Zusammenfassung
Seit Ende des 19. Jahrhunderts ist die Hyperthermie als eine Behandlungsform bösartiger Tumoren bekannt. So beschrieben Busch 1886 und Bruns 1888 Spontanheilungen von malignen Tumoren nach langdauernden Fieberperioden infolge von Erysipelinfektionen. Seitdem wurde immer wieder versucht, die Hyperthermie in die klinische Behandlung von Malignomen einzuführen, ohne daß sie jedoch einen breiten Zugang in die Klinik gefunden hätte.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Literatur
Alfieri AA, Hahn EW, Kim JH (1975) The relationship between time of fractionated and single doses of radiation and hyperthermia on the sensitization of an in vivo mouse tumour.
Arcangeli G, Cividalli A, Lovisolo G, Mauro F, Creton G, Nervi C, Pavin G (1980) Effectiveness of local hyperthermia in association with radiotherapy or chemotherapy: Comparison of multimodality treatments on multiple neck node metastasis. In: Arcangeli G, Mauro F (eds) Hyperthermia in radiation oncology. Masson, Milano, p 257
Ardenne M von (1971) Theoretische und experimentelle Grundlagen der Krebs-Mehrschritt-Therapie, 2. Aufl. VEB Verlag Volk und Gesundheit, Berlin
Ardenne M von (1972) Selective multiphase cancer therapy. Conceptional aspects and experimental basis. Adv Pharmacol Chemother 10: 339–380
Ardenne M von (1978) On an new physical principle for selective local hyperthermia of tumor tissues. In: Streffer C, Beuningen D van, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore München, p 96
Ardenne M von, Kirsch R (1965) Zur Methodik der Extremhyperthermie, insbesondere bei der KrebsMehrschritt-Therapie. Deutsches Gesundheitswesen 20:1935–1940,1980–1988
Atkinson ER (1979) Assessment of current hyper- thermia technology. Cancer Res 39: 2313–2324
Barrat GM, Wills ED (1979) The effect of hyperthermia and radiation on lysosomal enzyme activity of mouse mammary tumours. Eur J Cancer 15: 243–250
Bauer KD, Henle KJ (1979) Arrhenius analysis of heat survival curves from normal and thermotolerant CHO cells. Radiat Res 78: 251–263
Ben-Hur E, Elkind MM (1974) Thermally enhanced radioresponse of cultured chinese hamster cells: Damage and repair of single-stranded DNA and a DNA complex. Radiat Res 59: 484–495
Ben-Hur E, Riklis E (1979) Enhancement of thermal cell killing by polyamines. IV. Effects of heat sensitivity and spermine on protein synthesis and ornithine decarboxylase. Cancer Biochem Biophys 4: 25–31
Beuningen D van (1983) Hyperthermie als cytotoxisches und strahlensensibilisierendes Agens: Zelluläre Effekte–Eine Übersicht. Strahlentherapie 159: 60–66
Beuningen D van, Zamboglou N, Streffer C, Kenn J (1980) Proliferation kinetics and formation of micronuclei after hyperthermia and radiation in human melanoma cells. In: Arcangeli G, Mauro F (eds) Hyperthermia and radiation oncology. Masson, Milano, p 231
Beuningen D van, Streffer C, Bertholdt G (1981) Mikronukleusbildung im Vergleich zur Überlebensrate von menschlichen Melanomzellen nach Röntgen-, Neutronenbestrahlung und Hyperthermie. Strahlentherapie 157: 600–606
Beuningen D van, Streffer C, Zamboglou N, Kersting St (1982) Proliferation of human melanoma cells after single and fractionated exposure to hyperthermia and X-rays. J Natl Cancer Inst Monogr 61: 137–140
Bhuyan BK, Day KJ, Edgerton CE, Ogunbase O (1977) Sensitivity of different cell lines and of different phases in the cell cycle to hyperthermia. Cancer Res 37: 3780–3784
Bicher HJ, Sandhu TS, Hetzel W (1980) Hyperthermia as a radiation adjuvant. An effective fractionation regime. In: Arcangeli G, Mauro F (eds) Hyperthermia in radiation oncology. Masson, Milano, p 277
Bleehen NM, Honess DJ, Morgan JE (1977) Interaction of hyperthermia and the hypoxic cell sensitizer Ro-07–0582 on the EMT 6 mouse tumour. Br J Cancer 35: 299–306
Bowler K, Duncan CJ, Gladwell RT, Davison TF (1973) Cellular heat injury. Comp Biochem Physiol [A] 45: 441–450
Braun J, Hahn GM (1975) Enhanced cell killing by bleomycin and 43 °C hyperthermia and the inhibition of recovery from potentially lethal damage. Cancer Res 35: 2921–2927
Brenner HJ, Yerushalmi A (1975) Combined local hyperthermia and X-irradiation in the treatment of metastatic tumours. Br J Cancer 33: 91–95
Bull JM, Lees D, Schuette W, Whang-Peng J, Smith R, Bynum G, Atkinson R, Gottdiener JS, Gralnick HR, Shawker TH, DeVita VT (1979) Whole body hyperthermia: A phase-I-trial of a potential adjuvant to chemotherapy. Ann Intern Med 90: 317–323
