TY - JOUR
T1 - Kinematic Analysis of Lateral Meniscal Oblique Radial Tears in Anterior Cruciate Ligament–Reconstructed Knees
T2 - Untreated Versus Repair Versus Partial Meniscectomy
AU - Smith, Patrick A.
AU - Bezold, Will A.
AU - Cook, Cristi R.
AU - Krych, Aaron J.
AU - Stuart, Michael J.
AU - Wijdicks, Coen A.
AU - Cook, James L.
N1 - Funding Information:
One or more of the authors has declared the following potential conflict of interest or source of funding: P.A.S. has received consulting and speaking fees, research support, and royalties including for a product related to the submitted work from Arthrex Inc and owns stock options in Spinal Simplicity. C.R.C. has received royalties, consulting fees, and research support from Arthrex Inc; royalties and consulting fees from CONMED Linvatec; royalties and speaking fees from Musculoskeletal Transplant Foundation and Alpha Orthopedic Systems; research support from Zimmer; and support for education from Medical Device Business Services and Elite Orthopedics. J.L.C. has received consulting fees from Arthrex, Bioventus, and Trupanion; royalties from Arthrex and Musculoskeletal Transplant Foundation (MTF); and research support from Arthrex, DePuy Synthes, GE Healthcare, Merial, MTF, Purina, and Sites Medical. C.R.C. and J.L.C. are husband and wife. A.J.K. has received consulting fees, IP royalties, speaking fees, and research support from Arthrex; research support from Aesculap/B.Braun, Arthritis Foundation, Ceterix, Histogenics; personal fees from Gemini Mountain Medical, LLC, Smith & Nephew; consulting fees from JRF Ortho, Vericel, Responsive Arthroscopy LLC; royalties from Responsive Arthroscopy LLC; honoraria from Vericel and Joint Restoration Foundation; and grant from DJO and Exatech. M.J.S. has received consulting fees and royalties from Arthrex Inc and research support from Stryker Inc and the USA Hockey Foundation. C.W. is a paid employee of Arthrex Inc. AOSSM checks author disclosures against the Open Payments Database (OPD). AOSSM has not conducted an independent investigation on the OPD and disclaims any liability or responsibility relating thereto.
Publisher Copyright:
© 2022 The Author(s).
PY - 2022/7
Y1 - 2022/7
N2 - Background: Lateral meniscal oblique radial tears (LMORTs) affect joint and meniscal stability in anterior cruciate ligament (ACL)–deficient knees. Purpose: To determine the clinically relevant kinematics associated with the most common posterior horn LMORT lesion types, types 3 (LMORT3) and 4 (LMORT4), untreated versus arthroscopic repair versus partial meniscectomy in combination with ACL reconstruction (ACLR). Study: Controlled laboratory study. Methods: Sixteen cadaveric knees underwent robotic testing for anterior drawer and pivot-shift simulations at multiple knee flexion angles in ACL-intact and ACL-deficient states, followed by sequential testing of arthroscopic ACLR, LMORT3 lesion, LMORT3 repair, and partial meniscectomy (n = 8). The same testing sequence was performed for LMORT4 lesions (n = 8). Results: ACLR restored kinematics in ACL-deficient knees to intact levels for all metrics tested. For anterior drawer, ACLR + LMORT3 tear and partial meniscectomy resulted in significantly greater anterior translation compared with ACL-intact at all angles (P <.05) and compared with ACLR at 60° and 90° (P <.014). For pivot shift, compared with ACL-intact knees, ACLR + LMORT3 tear resulted in significantly more anterior translation at 15° (P =.041); and for ACLR + partial meniscectomy, at both 0° and 15° (P <.03). ACLR + LMORT4 tear and partial meniscectomy resulted in significantly greater anterior translation for anterior drawer (P <.04) and pivot-shift testing (P <.05) compared with intact and ACLR knees at all angles tested. ACLR + LMORT3 repair and ACLR + LMORT4 repair restored kinematics to ACLR and intact levels at all angles tested. ACLR + LMORT3 tear (P <.008) and both LMORT4 tear and partial meniscectomy (P <.05) resulted in increased meniscal extrusion compared with intact and ACLR statuses at all tested angles for anterior drawer and pivot shift, while repairs restored meniscal stability to ACLR and intact levels. Conclusion: Untreated LMORT tears increased anterior translation, pivot shift, and meniscal extrusion after ACLR, while partial meniscectomy further exacerbated these detrimental effects in this cadaveric model. In contrast, arthroscopic side-to-side repair of LMORT lesions effectively restored measured knee kinematics. Clinical Relevance: LMORT lesions are common with ACL tears and adversely affect joint stability and meniscal extrusion. This study highlights the importance of repair of LMORT 3 and 4 lesions at the time of ACLR.
AB - Background: Lateral meniscal oblique radial tears (LMORTs) affect joint and meniscal stability in anterior cruciate ligament (ACL)–deficient knees. Purpose: To determine the clinically relevant kinematics associated with the most common posterior horn LMORT lesion types, types 3 (LMORT3) and 4 (LMORT4), untreated versus arthroscopic repair versus partial meniscectomy in combination with ACL reconstruction (ACLR). Study: Controlled laboratory study. Methods: Sixteen cadaveric knees underwent robotic testing for anterior drawer and pivot-shift simulations at multiple knee flexion angles in ACL-intact and ACL-deficient states, followed by sequential testing of arthroscopic ACLR, LMORT3 lesion, LMORT3 repair, and partial meniscectomy (n = 8). The same testing sequence was performed for LMORT4 lesions (n = 8). Results: ACLR restored kinematics in ACL-deficient knees to intact levels for all metrics tested. For anterior drawer, ACLR + LMORT3 tear and partial meniscectomy resulted in significantly greater anterior translation compared with ACL-intact at all angles (P <.05) and compared with ACLR at 60° and 90° (P <.014). For pivot shift, compared with ACL-intact knees, ACLR + LMORT3 tear resulted in significantly more anterior translation at 15° (P =.041); and for ACLR + partial meniscectomy, at both 0° and 15° (P <.03). ACLR + LMORT4 tear and partial meniscectomy resulted in significantly greater anterior translation for anterior drawer (P <.04) and pivot-shift testing (P <.05) compared with intact and ACLR knees at all angles tested. ACLR + LMORT3 repair and ACLR + LMORT4 repair restored kinematics to ACLR and intact levels at all angles tested. ACLR + LMORT3 tear (P <.008) and both LMORT4 tear and partial meniscectomy (P <.05) resulted in increased meniscal extrusion compared with intact and ACLR statuses at all tested angles for anterior drawer and pivot shift, while repairs restored meniscal stability to ACLR and intact levels. Conclusion: Untreated LMORT tears increased anterior translation, pivot shift, and meniscal extrusion after ACLR, while partial meniscectomy further exacerbated these detrimental effects in this cadaveric model. In contrast, arthroscopic side-to-side repair of LMORT lesions effectively restored measured knee kinematics. Clinical Relevance: LMORT lesions are common with ACL tears and adversely affect joint stability and meniscal extrusion. This study highlights the importance of repair of LMORT 3 and 4 lesions at the time of ACLR.
KW - ACL reconstruction
KW - lateral meniscal oblique radial tears
KW - meniscal extrusion
KW - meniscal repair
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U2 - 10.1177/03635465221102135
DO - 10.1177/03635465221102135
M3 - Article
C2 - 35833923
AN - SCOPUS:85134205753
SN - 0363-5465
VL - 50
SP - 2381
EP - 2389
JO - American Journal of Sports Medicine
JF - American Journal of Sports Medicine
IS - 9
ER -