Department of Small Animal Clinical Sciences and the Jeff and Jo Godwin Advanced Small Animal Surgical Training Center and Canine Gait Laboratory, College of Veterinary Medicine, University of Florida, Gainesville, Florida, USA.
Department of Large Animal Clinical Sciences, College of Veterinary Medicine, University of Florida, Gainesville, Florida, USA.
Vet Surg. 2024 Aug;53(6):1052-1061. doi: 10.1111/vsu.14112.
To compare the efficacy and clinical outcomes of computed tomography (CT)-based virtual surgical planning (VSP) and a three-dimensional (3D)-printed, patient-specific reduction system to conventional indirect reduction techniques for diaphyseal tibial fractures stabilized using minimally invasive plate osteosynthesis (MIPO) in dogs.
A prospective clinical study with a historic control cohort.
Dogs undergoing MIPO stabilization of diaphyseal tibial fractures using a custom 3D-printed reduction system (3D-MIPO; n = 15) or conventional indirect reduction techniques (c-MIPO; n = 14).
Dogs were prospectively enrolled to the 3D-MIPO group and CT scans were used to design and fabricate a custom 3D-printed reduction system to facilitate MIPO. Medical records were searched to identify dogs for the c-MIPO group. Pre-, intra- and postoperative parameters were compared between groups.
The duration from presentation until surgery was 23 h longer in the 3D-MIPO group (p = .002). Fewer intraoperative fluoroscopic images were acquired (p < .001) and mean surgical duration was 34 min shorter in the 3D-MIPO group (p = .014). Median postoperative tibial length, frontal alignment, and sagittal alignment were within 4 mm, 3° and 3°, respectively, of the contralateral tibia in both groups and did not differ between reduction groups (p > .1). Postoperative complications occurred in 27% and 14% of fractures in the 3D-MIPO and c-MIPO groups, respectively.
Both reduction methods yielded comparable results. Although the preoperative planning and guide preparation was time consuming, surgery times were shorter and fluoroscopy use was less in the 3D-MIPO group.
VSP and the custom 3D-printed reduction system facilitated efficient MIPO.
比较计算机断层扫描(CT)虚拟手术规划(VSP)和三维(3D)打印患者特异性复位系统与传统间接复位技术在犬微创钢板接骨术(MIPO)固定骨干胫骨骨折的疗效和临床结果。
前瞻性临床研究,具有历史对照队列。
使用定制 3D 打印复位系统(3D-MIPO)(n = 15)或常规间接复位技术(c-MIPO;n = 14)行 MIPO 固定骨干胫骨骨折的犬。
前瞻性纳入 3D-MIPO 组的犬,并进行 CT 扫描以设计和制造定制 3D 打印复位系统以促进 MIPO。搜索病历以确定 c-MIPO 组的犬。比较组间术前、术中及术后参数。
3D-MIPO 组从就诊到手术的时间延长了 23 小时(p = .002)。术中获取的透视图像较少(p < .001),3D-MIPO 组的平均手术时间缩短了 34 分钟(p = .014)。两组术后胫骨长度、额状面和矢状面均在 4 毫米、3°和 3°以内,与对侧胫骨无差异(p > .1)。3D-MIPO 和 c-MIPO 组分别有 27%和 14%的骨折发生术后并发症。
两种复位方法均取得了相似的结果。尽管术前规划和导板准备耗时,但 3D-MIPO 组的手术时间更短,透视使用更少。
VSP 和定制 3D 打印复位系统有助于高效的 MIPO。
