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微型螺钉直径和加载条件对骨-种植体接触的静态和动态评估的影响:一项动物研究。

Influence of mini-screw diameter and loading conditions on static and dynamic assessments of bone-implant contact: An animal study.

机构信息

Department of Oral and Maxillofacial Surgery, Aalborg University Hospital, Aalborg, Denmark.

Department of Orthodontics, School of Dentistry, Near East University, Lefkoşa, Northern Cyprus.

出版信息

Orthod Craniofac Res. 2019 May;22 Suppl 1:96-100. doi: 10.1111/ocr.12293.

DOI:10.1111/ocr.12293
PMID:31074154
Abstract

OBJECTIVES

The goal was to compare static versus dynamic bone-implant interface histology of mini-screws and to evaluate its relation to diameter and load.

SETTING AND SAMPLE POPULATION

Canine animal model.

MATERIAL AND METHODS

Custom-machined, titanium alloy (Ti6AI4V) mini-screws (n = 70) of 1.60, 2.00, 3.00 and 3.75 mm diameter were placed into edentulous sites in five skeletally mature beagle dogs. Using a split-mouth design, no load (NL) was applied to one side while a 2N load (L) was applied by calibrated coil springs on the other side. Intravenous bone labels were administered 21 and 7 days prior to sacrifice. Dogs were euthanized 90 days after screw placement. Bone sections were analysed under bright-field and epifluorescent light. The region of interest was defined as the bone within the threads of the screws. The following parameters were quantified: (a) Static-bone volume/tissue volume (BV/TV %) and bone-implant contact (BIC, %); (b) Dynamic-labelled bone/bone volume (LB/BV, %), and dynamic BIC (DBIC, %).

RESULTS

BV/TV ranged from 71.2% to 85.0% of the screw surface. BIC ranged from 45.7% to 55.4% of the screw surface and was not affected by diameter (P = 0.66). In contrast, the percentage of DBIC did not vary with the applied load (P = 0.41); however, it correlated significantly with the diameter of the screw (P = 0.001).

CONCLUSION

The percentage of DBIC that is actively remodelling increases with increasing diameter of the screw. Dynamic histomorphometry is more sensitive to detecting changes in bone-implant contact when compared to static measurements.

摘要

目的

比较微型种植体静态和动态骨-种植体界面组织学,并评估其与直径和负荷的关系。

设置和样本人群

犬动物模型。

材料和方法

定制加工的钛合金(Ti6AI4V)微型种植体(n=70),直径分别为 1.60、2.00、3.00 和 3.75 毫米,植入五只骨骼成熟的比格犬的无牙部位。采用半口设计,一侧不施加负荷(NL),另一侧用校准的螺旋弹簧施加 2N 负荷(L)。在牺牲前 21 和 7 天静脉内给予骨标记物。植入螺钉后 90 天处死犬。在明场和荧光下分析骨切片。感兴趣区域定义为螺钉螺纹内的骨。定量分析以下参数:(a)静态骨体积/组织体积(BV/TV%)和骨-种植体接触(BIC%);(b)动态标记骨/骨体积(LB/BV%)和动态 BIC(DBIC%)。

结果

BV/TV 占螺钉表面的 71.2%至 85.0%。BIC 占螺钉表面的 45.7%至 55.4%,与直径无关(P=0.66)。相反,DBIC 的百分比不受应用负荷的影响(P=0.41);然而,它与螺钉直径显著相关(P=0.001)。

结论

主动重塑的 DBIC 百分比随螺钉直径的增加而增加。与静态测量相比,动态组织形态计量学更能检测骨-种植体接触的变化。

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