Preparation, Physical-Chemical Characterization, and Cytocompatibility of Polymeric Calcium Phosphate Cements

Rania M. Khashaba; Mervet Moussa; Christopher Koch; Arthur R. Jurgensen; David M. Missimer; Ronny L. Rutherford; Norman B. Chutkan; James L. Borke

doi:10.1155/2011/467641

International Journal of Biomaterials (Jan 2011)

Preparation, Physical-Chemical Characterization, and Cytocompatibility of Polymeric Calcium Phosphate Cements

Rania M. Khashaba,
Mervet Moussa,
Christopher Koch,
Arthur R. Jurgensen,
David M. Missimer,
Ronny L. Rutherford,
Norman B. Chutkan,
James L. Borke

Affiliations

Rania M. Khashaba: Department Oral Biology, Medical College of Georgia, Augusta, GA 30912-1129, USA
Mervet Moussa: Department of Oral Pathology, Cairo University, Cairo 11559, Egypt
Christopher Koch: Department Orthopaedic Surgery, Section of Biomaterials, Medical College of Georgia, Augusta, GA 30912-1129, USA
Arthur R. Jurgensen: Savannah River National Laboratory, Savannah River Nuclear Solutions, Aiken, SC 29808, USA
David M. Missimer: Savannah River National Laboratory, Savannah River Nuclear Solutions, Aiken, SC 29808, USA
Ronny L. Rutherford: Savannah River National Laboratory, Savannah River Nuclear Solutions, Aiken, SC 29808, USA
Norman B. Chutkan: Department Orthopaedic Surgery, Section of Biomaterials, Medical College of Georgia, Augusta, GA 30912-1129, USA
James L. Borke: Department Oral Biology, Medical College of Georgia, Augusta, GA 30912-1129, USA

DOI: https://doi.org/10.1155/2011/467641
Journal volume & issue: Vol. 2011

Abstract

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Aim. Physicochemical mechanical and in vitro biological properties of novel formulations of polymeric calcium phosphate cements (CPCs) were investigated. Methods. Monocalcium phosphate, calcium oxide, and synthetic hydroxyapatite were combined with either modified polyacrylic acid, light activated polyalkenoic acid, or polymethyl vinyl ether maleic acid to obtain Types I, II, and III CPCs. Setting time, compressive and diametral strength of CPCs was compared with zinc polycarboxylate cement (control). Specimens were characterized using X-ray diffraction, scanning electron microscopy, and infrared spectroscopy. In vitro cytotoxicity of CPCs and control was assessed. Results. X-ray diffraction analysis showed hydroxyapatite, monetite, and brushite. Acid-base reaction was confirmed by the appearance of stretching peaks in IR spectra of set cements. SEM revealed rod-like crystals and platy crystals. Setting time of cements was 5–12 min. Type III showed significantly higher strength values compared to control. Type III yielded high biocompatibility. Conclusions. Type III CPCs show promise for dental applications.

Published in International Journal of Biomaterials

ISSN: 1687-8787 (Print); 1687-8795 (Online)
Publisher: Hindawi Limited
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Biotechnology
Website: https://onlinelibrary.wiley.com/journal/6418

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