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Can the mammalian embryo be killed by X‐irradiation?

1962; Wiley; Volume: 151; Issue: 3 Linguagem: Inglês

10.1002/jez.1401510304

ISSN

1097-010X

Autores

Roberts Rugh, Marlis Wohlfromm,

Tópico(s)

Genetic and phenotypic traits in livestock

Resumo

Journal of Experimental ZoologyVolume 151, Issue 3 p. 227-243 Article Can the mammalian embryo be killed by X-irradiation? Roberts Rugh, Roberts Rugh Radiological Research Laboratory, Radiology Department, College of Physicians and Surgeons, Columbia UniversitySearch for more papers by this authorMarlis Wohlfromm, Marlis Wohlfromm Radiological Research Laboratory, Radiology Department, College of Physicians and Surgeons, Columbia University Based on work performed under contract AT(301) 2740 for the U. S. Atomic Energy Commission and aided in part by grants RH-81 and RH-97 from the Division of Radiological Health, Bureau of State Services, Public Health Service.Search for more papers by this author Roberts Rugh, Roberts Rugh Radiological Research Laboratory, Radiology Department, College of Physicians and Surgeons, Columbia UniversitySearch for more papers by this authorMarlis Wohlfromm, Marlis Wohlfromm Radiological Research Laboratory, Radiology Department, College of Physicians and Surgeons, Columbia University Based on work performed under contract AT(301) 2740 for the U. S. Atomic Energy Commission and aided in part by grants RH-81 and RH-97 from the Division of Radiological Health, Bureau of State Services, Public Health Service.Search for more papers by this author First published: December 1962 https://doi.org/10.1002/jez.1401510304Citations: 21 AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Literature Cited Andriska, J., G. Frigyesi, G. Kiszely and M. Nagy 1958 The effect of large x-radiation doses on the development of the human fetus. Strahlentherapie, 105: 630– 638. Basic, M., and D. Weber 1956 Damage to the intrauterine fetus by rotentgen rays. 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Kerskowitz, I. H. 1957 Damage to offspring of irradiated women. Progr. in Gerontology., 3: 374– 384. Kohn, H. I., and R. F. Kallman 1957 The influence of strain on acute lethality in the mouse. Radiation Res., 6: 329– 381. Kratchman, J., and D. Grahn 1959 Relationships between the geologic environment and mortality from congenital malformations. TID-8204, 23 pgs. OTS. Lengerova, A. 1957 Effects of intrauterine irradiation in rats in relation to the stage of embryogenesis at the time of exposure. Folia Biol. (Prague), 3: 321– 332. Levinson, B. 1952 Effect of fetal irradiation on learning. Jour. Comp. Physiol. and Psychol., 45: 140– 145. Majima, A. 1961 Eye abnormalities in mouse embryos caused by x-irradiation of the mothers. Nagoya Jour. Med. Sci., (Japan), 24: 85– 96. McGregor, J. F., A. P. James and H. B. Newcombe 1960 Mutation as a cause of death in offspring of irradiated rats. Radiation Res., 12: 61– 66. Mills, S. D., A. J. Bruwer, E. A. Banner, G. D. Davis and R. P. 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Mazima 1960 A dynamic observation on the formation of developmental abnormalities of the fetus caused by x-radiation. Ann. Rep. Inst. Environmental Med. Nagoya Univ., (Japan), 8: 101– 115. Neel, J. V., W. J. Shull, D. J. McDonald, N. E. Morton, M. Kodani, K. Takeshima, R. C. Anderson, J. Wood, R. Brewer, S. Wright, J. Yamazaki, M. Suzuki and S. Kitaura 1953 The effect of exposure to the atomic bomb on pregnancy termination in Hiroshima and Nagasaki. Science, 118: 537. Patten, B. M. 1957 Varing developmental mechanisms in teratology. Pediatrics, 19: 734– 748. Petrosyan, S. L., and Z. F. Lopatnikova 1959 The effect of penetrating radiation on development of the foetus in experimental conditions. Vestnik Rentgenol. i. Radiol., 34: 38– 42 (Russian). Plummer, G. 1952 Anomalies occurring in children exposed in utero to the atomic bomb in Hiroshima. Pediatrics, 10: 687– 693. Rivers, T. M., J. Warkany, F. C. Feaser, J. G. Wilson, D. D. Matson and R. McIntosh 1959 Conference on Congenital Malformations and Jour. Chron. Dis., 10: 83– 151. Ronderos, A. 1961 Fetal tolerance to radiation. Radiology, 76: 454– 456. Rugh, R. 1953 Radiobiology: Lethality and protection. Mil. Med., 112: 295. Rugh, R., and H. Clugston 1955 Radiosensitivity with respect to the estrous cycle in the mouse. Radiation Res., 2: 227– 236. Rugh, R., and J. Wolff 1956 Relation of gonad hormones to X irradiation sensitivity in the mouse. Proc. Soc. Exp. Biol. and Med., 92: 404– 410. Rugh, R., and J. Wolff 1957 Heterosis and radiosensitivity. Science, 127: 144. Runner, M. N. 1959 Metabolic mechanisms of teratogenic agents during morphogenesis. Nat. Cancer Inst. Monogr., no. 2. Runner, M. N. 1959 Inheritance of susceptibility to congenital deformity. Metabolic clues provided by experiments with teratogenic agents. Pediatrics, 23: 245– 251. Russell, L. B. 1956 X-ray induced developmental abnormalities in the mouse and their use in analysis of embryological patterns. J. Exp. Zool., 131: 329– 395. Russell, L. B. 1957 Effects of low-dose x-rays on embryonic development. Proc. Soc. Exp. Biol. and Med., 95: 174– 178. Russell, L. B., S. K. Badgett and C. L. Saylors 1959 Comparison of the effects of acute continuous and fractionated irradiation during embryonic development. From Immediate and Low Level Effects of Ionizing Radiations Conf. in Vienna 1959 and also from Int. J. Rad. Biol. Spiers, F. W., R. R. J. Burch and G. W. Reed Background radiations as the cause of fetal congenital malformations. Int. Jour. Rad. Biol., 2: 235– 236. Trum, B. F., J. J. Lane, U. S. G. Kuhn and J. H. Rust 1959 The mortality response of the burro to a single total body exposure of gamma radiations from Zr95/Nb95. Radiation Res., 11: 314– 325. Werboff, O., H. Havlena and M. R. Kikov 1962 Effects of pre-natal x-irradiation on activity, emotionality and maze-learning ability in the rat. Radiation Res., 16: 441– 452. Wesley, J. P. 1960 Background radiation as the cause of fatal congenital malformation. Int. Jour. Rad. Biol., 2: 97– 112. Citing Literature Volume151, Issue3December 1962Pages 227-243 ReferencesRelatedInformation

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