3D打印技术在第二趾移植拇指再造手术规划中的应用
3D Printing Technology in Planning Thumb Reconstructions with Second Toe Transplant.
作者信息
Zang Cheng-Wu, Zhang Jian-Lei, Meng Ze-Zu, Liu Lin-Feng, Zhang Wen-Zhi, Chen Yong-Xiang, Cong Rui
机构信息
Department of Orthopaedics, Xijing Hospital, Fourth Military Medical University, Xi'an, China.
出版信息
Orthop Surg. 2017 May;9(2):215-220. doi: 10.1111/os.12326. Epub 2017 Jun 9.
OBJECTIVE
To report preoperative planning using 3D printing to plan thumb reconstructions with second toe transplant.
METHODS
Between December 2013 and October 2015, the thumbs of five patients with grade 3 thumb defects were reconstructed using a wrap-around flap and second toe transplant aided by 3D printing technology. CT scans of hands and feet were analyzed using Boholo surgical simulator software (www.boholo.com). This allowed for the creation of a mirror image of the healthy thumb using the uninjured thumb. Using 3D images of the reconstructed thumb, a model of the big toe and the second toe was created to understand the dimensions of the donor site. This model was also used to repair the donor site defect by designing appropriate iliac bone and superficial circumflex iliac artery flaps. The polylactic acid model of the donor toes and reconstructed thumb was produced using 3D printing. Surgically, the wrap-around flap of the first dorsal metatarsal artery and vein combined with the joint and bone of the second toe was based upon the model donor site. Sensation was reconstructed by anastomosing the dorsal nerve of the foot and the plantar digital nerve of the great toe. Patients commenced exercises 2 weeks after surgery.
RESULTS
All reconstructed thumbs survived, although partial flap necrosis occurred in one case. This was managed with regular dressing changes. Patients were followed up for 3-15 months. The lengths of the reconstructed thumbs are 34-49 mm. The widths of the thumb nail beds are 16-19 mm, and the thickness of the digital pulp is 16-20 mm. The thumb opposition function was 0-1.5 cm; the extension angle was 5°-20° (mean, 16°), and the angle of flexion was 38°-55° (mean, 47°). Two-point discrimination was 9-11 mm (mean, 9.6 mm). The reconstructed thumbs had good appearance, function and sensation. Based on the criteria set forth by the Standard on Approval of Reconstructed Thumb and Finger Functional Assessment of the Chinese Medical Association, the results were considered excellent for four cases and good for one case. The success rate was 100%.
CONCLUSIONS
When planning a wrap-around flap and second toe transplant to reconstruct a thumb, both the donor and recipient sites can be modeled using 3D printing. This can shorten the operative time by supplying digital and accurate schematics for the operation. It can also optimize the function and appearance of the reconstructed thumb while minimizing damage to the donor site.
目的
报告使用3D打印技术进行术前规划,以计划用第二趾移植重建拇指。
方法
2013年12月至2015年10月期间,对5例3级拇指缺损患者的拇指采用带蒂皮瓣和第二趾移植,并借助3D打印技术进行重建。使用Boholo手术模拟软件(www.boholo.com)分析手和脚的CT扫描图像。这使得能够利用未受伤的拇指创建健康拇指的镜像。利用重建拇指的3D图像,创建大脚趾和第二趾的模型,以了解供区的尺寸。该模型还用于通过设计合适的髂骨和旋髂浅动脉皮瓣来修复供区缺损。使用3D打印制作供趾和重建拇指的聚乳酸模型。手术中,基于模型供区制作第一跖背动脉和静脉的带蒂皮瓣,并结合第二趾的关节和骨骼。通过吻合足部背侧神经和大脚趾的趾底固有神经来重建感觉。患者术后2周开始锻炼。
结果
所有重建的拇指均存活,尽管1例出现部分皮瓣坏死,通过定期换药处理。对患者进行了3至15个月的随访。重建拇指的长度为34至49毫米。拇指指甲床的宽度为16至19毫米,指腹厚度为16至20毫米。拇指对掌功能为0至1.5厘米;伸展角度为5°至20°(平均16°),屈曲角度为38°至55°(平均47°)。两点辨别觉为9至11毫米(平均9.6毫米)。重建的拇指外观、功能和感觉良好。根据中华医学会《再造拇指与手指功能评定标准》设定的标准,4例结果为优,1例为良。成功率为100%。
结论
在计划采用带蒂皮瓣和第二趾移植重建拇指时,供区和受区均可使用3D打印进行建模。这可以通过为手术提供数字化且精确的示意图来缩短手术时间。它还可以优化重建拇指的功能和外观,同时将对供区的损伤降至最低。
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