Cavaliere R, Ciocatto EC, Giovanella BC, Heidelberger C, Johnson RO, Margottini M, Mondovi B, Moricca G, Rossi-Fanelli A (1967) Selective heat sensitivity of cancer cells. Cancer 20: 1351–1381
Cetas TC, Connor WG (1978) Thermometry considerations in localized hyperthermia. Med Phys 5: 79–91
Chen TT, Heidelberger C (1969) Quantitative studies on the malignant transformation of mouse prostate cells by carcinogenic hydrocarbons in vitro. Int J Cancer 4: 166–178
Cockett AT, Kazmin M, Nakamura R, Fingerhut A, Stein JJ (1967) Enhancement of regional bladder megavoltage irradiation in bladder cancer using local bladder hyperthermia. J Urol 97: 1034–1039
Corry PM, Robinson S, Getz S (1977) Hyperthermic Effects on DNA repair mechanism. Radiology 123: 475–482
Crile G (1963) The effects of heat and radiation on cancers implanted on the feet of mice. Cancer Res 23: 372–380
DeHoratius RJ, Hosea JM, Epps DE van, Reed WP, Edwards WS, Williams RC (1977) Immunologic function in humans before and after hyperthermia and chemotherapy for disseminated malignancy. J Natl Cancer Inst 58: 905–911
Dethlefsen LA, Dewey WC eds (1982) Proceedings of the third international symposium: Cancer therapy by hyperthermia, drugs and radiation. J Natl Cancer Inst Monogr 61
Dewey WC, Westra A, Miller HH, Nagasawa H (1971) Heat induced lethality and chromosomal damage in synchronized chinese hamster cells treated with 5-bromodeoxyuridine. Int J Radiat Bio 120:505–520
Dewey WC, Hopwood LE, Sapareto SA, Gerweck LE (1977) Cellular response to combination of hyperthermia and radiation. Radiology 123: 463–474
Dewey WC, Sapareto SA, Betten DA (1978) Hyper-thermic radiosensitization of synchronous chinese hamster cells: relationship between lethality and chromosomal aberrations. Radiat Res 76: 48–59
Dickson JA, Calderwood SK (1976) In vivo hyperthermia of Yoshida tumour induces entry of non-proliferating cells into cycle. Nature 263: 772–774
Dickson JA, Calderwood SK (1979) Effects of hyperglycemia and hyperthermia on the pH, glycolysis, and respiration of the Yoshida sarcoma in vivo. J Natl Cancer Inst 63: 1371–1381
Dickson JA, Ellis JA (1976) The influence of tumour volume and the degree of heating on the response of the solid Yoshida sarcoma to hyperthermia (40–42 °C). Cancer Res 36: 1188–1195
Dickson JA, Muckle DA (1972) Total body hyperthermia versus primary tumour hyperthermia in the treatment of the rabbit VX-2 carcinoma. Cancer Res 32: 1916–1923
Dickson JA, Suzangar M (1974) In vitro- in vivo studies on the susceptibility of the solid Yoshida sarcoma to drugs and hyperthermia. Cancer Res 34: 1263–1274
Dickson JA, Shah SA, Waggott D, Whalley WB (1977) Tumor eradication in the rabbit by radio-frequency heating. Cancer Res 37: 2162–2169
Dietzel F (1975) Tumor and Temperatur. Aktuelle Probleme bei der Anwendung thermischer Verfahren in Onkologie und Strahlentherapie, 1. Aufl. Urban & Schwarzenberg, München
Dietzel F (1978) Thermo-Radio-Therapie, 1. Aufl. Urban & Schwarzenberg, München Wien Baltimore
Dietzel F, Gericke D, König W (1976) Tumortherapie mit Hochfrequenz zur Verstärkung der Onkolyse durch Clostridium Butyricum (Stamm M 55). Strahlentherapie 152: 537–541
Donaldson S, Gordon L, Hahn GM (1978) Protective effect of hyperthermia against the cytotoxicity of Actinomycin D on chinese hamster cells. Cancer Treat Rep 62: 1489–1495
Durand RE (1978a) Effects of hyperthermia on the cycling, noncycling and hypoxic cells of irradiated and unirradiated multicell spheroids. Radiat Res 75:373–384
Durand RE (1978b) Potentiation of radiation lethality by hyperthermia in a tumor model: Effects of sequence, degree and duration of heating. Int J Radiat Oncol Biol Phys 4:401–405
Fabricius H-A, Stahn R, Metzger B, Fluck K, Engelhardt R, Neumann H, Sellin D (1978) Changes in cellular immunological functions of healthy adults induced by one-hour hyperthermia. In: Streffer C, Beuningen D, van, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore München, p 309
Falk P (1980) The vascular pattern of the spontaneous C3H mouse mammary carcinoma and its significance in radiation response and in hyperthermia. Br J Cancer 16: 203–217
Field SB (1976) A historical survey of radiobiology and radiotherapy with fast neutrons. Curr Top Radiat Res 11: 1–86
