Apatites in biological systems
暂无分享,去创建一个
[1] B Kerebel,et al. Ultrastructural Studies of Enamel Crystallites , 1979, Journal of dental research.
[2] E. Eanes. Enamel Apatite: Chemistry, Structure and Properties , 1979, Journal of dental research.
[3] T. Cutress. A preliminary study of the microelement composition of the outer layer of dental enamel. , 1979, Caries research.
[4] E. Pellegrino,et al. The nature of bone carbonate. , 1977, Clinical orthopaedics and related research.
[5] W. E. Brown,et al. Effects of fluoride on enamel solubility and cariostasis. , 1977, Caries research.
[6] C. Robinson,et al. Assimilation of fluoride by enamel throughout the life of the tooth. , 1977, Caries research.
[7] F. Losee,et al. Strontium content of enamel and dental caries. , 1977, Caries research.
[8] E C Moreno,et al. Physicochemical aspects of fluoride-apatite systems relevant to the study of dental caries. , 1977, Caries research.
[9] S. Ericsson. Cariostatic mechanisms of fluorides: clinical observations. , 1977, Caries research.
[10] W. E. Brown,et al. Chemical Properties of Bone Mineral , 1976 .
[11] R. Young. Biological apatite vs hydroxyapatite at the atomic level. , 1975, Clinical orthopaedics and related research.
[12] H. Skinner,et al. Thermal instability in synthetic hydroxyapatites , 1975 .
[13] P. Nummikoski,et al. Changes in dental caries and calculus development in rats through additions of magnesium, orthophosphate and fluoride to high-sucrose diets. , 1975, Archives of oral biology.
[14] M. Spector. High resolution electron microscope study of lattice images in biological apatites , 1975, Journal of microscopy.
[15] R. Legeros. The unit-cell dimensions of human enamel apatite: effect of chloride incorporation. , 1975, Archives of oral biology.
[16] A. Boskey,et al. Magnesium stabilization of amorphous calcium phosphate: A kinetic study , 1974 .
[17] C. Robinson,et al. Variations in the Chemical Composition of Human Enamel , 1974, Journal of dental research.
[18] R. Geros. Variations in the Crystalline Components of Human Dental Calculus: I. Crystallographic and Spectroscopic Methods of Analysis , 1974 .
[19] T. Cutress,et al. Natural elements of the periodic table in human dental enamel. , 1974, Caries research.
[20] A. Alfrey,et al. Nature of soft tissue calcification in uremia. , 1973, Kidney international.
[21] W. Higuchi,et al. Mechanism for the Retardation of the Acid Dissolution Rate of Hydroxyapatite by Strontium , 1973, Journal of dental research.
[22] J. Elliott. The problems of the composition and structure of the mineral components of the hard tissues. , 1973, Clinical orthopaedics and related research.
[23] D. Mcconnell. Apatite: Its Crystal Chemistry, Mineralogy, Utilization, and Geologic and Biologic Occurrences , 1973 .
[24] S. Yariv,et al. The strontium content of bones and teeth of human foetuses. , 1973, Archives of oral biology.
[25] C. Robinson,et al. Loss of carbonate during the first stages of enamel caries. , 1973, Caries research.
[26] R. Young,et al. Structure of strontium hydroxide phosphate, Sr5(PO4)3OH , 1972 .
[27] D. Simpson. Problems of the composition and structure of the bone minerals. , 1972, Clinical orthopaedics and related research.
[28] R. Legeros,et al. Brushite crystals grown by diffusion in silica gel and in solution , 1972 .
[29] J. Lim,et al. Thermogravimetric Analysis of Dentin , 1972, Journal of dental research.
[30] J. Pintér,et al. Some basic problems in the examination of the calcium hydrogen phosphates of bone. , 1972, Clinical orthopaedics and related research.
[31] G. S. Ansell,et al. Determination of Hydroxyapatite Crystallite Size in Human Dental Enamel by Dark-Field Electron Microscopy , 1972, Journal of dental research.
[32] J. Holager,et al. Thermogravimetric Experiments on Tooth Carbonates , 1972, Journal of dental research.
[33] J. Termine. Mineral chemistry and skeletal biology. , 1972, Clinical orthopaedics and related research.
[34] T. Cutress. The inorganic composition and solubility of dental enamel from several specified population groups. , 1972, Archives of oral biology.
[35] G. S. Ingram. The role of carbonate in dental mineral. , 1972, Caries research.
[36] S. J. Joris,et al. Nature of deficiency in nonstoichiometric hydroxyapatites. II. Spectroscopic studies of calcium and strontium hydroxyapatites , 1971 .
[37] F. Brudevold,et al. Mechanism of fluoride uptake by hydroxyapatite. , 1971, Archives of oral biology.
