DESIGN AND BIOMECHANICAL STUDY OF TRANSARTICULAR CUBOID BONE PLATE_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

CHENDan ,  CHENZhiwei , YANGHaiqing , WUWente

Department of Orthopedics, First Affiliated Hospital, University of South China, Hengyang Hunan, 421001, P. R. China;

Corresponding author：

CHENZhiwei, Email: czw9915@sina.com

Keywords：

Adult; Cuboid fracture; Transarticular cuboid bone plate; Internal fixation; Biomechanics

DOI：

10.7507/1002-1892.20160249

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Objective To design a new type of transarticular cuboid bone plate by measuring and collecting the anatomic data of the articular surface around cuboid, and to carry out comparative biomechanical study. Methods The angle α (between the fifth metatarsocuboid joint and the fifth metatarsal bone) and the angle β (between the fifth metatarsocuboid joint and the calcaneocuboid joint) were measured in 100 adults on medial oblique X-ray film and 30 adult foot specimens. Based on literature data, the transarticular cuboid bone plate was designed with an angle α of 70° and an angle β of 30°. Six adult cadaver feet were chosen and were transected approximately 15 cm proximal to the ankle. Five strain gauges were placed at the calcaneus, cuboid, and the fourth and fifth metatarsal bones. The vertical pressure was loaded on the foot at 0-600 N, the strain value was measured. Then the cuboid fracture model was established and 600 N load was given on foot to measure the strain value and compare with the strain value before fracture. The specimens were randomly divided into groups A and B (n=3). Fracture was fixed with transarticular cuboid bone plate and 9 screws in group A and with double plate and 8 screws in group B, then the 600 N load was given to measure the strain value and vertical displacement of the fracture fragments. Results After loads of 0-600 N on the foot, the strain value of the 5 points showed an increased trend. No significant difference was found in the strain value between pre- and post-fracture at a, d, and e points P>0.05), but it was significantly larger at post-fracture than pre-fracture at b and c points (P<0.05). After fracture fixation, no significant difference was shown in the strain value at 5 points between groups A and B when loads of 0-600 N was given P>0.05). The experimental data showed that the strain value change mainly focused on the fracture site under the same load, so the strain value after fracture fixation was similar to that before fracture at b and c points P>0.05). The vertical displacement values of medial and lateral fracture fragments in group A[(0.804±0.011) mm and (0.672±0.036) mm] were significantly less than those in group B[(1.126±0.083) mm and (1.007±1.103) mm] (t=-6.711, P=0.003; t=-5.307, P=0.006). Conclusion Through biomechanical study, a new type of transarticular cuboid bone plate has better fixation effect.

Citation： CHEN Dan, CHEN Zhiwei, YANG Haiqing, WU Wente. DESIGN AND BIOMECHANICAL STUDY OF TRANSARTICULAR CUBOID BONE PLATE. Chinese Journal of Reparative and Reconstructive Surgery, 2016, 30(10): 1215-1219. doi: 10.7507/1002-1892.20160249 Copy

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3.	Main BJ, Jowett RL. Injuries of the midtarsal joint. J Bone Joint Surg (Br), 1975, 57(1):89-97.
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9.	Markwitz HD, Chase M, Whitelaw GP. Isolated injury of the second tarsometatarsal joint. Clin Orhtop Relat Res, 1989, (248):210-212.
10.	Gallino RM, Gray AC, Buckley RE. The outcome of displaced intra-articular calcancal fractures that involve the calcaneocuboid joint. Injury, 2009, 40(2):146-149.
11.	Myerson MS, Fisher RT, Burgess AR, et al. Fracture dislocations of the tarsometatarsal joints:end results correlated with pathology and treatment. Foot Ankle, 1986, 6(5):225-242.
12.	Makwana NK. Tarsometatarsal injuries Lisfranc injuries. Curr Orthop, 2005, 19(2):108-118.
13.	Watson TS, Shurnas PS, Denker J. Treatment of Lisfranc joint injury:current concepts. J Am Acad Orthop Surg, 2010, 18(12):718-728.
14.	杜晓健, 曲家富, 曹立海, 等. 微型接骨板桥式支撑固定治疗骰骨压缩骨折. 中国修复重建外科杂志, 2010, 24(10):1273-1274.
15.	吴俊, 杜晓健, 赵晓明. 跨关节内固定治疗骰骨压缩性骨折的临床分析. 实用骨科杂志, 2015, 21(11):1046-1048.
16.	丁坚, 仲飙, 罗从风, 等. 微型外固定支架治疗骰骨骨折. 临床骨科杂志, 2012, 15(1):110.
17.	张晖, 闽理, 王光林, 等. 无头加压空心螺钉治疗Lisfranc损伤的临床及影像学疗效评估. 中国修复与重建外科杂志, 2013, 27(10):1196-1201.
18.	Punwar S, Madhav R. An anatomical tenodesis method for calcaneocuboid joint stabilisation. Ann R Coll Surg Engl, 2008, 90(4):346-347.

