Quantitative histochemistry of cartilage (original) (raw)
References
Balogh, K., Kunin, A. S.: The effects of vitamin D2 and dietary phosphorus on oxidative enzymes in the epiphyseal cartilage of rachitic rats. A histochemical study. Lab. Invest.18, 782–788 (1968). PubMed Google Scholar
Bernstein, D. S., Lebouef, B., Cahill, G. F., Jr.: Studies on glucose metabolism in cartilage_in vitro_. Proc. Soc. exp. Biol. (N.Y.)107, 458–461 (1961). Google Scholar
Bonting, S. L., Mayron, B. R.: Constration, calibration and use of a modified quartz fiber “fishpole” ultramicrobalance. J. Michrochem.5, 31–42 (1961). Article Google Scholar
Bonting, S. L., Pollak, V. E., Muerhrcke, R. C., Kark, R. M.: Quantitative histochemistry of the nephron. II Alkaline phosphatase in healthy man and in various animal species. J. clin. Invest.39, 1372–1380 (1960). PubMed Google Scholar
Dikshit, P. K., Chitre, R. G.: Studies in experimental rickets: the source of serum alkaline phosphatase in rachitic albino rats. Indian J. med. Res.38, 41–47 (1950). PubMed Google Scholar
Dikshit, P. K., Patwardhan, V. N.: Studies in experimental rickets: the serum alkaline phosphatase in rachitic albino rats. Indian J. med. Res.35, 91–99 (1947). Google Scholar
Dixit, P. K.: Influence of vitamin D and starvation on cartilage glycogen and serum calcium and phosphorus. Proc. Soc. exp. Biol. (N.Y.)125, 968–971 (1967). Google Scholar
Dixit, P. K.: Quantitative histochemistry of rachitic rat cartilage enzyme activity during healing induced by vitamin D and starvation. J. Histochem. Cytochem.17, 411–417 (1969). PubMed Google Scholar
Dixit, P. K., Lowe, I. P., Heggestad, C. B., Lazarow, A.: Insulin content of microdissected fetal islets obtained from diabetic and normal rats. Diabetes13, 71–77 (1964). PubMed Google Scholar
Eaton, R. H., Moss, D. W.: Inhibition of orthophosphatase and pyrophosphatase activities of human alkaline phophatase preparation. Biochem. J.102, 917–921 (1967). Google Scholar
Fleisch, H.: Role of nucleation and inhibition in calcification. Clin. Orthop.32, 170–180 (1964). PubMed Google Scholar
Fleisch, H., Neuman, W. F.: Mechanism of calcification: role of collagen polyphosphates and phosphatases. Amer. J. Physiol.200, 1296–1300 (1961). PubMed Google Scholar
Kissane, J. M.: Quantitative histochemistry of the kidney. I. Segmental distribution of enzymes in the renal proximal tubule of normal rats. J. Histochem. Cytochem.9, 578–584 (1961). PubMed Google Scholar
Kroon, D. B.: Phosphatase and the formation of protein-carbohydrate complexes. Acta anat. (Basel)15, 317–328 (1952). Google Scholar
Kuhlman, R. E.: A microchemical study of the developing epiphyseal plate. J. Bone Jt. Surg. A42, 457–466 (1960). Google Scholar
Kuhlman, R. E.: Phosphatanses in epiphyseal cartilage. Their possible role in tissue synthesis. J. Bone Jt. Surg. A47, 545–550 (1965). Google Scholar
Lowry, O. H.: The quantitative histochemistry of the brain. Hstological samplong. J. Histochem. Cytochem.1, 420–428 (1953). PubMed Google Scholar
Lowry, O. H., Roberts, N. R., Chang, M. L. W.: The analysis of single cells. J. biol. Chem.222, 97–106 (1956). PubMed Google Scholar
Neuman, W. F. (1956): Quited from Weidmann, S. M.: Calcification of skeletal tissue. Int. rev. of connective tissue research, ed. D. A. Hall, vol. 1, p. 350. New York: Acad. Press 1963. Google Scholar
Neuman, W. F., Neuman, W. M.: The chemical dynamics of bone mineral. Chicago: Chicago University Press 1958. Google Scholar
Nuki, K., Bonting, S. L.: Quantitative histochemistry of the developing hamster tooth: Alkaline phosphatase and lactic dehydrogenase. J. Histochem. Cytochem.9, 117–125 (1961). PubMed Google Scholar
Ramalingaswamy, V., Sriramachari, S., Dikshit, P. K., Tulpule, P. G., Patwardhan, V. N.: Mode of action of vitamin D. Histochemical study of rachitic epiphyseal cartilage during healing in albino rat. Indian J. med. Sci.8, 509–516 (1954). Google Scholar
Robison, R.: The possible significance of hexosephosphoric esters in ossification. Biochem. J.17, 289–293 (1923). Google Scholar
Robison, R.: The significance of phosphorus esters in metabolism. New York: University Press 1932. Google Scholar
Sriramachari, S., Dikshit, P. K., Patwardhan, V. N.: Histochemical study of healing of rachitic epiphyseal cartilage of the rat induced by vitamin D and starvation. Indian. J. Path. Bact.1, 96–103 (1958). Google Scholar
Weidman, S. M.: Calcification of skeletal tissues. Int. rev. of connective tissue research, ed. D. A. Hall, vol. 1, p. 339–377. New York: Acad. Press 1963. Google Scholar
White, A., Handler, P., Smith, E. L.: Principles of biochemistry 4th ed. p. 415–421. New York: McGraw-Hill 1968. Google Scholar
Whitehead, R. G., Weidmann, S. M.: Oxidative enzyme system in ossifying cartilage. Biochem. J.72, 667–672 (1959). PubMed Google Scholar
Woltgens, J. H. M., Bonting, W. L., Bijvoet, O. L. M.: Relationship of inorganic pyrophosphatase and alkaline phosphatase activities in hamster molars. Calc. Tiss. Res.5, 333–343 (1970). Article Google Scholar