期刊
CLINICAL ORAL IMPLANTS RESEARCH
卷 26, 期 11, 页码 1328-1337出版社
WILEY-BLACKWELL
DOI: 10.1111/clr.12461
关键词
circularly polarized light; collagen fiber orientation; confocal laser scanning microscopy; dental implants; immediate loading; osseointegration
ObjectivesTo study the peri-implant bone organization pattern of immediately loaded (IL) zirconia implants with microgrooved surfaces. Materials and MethodsForty-eight dental implants of 4mm diameter and 10mm length were inserted after two months postextraction healing in the edentulous mandible of six dogs. Three groups of sixteen implants were used, titanium implants (Control), zirconia implants (test A), and zirconia-microgrooved implants (test B), which were loaded immediately. After 4-month healing period, implant-bone samples were processed and analyzed by circularly polarized light (CPL) and confocal laser scanning microscopy (CLSM) in two regions of interest ROI1 (to evaluate the interthread bone) and ROI2 (to evaluate the bone adjacent to the threads) of 1mm thicknessx10mm length each one. ResultsBone organization differs near to the test B, compared with test A and control surfaces, active remodeling was detected surrounding test B implants, with alternancy of organized zones, meanwhile controls and test A areas showed organized areas mainly at 2mm of implant surfaces. Transverse collagen fibers were significatively higher at ROI1 for test B implants (60.344.34%), compared with controls (47.25 +/- 3.51%) and test A (43.78 +/- 2.78%) groups (P<0.05). Meanwhile, it was not found any significant difference between groups in ROI2 (P>0.05). CLSM confirmed the presence of collagen mineralized matrix inside microgrooves of test B groups. 3D reconstruction showed blood vessels in direct contact with the implant surfaces of all groups and bone and blood vessels penetration inside the microgrooves in test B group. ConclusionThe organized pattern of the microgrooved surfaces is able to induce transverse collagen fiber microenvironment reaction to the load, being positive to promote and to maintain the bone remodeling; in addition blood vessels and bone cells are able to penetrate microgrooved surfaces.
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