Field SB, Law MP (1978) The response of skin to fractionated heat and X-rays. Br J Radiol 51: 221–222
Field SB, Hume SP, Law MP, Myers R (1977) The response of tissues to combined hyperthermia and X-rays. Br J Radiol 50: 129–134
Fuller DJM, Gerner EW, Russell DH (1977) Polyamine biosynthesis and accumulation during the G1 to S-phase transition. J Cell Physiol 93: 81–88
George KC, Hirst DG, McNally NJ (1977) Effect of hyperthermia on cytotoxicity of the radiosensitizer Ro-07–0582 in a solid mouse tumour. Br J Cancer 35: 372–375
Gericke D, Dietzel F, König W (1975) Mikrowellen-hyperthermie and Onkolyse durch Clostridien. Naturwissenschaften 62: 541–542
Gerner EW, Russell DH (1977) The relationship between polyamine accumulation and DNA replication in synchronized chinese hamster overy cells after heat shock. Cancer Res 37: 482–489
Gerner EW, Schneider MJ (1975) Induced thermal resistance in HeLa cells. Nature 256: 500–502
Gerner EW, Meyn RE, Humphrey RM (1976a) Non-histone protein synthesis during G1-phase and its relation to DNA replication. J Cell Physiol 87: 277–288
Gerner EW, Boone R, Connor WG, Hicks JA, Boone MLM (1976b) A transient thermotolerant survival response produced by single thermal doses in Hela Cells. Cancer Res 36: 1035–1040
Gerner EW, Leith JT, Boone MLM (1976c) Mammalian cell survival response following irradiation with 4 MeV X-rays or accelerated helium ions combined with hyperthermia. Radiology 119: 715–720
Gerweck LE (1977) Modification of cell lethality at elevated temperatures: the pH effect. Radiat Res 70: 224–235
Gerweck LE, Gillette EL, Dewey WC (1974) Killing of Chinese hamster cells in vitro by heating under hypoxic or aerobic conditions. Eur J Cancer 10: 691–693
Gerweck LE, Gillette EL, Dewey WC (1975) Effect of heat and radiation on synchronous Chinese hamster cells: Killing and repair. Radiat Res 64: 611–623
Gerweck LE, Nygaard TG, Burlett M (1979) Response of cells to hyperthermia under acute and chronic hypoxic conditions. Cancer Res 39: 966–972
Gillette EL, Ensley BA (1979) Effect of heating order on radiation response of mouse tumour and skin. Int J Radiat Oncol Biol Phys 5: 209–213
Giovanella BC, Lohman WA, Heidelberger C (1970) Effects of elevated temperature and drugs on the viability of L1210 leukemia cells. Cancer Res 30: 1623–1631
Giovanella BC, Stehlin JS, Morgan AC (1976) Selective lethal effect of supranormal temperatures on human neoplastic cells. Cancer Res 36: 3944–3950
Goffinet DR, Choi KY, Brown JM (1977) The combined effects of hyperthermia and ionizing radiation on the adult mouse spinal cord. Radiat Res 72: 238–245
Goldenberg DM, Langer M (1971) Direct and abscopal antitumor action of local hyperthermia. Z Naturforsch [C] 266: 359–361
Gullino PM, Grantham FH, Smith SH, Haggerty AC (1965) Modification of the acid-base status of the internal milieu of tumors. J Natl Cancer Inst 34: 857–868
Gullino PM, Yi PM, Grantham FH (1978) Relationship between temperature and blood supply or consumption of oxygen and glucose by rat mammary carcinomas. J Natl Cancer Inst 60: 835–847
Hahn EW, Alfieri AA, Kim JH (1974) Increased cures using fractionated exposures of X-irradiation and hyperthermia in the local treatment of the Ridgeway osteogenic sarcoma in mice. Radiology 113: 191–202
Hahn EW, Canada TR, Alfieri AA, McDonald JC (1976) The interaction of hyperthermia with fast neutrons or X-rays on local tumor response. Ra-diat Res 68: 39–56
Hahn GM (1974) Metabolic aspects of the role of hyperthermia in mammalian cell inactivation and their possible relevance to cancer treatment. Cancer Res 34: 3117–3123
Hahn GM (1979) Potential for therapy of drugs and hyperthermia. Cancer Res 39: 2264–2268
Hahn GM, Strande DP (1976) Cytotoxic effects of hyperthermia and Adriamycin on Chinese hamster cells. J Natl Cancer Inst 57: 1063–1067
Hahn GM, Braun J, Har-Kedar J (1975) Thermochemotherapy: Synergism between hyperthermia (42–43 °C) and Adriamycin (or Bleomycin) in mammalian cell inactivation. Proc Natl Acad Sci USA 72: 937–940
Hahn GM, Li G, Marmor J, Pounds D (1979) Ultrasound for induction of localized hyperthermia: Preclinical and clinical studies. In: Okada S, Imamura M, Terashima T, Yamaguchi H (eds) Radiation research. Toppan Printing, Tokyo, p 855
Hall RR, Schade ROK, Swinney J (1974) Effects of hyperthermia on bladder cancer. Br Med J 2: 583–594
