新型多孔钛支架与骨重建部位植入物的骨结合。

IF 1 Q3 DENTISTRY, ORAL SURGERY & MEDICINE
eJournal of Oral Maxillofacial Research Pub Date : 2021-09-30 eCollection Date: 2021-07-01 DOI:10.5037/jomr.2021.12304
Kazuya Doi, Reiko Kobatake, Yusuke Makihara, Yoshifumi Oki, Hanako Umehara, Takayasu Kubo, Kazuhiro Tsuga
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引用次数: 0

摘要

目的:多孔钛因其出色的机械强度而被用于重建大面积骨缺损。在使用多孔钛重建的骨中植入种植体的骨结合质量尚不清楚。材料和方法:制备空心多孔钛(Ti)(外径 6 毫米,内径 2 毫米,长度 4 毫米,孔隙率 85%)和类似大小的多孔羟基磷灰石(多孔 HA:孔隙率 75%)样品,并将其植入 6 只新西兰白兔的股骨中。四周后,创建植入床,以植入钛植入体(直径 2 毫米,长 4 毫米)。在原始骨部位植入的植入体作为对照。四周后,对试验部位和对照部位进行组织学和组织形态计量学评估:结果:所有组均观察到骨结合。在整个区域,各组的骨形成比率和骨与种植体接触比率(BIC)均无明显差异。在骨缺损的松质骨区域,与对照组相比,多孔 Ti 和多孔 HA 的骨形成比和 BIC 比更优(骨形成比:对照组 1.8 [SD 3]%,HA 23 [SD 3]%,Ti 23.6 [SD 5]%;BIC 比:对照组 5.4 [SD 5.3]%,HA 28.9 [SD 10.7]%,Ti 41.6 [SD 14]%)。多孔钛表现出良好的骨传导和骨结合能力,与多孔 HA 相似:据我们所知,这是第一份使用钛生物材料进行初步骨重建后种植治疗的报告。多孔钛是一种适用于承重区域种植治疗前骨重建的材料,可用于后续修复治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Osseointegration Aspects of Implants at the Bone Reconstruction Site by a Novel Porous Titanium Scaffold.

Osseointegration Aspects of Implants at the Bone Reconstruction Site by a Novel Porous Titanium Scaffold.

Osseointegration Aspects of Implants at the Bone Reconstruction Site by a Novel Porous Titanium Scaffold.

Osseointegration Aspects of Implants at the Bone Reconstruction Site by a Novel Porous Titanium Scaffold.

Objectives: Porous titanium is used for the reconstruction of large bone defects due to its excellent mechanical strength. The quality of osseointegration of implants placed in bone reconstructed with porous titanium is unknown. The purpose of this in vivo study was to evaluate the osseointegration of implants at sites reconstructed using porous titanium.

Material and methods: Hollow porous titanium (Ti) (outer-diameter 6 mm, inner-diameter 2 mm, length 4 mm, 85% porosity) and similar-sized porous hydroxyapatite (porous HA: 75% porosity) samples were prepared and implanted in 6 New Zealand white rabbit femurs. Four weeks later, an implant bed was created to receive a Ti implant (diameter 2 mm, length 4 mm). An implant placed at a pristine bone site served as the control. Four weeks later, histological and histomorphometric evaluations of the test and control sites were conducted.

Results: Osseointegration was observed in all groups. There was no significant difference in the bone formation ratio and bone-implant contact (BIC) ratio across all groups for the whole area. At the cancellous bone area of the bone defect, superior bone formation ratio and BIC ratio were observed with porous Ti and porous HA compared to the control (bone formation ratio: control 1.8 [SD 3]%, HA 23 [SD 3]%, Ti 23.6 [SD 5]%; BIC ratio: control 5.4 [SD 5.3]%, HA 28.9 [SD 10.7]%, Ti 41.6 [SD 14]%). Porous Ti demonstrated good osteoconduction and osseointegration abilities, similar to porous HA.

Conclusions: To our knowledge, this is the first report of implant treatment after preliminary bone reconstruction using a titanium biomaterial. Porous titanium is a suitable material for bone reconstruction before implant treatment in load-bearing areas that allow subsequent prosthetic treatment.

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