Mechanical properties and biocompatibility of a biomaterial based on deproteinized hydroxyapatite and endodentine cement | Uz deproteinizēta hidroksiapatīta un endodentīna cementa bāzes veidota biomateriāla biosaderība un mehāniskās īpašības
2016
Rupeks, L., Riga Technical Univ. (Latvia). Faculty of Materials Science and Applied Chemistry. Inst. of Technical Physics | Filipenkov, V., Riga Technical Univ. (Latvia). Faculty of Materials Science and Applied Chemistry. Inst. of Technical Physics | Knets, I., Riga Technical Univ. (Latvia). Faculty of Materials Science and Applied Chemistry. Inst. of Technical Physics | Vitins, V., Riga Technical Univ. (Latvia). Faculty of Materials Science and Applied Chemistry. Inst. of Technical Physics | Sokolova, M., Riga Technical Univ. (Latvia). Faculty of Materials Science and Applied Chemistry. Inst. of General Chemical Engineering. Rudolfs Cimdins Riga Biomaterials Innovations and Development Centre | Stipniece, L., Riga Technical Univ. (Latvia). Faculty of Materials Science and Applied Chemistry. Inst. of General Chemical Engineering. Rudolfs Cimdins Riga Biomaterials Innovations and Development Centre | Pilmane, M., Riga Stradins Univ. (Latvia)
anglais. Hydroxyapatite is used for bone reconstruction, in order to improve its mechanical properties different substances can be added. In our study new biomaterial is created from deproteinised hydroxyaptite and endodentic cement, its mechanical properties were tested. Material was implanted subcutaneous in rats, then histological and biocompatability tests were performed. Results indicate that stuff has good mechanical properties, short setting time and gradual resorption creating porosity and ability to integrate in bone.
Afficher plus [+] Moins [-]letton. Hidroksiapatīts tiek lietots kaulaudu rekonstrukcijai, tā mehānisko īpašību uzlabošanai pievieno citas vielas. Šajā darbā biomateriāls ir veidots uz dabiska deproteinizēta hidroksiaptīta un endodentīna cementa bāzes, un noteiktas tā mehāniskās īpašības. Materiāls tika implantēts laboratorijas žurku zemādā un veikta histoloģiskā analīze kā arī noteikta biosaderība. Rezultāti rāda, ka materiālam ir piemērotas mehāniskās īpašības kaula sanācijai, īss cietēšanas laiks un pakāpeniskas rezorbcijas rezultātā veidojas poras, kas ir pie mērotas kaulaudu integrācijai.
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