Harisiadis L, Hahn EJ, Kraljevic K, Borek C (1975) Hyperthermia: Biological studies at the cellular level. Radiology 117: 447–452
Harisiadis L, Duk Sung, Hall EJ (1977) Thermal tolerance and repair of thermal damage by cultured cells. Radiology 123: 505–509
Harisiadis L, Duk II Sung, Kessaris N, Hall EJ (1978) Hyperthermia and low dose-rate irradiation. Radiology 129: 195–198
Harris JR, Murthy AK, Belli JA (1977) The effect of delay between heat and X-irradiation on the survival responses of plateau phase V 79 cells. Int J Radiat Oncol Biol Phys 2: 515–519
Harris JW, Meneses JJ (1978) Effects of hyperthermia on the production and activity of primary and secondary cytolytic T-lymphocytes in vitro. Cancer Res 38: 1120–1126
Henle KJ, Dethlefsen LA (1978) Heat fractionation and thermotolerance: A Review. Cancer Res 38: 1843–1851
Henle KJ, Leeper DB (1976) Interaction of Hyperthermia and radiation in CHO cells: Recovery kinetics. Radiat Res 66: 505–518
Henle KJ, Leeper DB (1979a) Effects of hyperthermia (45 °C) on macromolecular synthesis in chinese hamster ovary cells. Cancer Res 39: 2665–2674
Henle KJ, Leeper DB (1979b) Interaction of sublethal and potentially lethal 45 °C-hyperthermia and radiation damage at 0, 20, 37 or 40 °C. Eur J Cancer 15: 1387–1394
Henle KJ, Karamuz JE, Leeper DB (1978) Induction of thermotolerance in chinese hamster ovary cells by High (45 °C) or low (40 °C) hyperthermia. Cancer Res 38: 570–574
Henle KJ, Tomasovic SP, Dethlefsen LA (1979) Fractionation of combined heat and radiation in asynchronous CHO cells. I. Effects on radiation sensitivity. Radiat Res 80: 369–377
Herbst H, Sauer R (1980) First clinical results of local heating in combination with irradiation. In: Arcangeli G, Mauro F (eds) Hyperthermia in radiation oncology. Masson, Milano, p 267
Hill SA, Denekamp J (1978) The effect of vascular occlusion on the thermal sensitization of a mouse tumour. Br J Radiol 51: 997–1002
Hill SA, Denekamp J (1979) The response of six mouse tumours to combined heat and X-rays: Implications for therapy. Br J Radiol 52: 209–218
Holt JAG (1975) The use of radiowaves in cancer therapy. Australas Radiol 19: 223–241
Hornback NB, Shupe RE, Shidnia H, Joe BT, Sayoc E, Marshall C (1977) Preliminary clinical results of combined 433 megahertz microwave therapy and radiation therapy on patients with advanced cancer. Caner 40: 2854–2863
Hume SP, Rogers MA, Field SB (1978) Two qualitatively different effects of hyperthermia on acid phosphatase staining in mouse spleen, dependent on the sensitivity of the treatment. In J Radiat Biol 34: 401–409
Jansen W, Schueren E van der, Breur (1978) Thermal enhancement of the radiation response of the skin and a mammary carcinoma in mice. In: Streffer C, Beuningen D van, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore Munich, p 255
Johnson RJR, Subjeck JR, Kowal H, Yakar D, Moreau D (1979) Hyperthermia in cancer therapy. In: Abe M, Sakamoto K, Phillips TL (eds) Treatment of radioresistant cancers. Biomedical Press, Elsevier/North-Holland, p 71
Joshi DS, Jung H (1979) Thermotolerance and sensitization induced in CHO cells by fractionated hyperthermic treatments at 38°-45 °C. Eur J Cancer 15: 345–350
Joshi DS, Barendsen GW, Schueren E van der (1978) Thermal enhancement of the effectiveness of gamma radiation for induction of reproductive death in cultured mammalian cells. Int J Radiat Biol 34: 233–243
Jung H, Kölling H (1980) Induction of thermotolerance and sensitization in CHO cells by combined hyperthermic treatments at 40° and 43 °C. Eur J Cancer 16: 1523–1528
Kachani ZFC, Sabin AB (1969) Reproductive capacity and viability at higher temperatures of various transformed hamster cell lines. J Natl Cancer Inst 43: 469–580
Kal HB, Hahn GM (1976) Kinetic response of murine sarcoma cells to radiation and hyperthermia in vivo and in vitro. Cancer Res 36: 1923–1929
Kim JH, Hahn EW (1979) Clinical and biological studies of localized hyperthermia. Cancer Res 39: 2258–2261
Kim JH, Hahn EW, Tokita N, Nisce LZ (1977) Local tumor hyperthermia in combination with radiation therapy. 1. Malignant cutaneous lesions. Cancer 40: 161–169
Kim JH, Hahn EW, Nokita N (1978) Combination hyperthermia and radiation therapy for cutaneous malignant melanoma. Cancer 41: 2143–2148
Kim SH, Kim JH, Hahn EW (1975) Enhanced killing of hypoxic tumor cells by hyperthermia. Br J Radiol 48: 872–874
