Restoring tibiofemoral alignment during ACL reconstruction results in better knee biomechanics

"Published online: 24 October 2017"PURPOSE: Anterior cruciate ligament (ACL) reconstruction (ACLR) aims to restore normal knee joint function, stability and biomechanics and in the long term avoid joint degeneration. The purpose of this study is to present the anatomic single bundle (SB) ACLR that emphasizes intraoperative correction of tibiofemoral subluxation that occurs after ACL injury. It was hypothesized that this technique leads to optimal outcomes and better restoration of pathological tibiofemoral joint movement that results from ACL deficiency (ACLD). METHODS: Thirteen men with unilateral ACLD were prospectively evaluated before and at a mean follow-up of 14.9 (SD = 1.8) months after anatomic SB ACLR with bone patellar tendon bone autograft. The anatomic ACLR replicated the native ACL attachment site anatomy and graft orientation. Emphasis was placed on intraoperative correction of tibiofemoral subluxation by reducing anterior tibial translation (ATT) and internal tibial rotation. Function was measured with IKDC, Lysholm and the Tegner activity scale, ATT was measured with the KT-1000 arthrometer and tibial rotation (TR) kinematics were measured with 3Dmotion analysis during a high-demand pivoting task. RESULTS: The results showed significantly higher TR of the ACL-deficient knee when compared to the intact knee prior to surgery (12.2° ± 3.7° and 10.7° ± 2.6° respectively, P = 0.014). Postoperatively, the ACLR knee showed significantly lower TR as compared to the ACL-deficient knee (9.6°±3.1°, P = 0.001) but no difference as compared to the control knee (n.s.). All functional scores were significantly improved and ATT was restored within normal values (P < 0.001). CONCLUSIONS: Intraoperative correction of tibiofemoral subluxation that results after ACL injury is an important step during anatomic SB ACLR. The intraoperative correction of tibiofemoral subluxation along with the replication of native ACL anatomy results in restoration of rotational kinematics of ACLD patients to normal levels that are comparable to the control knee. These results indicate that the reestablishment of tibiofemoral alignment during ACLR may be an important step that facilitates normal knee kinematics postoperatively. LEVEL OF EVIDENCE: Level II, prospective cohort study.The authors gratefully acknowledge the funding support from the Hellenic Association of Orthopaedic Surgery and Traumatology (HAOST-EEXOT)info:eu-repo/semantics/publishedVersio

Superior Capsular Reconstruction With Double Bundle of Long Head Biceps Tendon Autograft: The “Box” Technique

The superior capsular reconstruction (SCR) is an arthroscopic surgical technique recently introduced as an effective solution to restore the defect of superior articular capsule in massive rotator cuff tears that cannot be repaired anatomically. The SCR retains static stability and inhibits the proximal humeral migration, thereby optimizing the force couples about the shoulder. In this surgical technique paper, we present our technique of SCR using a double bundle construct of long head of biceps tendon, called the “box” technique. It is always combined with partial rotator cuff repair

A classification for partial subscapularis tendon tears

Purpose!#!The aim of the study was to analyze partial subscapularis tendon (SSC) tears and provide a descriptive classification.!##!Methods!#!The retrospective study included 50 patients with arthroscopically confirmed partial SSC tears. Internal rotation (IR) force measurements and IR ROM have been made and compared to the healthy contralateral side. Then the footprint of the SSC was routinely investigated by arthroscopy with standardized measurement of the bony footprint lesion. The partial tears were classified according to the mediolateral and craniocaudal extension of the rupture in the transverse and coronal plane, respectively.!##!Results!#!Partial SSC tears could be classified into split lesions (type 1, n = 11) and 3 further groups depending on the mediolateral peeled-off length of the bony footprint (type 2: &amp;lt; 10 mm, n = 20; type 3: 10-15 mm, n = 10; type 4: &amp;gt; 15 mm, n = 9). Type 2-4 could be further divided depending on the craniocaudal peeled-off length of the bony footprint (group A: &amp;lt; 10 mm, group B: 10-15 mm, group C: &amp;gt; 15 mm). Significantly decreased IR strength was shown for types 2-4 (p &amp;lt; 0.05) but not for split lesions as compared to healthy side. Types 1-4 showed significant decreased active IR ROM and all except type 3 (n.s.) which showed decreased passive IR ROM compared to the healthy side (p &amp;lt; 0.05).!##!Conclusion!#!We present a novel classification for partial SSC tears for a more detailed and reproducible description. This can help to improve the current knowledge about the appropriate treatment. It could be shown that partial tears of the subscapularis can have an impact on IR strength and motion.!##!Level of evidence!#!III

Pioneer Female Orthopedic Surgeons as Role Models

Maud Forrester-Brown in the United Kingdom (1921), Marika Daniilidou in Greece (1932), Ruth Jackson in the United States (1932), Loris Figgins in Australia (1957), and Lvalina Burger in South Africa (1993) all chose to specialize in orthopedics. Although there are dynamic female leaders in orthopedic surgery, the field continues to present obstacles to women. Role models, mentors, and exposure to the field have been lacking for women. Although improvements have occurred in the past few decades, further changes are necessary to attract, develop, and retain qualified female candidates