An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures

An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures

Objective: To investigate the effectiveness and accuracy of internal fixation of calcaneal fractures with a three-dimensional (3-D) printing navigation module via the sinus approach. Methods: Eleven lateral lower extremity specimens were used in the experiment and divided into the digital design (DD...

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Main Authors: Jing Xu, Zaopeng He, Guodong Zhang, Yongshao Chen, Chunrong Wei, Yudong Zheng, Haibin Lin, Wei Li, Wenhua Huang
Format: Article
Language:English
Published: SAGE Publishing 2019-03-01
Series:Journal of Orthopaedic Surgery
Online Access:https://doi.org/10.1177/2309499019834072
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spelling doaj-8c6acb692b3c4be0b99ae21125b601712020-11-25T03:09:34ZengSAGE PublishingJournal of Orthopaedic Surgery2309-49902019-03-012710.1177/2309499019834072An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fracturesJing Xu0Zaopeng He1Guodong Zhang2Yongshao Chen3Chunrong Wei4Yudong Zheng5Haibin Lin6Wei Li7Wenhua Huang8 Jing Xu, Zaopeng He and Guodong Zhang contributed equally to this work, which Jing Xu is the first author, Zaopeng He and Guodong Zhang are the Co-first authors. Jing Xu, Zaopeng He and Guodong Zhang contributed equally to this work, which Jing Xu is the first author, Zaopeng He and Guodong Zhang are the Co-first authors. Jing Xu, Zaopeng He and Guodong Zhang contributed equally to this work, which Jing Xu is the first author, Zaopeng He and Guodong Zhang are the Co-first authors. Affiliated Shunde Hospital of Guangzhou Medical University, Shunde District, Foshan, China Hand and Foot Surgery & Plastic Surgery, Affiliated Shunde Hospital of Guangzhou Medical University, Shunde District, Foshan, China Hand and Foot Surgery & Plastic Surgery, Affiliated Shunde Hospital of Guangzhou Medical University, Shunde District, Foshan, China Department of Orthopedics, Affiliated Hospital of Putian University, Licheng District, Putian City, China Hand and Foot Surgery & Plastic Surgery, Affiliated Shunde Hospital of Guangzhou Medical University, Shunde District, Foshan, China National Key Discipline of Human Anatomy, School of Basic Medical Science, Southern Medical University, Guangdong Province, ChinaObjective: To investigate the effectiveness and accuracy of internal fixation of calcaneal fractures with a three-dimensional (3-D) printing navigation module via the sinus approach. Methods: Eleven lateral lower extremity specimens were used in the experiment and divided into the digital design (DD) group ( n = 11) and the real surgery (RS) group ( n = 11). For the DD group, thin-section computed tomography (CT) scans, virtual fracture modeling, virtual bone plate fixation, sinus occlusal module design, and navigation module design were performed for the cadaver specimens. A 3-D navigation module was printed using a 3-D printer. For the RS group, the sinus approach incision was made, and the navigation module was used to assist the placement of screw fixation and anatomically locked bone plate fixation. Thin-layer CT scans, 3-D reconstructions, and reconstruction of the nail paths were performed in the RS group and 3-D registered with the DD group. 3-D coordinate values for the screw entry and exit points in the RS and DD groups were recorded, and the corresponding offset values of the screw points were calculated. The number of qualified nails at different accuracy levels was counted. The χ 2 test was used to compare the data for the DD and RS groups to obtain the accuracy level for both groups when p > 0.05, which is the critical value for experimental accuracy. Results: A total of 11 bone plates were placed and 120 screws were locked. None of them protruded from the inferior articular surface. The screw entry and exit point offsets were 1.71 ± 0.11 mm and 3.10 ± 0.19 mm, respectively. When the accuracy requirement for the entry point was 3.8 mm, there was no statistically significant difference between the two groups ( p > 0.05). Similarly, the accuracy of the exit point of the screw could only reach 6.6 mm. Conclusion: Internal fixation of calcaneal fractures via the sinus tarsi approach with an anatomical locking plate based on the 3-D printing navigation module can achieve accurate screw placement and good overall internal fixation.https://doi.org/10.1177/2309499019834072
collection DOAJ
language English
format Article
sources DOAJ
author Jing Xu
Zaopeng He
Guodong Zhang
Yongshao Chen
Chunrong Wei
Yudong Zheng
Haibin Lin
Wei Li
Wenhua Huang
spellingShingle Jing Xu
Zaopeng He
Guodong Zhang
Yongshao Chen
Chunrong Wei
Yudong Zheng
Haibin Lin
Wei Li
Wenhua Huang
An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures
Journal of Orthopaedic Surgery
author_facet Jing Xu
Zaopeng He
Guodong Zhang
Yongshao Chen
Chunrong Wei
Yudong Zheng
Haibin Lin
Wei Li
Wenhua Huang
author_sort Jing Xu
title An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures
title_short An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures
title_full An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures
title_fullStr An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures
title_full_unstemmed An experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures
title_sort experimental study on the digital precision of internal fixation via the sinus tarsi approach for calcaneal fractures
publisher SAGE Publishing
series Journal of Orthopaedic Surgery
issn 2309-4990
publishDate 2019-03-01
description Objective: To investigate the effectiveness and accuracy of internal fixation of calcaneal fractures with a three-dimensional (3-D) printing navigation module via the sinus approach. Methods: Eleven lateral lower extremity specimens were used in the experiment and divided into the digital design (DD) group ( n = 11) and the real surgery (RS) group ( n = 11). For the DD group, thin-section computed tomography (CT) scans, virtual fracture modeling, virtual bone plate fixation, sinus occlusal module design, and navigation module design were performed for the cadaver specimens. A 3-D navigation module was printed using a 3-D printer. For the RS group, the sinus approach incision was made, and the navigation module was used to assist the placement of screw fixation and anatomically locked bone plate fixation. Thin-layer CT scans, 3-D reconstructions, and reconstruction of the nail paths were performed in the RS group and 3-D registered with the DD group. 3-D coordinate values for the screw entry and exit points in the RS and DD groups were recorded, and the corresponding offset values of the screw points were calculated. The number of qualified nails at different accuracy levels was counted. The χ 2 test was used to compare the data for the DD and RS groups to obtain the accuracy level for both groups when p > 0.05, which is the critical value for experimental accuracy. Results: A total of 11 bone plates were placed and 120 screws were locked. None of them protruded from the inferior articular surface. The screw entry and exit point offsets were 1.71 ± 0.11 mm and 3.10 ± 0.19 mm, respectively. When the accuracy requirement for the entry point was 3.8 mm, there was no statistically significant difference between the two groups ( p > 0.05). Similarly, the accuracy of the exit point of the screw could only reach 6.6 mm. Conclusion: Internal fixation of calcaneal fractures via the sinus tarsi approach with an anatomical locking plate based on the 3-D printing navigation module can achieve accurate screw placement and good overall internal fixation.
url https://doi.org/10.1177/2309499019834072
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