Kim SH, Kim JH, Hahn EW (1976) The enhanced killing of irradiated HeLa cells in synchronous culture by hyperthermia. Radiat Res 66: 337–345
Korb H (1948) Über eine Kombination der Röntgenbestrahlung mit der Kurzwellenbehandlung. Strahlentherapie 77: 301–303
Larkin JA (1979) A clinical investigation of total-body hyperthermia as cancer therapy. Cancer Res 39: 2252–2254
Law MP, Ahier RG, Field SB (1977) The response of mouse skin to combined hyperthermia and X-rays. Int J Radiat Biol 32: 153–163
Law MP, Ahier RG, Field SB (1979a) The effect of prior heat treatment on the thermal enhancement of radiation damage in the mouse ear. Br J Radio! 52: 315–321
Law MP, Coultas PG, Field SB (1979b) Induced thermal resistance in the mouse ear. Br J Radiol 52: 308–314
Leeper DB, Karamuz JE, Henle KJ (1977) Effect of inhibition of macromolecular synthesis on the induction of thermotolerance. Proc Am Assoc Cancer Res 18: 139
Leith JT, Miller RC, Gerner EW, Boone MLM (1977) Hyperthermic potentiation. Biological aspects and applications to radiation therapy. Cancer 39: 766–779
LeVeen HH, Wapnick S, Piccone V, Falk G, Ahmed N (1976) Tumor eradication by radiofrequency therapy. JAMA 235: 2198–2200
Li GC, Hycin GM (1978) Ethanol-induced tolerance to heat and to Adriamycin. Nature 274: 699–701
Li GC, Hahn GM (1980) A proposed ahn GM (1978) Ethanol-induced tolerance to heat and to Adriamoperational model of thermoto1erance based on effects of nutrients and the initial treatment temperature. Cancer Res 40: 4501–4508
Li GC, Kal HB (1977) Effect of hyperthermia on the radiation response of two mammalian cell lines. Eur J Cancer 13: 65–69
Li GC, Shiu EC, Hahn GM (1980) Similarities in cellular inactivation by hyperthermia or by ethanol. Radiat Res 82: 257–268
Lin PS, Wallach DFH, Tsai S (1973) Temperature-induced variations in the surface topology of cultured lymphocytes are revealed by scanning electron microscopy. Proc Natl Acad Sci USA 70: 2492–2496
Love R, Soriano RZ, Walsh RJ (1970) Effect of hyperthermia on normal and neoplastic cells in vitro. Cancer Res 30: 1525–1533
Lücke-Huhle C, Dertinger H (1977) Kinetic response of an In vitro “tumour-model” (V79 Spheroids) to 42 °C hyperthermia. Eur J Cancer 13: 23–28
Lücke-Huhle C, Schlag H (1979) Differential radio-sensitivity of two mammalian cell lines after hy-perthermic treatment. Strahlentherapie 155: 649–654
Ludgate CM, McLean N, Carswell GF, Newsan JE, Pettigrew RT, Tulloch SS (1976) Hyperthermic perfusion of the distended urinary bladder in the mangement of recurrent transitorial cell carcinoma. Br J Urol 47: 841–848
Lunglmayr G, Czech K, Zekert F, Kellner G (1973) Bladder hyperthermia in the treatment of vesical papillomatosis. Int Urol Nephrol 5: 75–84
Mäntylä MJ (1979) Regional blood flow in human tumors. Cancer Res 39: 2304–2306
Marmor JB (1979) Interaction of hyperthermia and chemotherapy in animals. Cancer Res 39: 2269–2276
Marmor JB, Pounds DW, Postic TB, Hahn GM (1979) Treatment of superficial human neoplasms by local hyperthermia induced by ultrasound. Cancer 43: 188–197
McCormick W, Penan S (1969) Regulation of protein synthesis in HeLa cells: translation at elevated temperatures. J Mol Biol 39: 315–333
Merino OR, Peters LJ, Mason KA, Withers HR (1978) Effect of hyperthermia on the radiation response of the mouse jejunum. Int J Radiat On-col Biol Phys 4: 407–414
Meyer KR, Hopwood LE, Gillette EL (1979) The response of mouse adenocarcinoma cells to hyperthermia and irradiation. Radiat Res 78: 98–107
Miller RC, Leith JT, Veomett RC, Gerner EW (1976) Potentiation of radiation myelitis in rats by hyperthermia. Br J Radiol 49: 895–896
Moller U, Bojsen J (1975) Temperature and blood flow measurements in and around 7, 12-dimethylbenz (a) anthracene-induced tumors and Walker 256 carcinosarcomas in rats. Cancer Res 35: 3116–3121
Mondovi B, Finazzi Agro A, Rotillio G, Strom R, Moricca G, Rossi-Fanelli A (1969) The biochemical mechanism of selective heat sensitivity of cancer cells. II. Studies on nucleic acids and protein synthesis. Eur J Cancer 5: 137–146
Mondovi B, Santoro AS, Strom R, Faiola R, Rossi-Fanelli A (1972) Increased immunogenicity of Ehrlich ascites cells after heat treatment. Cancer 30: 885–888
Moritz AR, Henriques FC (1947) Studies of thermal injury. II. The relative importance of time and surface temperature in the causation of cutaneous burns. Am J Pathol 23: 695–720
