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H‐Plasty Repair Technique Improved Tibiofemoral Contact Mechanics After Repair for Adjacent Radial Tears of Posterior Lateral Meniscus Root: A Biomechanical Study

Zhengzheng Zhang, Huan Luo, Haozhi Zhang, Yunfeng Zhou, Zhong Chen, Chuan Jiang, Bin Song, Weiping Li

2021Arthroscopy The Journal of Arthroscopic and Related Surgery14 citationsDOI

Abstract

PURPOSE: To compare the time-zero tibiofemoral contact mechanics among the 4 different suturing repairs: transtibial pullout suture repair, suture anchor repair, side-to-side repair, and H-plasty repair. METHODS: Twenty-four human cadaveric knees were included. Each lateral meniscus condition (intact, radial tear, and repair) was tested under a 1000-N axial compressive load at 0°, 30°, 60°, and 90° of flexion. Four different repair techniques, transtibial pullout, suture anchor, side-to-side, and H-plasty repair technique, were tested. Tibiofemoral mean and peak contact pressure and contact area in the lateral and medial compartments were measured by Tekscan sensors. RESULTS: Radial tears adjacent to the posterior lateral meniscus root produced significantly decreased contact area and increased mean and peak contact pressures in the lateral compartment across all angles (P < .05). All repair groups could improve the contact mechanics relative to the torn condition (P < .05), but only H-plasty repair showed no significant difference in the mean and peak contact pressure and contact area compared with that of the intact state at all flexion angles (P > .05). CONCLUSIONS: The results showed that the tibiofemoral contact mechanics after adjacent radial tears of the posterior lateral meniscal root were improved to the intact level by H-plasty repair at time-zero. The additional vertical mattress sutures act as "stabilizers" to provide a more stable environment in distributing vertical tibiofemoral pressure. The other 3 repair techniques also significantly improved lateral tibiofemoral contact mechanics relative to the corresponding tear conditions. CLINICAL RELEVANCE: The results of this study suggest that H-plasty repair can restore the biomechanical properties to the intact state. Since it was a time-zero cadaveric study, the results should be carefully used in clinical practices.

Topics & Concepts

Cadaveric spasmContact mechanicsMedial meniscusBiomechanicsFibrous jointOrthodonticsAnatomyMeniscusContact areaMedicineMechanicsMaterials scienceStructural engineeringGeometryPhysicsOsteoarthritisMathematicsComposite materialEngineeringFinite element methodIncidence (geometry)PathologyAlternative medicineKnee injuries and reconstruction techniquesTotal Knee Arthroplasty OutcomesShoulder Injury and Treatment
H‐Plasty Repair Technique Improved Tibiofemoral Contact Mechanics After Repair for Adjacent Radial Tears of Posterior Lateral Meniscus Root: A Biomechanical Study | Litcius