. Cellular basis and aetiology of late somatic effects of ionization radiation. Radiation -- Physiological effect. 136 r. DEVIK following the application of the carcinogens (Fig. 2). On the other hand, there was no clear indication of any initial decrease, as with the non-carcinogenic compounds. One main difference between X-radiation and toxic or pharmaceutical substances is the distribution in space: the former acts very uniformly at the .9 E > 1- â >.$ 5-0 30 2-0 I-5 1-0 07 0-4 0-2 'Controls. Sham treated animals EPIDERMIS 13 17 II 14 21 28 35 42 1 5 Time (days) 5-0 3-0 2-0 1-5 1-0 07
. Cellular basis and aetiology of late somatic effects of ionization radiation. Radiation -- Physiological effect. 136 r. DEVIK following the application of the carcinogens (Fig. 2). On the other hand, there was no clear indication of any initial decrease, as with the non-carcinogenic compounds. One main difference between X-radiation and toxic or pharmaceutical substances is the distribution in space: the former acts very uniformly at the .9 E > 1- â >.$ 5-0 30 2-0 I-5 1-0 07 0-4 0-2 'Controls. Sham treated animals EPIDERMIS 13 17 II 14 21 28 35 42 1 5 Time (days) 5-0 3-0 2-0 1-5 1-0 07 0-4 0-2 Benzene EPIDERMIS SOr :317 1 5 II 14 21 28 35 42 S 0-4 ^â ^rO-S% 30- 2-0- 1-5- l-0« 07^ 0-2 ;3:7 1 5 114 21 28 35 42 5-0 30- 2-0 1-5 10 07 0-4 0-2 0-5% Phenanthrene EPIDERMIS 1% 3-Methylchoianthrene EPIDERMIS. 3 17 II 14 1 5 0-5%9,10-Dimethyl- EPIDERMIS i3i7 1114 1 5 21 28 35 42 Time (days). Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Harris, R. J. C. (Robert John Cecil), 1922-; Unesco; International Atomic Energy Agency. London, New York, Academic Press
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