Moricca G, Cavaliere R, Caputo A, Bigotti A, Colistro F (1977) Hyperthermie treatment of tumours: Experimental and clinical applications. In: Rossi-Fanelli A, Cavaliere R, Mondovi B, Moricca G (eds) Selective heat sensitivity of cancer cells. Recent results in cancer research. Springer, Berlin Heidelberg New York, p 112
Muckle DS, Dickson JA (1973) Hyperthermia (42 °C) as an adjuvant to radiotherapy and chemotherapy in the treatment of the allogenic VX2 carcinoma in the rabbit. Br J Cancer 27: 307–315
Müller C (1910) Eine neue Behandlungsmethode bösartiger Geschwülste. Minch Med Wochenschr 57: 1490–1493
Myers R, Field SB (1977) The response of the rat tail to combined heat and X-rays. Br J Radiol 50: 581–586
Myers R, Field SB (1979) Hyperthermia and the oxygen enhancement ratio for damage to baby rat cartilage. Br J Radiol 52: 415–416
Neumann H, Engelhardt R, Hinkelbein W (1978) Methoden bei der Applikation der Ganzkörperhyperthermie. In: Wannenmacher M, Gauwerky F, Streffer C (eds) Kombinierte Strahlen- und Chemotherapie. Urban & Schwarzenberg, München Wien Baltimore, p 82
Neumann H, Fabricius HA, Stahn R, Engelhardt R (1982) Moderate whole body hyperthermia in treatment of small cell carcinoma of the lung. A pilot study. J Natl Cancer Inst Monogr 61: 427–429
Overgaard J (1976a) Influence of extracellular pH on the viability and morphology of tumor cells exposed to hyperthermia. J Natl Cancer Inst 56: 1243–1250
Overgaard J (1976b) Combined Adriamycin and hyperthermia treatment of a murine mammary carcinoma in vivo. Cancer Res 36: 3077–3081
Overgaard J (1977) Effect of hyperthermia on malignant cells in vivo. A review and a hypothesis. Cancer 39: 2637–2646
Overgaard J (1978) The effect of local hyperthermia alone, and in combination with radiation, on solid tumors. In: Streffer C, Beuningen D van, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore München, p 49
Overgaard J (1980a) Effect of misonidazol and hyperthermia on the radiosensitivity of a C3H mouse mammary carcinoma and its surrounding normal tissue. Br J Cancer 41: 10–21
Overgaard J (1980b) Simultaneous and sequential hyperthermia and radiation treatment of an experimental tumor and its surrounding normal tissue in vivo. Int J Radiat Oncol Biol Phys 6: 1507–1577
Overgaard J, Bichel P (1977) The influence of hypoxia and acidity on the hyperthermie response of malignant cells in vitro. Radiology 123: 511–514
Overgaard K, Overgaard J (1972) Investigations on the possibility of a thermic tumour therapy. II. Action of combined heat-roentgen treatment on a transplanted mouse mammary carcinoma. Eur J Cancer 8: 573–575
Palzer RJ, Heidelberger C (1973a) Influence of drugs and synchrony on the hyperthermic killing of HeLa cells. Cancer Res 33: 422–427
Palzer RJ, Heidelberger C (1973b) Studies on the quantitative biology of hyperthermic killing of HeLa cells. Cancer Res 33: 415–421
Paterson SJ, Butler KW, Huang P, Labelle J, Smith ICP, Schneider H (1972) The effects of alcohols on lipid bilayers: A spin label study. Biochim biophys Acta 266: 597–602
Pettigrew RT, Galt JM, Ludgate CM, Smith AN (1974) Clinical effects of whole-body hyperthermia in advanced malignancy. Br Med J 4: 679–682
Pomp H (1978) Clinical application of hyperthermia in gynecological malignant tumors. In: Streffer C, van Beuningen D, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore München, p 326
Porschen W, Gartzen J, Gewehr K, Mühlensiepen H, Weber HJ, Feinendegen LE (1978) In vivo assay of the radiation sensitivity of hypoxic tumour cells; influence of X-rays, cyclotron neutrons, misonidazole, hyperthermia and mixed modalities. Br J Cancer 37 Suppl III:194–197
Power JA, Harris JW (1977) Response of extremly hypoxic cells to hyperthermia: survival and oxygen enhancement ratio. Radiology 123: 767–770
Raaphorst GP, Romano SL, Mitchell JB, Bedford JS, Dewey WC (1979a) Intrinsic differences in heat and/or X-ray sensitivity of seven mammalian cell lines cultured and treated under identical conditions. Cancer Res 39: 396–401
Raaphorst GP, Freeman ML, Dewey WC (1979b) Radiosensitivity and recovery from radiation damage in cultured CHO cells exposed to hyperthermia at 42.5 or 45.5 °C. Radiat Res 79: 390–402
