Abstract
The dermatologist must treat a large number of benign and malignant diseases characterized by increased rates of epidermal cell proliferation [45]. For some of these disorders radiotherapy, chemotherapy, or combined treatment measures may be either curative or effective in achieving disease control. The usefulness of these regimens, locally applied or systemically administered where indicated, has stimulated great interest in the biology of cellular responses to ionizing radiation and to chemotherapeutic agents as well.
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.
References
Bacchetti S, Sinclair WK: The relation of Protein synthesis to radiation-induced division delay in Chinese hamster cells. Radiat Res 44: 780, 1970
Bagshaw MA, Doggett RLS, Smith KC, et al: Intraarterial 5-bromodeoxyuridine and x-ray therapy. Am J Roentgenol 99: 886, 1967
Baserga R: A radioautographic study of the uptake of C14-leucine by tumor cells in desoxyri-bonucleic acid synthesis. Biochim Biophys Acta 61: 445, 1962
Beltz RE, Applegate RL: X-ray inhibition of enzyme changes associated with DNA synthesis of liver regeneration. Biochem Biophys Res Commun 1: 298, 1959
Beltz RE, Van Lanker J, Potter VR: Nucleic acid metabolism in regenerating rat liver. IV. The effect of x-radiation of the whole body on nucleic acid synthesis in vivo. Cancer Res 17: 688, 1957
Bergonié J, Tribondeau L: Interprétation de quelques résultats de la radiothérapie et effets de fixation d’une technique rationnelle. C. R. Ste Biol 143: 983, 1906
Blood AD, Tijo JH: In vivo effects of diagnostic x-irradiation on human chromosomes. N Engl J Med 270: 1341, 1964
Bollum FJ, Anderegg JW, McElya AB, et al: Nucleic acid metabolism in regenerating rat liver. VII. Effect of x-radiation on enzymes of DNA synthesis. Cancer Res 20: 138, 1960
Caldwell WL, Lamerton LF, Bewley DK: Increased sensitivity of in vitro murine leukemia cells to fractionated x-rays, and fast neutrons. Nature 208: 168, 1965
Cater DB, Holmes BE, Mee LK: Cell division and nucleic acid synthesis in the regenerating liver of the rat. Acta Radiol 46: 655, 1965
Cattaneo SM, Quastler H, Sherman FG: DNA synthesis in x-irradiated hair follicles. Radiat Res 11: 437, 1959
Coggle JE: Effect of cell cycle recovery from radiation damage in the mouse liver. Nature 217: 180, 1968
Conti RG, Spear FG: The effect of gamma irradiation on cell division in tissue culture in vitro. Proc R Soc B 102: 92, 1927
De Hevesy G: Radioactive Indicators. New York, Interscience, 1948
Dewey WC, Humphrey RM: Relative radiosensitivity of different phases in the life cycle of L-P59 mouse fibroblasts and ascites tumor cells. Radiat Res 16: 503, 1962
Dewey WC, Humphrey RM: Relative radiosen-sitivity of different phases in the life cycle of L-P59 mouse fibroblasts and ascites tumor cells. Radiat Res 16: 503, 1962
Dewey WC, Humphrey RM: Restitution of radiation-induced chromosomal damage in Chinese hamster cells related to cells life cycle. Exp Cell Res 35: 262, 1964
Dewey WC, Humphrey RM: Radio sensitivity and recovery of radiation damage in relation to cell cycle. In Cellular Radiation Biology: 18th Symposium on Fundamental Cancer Research, M.D. Anderson Hospital and Tumor Institute. Baltimore, Williams and Wilkins, 1965, pp 340–375
Dewey WC, Noel JS, Dettor CM: Changes in radiosensitivity and dispersion of chromatin during the cell cycle of synchronous Chinese hamster cells. Radiat Res 52: 373, 1972
Djordjevic B, Szybalski W: Genetics of human cell lines. III. Incorporation of 5-bromo-and 5-iododeoxyuridine into the deoxyribonucleic acid of human cells and its effect on radiation sensitivity. J Exp Med 112: 509, 1960
Doida Y, Okada S: Radiation-induced mitotic delay in cultured mammalian cells (L 5178 Y). Radiat Res 38: 513, 1969
Elkind MM, Han A, Volz KW: Radiation response of mammalian cells grown in culture. IV. Dose dependence of division delay and postirra- diation growth of surviving and nonsurviving Chinese hamster cells. J Natl Cancer Inst 30: 705, 1963
