: Target site of renal radiation injury. Lab. Invest. 57: 551-565. 32. Rubin, P., J. Finkelstein, and D. Shapiro. 1992. Molecular biology mechanisms in the radiation induction of pulmonary injury syndromes: Interrelationship between the alveolar macrophages and the septal fibroblast.
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