Reinhold HS, Blachiewicz B, Berg-Blok A (1978) Decrease in tumor microcirculation during hyperthermia. In: Streffer C, Beuningen D van, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore Munich, pp 231–232
Reinhold HS, Zee J van der, Faithfull NS, Rhoon G van, Wike-Hooley J (1982) Use of the Pomp-Siemens hyperthermia cabin. J Natl Cancer Inst Monogr 61: 371–376
Robinson JE, Wizenberg MJ (1975) Proceedings of the international symposium on cancer therapy by hyperthermia and radiation, Washington/DC, April 28–30, 1975. The American College of Radiology, Chicago
Robinson JE, Wizenberg MJ, McReady WA (1974a) Combined hyperthermia and radiation suggest an alternative to heavy particle therapy for reduced oxygen enhancement ratios. Nature 251:521–522
Robinson JE, Wizenberg MJ, McReady WA (1974b) Radiation and hyperthermia response of normal tissue in situ. Radiology 113: 195–198
Sapareto SA, Hopwood LE, Dewey WC (1978) Combined effects of X-irradiation and hyperthermia on CHO cells for various temperatures and orders of application. Radiat Res 73: 221–233
Schechter M, Stowe SM, Moroson H (1978) Effects of hyperthermia on primary and metastatic tumor growth and host immune response in rats. Cancer Res 38: 498–502
Schlag H, Lücke-Huhle C (1976) Cytokinetic studies on the effect of hyperthermia on Chinese hamster lung cells. Eur J Cancer 12: 827–831
Schubert B, Streffer C, Tamulevicius P (1982) Glucose metabolism in mice during and after whole-body hyperthermia. J Natl Cancer Inst Monogr 61: 203–205
Schulman N, Hall EJ (1974) Hyperthermia: its effects on proliferative and plateau phase cell cultures. Radiology 113: 209–219
Schmidt KL (1975) Hyperthermie und Fieber. Wirkung bei Mensch und Tier (Klinik, Pathologie, Immunologie), 1. Aufl. Hippokrates, Stuttgart
Selawry OS, Carlson JC, Moore CE (1958) Tumor response to ionizing rays at elevated temperatures. Am J Roentgenol 80: 833–839
Shah SA, Dickson JA (1978a) Effect of hyperthermia on the immune response of normal rabbits. Cancer Res 38:3518–3522
Shah SA, Dickson JA (1978b) Effect of hyperthermia on the immunocompetence of VX2 tumor-bearing rabbits. Cancer Res 38:3523–3531
Simard R, Bernhard W (1967) A heat-sensitive cellular function located in the nucleolus. J Cell Biol 34: 61–76
Song CW (1978) Effect of hyperthermia on vascular functions of normal tissues and experimental tumors. J Natl Cancer Inst 60: 711–713
Song CW, Kang MS, Rhee JG, Levitt SH (1980) Vascular damage and delayed cell death in tumours after hyperthermia. Br J Cancer 41: 309–312
Stehlin JS (1969) Hyperthermic perfusion with chemotherapy for cancers of the extremities. Surg Gynecol Obstet 129: 305–308
Stehlin JS, Giovanella BC, Ipolyi PD de, Muenz LR, Anderson RF (1975) Results of hyperthermia per-fusion for melanoma of the extremities. Surg Gynecol Obstet 140: 339–348
Stehlin JS, Giovanella BC, Ipolyi PD de, Anderson RF (1979) Results of eleven years’s experience with heated perfusion for melanoma of the extremities. Cancer Res 39: 2255–2257
Stewart FA, Denekamp J (1977) Sensitization of mouse skin to X-irradiation by moderate heating. Radiology 123: 195–200
Stewart FA, Denekamp J (1978) The therapeutic advantage of combined heat and X-rays on a mouse fibrosarcoma. Br J Radiol 51: 307–316
Stewart FA, Denekamp J (1980) Fractionation studies with combined X-rays and hyperthermia in vivo. Br J Radiol 53: 346–356
Stone HB (1978) Enhancement of local tumour control by misonidazol and hyperthermia. Br J Cancer [Suppl III] 37: 178–183
Storm FK, Harrison WH, Elliot RS, Morton DL (1979) Normal tissue and solid tumor effects of hyperthermia in animal models and clinical trials. Cancer Res 39: 2245–2251
Streffer C (1969) Strahlen-Biochemie. Springer, Heidelberg Berlin New York
Streffer C (1982) Aspects of biochemical effects by hyperthermia. J Natl Cancer Inst Monogr 61: 11–18
Streffer C, Beuningen D van, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (1978) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore München
Streffer C, Beuningen D van, Zamboglou N (1979) Cell killing by hyperthermia and radiation in cancer therapy. In: Abe M, Sakamoto K, Phillips TL (eds) Treatment of radioresistant cancers. Biomedical Press, Elsevier/North-Holland, p 55
Streffer C, Beuningen D van, Molls M (1981) Possibilities of the micronucleus test as an assay in radiotherapy. In: Kärcher KH, Kogelnik HD, Reinartz G. Progress in Radio-Oncology II. Raven Press, New York, p. 243.
