Simulated Weightbearing and Articular Injury From Transarticular Screws in a Ligamentous Lisfranc Injury Model.

IF 2.4 2区 医学 Q2 ORTHOPEDICS Foot & Ankle International Pub Date : 2023-10-01 Epub Date: 2023-07-27 DOI:10.1177/10711007231184231
Nicholas Denove, Muturi G Muriuki, Vongtawan Juntavee, Stephan Zmugg, Robert Dekker, Robert M Havey, Anish Kadakia
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Abstract

Background: Transarticular screw fixation is a common surgical treatment for tarsometatarsal ligamentous (Lisfranc) injuries. Iatrogenic damage to articular cartilage from screw placement, however, has been thought to potentially lead to increased risk of tarsometatarsal (TMT) joint arthritis after initial injury. To date, no study has evaluated the effect of weightbearing on articular cartilage after screw fixation. The aim of this study was to create a Lisfranc injury and quantify and compare articular damage due to screw fixation before and after simulated weightbearing.

Methods: A ligamentous Lisfranc injury was created in 10 cadaveric specimens and treated with transarticular screws. Specimens were cycled for 1000 cycles at 250 N to simulate 2 weeks of physiologic weightbearing. Rotation and diastasis across the Lisfranc complex were measured. Articular injury as a percentage of total articular surface was measured using digital imaging of the first and second TMT joint before and after simulated weightbearing. Comparisons between articular damage were made and statistical analysis was performed.

Results: Simulated partial weightbearing increased articular injury 1.44-fold (P < .001). The second metatarsal (M2) showed the greatest increase (1.54-fold, P = .0047), whereas the first (M1) showed the least (1.35-fold, P = .0083). Increases seen at the medial (1.43-fold, P = .0387) and middle cuneiform (1.44-fold, P = .0292) were intermediate between the values seen at M2 and M1.

Conclusion: Articular damage from transarticular screw fixation significantly increased after simulated partial weightbearing. This may increase the risk of arthritis and future morbidity when using transarticular screws for the treatment of ligamentous Lisfranc injuries.

Clinical relevance: Iatrogenic damage to articular cartilage due to screw fixation of ligamentous Lisfranc injuries may be increased with weightbearing.

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Lisfranc韧带损伤模型中关节间螺钉的模拟负重和关节损伤。
背景:经关节螺钉固定是治疗跗跖韧带(Lisfranc)损伤的常用手术方法。然而,螺钉植入对关节软骨的医源性损伤被认为可能会导致初次损伤后跗跖关节炎(TMT)的风险增加。到目前为止,还没有研究评估螺钉固定后负重对关节软骨的影响。本研究的目的是制造Lisfranc损伤,并量化和比较模拟负重前后螺钉固定造成的关节损伤。方法:在10具尸体标本中造成Lisfranc韧带损伤,并用关节内螺钉治疗。样品在250℃下循环1000次 N模拟2 数周的生理性负重。测量整个Lisfranc复合体的旋转和舒张。在模拟负重前后,使用第一和第二TMT关节的数字成像测量关节损伤占总关节表面的百分比。对关节损伤进行比较并进行统计分析。结果:模拟部分负重使关节损伤增加1.44倍(P P = .0047),而第一个(M1)显示最少(1.35倍,P = .0083)。内侧增加(1.43倍,P = .0387)和中楔形文字(1.44倍,P = .0292)介于M2和M1的值之间。结论:模拟部分负重后,经关节螺钉固定的关节损伤显著增加。当使用关节间螺钉治疗Lisfranc韧带损伤时,这可能会增加关节炎和未来发病率的风险。临床相关性:Lisfranc韧带损伤的螺钉固定对关节软骨的医源性损伤可能会随着负重而增加。
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来源期刊
Foot & Ankle International
Foot & Ankle International 医学-整形外科
CiteScore
5.60
自引率
22.20%
发文量
144
审稿时长
2 months
期刊介绍: Foot & Ankle International (FAI), in publication since 1980, is the official journal of the American Orthopaedic Foot & Ankle Society (AOFAS). This monthly medical journal emphasizes surgical and medical management as it relates to the foot and ankle with a specific focus on reconstructive, trauma, and sports-related conditions utilizing the latest technological advances. FAI offers original, clinically oriented, peer-reviewed research articles presenting new approaches to foot and ankle pathology and treatment, current case reviews, and technique tips addressing the management of complex problems. This journal is an ideal resource for highly-trained orthopaedic foot and ankle specialists and allied health care providers. The journal’s Founding Editor, Melvin H. Jahss, MD (deceased), served from 1980-1988. He was followed by Kenneth A. Johnson, MD (deceased) from 1988-1993; Lowell D. Lutter, MD (deceased) from 1993-2004; and E. Greer Richardson, MD from 2005-2007. David B. Thordarson, MD, assumed the role of Editor-in-Chief in 2008. The journal focuses on the following areas of interest: • Surgery • Wound care • Bone healing • Pain management • In-office orthotic systems • Diabetes • Sports medicine
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