He Shi-Xi, Ma Cheng, Yuan Zong-Yi, Xu Tian-Feng, Wei Jin-Zhi, Shang Yin-Yu, Huang Xuan-Ping
Department of Oral and Maxillofacial Surgery, College & Hospital of Stomatology, Guangxi Medical University, Shuangyong Road 10, Nanning, Qingxiu District, Nanning, Guangxi 530021, PR China.
Department of Oral and Maxillofacial Surgery, College & Hospital of Stomatology, Guangxi Medical University, Shuangyong Road 10, Nanning, Qingxiu District, Nanning, Guangxi 530021, PR China.
J Stomatol Oral Maxillofac Surg. 2025 Feb;126(1):102039. doi: 10.1016/j.jormas.2024.102039. Epub 2024 Sep 5.
Genitoplasty is becoming more and more common, and it is important to improve the accuracy of the procedure and simplify the procedure. This experiment explores the feasibility of using augmented reality (AR) technology combined with PSI titanium plates for navigational assistance in genioplasty performed on models, aiming to study the precision of such surgical interventions.
Twelve genioplasty procedures were designed and implemented on 3D-printed resin mandibular models by the same surgeon using three different approaches: AR+3DT group (AR+PSI) , 3DT group (patient-specific titanium plate) , and a traditional free-hand group(FH group). Postoperative models were assessed using CBCT to evaluate surgical accuracy.
In terms of osteotomy accuracy, the AR group demonstrated a surgical error of 0.9440±0.5441 mm, significantly lower than the control group, which had an error of 1.685±0.8907 mm (P < 0.0001). In experiments positioning the distal segment of the chin, the overall centroid shift in the AR group was 0.3661±0.1360 mm, significantly less than the 2.304±0.9629 mm in the 3DT group and 1.562±0.9799 mm in the FH group (P < 0.0001). Regarding angular error, the AR+3DT group showed 2.825±1.373°, significantly <8.283±3.640° in the 3DT group and 7.234±5.241° in the FH group.
AR navigation technology combined with PSI titanium plates demonstrates higher surgical accuracy compared to traditional methods and shows feasibility for use. Further validation through clinical trials is necessary.
生殖器整形手术越来越普遍,提高手术准确性并简化手术过程很重要。本实验探讨在模型上进行颏成形术时,使用增强现实(AR)技术结合PSI钛板进行导航辅助的可行性,旨在研究此类手术干预的精度。
由同一位外科医生使用三种不同方法在3D打印的树脂下颌骨模型上设计并实施12例颏成形术:AR + 3DT组(AR + PSI)、3DT组(定制钛板)和传统徒手组(FH组)。术后使用CBCT评估模型以评价手术准确性。
在截骨准确性方面,AR组的手术误差为0.9440±0.5441毫米,显著低于对照组,对照组误差为1.685±0.8907毫米(P < 0.0001)。在颏部远端节段定位实验中,AR组的整体质心移位为0.3661±0.1360毫米,显著小于3DT组的2.304±0.9629毫米和FH组的1.562±0.9799毫米(P < 0.0001)。关于角度误差,AR + 3DT组为2.825±1.373°,显著小于3DT组的8.283±3.640°和FH组的7.234±5.241°。
与传统方法相比,AR导航技术结合PSI钛板显示出更高的手术准确性,并显示出使用的可行性。有必要通过临床试验进行进一步验证。