[38] F. Whittier,et al. Potentiation of metastatic calcification in vitamin D-treated rats by magnesium. , 1971, The American journal of physiology.
[39] B. Adkins,et al. Combined Effect of Trace Elements and Fluorine on Caries , 1970, Journal of dental research.
[40] F. A. Hummel,et al. The crystal chemistry of apatite: structure fields of fluor- and chlorapatite , 1970 .
[41] Racquel Z. LeGeros,et al. Conversion of Monetite, CaHPO4, To Apatites: Effect of Carbonate on the Crystallinity and the Morphology of the Apatite Crystallites , 1970 .
[42] I. Zipkin. The Inorganic Composition of Bones and Teeth , 1970 .
[43] R. Legeros,et al. Spectral Properties of Carbonate in Carbonate-Containing Apatites , 1970 .
[44] E. Pellegrino,et al. Solubility behavior of the mineral substance of bone, tooth and shell. , 1970, Clinical orthopaedics and related research.
[45] K. Selvig. Periodic lattice images of hydroxyapatite crystals in human bone and dental hard tissues , 1970, Calcified tissue research.
[46] K. Tsuchiya. Causation of Ouch-Ouch Disease (Itai-Itai Byõ)--an introductory review. I. Nature of the disease. , 1969, The Keio journal of medicine.
[47] H. Schroeder,et al. Formation and inhibition of dental calculus. , 1969, Journal of periodontology.
[48] G. Mcclellan,et al. Crystal chemical investigation of natural apatites , 1969 .
[49] D. Fisher,et al. Aluminum-Rich Apatite , 1969, Science.
[50] D. Barmes. Caries etiology in Sepik villages--trace element, micronutrient and macronutrient content of soil and food. , 1969, Caries research.
[51] J. Paulik,et al. Investigation of the composition and crystal structure of bone salt by derivatography and infrared spectrophotometry. , 1969, Hoppe-Seyler's Zeitschrift fur physiologische Chemie.
[52] H. Fleisch,et al. Isolation of inorganic pyrophosphate from bovine and human teeth. , 1968, Archives of oral biology.
[53] D. Simpson. Substitutions in apatite: I. Potassium-bearing apatite , 1968 .
[54] P. Frazier. Adult human enamel: an electron microscopic study of crystallite size and morphology. , 1968, Journal of ultrastructure research.
[55] M. Greenblatt,et al. The crystal structures of the spodiosite analogs, Ca2CrO4Cl and Ca2PO4Cl , 1967 .
[56] J. Elliott,et al. Conversion of Single Crystals of Chlorapatite into Single Crystals of Hydroxyapatite , 1967, Nature.
[57] R. Legeros,et al. Apatite Crystallites: Effects of Carbonate on Morphology , 1967, Science.
[58] E. E. Berry. The structure and composition of some calcium-deficient apatites , 1967 .
[59] J. Prener. The Growth and Crystallographic Properties of Calcium Fluor‐ and Chlorapatite Crystals , 1967 .
[60] A. Miles. Structural and chemical organization of teeth , 1967 .
[61] B. Amdur,et al. Inorganic pyrophosphate in parotid saliva and its relation to calculus formation. , 1967, Archives of oral biology.
[62] H. Newesely. The chemical behaviour of calcium polyphosphates in enamel and dentine. , 1967, Caries research.
[63] F. Casciani,et al. X-ray diffraction analysis of human enamel containing different amounts of fluoride. , 1967, Archives of oral biology.
[64] R. Söremark,et al. Chloride distribution in human dental enamel as determined by electron probe microanalysis. , 1966, Archives of oral biology.
[65] E. Hayek,et al. Synthese und Formel des biologischen und des mineralischen Carbonat‐Apatits , 1966 .
[66] R. Young,et al. Atomic-scale bases for several properties of apatites. , 1966, Archives of oral biology.
[67] M. Buonocore,et al. Comparative Dissolution Rates of Enamel, Dentin, and Bone. I. Effect of the Organic Matter , 1966, Journal of dental research.
[68] P. Frazier,et al. X-Ray Diffraction Study of the Reaction of Acidulated Fluoride with Powdered Enamel , 1966, Journal of dental research.
[69] Robert A. Gulbrandsen,et al. Carbonate-bearing apatite from Faraday Township, Ontario, Canada , 1966 .
[70] M. F. Little,et al. The nature of water in sound human enamel. A preliminary study. , 1966, Archives of oral biology.
[71] W. E. Brown,et al. Infra-red spectra of hydroxyapatite, octacalcium phosphate and pyrolysed octacalcium phosphate. , 1966, Archives of oral biology.
