Radiation-Induced Vascular Damage in Tumors: Implications of Vascular Damage in Ablative Hypofractionated Radiotherapy (SBRT and SRS)
Tóm tắt
Từ khóa
Tài liệu tham khảo
Dessauer F. My studies on the special foundations of deep therapy treatment. Am J Roentgenol 1921; 8:578–88.
Regaud C, Ferroux R. Discordance des effects de rayons X, d'une part dans le testicule, par le fractionnement de la dose. C R Soc Biol 1927; 97:431–4.
Coutard J. Roentgen therapy of epitheliomas of the tensile region, hypopharynx, and larynx from 1920 to 1926. Am J Roentgenol 1932; 28:313–31.
Leskell L. The stereotactic method and radiosurgery of the brain. Acta Chirurg Scand 1951; 102:316–9.
Reyes M, Dudek A, Jahagirdar B, Koodie L, Marker PH, Verfaillie CM. Origin of endothelial progenitors in human postnatal bone marrow. J Clin Invest 2002; 109:337–46.
Konerding MA, Miodonski AJ, Lametschwandtner A. Microvascular corrosion casting in the study of tumor vascularity: a review. Scanning Microsc 1995; 9:1233–44.
Song CW, Levitt SH. Quantitative study of vascularity in Walker carcinoma 256. Cancer Res 1971; 31:587–9.
Bergsjom P. Radiation-induced early changes in size and vascularity of cervical carcinoma. Acta Radiol 1967; Suppl 274:7.
Kalofonos H, Rowlinon G, Epenetos AA. Enhancement of monoclonal antibody uptake in human colon tumor xenografts following irradiation. Cancer Res 1990; 50:159–63.
Bussink J, Kaanders JA, Rijken PF, Raleigh JA, Van der Kogel AJ. Changes in blood perfusion and hypoxia after irradiation of a human squamous cell carcinoma xenografts tumor line. Radiat Res 2000; 153:398–404.
Brurberg KG, Thuen M, Ruud EB, Rofstad EK. Fluctuations in pO2in irradiated human melanoma xenografts. Radiat Res 2006; 165:16–25.
Merwin R, Algire GH. Transparent-chamber observations of the response of a transplantable mouse mammary tumor to local roentgen irradiation. J Natl Cancer Inst 1950; 2:593–623.
Robert J, Martin J, Burg C. Action des rayons X sur la vasculatization specifique de tumeurs isologues de la sourid et du rat. Compt Rend Soc Biol 1967; 161:867–71.
Song CW, Levitt SH. Vascular changes in Walker 256 carcinoma of rats following x irradiation. Radiology 1971; 100:397–407.
Song CW, Payne T, Levitt SH. Vascularity and blood flow in x-irradiated Walker carcinoma 256 of rats. Radiology 1972; 104:693–7.
Wong HH, Song CW, Levitt SH. Early changes in the functional vasculature of Walker carcinoma 256 following irradiation. Radiology 1973; 108:429–34.
Kallman RF, DeNardo GL, Stasch MJ. Blood flow in irradiated mouse sarcoma as determined by the clearance of xenon-133. Cancer Res 1972; 32:483–90.
Song CW, Sung JH, Clement JJ, Levitt SH. Vascular changes in neuroblastoma of mice following x-irradiation. Cancer Res 1974; 34:2344–50.
Emami B, Ten Haken RK, Nussbaum GH, Hughes WL. Effects of single-dose irradiation on tumor blood flow studied by15O decay after photon activation in situ. Radiology 1981; 141:207–9.
Fenton B, Lord EM, Paoni SF. Effects of radiation on tumor intravascular oxygenation, vascular configuration, development of hypoxia, and clonogenic survival. Radiat Res 2001; 155:360–8.
Donnelly EF, Geng L, Wojcicki WE, Fleischer AC, Hallahan DE. Quantified power Doppler US of tumor blood flow correlates with microscopic quantification of tumor blood vessels. Radiology 2001; 219:166–70.
Denis F, Bougnoux P, Paon L, le Floch O, Tranquart F. Radiosensitivity of rat mammary tumors correlates with early vessel changes assessed by power Doppler sonography. J Ultrasound Med 2003; 22:921–9.
Ono K, Kinashi Y, Suzuki M. Selective irradiation of the blood vessels by using boron neutron capture reaction-development and its utilization. In: 12th International Congress of Radiation Research. Brisbane, Australia, August 17–22, 2003. Abstract p08/1659.
Tsai JH, Makonnen S, Hyman T, Feldman M, Sehgal CM, Maity A, et al. Ionizing radiation inhibits tumor neovascularization by inducing ineffective angiogenesis. Proc Am Assoc Cancer Res 2005; 46:Abstract #3032.
Kim DWN, Huamani J, Niemann KJ, Lee H, Geng L, Leavitt LL, et al. Noninvasive assessment of tumor vasculature response to radiation-mediated, vasculature-targeted therapy using quantified power Doppler sonograpy. J Ultrasound Med 1006; 25:1507–17.
Song CW, Park HJ, Tanaka N, Kwak HJ, Park MJ, Levitt SH. Implication of vascular damage in the response of tumors to ablative high-dose radiotherapy. In: Proceedings of the 51st Annual ASTRO Meeting, Chicago, Nov. 1–5, 2009. Abstract #2859.
Grabham P, Hu B, Sharma P, Geard C. Effects of ionizing radiation on three-dimension human vessel models: differential effects according to radiation quality and cellular development. Radiat Res 2011; 175:21–8.
Kolstad P. Intercapillary distance, oxygen tension and local recurrence in cervix cancer. Scand J Clin Lab Invest 1968; 106 Suppl:145–57.
Goda F, O'Hara JA, Rhodes ES, Liu KJ, Dunn JF, Bacic, et al. Changes of oxygen tension in experimental tumors after a single dose x-ray irradiation. Cancer Res 1955; 55:2249–52.
Koutcher JA, Alfieri AA, Devitt ML, Rhee JG, Kornblith AB, Mahmood U, et al. Quantitative changes in tumor metabolism, partial pressure of oxygen, and radiobiological oxygenation status postradiation. Cancer Res 1992; 52:4620–7.
Kramer W. Experimental observations on the therapeutic action of radium. Tenth Sci Rep Imp Cancer Res Fung 1932; 95–123.
Clement JJ, Tanaka N, Song CW. Tumor reoxygenation and postirradiation vascular changes. Radiology 1978; 127:799–803.
Lee Y, Auh SL, Wang Y, Burnette B, Wang Y, Meng Y, et al. Therapeutic effects of ablative radiation on local tumor require CD8+T cells changing strategies for cancer treatment. Blood 2009; 114:3589–95.