Insight into bone-derived biological apatite: ultrastructure and effect of thermal treatment.
作者信息
Liu Quan, Pan Haobo, Chen Zhuofan, Matinlinna Jukka Pekka
机构信息
Dental Materials Science, Faculty of Dentistry, The University of Hong Kong, Pokfulam, Hong Kong.
Shenzhen Key Laboratory of Marine Biomaterials, Shenzhen Institute of Advanced Technology, Chinese Academy of Science, Shenzhen 518055, China.
出版信息
Biomed Res Int. 2015;2015:601025. doi: 10.1155/2015/601025. Epub 2015 Jan 28.
OBJECTIVES
This study aims at examining the ultrastructure of bone-derived biological apatite (BAp) from a series of small vertebrates and the effect of thermal treatment on its physiochemical properties.
MATERIALS AND METHODS
Femurs/fin rays and vertebral bodies of 5 kinds of small vertebrates were firstly analyzed with X-ray microtomography. Subsequently, BAp was obtained with thermal treatment and low power plasma ashing, respectively. The properties of BAp, including morphology, functional groups, and crystal characteristics were then analyzed.
RESULTS
The bones of grouper and hairtail were mainly composed of condensed bone. Spongy bone showed different distribution in the bones from frog, rat, and pigeon. No significant difference was found in bone mineral density of condensed bone and trabecular thickness of spongy bone. Only platelet-like crystals were observed for BAp obtained by plasma ashing, while rod-like and irregular crystals were both harvested from the bones treated by sintering. A much higher degree of crystallinity and larger crystal size but a lower content of carbonate were detected in the latter.
CONCLUSION
Platelet-like BAp is the common inorganic component of vertebrate bones. BAp distributing in condensed and spongy bone may exhibit differing thermal reactivity. Thermal treatment may alter BAp's in vivo structure and composition.
Zotero 插件