Biomechanical Comparison of Capsular Repair, Capsular Shift, and Capsular Plication for Hip Capsular Closure: Is a Single Repair Technique Best for All?open access
- Authors
- De Giacomo, Anthony F.; Lu, Young; Suh, Dong Hun; McGarry, Michelle H.; Banffy, Michael; Lee, Thay Q.
- Issue Date
- 10월-2021
- Publisher
- SAGE PUBLICATIONS INC
- Keywords
- hip capsule; capsular repair; capsular shift; capsular plication; biomechanics
- Citation
- ORTHOPAEDIC JOURNAL OF SPORTS MEDICINE, v.9, no.10
- Indexed
- SCIE
SCOPUS
- Journal Title
- ORTHOPAEDIC JOURNAL OF SPORTS MEDICINE
- Volume
- 9
- Number
- 10
- URI
- https://scholar.korea.ac.kr/handle/2021.sw.korea/146103
- DOI
- 10.1177/23259671211040098
- ISSN
- 2325-9671
- Abstract
- Background: In hip arthroscopy, the best capsular closure technique to prevent microinstability in some patients while preventing overconstraints in other patients has yet to be determined. Purpose: To evaluate the biomechanical effects of capsular repair, capsular shift, and combination capsular shift and capsular plication for closure of the hip capsule. Study Design: Controlled laboratory study. Methods: Eight cadaveric hips (4 male and 4 female hips; mean age, 55.7 years) were evaluated in 7 conditions: intact, vented, capsulotomy, side-to-side repair, side-to-side repair with capsular plication (interval closure between iliofemoral and ischiofemoral ligaments), capsular shift repair, and capsular shift repair with plication. Measurements, via a 360 degrees goniometer, included internal and external rotation with 1.5 N center dot m of torque at 5 degrees of extension and 0 degrees, 30 degrees, 60 degrees, and 90 degrees of flexion. In addition, the degree of maximum extension with 5 N center dot m of torque and the amount of femoral distraction with 40 N and 80 N of force were obtained. Repeated-measures analysis of variance and Tukey post hoc analyses were used to analyze differences between capsular conditions. Results: At lower hip positions (5 degrees of extension, 0 degrees and 30 degrees of flexion), there was a significant increase in external rotation and total rotation after capsulotomy versus the intact state (P < .05). At all hip flexion angles, there was a significant increase in external rotation, internal rotation, and total rotation as well as a significant increase in maximum extension after capsulotomy versus capsular shift with plication (P < .05 for all). At all flexion angles, both capsular closure with side-to-side repair (with or without plication) and capsular shift without capsular plication were able to restore rotation, with no significant differences compared with the intact capsule (P > .05). Among repair constructs, there were significant differences in range of motion between side-to-side repair and combined capsular shift with plication (P < .05). Conclusion: At all positions, significantly increased rotational motion was seen after capsulotomy. Capsular closure was able to restore rotation similar to an intact capsule. Combined capsular shift and plication may provide more restrained rotation for conditions of hip microinstability but may overconstrain hips without laxity.
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