Portal de Periódicos da CAPES

Autoradiographic visualization with Ca45 of normal growth of the incisor of pigs and the effect of fluorine feeding

1954; Wiley; Volume: 119; Issue: 1 Linguagem: Inglês

10.1002/ar.1091190105

1097-0185

L. F. Bélanger, W. Lotz, Willard J. Visek, C. L. Comar,

Molecular Biology Techniques and Applications

The Anatomical RecordVolume 119, Issue 1 p. 53-69 Article Autoradiographic visualization with Ca45 of normal growth of the incisor of pigs and the effect of fluorine feeding L. F. Bélanger, L. F. Bélanger Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak RidgeSearch for more papers by this authorW. E. Lotz, W. E. Lotz Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak RidgeSearch for more papers by this authorW. J. Visek, W. J. Visek Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak Ridge Postdoctoral Fellow of the Atomic Energy Commission.Search for more papers by this authorC. L. Comar, C. L. Comar Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak RidgeSearch for more papers by this author L. F. Bélanger, L. F. Bélanger Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak RidgeSearch for more papers by this authorW. E. Lotz, W. E. Lotz Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak RidgeSearch for more papers by this authorW. J. Visek, W. J. Visek Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak Ridge Postdoctoral Fellow of the Atomic Energy Commission.Search for more papers by this authorC. L. Comar, C. L. Comar Department of Histology and Embryology, University of Ottawa, Ottawa, Canada University of Tennessee-Atomic Energy Commission Agricultural Research Program, Oak RidgeSearch for more papers by this author First published: May 1954 https://doi.org/10.1002/ar.1091190105Citations: 16 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 Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat Literature Cited Bauer, W. H. 1945 Experimental fluorine intoxication; effects on bones and teeth. Am. J. Orthod., 31: 700–719. Bélanger, L. F. 1950 A method for routine detection of radiophosphates and other radioactive compound in tissues. The inverted autograph. Anat. Rec., 107: 149–160. Bélanger, L. F. 1952 Improvements to the melted emulsion technique of autoradiography. Nature, 170: 625. Bélanger, L. F. 1952 Autoradiographic and histochemical observations on the mineralization of teeth in rats and hamsters of various ages. Anat. Rec., 114: 529–554. Bélanger, L. F., and C. P. Leblond 1946 A method for locating radioactive elements in tissues by covering histological sections with a photographic emulsion. Endocrinology, 39: 8–13. Bélanger, L. F., and C. P. Leblond 1950 Mineralization of the growing tooth as shown by radiophosphorus autographs. Proc. Soc. Exp. Biol. and Med., 73: 390–391. Bohatirchuk, F. 1944 Ueber Ergebnisse der Mikroroentgenographie. Acta Radiol., 146: 351–365. Churchill, H. R. 1935 Meyer's normal histology and histogenesis of the human teeth and associated parts. J. B. Lippincott Co., Philadelphia. Comar, C. L., W. E., Lotz and G. A. Boyd 1952 Autoradiographic studies of calcium, phosphorus and strontium distribution in the bones of the growing pig. Am. J. Anat., 90: 113–129. Comar, C. L., W. J., Visek and W. E. Lotz 1953 Effects of fluorine on calcium metabolism and bone growth of pigs. Am. J. Anat., 92: 361–389. De eds. F. 1936 Fluorine in relation to bone and tooth development. J.A.D.A., 23: 568–574. Gerould, C. H. 1945 Electron microscope study of the mechanism of fluorine deposition in teeth. J. Dent. Res., 24: 223–233. Irving, J. T. 1943 Action of fluorine on the teeth of rachitic rats. Nature, 151: 363. Irving, J. T. 1943 The action of sodium fluoride on the dentine and predentine of the incisor teeth of rats consuming diets containing calcium and phosphorus. J. Dent. Res., 22: 447–456. Irving, J. T., and M. W. P. Nienaber 1946 The effect of sodium fluoride on the teeth and blood calcium and inorganic phosphorus levels of rachitic rats. J. Dent. Res., 25: 327–335. Kumamoto, Y. 1953 Radioautographic studies of teeth following Ca45 and P32 injection in young rats. Anat. Rec., 115: 339. Leblond, C. P., G. W., Wilkinson, L. F. Bélanger and J. Robichon 1950 Radioautographic visualization of bone formation in the rat. Am. J. Anat., 86: 289–342. Lowater, F., and M. M. Murray 1937 Chemical composition of teeth: spectrographic analysis. Biochem. J., 31: 837–841. McCallum, E. V., N., Simmonds, J. E. Becker and R. W. Bunting 1925 The effects of addition of fluorine to the diet of the rat, on the quality of the teeth. J. Biol. Chem., 63: 553–562. McLure, F. J. 1948 Fluorine in dentin and enamel of sound and carious human teeth. J. Dent. Res., 97: 287–298. Murray, M. M. 1950 Industrial fluorosis. Brit. Med. Bull., 7: 87–89. Newman, W. F., M. W., Newman, E. R. Main, J. O. O'Leary and F. A. Smith 1950 Surface chemistry of bone: fluoride deposition. J. Biol. Chem., 187: 655–661. Payton, C. G. 1932 The growth in length of the long bones in the madder fed pig. J. Anat., 66: 414–425. Rand, W. E., and H. J. Schmidt 1952 The effect upon cattle of Arizona waters of high fluoride content. Am. J. Vet. Res., 13: 50–61. Reynolds, M., K. E., Corrigan, H. S. Hayden, I. G. Macy and H. A. Hunscher 1938 Diffraction studies of the effect of sodium fluoride and parathormone upon the incisors and tibiac of rats., A. J. Roent. and Rad. Therap., 39: 103–126. Schour, I., and M. C. Smith 1934 The histologic changes in the enamel and dentin of the rat incisor in acute and chronic experimental fluorosis. Univ. of Ariz. Agric. Exp. Stat. Tech. Bull., 52: 69–91. Schour, I., and M. C. Smith 1943 Injections of sodium fluoride in enamel and dentine of the incisor of the rat. Proc. Soc. Exp. Biol. and Med., 32: 1–2. Sebrell, W. H., H. T., Dean, E. Elvone and R. P. Breaux 1933 Changes in the teeth of white rats given water from a mottled enamel area compared with those produced by water containing sodium fluoride. Public Health Rep., 48: 437–445. Smith, M. C., E. M., Lantz and H. V. Smith 1931 Cause of mottled enamel, a defect of human teeth. Univ. of Ariz. Agric. Exp. Stat. Tech. Bull. No. 32. Udall, D. H., and K. P. Keller 1952 A report on fluorosis in cattle of the Columbia River valley. The Cornell Vet., 42: 160–184. Citing Literature Volume119, Issue1May 1954Pages 53-69 ReferencesRelatedInformation