Characterization of Hydroxyapatite derived from Bovine Bone

Authors

  • Jojorlamsihar Manalu Department of Physiology, Medical Faculty, Atma Jaya University
  • Bambang Soegijono
  • Decky Jusiana Indrani

Keywords:

Hydroxyapatite, Cowbone, heat treatment, particle size and temperature.

Abstract

In the present study, hydroxyapatite (HAp) was synthesized from biosourcesbovine bone in a cost effective and ecofriendly way.Bovine bone were converted to hydroxyapatite (HAP) by a heat treatment method at different temperatures. The final product were characterized by X-ray diffraction, Scanning Electron Microscopy, Energy Dispersive X-ray spectroscopy (EDX) and FT-IR. The phase, purity and crystallinity of different calcinedHAp powder were analysed.It confirms that material prepare from biosources cow bone is hydroxyapatite indeed. The natural HAp obtained by calcining at 850 °C shows the desired quality. In addition, SEM results revealed the formation of microstructuredHAp 0.4 mm at 700 °C and crystal agglomeration was observed with an increase in calcination temperature. Calcium and Phosphorus contents were 20 % and 11.4%, respectively, which corresponded to the Ca/P molar ratio of nonstoichiometric hydroxyapatite. The specific surfaces of products were measured by BET method. The volume of micropores was determined.

References

Orlovskii V.P., Komlev V.S., Barinov S.M., Hydroxyapatite And Hydroxyapatite-Based Ceramics, Inorganic Materials, 2002, (38) 10, 973–984.

Knychalska-Karwan Z., Slósarczyk A., Hydroksyapatyt W Stomatologii, Krakmedia, Kraków, 1994.

Vallet-Regi M., Gonzalez-Calbet J.M., Calcium Phosphates As Substitution Of Bone Tissues, Progress In Solid State Chemistry, 2004, 32, 1–31.

Fathi M.H., Hanifi A., Mortazavi V., Preparation And Bioactivity Evaluation Of Bone-Like Hydroxyapatite Nanopowder, Journal Of Materials Processing Technology, 2008, 202, 536–542.

Barakat N.A.M., Khil M.S., Omran A.M., Sheikh F.A., Kim H.Y., Extraction Of Pure Natural Hydroxyapatite From The Bovine Bones Biowaste By Three Different Methods, Journal Of Materials Processing Technology, 2009, 209(7), 3408–3415.

Ooi C.Y., Hamdi M., Ramesh S., Properties Of Hydroxyapatite Produced By Annealing Of Bovine Bone, Ceramics International, 2007, 33, 1171–1177.

Tang, P.; Li, G.; Wang, J.; Zheng, Q.; Wang, Y. Development, characterization, and validation of porous carbonated hydroxyapatite bone cement. J. Biomed. Mater. Res. B 2009, 90, 886-893.

Staffa, G.; Nataloni, A.; Compagnone, C.; Servadei, F. Custom made cranioplasty prostheses in porous hydroxyapatite using 3D design techniques: 7 years experience in 25 patients. Acta Neurochir. 2007, 149, 161-170.

Nair, M.; Suresh Babu, S.; Varma, H.; John, A. A triphasic ceramic-coated porous hydroxyapatite for tissue engineering application. Acta Biomater. 2008, 4, 173-181.

Hirata, A.; Maruyama, Y.; Onishi, K.; Hayashi, A.; Saze, M.; Okada, E. A Vascularized artificial bone graft using the periosteal fflap and porous hydroxyapatite; basic research and preliminary clinical application. Wound Repair Regen. 2008, 12, A4.

Venkatesan, J.; Qian, Z.J.; Ryu, B.; Ashok Kumar, N.; Kim, S.K. Preparation and characterization of carbon nanotube-grafted-chitosan—Natural hydroxyapatite composite for bone tissue engineering. Carbohyd. Polym. 2010, doi:10.1016/j.carbpol.2010.08.019.

Salman, S.; Soundararajan, S.; Safina, G.; Satoh, I.; Danielsson, B. Hydroxyapatite as a novel reversible in situ adsorption matrix for enzyme thermistor-based FIA. Talanta 2008, 77, 490-493.

Reichert, J.; Binner, J. An evaluation of hydroxyapatite-based filters for removal of heavy Metalions from aqueous solutions. J. Mater. Sci. 1996, 31, 1231-1241.

Venkatesan, J.; Kim, S.-K. Chitosan composites for bone tissue engineering- an overview. Mar.Drugs 2010, 8, 2252-2266.

Tseng, Y.; Kuo, C.; Li, Y.; Huang, C. Polymer-assisted synthesis of hydroxyapatite nanoparticle. Mater. Sci. Eng. C 2009, 29, 819-822.

Ooi, C. Y.; Hamdi, M.; Ramesh, S. Properties of hydroxyapatite produced by annealing of bovine bone. Ceram. Int. 2007, 33, 1171-1177.

Dachun, L.; Wei, C. Preparation and characterization of natural hydroxyapatite from animal hard tissues. Key Eng. Mat. 2007, 342, 343.

Ivankovic, H.; Gallego Ferrer, G.; Tkalcec, E.; Orlic, S.; Ivankovic, M. Preparation of highly porous hydroxyapatite from cuttlefish bone. J. Mater. Sci.-Mater. Med. 2009, 20, 1039-1046.

Kim, S.; Park, P.; Kim, Y. Study on acute subcutaneous toxicity of hydroxyapatite sinter produced from tuna bone in Sprague—Dawly rats. Korean J. Life Sci. 2001, 11, 97–102.

Walters, M.; Leung, Y.; Blumenthal, N.; LeGeros, R.; Konsker, K. A Raman and infrared spectroscopic investigation of biological hydroxyapatite. J. In org. Biochem. 1990, 39, 193.

Koutsopoulos, S. Synthesis and characterization of hydroxyapatite crystals: A review study

on the analytical methods. J. Biomed. Mater. Res. 2002, 62, 600-612.

Han, Y.; Li, S.; Wang, X.; Jia, L.; He, J. Preparation of hydroxyapatite rod-like crystals by protein precursor method. Mater. Res. Bull. 2007, 42, 1169-1177

Downloads

Published

2015-08-20

Issue

Section

Articles

How to Cite

Characterization of Hydroxyapatite derived from Bovine Bone. (2015). Asian Journal of Applied Sciences, 3(4). https://ajouronline.com/index.php/AJAS/article/view/2777

Similar Articles

31-40 of 276

You may also start an advanced similarity search for this article.

Most read articles by the same author(s)