Abstract

Enhance the efficiency of tibial transverse transport by employing customized 3D-printed osteotomy guide plates and striving to improve precision through CT evaluation for enhanced guide design. 17 diabetic foot patients were treated with the plate for tibial transverse transport. Preoperatively, we collected DICOM data from the affected tibia’s CT and designed the geometric parameters of the tibial cortical bone window. A customized 3D-printed osteotomy guide plate was then fabricated using 3D printing technology. Postoperative X-ray and CT evaluations, conducted at two and five weeks post-surgery, assessed five crucial geometric parameters of the bone window. Measurements included the distance from the upper edge of the tibial cortical bone window to the tibial plateau, the distance from the anterior edge of the tibial cortical bone window to the bone ridge, the height of the tibial cortical bone window, the center-to-center distance between the 4.0 mm diameter Schanz pin and the osteotomy Kirschner pin, and the center-to-center distance of the 4.0 mm diameter Schanz pin. These measured parameters were subsequently compared to the preoperative design parameters. The Clinical trial registration number is ChiCTR2400087174. CT measurements showed no significant differences (P > 0.05) from preoperative design parameters across the five evaluated aspects. The average osteotomy duration was 35 ± 15 min with no bone window fractures. The bone window aligned effectively with the tibial shaft, achieving complete incorporation after distraction. A 4 to 8-month postoperative follow-up confirmed full healing of the tibial surgical wound and diabetic foot wounds. Utilizing customized 3D-printed osteotomy guide plates in tibial transverse bone transport surgery enables accurate translation of preoperative virtual designs into real-time procedures, enhancing surgical efficiency and quality.

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