Westbrook Kyle, Rollor Corey, Aldahmash Sara A, Fay Guadalupe G, Rivera Elias, Price Jeffery B, Griffin Ina, Tordik Patricia A, Martinho Frederico C
Division of Endodontics, Department of Advanced Oral Sciences and Therapeutics, University of Maryland, School of Dentistry, Baltimore, Maryland.
Division of Endodontics, Department of Advanced Oral Sciences and Therapeutics, University of Maryland, School of Dentistry, Baltimore, Maryland; King Abdullah Bin Abdulaziz University Hospital, College of Dentistry, Princess Nourah Bint Abdulrahman University, Riyadh, Saudi Arabia.
J Endod. 2023 May;49(5):528-535.e1. doi: 10.1016/j.joen.2023.02.008. Epub 2023 Feb 22.
This study compared the accuracy and efficiency of a novel static computer-aided surgical technique using a 3-dimensional (3D)-printed surgical guide (3D-SG) with a fully guided drill protocol (3D-SG FG) to the freehand (FH) osteotomy and root-end resection (RER).
Forty-six roots from 2 cadaver heads were divided into 2 groups: 3D-SG FG (n = 23) and FH (n = 23). Cone-beam computed tomographic scans were taken preoperatively and postoperatively. The endodontic microsurgery was planned in Blue Sky Bio software, and the 3D-SG was designed and 3D printed. The osteotomy and RER were conducted using a guided twist drill diameter of 2 mm and an ascending tapered drill with diameters of 2.8/3.2, 3.2/3.6, 3.8/4.2, and 4.2 mm with respective guided drill guides. Two-dimensional and three-dimensional virtual deviations and angular deflection were calculated. Linear osteotomy measures and root resection angle were obtained. The osteotomy and RER time and the number of mishaps were recorded.
Two-dimensional and three-dimensional accuracy deviations and angular deflection were lower in the 3D-SG FG protocol than in the FH technique (P < .05). The height, length, and depth of the osteotomy and root resection angle were less in the 3D-SG FG protocol than in the FH technique (P < .05). The osteotomy and RER time with the 3D-SG FG protocol were less than the FH method (P < .05).
Within the limitations of this cadaver-based study using denuded maxillary and mandibular jaws, 3D-SG FG protocol showed higher accuracy than FH osteotomy and RER. Moreover, the 3D-SG FG drill protocol significantly reduced the surgical time.
本研究比较了一种使用三维(3D)打印手术导板(3D-SG)的新型静态计算机辅助手术技术与全引导钻孔方案(3D-SG FG)相对于徒手(FH)截骨术和根尖切除术(RER)的准确性和效率。
将来自2个尸头的46个牙根分为2组:3D-SG FG组(n = 23)和FH组(n = 23)。术前和术后进行锥形束计算机断层扫描。在蓝天生物软件中规划牙髓显微手术,并设计和3D打印3D-SG。使用直径为2 mm的引导麻花钻和直径分别为2.8/3.2、3.2/3.6、3.8/4.2和4.2 mm的递增锥形钻以及相应的引导钻导板进行截骨术和根尖切除术。计算二维和三维虚拟偏差及角度偏差。获得线性截骨测量值和牙根切除角度。记录截骨术和根尖切除术的时间及失误次数。
3D-SG FG方案的二维和三维准确性偏差及角度偏差低于FH技术(P <.05)。3D-SG FG方案的截骨术高度、长度、深度和牙根切除角度小于FH技术(P <.05)。3D-SG FG方案的截骨术和根尖切除术时间少于FH方法(P <.05)。
在这项基于使用裸露上颌骨和下颌骨的尸体研究的局限性内,3D-SG FG方案显示出比FH截骨术和根尖切除术更高的准确性。此外,3D-SG FG钻孔方案显著缩短了手术时间。
