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Osteogenic Cell Behavior on Titanium Surfaces in Hard Tissue

Artikel i vetenskaplig tidskrift
Författare J. Y. Choi
Tomas Albrektsson
Y. J. Jeon
I. S. L. Yeo
Publicerad i Journal of Clinical Medicine
Volym 8
Nummer/häfte 5
ISSN 2077-0383
Publiceringsår 2019
Publicerad vid Institutionen för kliniska vetenskaper, Avdelningen för biomaterialvetenskap
Språk en
Länkar dx.doi.org/10.3390/jcm8050604
Ämnesord osteogenesis, cell plasticity, dental implants, electron microscopy, scanning transmission electron, foreign-body reactions, early bone response, implant surfaces, calcium-phosphate, proteome analysis, human laminin, General & Internal Medicine
Ämneskategorier Odontologi

Sammanfattning

It is challenging to remove dental implants once they have been inserted into the bone because it is hard to visualize the actual process of bone formation after implant installation, not to mention the cellular events that occur therein. During bone formation, contact osteogenesis occurs on roughened implant surfaces, while distance osteogenesis occurs on smooth implant surfaces. In the literature, there have been many in vitro model studies of bone formation on simulated dental implants using flattened titanium (Ti) discs; however, the purpose of this study was to identify the in vivo cell responses to the implant surfaces on actual, three-dimensional (3D) dental Ti implants and the surrounding bone in contact with such implants at the electron microscopic level using two different types of implant surfaces. In particular, the different parts of the implant structures were scrutinized. In this study, dental implants were installed in rabbit tibiae. The implants and bone were removed on day 10 and, subsequently, assessed using scanning electron microscopy (SEM), immunofluorescence microscopy (IF), transmission electron microscopy (TEM), focused ion-beam (FIB) system with Cs-corrected TEM (Cs-STEM), and confocal laser scanning microscopy (CLSM)which were used to determine the implant surface characteristics and to identify the cells according to the different structural parts of the turned and roughened implants. The cell attachment pattern was revealed according to the different structural components of each implant surface and bone. Different cell responses to the implant surfaces and the surrounding bone were attained at an electron microscopic level in an in vivo model. These results shed light on cell behavioral patterns that occur during bone regeneration and could be a guide in the use of electron microscopy for 3D dental implants in an in vivo model.

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