Elkind MM, Han A, Volz KW: Radiation response of mammalian cells grown in culture. IV. Dose dependence of division delay and postirra- diation growth of surviving and nonsurviving Chinese hamster cells. J Natl Cancer Inst 30: 705, 1963
Elkind MM, Whitmore GF, Alescio T: Actinomycin D. Suppression of recovery in x-irradiated mammalian cells. Science 143: 1454, 1964
Erikson RL, Szybalski W: Molecular radiobiology of human cell lines. IV. Variation in ultraviolet and x-ray sensitivity during the division cycle. Radiat Res 18: 200, 1963
Frindel E, Tubiana M, Vassort F: The generation cycle of mouse bone marrow. Nature 214: 1017, 1967
Gaudin D, Yielding KL: Response of a “resistant” plasmacytoma to alkylating agents and x- ray in combination with the excision repair inhibitors caffeine and chloroquine. Proc Soc Exp Biol Med 131: 1413, 1969
Goldstein R, Okada S: Further studies of radiation-induced interphase death of cultured mammalian cells. Radiat Res 51: 685, 1972
Griem ML, Malkinson FD: Some effects of radiations and radiation modifiers on growing hair. Progress review. In Vaeth JM (ed): Frontiers of Radiation Therapy and Oncology, Vol. 4. Basel, Karger, 1969, pp 24–45
Harrington H: The effect of x-irradiation on the progress of strain V-12 fibroblasts through the mitotic cycle. Ann NY Acad Sci 95: 901, 1961
Hewitt HB, Wilson CW: Survival curve for mammalian leukemia cells irradiated in vivo. Br J Cancer 13: 69, 1959
Hopwood LE, Tolmach LJ: Deficient DNA synthesis and mitotic death in x-irradiated HeLa cells. Radiat Res 46: 70, 1971
Howard A, Pelc SR: Synthesis of desoxyribonucleic acid in normal and irradiated cells and its relation to chromosome breakage. Heredity (suppl) 6: 261, 1953
Hurwitz C, Tolmach LJ: Time-lapse cinematographic studies of x-irradiated HeLa S3 cells. II. Cell fusion. Biophys J 9: 1131, 1969
Kaplan HS: DNA strand scission and loss of viability after x-irradiation of normal and sensitized bacterial cells. Proc Natl Acad Sci 55:1442, 1966
Kim JH, Evans TC: Effects of x-irradiation on the mitotic cycle of Ehrlich ascites tumor cells. Radiat Res 21: 129, 1964
Kim JH, Evans TC: Effects of x-irradiation on the mitotic cycle of Ehrlich ascites tumor cells. Radiat. Res 21: 584, 1964
Klouwen HM, Appelman AWM, Betel I: The biochemical basis of cell death in interphase. In The Cell Nucleus. Metabolism and Radiosensitivity. London, Taylor and Francis, 1966, pp 295–303
Lajtha LG, Oliver R, Berry R, et al: Mechanism of radiation effect on the process of synthesis of DNA. Nature 182: 1788, 1958
Lajtha LG, Oliver RP, Kumatori T, et al: On the mechanism of radiation effect on DNA synthesis. Radiat. Res 8: 1, 1958
Little JB, Parups D: Radiation effects on DNA synthesis and cell division in human cell cultures with long generation time. Radiat Res 31: 606, 1967
Lozzio CB: Radiosensitivity of Ehrlich ascites tumor cells. I. Variation in x-ray sensitivity during the cell cycle. Int J Radiat Biol 14: 133, 1968
Madoc-Jones H, Mauro F: Age responses to x- rays, vinca alkaloids, and hydroxyurea of murine lymphoma cells synchronized in vivo. J Natl Cancer Inst 45: 1131, 1970
Mak S, Till JE: Effects of x-rays on progress of L-cells through cell cycle. Radiat. Res 20: 600, 1963
Malkinson FD: Epidermal cell kinetics. Some general considerations and implications in skin disease and therapy. In Year Book of Dermatology. Chicago, Year Book Medical, 1972, pp 5–37
Malkinson FD, Griem ML: Radiation injury and recovery in anagen and telogen rodent hairs. Radiat Res 33: 554, 1968
Malkinson FD, Griem ML, Marianovic R: Effects of hydroxyurea and radiation on hair matrix cells. Cell Tissue Kinet 6: 395, 1973
Malkinson FD, Griem ML, Marianovic R: Follicle squash preparations. Uses in studies of cell kinetics following irradiation. J Invest Dermatol 57: 382, 1971
Malkinson FD, Griem ML, Morse PH: Colchicine synergism of mouse hair root changes produced by x-ray irradiation. J Invest Dermatol 37: 337, 1961
Marin G, Bender MA: Radiation-induced mammalian cell death. Lapse-time cinematographic observations. Exp Cell Res 43: 413, 1966
Michison JM: The Biology of the Cell Cycle. Cambridge, Cambridge Univ Press, 1971, pp 25–57
