Belanger, L.F. , and Leblond, C.P.: Mineralization of the Growing Tooth as Shown by Radio-Phosphorus Autographs, Proc. Soc. Exper. Biol. & Med. 73: 390, 1950.
2.
Idem: Method for Locating Radioactive Elements in Tissues by Covering Histological Sections With Photographic Emulsion, Endocrinology39: 8, 1946.
3.
Gross, J., Bogoroch, R., Nadler, N.J., and Leblond, C.P.: The Theory and Methods of the Radioautographic Localization of Radio-Elements in Tissues, Am. J. Roentgenol. 65: 420, 1951.
4.
Cox, W.M. , Jr., and Mueller , A.J.: The Composition of Milk From Stock Rats and an Apparatus for Milking Small Laboratory Animals , J. Nutrition, 13: 249, 1937.
5.
Leblond, C.P. , Wilkinson, G.W., Belanger, L.F., and Robichon , J.: Radioautographic Visualization of Bone Formation in the Rat, Am. J. Anat. 86: 289, 1950.
6.
Stevens, C.E.: Cell Turnover of the Intestinal Epithelium as Shown by Mitotic Counts and the Incorporation of P32 Into Desoxyribonucleic Acid, Ph.D. Thesis, McGill University, Montreal, 1950 .
7.
Comar, C.L., Lotz, W.E., and Boyd, G.A.: Autoradiographic Studies of Calcium, Phosphorus and Strontium Distribution in the Bones of the Growing Pig, Am. J. Anat. 90: 113, 1952.
8.
Leblond, C.P., and Greulich, R.C.: Autoradiographic Studies of Bone Formation and Growth, Chap. XII, in Biochemistry and Physiology of Bone, New York , 1955, Academic Press, Inc., p. 325.
9.
Underwood, E.E. , and Hodge, H.C.: Calcium Exchange in Enamel and Dentin as Shown by Calcium, J. D. Res. 31: 64, 1952.
10.
Belanger, L.F. : Autoradiographic and Histochemical Observations on the Mineralization of Teeth in Rats and Hamsters of Various Ages, Anat. Rec. 114: 529, 1952.
11.
Greulich, R.C. , and Leblond, C.P.: Radioautographic Visualization of the Formation and Fate of the Organic Matrix of Dentin, J. D. Res. 33: 859, 1954.
12.
Carlsson, A. : On the Mechanism of the Skeletal Turnover of Lime Salts, Acta physiol. scandinav. 26: 200, 1952.
13.
Hoffman, M.M. , and Schour, I.: Quantitative Studies in the Development of the Rat Molar. I. The Growth Pattern of the Primary, Secondary Dentin, Birth to 500 Days of Age, Anat. Rec. 78: 233, 1940.
14.
Schour, I., and Smith, M.C.: Injection of NaF on Enamel and Dentin of Rat Incisor, Proc. Soc. Exper. Biol. & Med. 32: 1, 1934.
15.
Weinmann, J.P. : The Effect of Strontium on the Incisor of the Rat. I. Injection of Small Doses of Strontium Chloride as a Means of Measuring the Rate of Incremental Dentin Apposition, J. D. Res. 21: 497, 1942.
16.
Schour, I., and Hoffman, M.M.: Studies on Tooth Development. I. The 16 Micron Calcification Rhythm in the Enamel and Dentin From Fish to Man, J. D. Res. 18: 91, 1939.
17.
Idem: Studies on Tooth Development. II. The Rate of Apposition of Enamel and Dentin in Man and Other Animals, J. D. Res.18: 161, 1939.
18.
Glegg, R.E., and Leblond, C.P.: Pressure as a Possible Cause of Dissolution and Redeposition of Bone and Tooth Crystals, Canad. J. M. So. 31: 202, 1953.
19.
Belanger, L.F. : Autoradiographic Visualization of In Vitro Exchange in Teeth, Bones, and Other Tissues, Under Various Conditions, J. D. Res.32: 168, 1953.
20.
Bevelander, G. , and Amler, M.H.: Radioactive Phosphate Absorption by Dentin and Enamel, J. D. Res. 24: 45, 1945.
21.
Amprino, R.: Further Experiments on the Fixation in Vitro of Radiocalcium to Sections of Bone, Experientia8: 380, 1952.
22.
Enfeldt, B., Engstrom, A., and Zetterstrom, R.: Renewal of Phosphate in Bone Minerals. II. Radioautographic Studies of the Renewal of Phosphate in Different Structures of Bone, Biochim. biophys. acta8: 375, 1952.