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Biological calcium phosphates and their role in the physiology of bone and dental tissues I. Composition and solubility of calcium phosphates (1978)

Driessens, F. C. M. ; Dijk, J. W. E. ; Borggreven, J. M. P. M.

Springer

Calcified tissue international 26 (1978), S. 127-137

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ISSN: 1432-0827

Keywords: Calcium phosphates ; Composition ; Dissolution ; Precipitation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Variations in the composition of bone and tooth mineral are consistent with the model that the constituents are a mixed microcrystalline apatite (AP)-octocalcium phosphate (OCP) like phase and an amorphous or submicrocrystalline calcium phosphate (ACP) like phase whereby these phases can occur in different proportions. An appropriate model for a description of the variable composition and the solubility behavior of the apatite phase is given by the formula $$\begin{array}{*{20}c} {\begin{array}{*{20}c} {Ca_{5 - x - y - u} Na_{\frac{2}{3} y} } \\ {\{ (PO_4 )_{3 - x - y } (CO)_{x + y} \} (H_2 O)_{y + z} OH_{1 - x - \frac{1}{3} y - 2u} } \\\end{array}} \\\end{array}$$ in which the compositional parameters x, y, z, and u each account for one type of defect mechanism. Other point defects are formed as well by incorporation of minority amounts of ions such as Cl−, K+, and F−; a number of trace elements can substitute for Ca2+ ions under in vivo conditions. It is suggested that the incorporation of ions in or loss from the crystals in contact with aqueous solutions is reversible. Literature data are used to show the direction in which the solubility product of the apatite phase shifts by incorporation of the different physiologically relevant ions. A quantitative evaluation of the available literature data revealed that Na+ and CO3 = incorporation is the main cause for shifts in the solubility product of biological apatites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02013247

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Lattice parameters and cation distribution of solid solutions of calcium and strontium hydroxyapatite (1979)

Heijligers, H. J. M. ; Driessens, F. C. M. ; Verbeeck, R. M. H.

Springer

Calcified tissue international 29 (1979), S. 127-131

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ISSN: 1432-0827

Keywords: Calcium hydroxyapatite ; Strontium hydroxyapatite ; Cation distribution ; Lattice parameters ; Solid solutions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Solid solutions of strontium and calcium hydroxyapatite were synthesized by solid-state reaction. Lattice parameters of these compounds were determined using two types of Guinier cameras. They vary linearly with the molar percentage of strontium hydroxyapatite. The distribution of Ca and Sr ions over the fourfold and sixfold positions in the apatite structure was determined by comparing experimental and calculated values for the intensity ratios of suitable reflections. A slight, although significant, preference of Sr for the sixfold position was found. An ideal behavior is predicted for these solid solutions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02408067

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Dimensional behavior of curing bone cement masses (1975)

de Wijn, J. R. ; Driessens, F. C. M. ; Slooff, T. J. J. H.

Hoboken, NJ : Wiley-Blackwell

Journal of Biomedical Materials Research 9 (1975), S. 99-103

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ISSN: 0021-9304

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine , Technology

Notes: The curing of bone cements is accompanied by release of polymerization heat and, hence, by a temperature rise of the curing cement mass. This temperature rise causes expansion of enclosed air bubbles and evaporation of the volatile monomer. An overall expansion of 3 to 5 vol % has been mentioned in the literature. It has often been stated that this expansion favours the fixation of metal endoprostheses in the marrow cavity of bone.To check for the influence of this expansion on linear dimensions of the cured cement mass we filled stainless steel cylinders with a precision bore of 22,000 ± 0,005 mm and a length of 120 mm with bone cement. After curing of the cement in a environment of 37°C the resulting cement rod was released from the cylinder and the diameter of the rod was measured at 37°C.The influence of the “foaming effect” on the transverse dimensions of the rods was studied by curing the cement at 37°C and 2 atm air pressure in a high-pressure-vessel. This method of curing eliminates porosity in the cement almost completely, so that curing shrinkage is to be expected rather than expansion of the cement mass.The results indicate that a volumetric expansion of the cement during curing of cylindrical rods in laboratory experiments, can be accompanied by a linear diametrical shrinkage of the cement mass. The explanation of this phenomenon is to be sought in the fact that the volumetric expansion takes place at a time when the cement is still plastic; by the formation of gas bubbles, the cement is forced in longitudinal direction into the cylinder and when the temperature of the mass has passed through a maximum, the cooling of the cement mass results in a thermal shrinkage of approximately 0.4% linearly.Extrapolating this laboratory result to a clinical situation one might doubt whether the overall expansion of bone cements during curing will result in a permanent positive pressure on the walls of marrow cavity and whether it will contribute to a better fixation of endoprostheses than in the case of a, still hypothetical, nonporous cement.

Additional Material: 1 Tab.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jbm.820090414

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