Tania Moya-Martínez, Rui Figueiredo, Adrià Jorba-García, Jose Javier Bara-Casaus, Fernando Rojas-Vizcaya, Cristina de-la-Rosa-Gay, Alba Sánchez-Torres, Eduard Valmaseda-Castellón
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Preoperative and postoperative cone beam computed tomography scans were superimposed to measure deviations between the planned and final miniscrew position, and placement time was recorded.</p><p><strong>Results: </strong>The d-CAS group showed less deviation at the entry point (95% confidence interval [CI] = 1.79 mm to 0.16 mm; P = .019) and less angle deviation (95% CI = 8.5° to 1.7°; P = .004). No significant differences were observed in other variables. Both operators achieved similar accuracy. Placement time was significantly longer in the d-CAS group, with a mean difference of 6.3 minutes (P < .001).</p><p><strong>Conclusions: </strong>Dynamic computer-assisted surgery improves the accuracy of orthodontic miniscrew placement vs the traditional FH method. However, d-CAS takes significantly longer. 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引用次数: 0
摘要
目的:比较动态计算机辅助手术(d-CAS)系统与传统徒手(FH)方法的正畸微型支架放置的准确性和时间。还评估了侧边、位置和操作人员经验的影响。材料与方法:采用10个上颌树脂模型进行随机体外实验研究。在虚拟规划后,由一名经验丰富的操作员和一名新手操作员随机放置40个微型支架。采用d-CAS系统放置20枚微型螺钉(试验组),采用常规FH方法放置20枚微型螺钉(对照组)。术前和术后的锥形束计算机断层扫描叠加测量计划和最终微螺钉位置之间的偏差,并记录放置时间。结果:d-CAS组在进入点偏差较小(95%置信区间[CI] = 1.79 mm至0.16 mm; P = 0.019),角度偏差较小(95% CI = 8.5°至1.7°;P = 0.004)。其他变量无显著性差异。两种运算方法都达到了相似的精度。d-CAS组放置时间明显延长,平均差异为6.3分钟(P < 0.001)。结论:与传统的FH方法相比,动态计算机辅助手术提高了正畸微型支架放置的准确性。然而,d-CAS需要的时间要长得多。临床医生的经验似乎对准确性没有显著影响。
Accuracy of a dynamic guided surgery system for orthodontic miniscrew placement: an experimental in vitro study.
Objectives: To compare the accuracy and time required for orthodontic miniscrew placement using a dynamic computer-assisted surgery (d-CAS) system vs the conventional freehand (FH) approach. The effect of side, location, and operator experience was also evaluated.
Materials and methods: A randomized, in vitro experimental study was conducted using 10 maxillary resin models. After virtual planning, 40 miniscrews were randomly placed by one experienced and one novice operator. Twenty miniscrews were placed using a d-CAS system (test group) and 20 using the conventional FH method (control group). Preoperative and postoperative cone beam computed tomography scans were superimposed to measure deviations between the planned and final miniscrew position, and placement time was recorded.
Results: The d-CAS group showed less deviation at the entry point (95% confidence interval [CI] = 1.79 mm to 0.16 mm; P = .019) and less angle deviation (95% CI = 8.5° to 1.7°; P = .004). No significant differences were observed in other variables. Both operators achieved similar accuracy. Placement time was significantly longer in the d-CAS group, with a mean difference of 6.3 minutes (P < .001).
Conclusions: Dynamic computer-assisted surgery improves the accuracy of orthodontic miniscrew placement vs the traditional FH method. However, d-CAS takes significantly longer. Clinician experience does not seem to significantly affect accuracy.
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