[72] W. E. Brown,et al. Crystal Growth of Bone Mineral , 1966, Clinical orthopaedics and related research.
[73] H. Myers. Trapped Water of Dental Enamel , 1965, Nature.
[74] W. Armstrong,et al. Composition and constitution of the mineral phase of bone. , 1965, Clinical orthopaedics and related research.
[75] A. S. Posner,et al. Crystal Structure of Hydroxyapatite , 1964, Nature.
[76] J. C. Elliott,et al. The crystallographic structure of dental enamel and related apatites , 1964 .
[77] R. Harper,et al. X-RAY DIFFRACTION ANALYSIS OF THE EFFECT OF FLUORIDE ON HUMAN BONE APATITE. , 1963, Archives of oral biology.
[78] K. Omnell,et al. CRYSTAL GROWTH IN RAT ENAMEL , 1963, The Journal of cell biology.
[79] W. Neuman,et al. Synthetic hydroxy apatite crystals. II. Aging and strontium incorporation , 1963 .
[80] F. Brudevold,et al. The effect of carbonate on the solubility of hydroxylapatite. , 1963, Archives of oral biology.
[81] F. Brudevold,et al. A study of zinc in human teeth. , 1963, Archives of oral biology.
[82] D. Carlstrom,et al. Studies on the ultrastructure of dental enamel. V. The state of water in human enamel. , 1963, Journal of ultrastructure research.
[83] W. H. Emerson,et al. The infra-red absorption spectra of carbonate in calcified tissues , 1962 .
[84] H. Fleisch,et al. Mechanism of Calcification: Inhibitory Role of Pyrophosphate , 1962, Nature.
[85] R. Howie,et al. Rock-forming minerals , 1962 .
[86] O. Trautz,et al. Experiments with calcium carbonate phosphates and the effect of topical application of sodium fluoride. , 1961, Archives of oral biology.
[87] D. Mcconnell. Recent advances in the investigation of the crystal chemistry of dental enamel , 1960 .
[88] T. Taylor. The nature of bone citrate. , 1960, Biochimica et biophysica acta.
[89] A. Sobel. INTERRELATIONSHIP OF TOOTH COMPOSITION, BODY FLUIDS, DIET, AND CARIES SUSCEPTIBILITY * , 1960, Annals of the New York Academy of Sciences.
[90] A. Prapuolenis,et al. Pyrophosphate: A Factor in Tooth Erosion , 1960, Journal of dental research.
[91] O. Trautz. CRYSTALLOGRAPHIC STUDIES OF CALCIUM CARBONATE PHOSPHATE * , 1960, Annals of the New York Academy of Sciences.
[92] J. Parsons,et al. X-ray diffraction analysis of crystals in pathology. , 1959, American journal of clinical pathology.
[93] R. Collin. Strontium-Calcium Hydroxyapatite Solid Solutions: Preparation and Lattice Constant Measurements , 1959 .
[94] L. L. Ames. The genesis of carbonate apatites , 1959 .
[95] D. Carlstrom,et al. The size and shape of the apatite crystallites in bone as determined from line-broadening measurements on oriented specimens. , 1959, Biochimica et biophysica acta.
[96] W. Neuman,et al. THE CHEMICAL DYNAMICS OF BONE MINERAL , 1959 .
[97] D. Buchanan,et al. Studies on the nature of bone carbonate. , 1958, Archives of biochemistry and biophysics.
[98] L. Azároff,et al. The Powder Method in X‐Ray Crystallography , 1958 .
[99] G. Bourne,et al. The biochemistry and physiology of bone , 1956 .
[100] G. Wolstenholme,et al. Ciba Foundation symposium on bone structure and metabolism , 1956 .
[101] R. Waldron. Infrared Spectra of Ferrites , 1955 .
[102] V. Deitz,et al. Pyrophosphate Formation Upon Ignition of Precipitated Basic Calcium Phosphates1 , 1955 .
[103] R. Robinson,et al. CRYSTAL‐COLLAGEN RELATIONSHIPS IN BONE AS OBSERVED IN THE ELECTRON MICROSCOPE. III. CRYSTAL AND COLLAGEN MORPHOLOGY AS A FUNCTION OF AGE , 1955, Annals of the New York Academy of Sciences.
[104] T. Y. Toribara,et al. An Infrared Study of the Nature of Bone Carbonate1a , 1955 .
[105] A. Sobel,et al. Calcification. XI. Studies of the incorporation of citrate in calcification in vitro. , 1954, Journal of dental research.
[106] C. Frondel,et al. Studies in urolithiasis; the composition of urinary calculi. , 1947, The Journal of urology.
[107] C. Beevers. The Atomic Structure of Fluor-Apatite and its Relation to that of Tooth and Bone Material , 1946 .