. 2020 Jan 21;31(2):16.

doi: 10.1007/s10856-019-6356-1.

Synthesis and characterization of antibacterial drug loaded β-tricalcium phosphate powders for bone engineering applications

Aysenur Topsakal^{1

2}, Nazmi Ekren^{1

3}, Osman Kilic^{1

4}, Faik N Oktar^{1

5}, Mahir Mahirogullari^{1

6}, Ozan Ozkan⁷, Hilal Turkoglu Sasmazel⁸, Mustafa Turk⁹, Iuliana M Bogdan¹⁰, George E Stan¹⁰, Oguzhan Gunduz^{11

12}

Affiliations

¹ Center for Nanotechnology and Biomaterials Application and Research (NBUAM), Marmara University, 34722, Istanbul, Turkey.
² Department of Metallurgical and Materials Engineering, Faculty of Technology, Marmara University, 34722, Istanbul, Turkey.
³ Department of Electric and Electronic Engineering, Faculty of Technology, Marmara University, 34722, Istanbul, Turkey.
⁴ Department of Electric and Electronic Engineering, Faculty of Engineering, Marmara University, 34722, Istanbul, Turkey.
⁵ Department of Bioengineering, Faculty of Engineering, Marmara University, 34722, Istanbul, Turkey.
⁶ Department of Orthopedics and Traumatology, Memorial Hospital, 34390, Istanbul, Turkey.
⁷ Bioengineering Division, Graduate School of Science and Engineering, Hacettepe University, Beyte, 06800, Ankara, Turkey.
⁸ Metallurgical and Materials Engineering Department, Faculty of Engineering, Atilim University, Incek, 06830, Ankara, Turkey.
⁹ Bioengineering Division, Engineering Faculty, Kirikkale University, Yahsihan, 71450, Kirikkale, Turkey.
¹⁰ National Institute of Materials Physics, 077125, Magurele, Ilfov, Romania.
¹¹ Center for Nanotechnology and Biomaterials Application and Research (NBUAM), Marmara University, 34722, Istanbul, Turkey. oguzhan@marmara.edu.tr.
¹² Department of Metallurgical and Materials Engineering, Faculty of Technology, Marmara University, 34722, Istanbul, Turkey. oguzhan@marmara.edu.tr.

PMID: 31965360
DOI: 10.1007/s10856-019-6356-1

Synthesis and characterization of antibacterial drug loaded β-tricalcium phosphate powders for bone engineering applications

Aysenur Topsakal et al. J Mater Sci Mater Med. 2020.

. 2020 Jan 21;31(2):16.

doi: 10.1007/s10856-019-6356-1.

Authors

Affiliations

¹ Center for Nanotechnology and Biomaterials Application and Research (NBUAM), Marmara University, 34722, Istanbul, Turkey.
² Department of Metallurgical and Materials Engineering, Faculty of Technology, Marmara University, 34722, Istanbul, Turkey.
³ Department of Electric and Electronic Engineering, Faculty of Technology, Marmara University, 34722, Istanbul, Turkey.
⁴ Department of Electric and Electronic Engineering, Faculty of Engineering, Marmara University, 34722, Istanbul, Turkey.
⁵ Department of Bioengineering, Faculty of Engineering, Marmara University, 34722, Istanbul, Turkey.
⁶ Department of Orthopedics and Traumatology, Memorial Hospital, 34390, Istanbul, Turkey.
⁷ Bioengineering Division, Graduate School of Science and Engineering, Hacettepe University, Beyte, 06800, Ankara, Turkey.
⁸ Metallurgical and Materials Engineering Department, Faculty of Engineering, Atilim University, Incek, 06830, Ankara, Turkey.
⁹ Bioengineering Division, Engineering Faculty, Kirikkale University, Yahsihan, 71450, Kirikkale, Turkey.
¹⁰ National Institute of Materials Physics, 077125, Magurele, Ilfov, Romania.
¹¹ Center for Nanotechnology and Biomaterials Application and Research (NBUAM), Marmara University, 34722, Istanbul, Turkey. oguzhan@marmara.edu.tr.
¹² Department of Metallurgical and Materials Engineering, Faculty of Technology, Marmara University, 34722, Istanbul, Turkey. oguzhan@marmara.edu.tr.

PMID: 31965360
DOI: 10.1007/s10856-019-6356-1

Abstract

Powders of β-tricalcium phosphate [β-TCP, β-Ca₃(PO₄)₂] and composite powders of β-TCP and polyvinyl alcohol (PVA) were synthesized by using wet precipitation methods. First, the conditions for the preparation of single phase β-TCP have been delineated. In the co-precipitation procedure, calcium nitrate and diammonium hydrogen phosphate were used as calcium and phosphorous precursors, respectively. The pH of the system was varied in the range 7-11 by adding designed amounts of ammonia solution. The filtered cakes were desiccated at 80 °C and subsequently calcined at different temperatures in the range between 700-1100 °C. Later on, rifampicin form II was used to produce drug-loaded β-TCP and PVA/β-TCP powders. All the synthesized materials have been characterized from morphological (by scanning electron microscopy) and structural-chemical (by X-ray diffraction and Fourier transform infrared spectroscopy) point of view. The drug loading capacity of the selected pure β-TCP powder has been assessed. The biological performance (cytocompatibility in fibroblast cell culture and antibacterial efficacy against Escherichia coli and Staphylococcus aureus) has been tested with promising results. Application perspectives of the designed drug-bioceramic-polymer blends are advanced and discussed.

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Synthesis and characterization of antibacterial drug loaded β-tricalcium phosphate powders for bone engineering applications

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Synthesis and characterization of antibacterial drug loaded β-tricalcium phosphate powders for bone engineering applications

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