Muller HJ: Artificial transmutation of the gene. Science 66: 84, 1927
Munro TR: The site of the target region for radiation-induced mitotic delay in cultured mammalian cells. Radiat Res 44: 748, 1970
Newcombe HB: The genetic effects of ionizing radiations. Adv Genet 16: 239, 1971
Odartchenko N, Cottier H, Feinendegen LE, et al: Mitotic delay in more mature erythroblasts of the dog, induced in vivo by sublethal doses of x- rays. Radiat Res 21: 413, 1964
Ord MG, Stocken LA: Radiobiological lesions in animal cells. Nature 182: 1787, 1958
Potten CS: Some observations on melanin synthesis anomalies in mouse hair follicles after treatment with x-rays or actinomycin D. Radiat Res 51: 167, 1972
Puck TT, Marcus PI: Action of x-rays on mammalian cells. J Exp Med 103: 653, 1956
Puck TT, Steffen J: Life cycle analysis of mammalian cells. I. Method for localizing metabolic events within life cycle, and its application to action of colcemide and sublethal doses of x- irradiation. Biophys J 3: 379, 1963
Russell WL, Russell LB, Kelly, E: Dependence of mutation rate on radiation intensity. Int J Radiat Biol (Suppl) 1: 311, 1960
Rustad BC, Burchill BR: Radiation induced mitotic delay in sea urchin eggs treated with puromycin and actinomycin D. Radiat Res 29: 203, 1966
Schneiderman MH, Dewey WC, Leeper DB, et al: Use of the mitotic selection procedure for cell cycle analysis. Exp Cell Res 74: 430, 1972
Schrek R: In vitro sensitivity of normal human lymphocytes to x-rays and radiomimetic agents. J Lab Clin Med 51: 904, 1958
Shipley WU, Elkind MM, Prather WB: Potentiation of x-ray killing by 5-bromodeoxyuridine in Chinese hamster cells. A radiation incapacity for sublethal damage accumulation. Radiat Res 47: 437, 1971
Sinclair WK: Cyclic x-ray responses in mammalian cells in vitro. Radiat Res 33: 620, 1968
Sinclair WK: X-ray induced heritable damage (small-colony formation) in cultured mammalian cells. Radiat. Res 21: 584, 1964
Sinclair WK: The combined effect of hydroxyurea and x-rays in Chinese hamster cells in vitro. Cancer Res 28: 198, 1968
Sinclair WK, Morton RA: X-ray sensitivity during the cell generation cycle of cultured Chinese hamster cells. Radiat Res 29: 450, 1966
Smets LA, Dewaide H: A reparative synthesis of DNA after x-irradiation. Naturwissenschaften 53: 382, 1966
Taylor JH: Nucleic acid synthesis in relation to the cell division cycle. Ann NY Acad Sci 90: 409, 1960
Terasima T, Tolmach LJ: Variations in several responses of HeLa cells to x-irradiation during division cycle. Biophys J 3: 11, 1963
Terasima T, Tolmach LJ: Variations in several responses of HeLa cells to x-irradiation during the division cycle. Biophys J 3: 11, 1963
Tolmach LJ, Weiss BG, Hopwood LE: Ionizing radiations and the cell cycle. Fed Proc 30: 1742, 1971
Walters RA, Peterson DF: Radiosensitivity of mammalian cells. II. Radiation effects on macro-molecular synthesis. Biophys J 8: 1487, 1968
Watanube I, Okada S: Deoxyribonucleic acid synthesis during the first postirradiation life cycle of lethally irradiated cultured mammalian cells (L5178Y). Radiat Res 35: 202, 1968
Whitmore GF, Till JE: Quantitation of cellular radiobiological responses. Ann Rev Nucl Sci 14: 347, 1964
Whitmore GF, Till JE, Gulyas S: Radiation-induced mitotic delay in L cells. Radiat Res 30: 155, 1967
Wolff S: Chromosome aberrations and the cell cycle. Radiat Res 33: 609, 1968
Yu CK, Sinclair WK: Division delay and chromosomal aberrations induced by x-rays in synchronized Chinese hamster cells in vitro. J Natl Cancer Inst 39: 619, 1967
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1978 Springer-Verlag New York Inc.
About this chapter
Cite this chapter
Malkinson, F.D. (1978). Radiation and Cell Kinetics. In: Goldschmidt, H. (eds) Physical Modalities in Dermatologic Therapy. Springer, New York, NY. https://doi.org/10.1007/978-1-4612-6259-6_3
Download citation
DOI: https://doi.org/10.1007/978-1-4612-6259-6_3
Publisher Name: Springer, New York, NY
Print ISBN: 978-1-4612-6261-9
Online ISBN: 978-1-4612-6259-6
eBook Packages: Springer Book Archive