Strom R, Santoro AS, Crifo C, Bozzi A, Mondovi B, Rossi-Fanelli A (1973) The biochemical mechanism of selective Heat sensitivity of cancer cells. IV. Inhibition of RNA synthesis. Eur J Cancer 9: 103–112
Sugaar S, LeVeen HH (1979) A histopathology study on the effects of radiofrequency thermotherapy on malignant tumors of the lung. Cancer 43: 767–783
Suit HE, Shwayder M (1974) Hyperthermia: Potential as an anti-tumor agent. Cancer 34: 122–129
Suzuki K (1967) Application of heat to cancer chemotherapy. Nagoya J Med Sci 30: 1–21
Szmigielsky S, Janiak M (1978) Reaction of cell mediated immunity to local hyperthermia of tumors and its potentiation by immunostimulation. In: Streffer C, Beuningen D van, Dietzel F, Röttinger E, Robinson JE, Scherer E, Seeber S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore München, p 80
Tamulevicius P, Streffer C (1983) Does hyperthermia produce increased lysosomal enzyme activity? Int J Radiat Biol 43: 321–327
Thrall DE, Gillette EL, Baumann CL (1973) Effect of heat on the C3H mouse mammary adenocarcinoma evaluated in terms of tumor growth. Eur J Cancer 9: 871–875
Thrall DE, Gillette EL, Dewey WC (1975) Effect of heat and ionizing radiation on normal and neoplastics tissues of the C3H mouse. Radiat Res 63: 363–377
Thrall DE, Gerweck LE, Gillette EL, Dewey WC (1976) Response of cells in vitro and tissues in vivo to hyperthermia and X-irradiation. Adv Radiat Biol 6: 211–227
Tomasovic SP, Turner GN, Dewey WC (1978) Effect of hyperthermia on nonhistone proteins isolated with DNA. Radiat Res 73: 535–552
Twentyman PR, Morgan JE, Donaldson J (1978) Enhancement by hyperthermia of the effect of BCNU against the EMT 6 mouse tumor. Cancer Treat Rep 62: 439–443
Urano M, Overgaard M, Suit H, Dunn P, Sedlacek R (1978) Enhancement by corynebacterium parvum of the normal and tumor tissue response to hyperthermia. Cancer Res 38: 862–864
Vollmar H (1941) Über den Einfluß der Temperatur auf normales Gewebe und auf Tumorgewebe. Z Krebsforsch 51: 71–99
Wallach DFH (1978) Action of hyperthermia and ionizing radiation on plasma membranes. In: Streffer C, Beuningen D van, Dietzel F, Röttinger E, Robinson JE, Scherer S, Trott K-R (eds) Cancer therapy by hyperthermia and radiation. Urban & Schwarzenberg, Baltimore München, p 19
Warren SL (1935) Preliminary study of the effect of artificial fever upon hopeless tumor cases. Am J Roentgenol 33: 76–87
Warrocquier R, Scherrer K (1969) RNA metabolism in mammalian cells at elevated temperatures. Eur J Biochem 10: 362–370
Westra A, Dewey WC (1971) Variation in sensitivity to heat shock during cell-cycle of Chinese hamster cells in vitro. Int J Radiat Biol 19: 467–477
Witcofski RL, Kremkau FW (1978) Ultrasonic enhancement of cancer radiotherapy. Radiology 127: 793–797
Yatvin MB (1977) The influence of membran lipid composition and procaine on hyperthermic death of cells. Int J Radiat Biol 32: 513–521
Yerushalmi A (1976) Influence on metastatic spread of wholebody or local tumor hyperthermia. Eur J Cancer 12: 455–463
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1985 Springer-Verlag Berlin · Heidelberg
About this chapter
Cite this chapter
van Beuningen, D., Streffer, C. (1985). Die Hyperthermie. In: Heuck, F., Scherer, E. (eds) Strahlengefahrdung und Strahlenschutz / Radiation Exposure and Radiation Protection. Handbuch der Medizinischen Radiologie / Encyclopedia of Medical Radiology, vol 20. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-82229-2_18
Download citation
DOI: https://doi.org/10.1007/978-3-642-82229-2_18
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-82230-8
Online ISBN: 978-3-642-82229-2
eBook Packages: Springer Book Archive