1. 俞光荣, 于涛, 杨云峰, 等. 骰骨移位骨折的手术治疗. 中华创伤杂志, 2010, 26(12):1064-1067.
2. 王连璞, 鞠红. 国人成人骰骨的测量及前、后、内侧关节面的形态观察. 解剖学杂志, 1984, 7(2):124.
3. Main BJ, Jowett RL. Injuries of the midtarsal joint. J Bone Joint Surg (Br), 1975, 57(1):89-97.
4. 王志杰, 丁自海, 钟世镇. 与跟骨骨折内固定相关的跟骰关节面的应用解剖. 中国临床解剖学杂志, 2006, 24(6):637-639.
5. Ouzounian TJ, Shereff MJ. In vitro determination of midfoot motion. Foot Ankle, 1989, 10(3):140-146.
6. 裴国献, 王钢, 余斌, 等. 洛克伍德-格林成人骨折. 6版. 北京:人民军医出版社, 2009:1930-1937.
7. 胡孙君, 俞光荣, 陈舰, 等. 第4、5跖跗关节的应用解剖及临床意义. 同济大学学报(医学版), 2009, 30(3):121-124.
8. 王满宜, 扬庆铭, 曾炳芳, 等. 骨折治疗的AO原则. 北京:华夏出版社, 2003:4-5.
9. Markwitz HD, Chase M, Whitelaw GP. Isolated injury of the second tarsometatarsal joint. Clin Orhtop Relat Res, 1989, (248):210-212.
10. Gallino RM, Gray AC, Buckley RE. The outcome of displaced intra-articular calcancal fractures that involve the calcaneocuboid joint. Injury, 2009, 40(2):146-149.
11. Myerson MS, Fisher RT, Burgess AR, et al. Fracture dislocations of the tarsometatarsal joints:end results correlated with pathology and treatment. Foot Ankle, 1986, 6(5):225-242.
12. Makwana NK. Tarsometatarsal injuries Lisfranc injuries. Curr Orthop, 2005, 19(2):108-118.
13. Watson TS, Shurnas PS, Denker J. Treatment of Lisfranc joint injury:current concepts. J Am Acad Orthop Surg, 2010, 18(12):718-728.
14. 杜晓健, 曲家富, 曹立海, 等. 微型接骨板桥式支撑固定治疗骰骨压缩骨折. 中国修复重建外科杂志, 2010, 24(10):1273-1274.
15. 吴俊, 杜晓健, 赵晓明. 跨关节内固定治疗骰骨压缩性骨折的临床分析. 实用骨科杂志, 2015, 21(11):1046-1048.
16. 丁坚, 仲飙, 罗从风, 等. 微型外固定支架治疗骰骨骨折. 临床骨科杂志, 2012, 15(1):110.
17. 张晖, 闽理, 王光林, 等. 无头加压空心螺钉治疗Lisfranc损伤的临床及影像学疗效评估. 中国修复与重建外科杂志, 2013, 27(10):1196-1201.
18. Punwar S, Madhav R. An anatomical tenodesis method for calcaneocuboid joint stabilisation. Ann R Coll Surg Engl, 2008, 90(4):346-347.

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