References
- Jain R.K., Ward-Hartley K. Tumor blood flow: characterization, modifications and role in hyperthermia. IEEE Transactions in Sonics and Ultrasonics 1984; SU-31: 504–526
- Kang M.S., Song C.W., Levitt S.H. Role of vascular function in response of tumors in vivo to hyperthermia. Cancer Research 1980; 40: 1130–1135
- Lin J.-C., Song C.W. Changes in intratumor pH by two heatings. Cancer Research 1990; 50: 7108–7111
- Lokshina A.M., Song C.W., Rhee J.G., Levitt S.H. Effect of fractionated heating on the blood flow in normal tissues. International Journal of Hyperthermia 1985; 1: 117–129
- Reinhold H.S., Endrich B. Tumor microcirculation as a target for hyperthermia. International Journal of Hyperthermia 1986; 2: 111–137
- Rhee J.G., Song C.W. Thermosensitivity of bovine aortic endothelial cells in culture: in vitro clonogenicity study. Hyperthermic Oncology 1984. Taylor & Francis, London 1984; 157–160
- Rhee J.G., Kim T.H., Levitt S.H., Song C.W. Changes in acidity of mouse tumor by hyperthermia. International Journal of Radiation Oncology, Biology and Physics 1985; 10: 393–399
- Sahu, S.K., Song, C.W. Thermal sensitivity and kinetics of thermotolerance in bovine aortic endothelial cells in culture. International Journal of Hyperthermia, In press, 1990
- Song C.W. Effect of local hyperthermia in blood flow and microenvironment: A review. Cancer Research 1984; 44: 4721s–4730s
- Song C.W., Kang M.S., Rhee J.G., Levitt S.H. Effect of hyperthermia on vascular function, pH and cell survival. Radiology 1980; 137: 795–803
- Song C.W., Patten M.S., Rhee J.G., Levitt S.H. Effect of multiple heatings on the blood flow in RIF-1 tumours, skin and muscle of C3H mice. International Journal of Hyperthermia 1987; 3: 535–545
- Song C.W., Lin J.-C., Chelstrom L.M., Levitt S.H. The kinetics of vascular thermotolerance in SCK tumors of A/J mice. International Journal of Radiation Oncology, Biology and Physics 1989; 17: 799–802
- Song C.W., Chelstrom L.M., Sung J.H. Effects of a second heating on the tumor blood flow. Radiation Research 1990; 122: 66–71
- Vaupel P., Kallinowski F., Kluge M. Pathophysiology of tumors in hyperthermia. Recent Results in Cancer Research 1988; 107: 65–75
- Vaupel P., Kallinowski F., Kluge M., Egelhof E., Fortmeyer H.P. Microcirculatory and pH alterations in isotransplanted rat and xenotransplanted human tumors associated with hyperthermia. Recent Results in Cancer Research 1988; 109: 173–182
- Waterman F.M., Nerlinger R.E., Moylan D.J., III, Leeper D.B. Response of human tumor blood flow to local hyperthermia. International Journal of Radiation Oncology, Biology and Physics 1986; 13: 75–82
- Wike-Hooley J.L., Haveman J., Reinhold H.S. The relevance of tumour pH to the treatment of malignant disease. Radiotherapy and Oncology 1984; 2: 343–366
- Wike-Hooley J.L., van der Zee J., van Rhoon G.C., van den Berg-Blok A.E., Reinhold H.S. Human tumour pH changes following hyperthermia and radiation therapy. European Journal of Cancer and Clinical Oncology 1984; 20: 619–623