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Gözenekli kalsiyum fosfat çimentosu bazlı doku iskelelelerinin sentezi ve karakterizasyonu

Authors :
Şahin, Erdem
Çiftçioğlu, Muhsin
Kimya Mühendisliği Ana Bilim Dalı
Izmir Institute of Technology. Chemical Engineering
Publication Year :
2012
Publisher :
Mühendislik ve Fen Bilimleri Enstitüsü, 2012.

Abstract

Thesis (Doctoral)--Izmir Institute of Technology, Chemical Engineering, Izmir, 2012<br />Includes bibliographical references (leaves: 254-267)<br />Text in English; Abstract: Turkish and English<br />xviii, 315 leaves<br />The goal of this thesis is to synthesize unique, clinically relevant macroporous calcium phosphate cement blocks to be utilized both in vivo and in vitro tissue engineering applications. Calcium phosphate cements which essentially consist of hydroxyapatite or brushite are constantly improved to overcome their inherent shortcomings such as low strength, low functional porosity, and low resorption. Recent literature on the topic points to monetite forming cements as an alternative phase. A novel method to utilize monetite that is finer and stronger with respect to brushite in load bearing scaffold applications is introduced in the results section of this thesis as a contribution to ever growing literature on this scope. In the preliminary study on the conversion extent of apatite forming cement, ionic strength of the setting liquid was determined as the prime effective factor on monetite conversion extent. Subsequently brushite forming β-tricalcium phosphate – monocalcium phosphate monohydrate cement system was modified by NaCl and citric acid so that brushite formation was selectively inhibited. Singular and synergistic monetite promoting effects of NaCl and citric acid were determined by monitoring the kinetics of cement setting in excess setting liquid. Spectrometric studies revealed the difference in brushite and monetite crystal surface site density which enabled selective inhibition of brushite and promotion of monetite by the synergistic effect of NaCl anc citric acid. Proposed phase control mechanism enables tailoring the composition of biphasic cements comprising of a predetermined monetite content and brushite or hydroxyapatite. In the final stage of the thesis, size distributed NaCl particles were introduced into the cement paste containing optimum amount of citric acid to enable complete monetite formation. Resultant macroporous monetite blocks were characterized in terms of microporosity, macroporosity, density, morphology, strength, phase composition, and surface area. Interconnectivity of the cement was optimized based on the correlation of porogen size distribution and morphological data.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.dedup.wf.001..2b2a294ce43bdab9283a8ab03034590b