Disruption of the anterior cruciate ligament (ACL) is a common injury that usually requires surgical reconstruction to restore function and prevent the progression of post- traumatic osteoarthritis (OA). However, evidence suggests that OA persists despite surgery. The initial tension applied to the graft at the time of surgery controls knee motion and the distribution of joint contact stress, factors thought to induce OA. Our primary objective is to evaluate the effects of initial graft tension on the articular cartilage response following ACL reconstruction in a prospective, randomized, double-blinded controlled study. Patients who were candidates for ACL reconstruction with an autograft were randomized into one of two treatment groups: 1) initial graft tension set such that the anterior-posterior (A-P) laxity of the reconstructed knee is equal to that of the contralateral normal knee (the """"""""low-tension"""""""" treatment), and 2) initial graft tension set to reduce A-P laxity by 2-mm relative to that of the contralateral knee (the """"""""high-tension"""""""" treatment). An additional group of subjects without evidence of knee injury was recruited to serve as a control. In the current funding cycle, the short-term outcome (<3 years) is being assessed. In this competitive renewal, the follow-up will be extended to a minimum of 7-years. The long-term follow-up is necessary to clearly identify those patients who will present with osteoarthritis. Joint space narrowing via radiography is the only validated measure for quantifying OA progression, and will continue to serve as the primary outcome measure for the study. Quantitative and semi-quantitative MRIs will also be used to assess cartilage volume loss and the integrity of related tissues. The effects of initial graft tension will also be assessed using the secondary outcome measures of A-P laxity (an indicator of graft integrity and knee kinematics), isokinetic strength (an indicator of dynamic function), and validated patient-oriented and clinical outcome scores. We hypothesize that after 7-years of healing, the tibiofemoral joint space width and cartilage thickness in the reconstructed knees of the """"""""high-tension"""""""" treatment group will be equal to those of the control group, while that of the the """"""""low- tension"""""""" treatment group will be less than those of the control group (indicating OA). We also expect that those patients with increased laxity following surgery will be more prone to osteoarthritis. The relationships between the different outcome measures will also be assessed.

Public Health Relevance

ACL injuries have reached epidemic proportions and place the patient at high risk for post-traumatic arthritis. The proposed study will establish the incidence of arthritis following knee ligament surgery, and will determine if a modification in the surgical technique can reduce cartilage degeneration. It will also explore potential causes of arthritis and validate methods used to detect arthritis in the early stages of the disease. Therefore these data could impact the future care of the ACL injured patient and reduce the economic burden of post- traumatic arthritis associated with this injury.

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR047910-07
Application #
7911663
Study Section
Musculoskeletal Rehabilitation Sciences Study Section (MRS)
Program Officer
Panagis, James S
Project Start
2001-07-01
Project End
2014-07-31
Budget Start
2010-08-01
Budget End
2011-07-31
Support Year
7
Fiscal Year
2010
Total Cost
$339,560
Indirect Cost
Name
Rhode Island Hospital
Department
Type
DUNS #
075710996
City
Providence
State
RI
Country
United States
Zip Code
02903
DeFroda, Steven F; Karamchedu, Naga Padmini; Owens, Brett D et al. (2018) Tibial tunnel widening following anterior cruciate ligament reconstruction: A retrospective seven-year study evaluating the effects of initial graft tensioning and graft selection. Knee 25:1107-1114
Ware, J Kristopher; Owens, Brett D; Akelman, Matthew R et al. (2018) Preoperative KOOS and SF-36 Scores Are Associated With the Development of Symptomatic Knee Osteoarthritis at 7 Years After Anterior Cruciate Ligament Reconstruction. Am J Sports Med 46:869-875
Akelman, Matthew R; Fadale, Paul D; Hulstyn, Michael J et al. (2016) Effect of Matching or Overconstraining Knee Laxity During Anterior Cruciate Ligament Reconstruction on Knee Osteoarthritis and Clinical Outcomes: A Randomized Controlled Trial With 84-Month Follow-up. Am J Sports Med 44:1660-70
Biercevicz, Alison M; Akelman, Matthew R; Fadale, Paul D et al. (2015) MRI volume and signal intensity of ACL graft predict clinical, functional, and patient-oriented outcome measures after ACL reconstruction. Am J Sports Med 43:693-9
Rainbow, Michael J; Miranda, Daniel L; Cheung, Roy T H et al. (2013) Automatic determination of an anatomical coordinate system for a three-dimensional model of the human patella. J Biomech 46:2093-6
Miranda, Daniel L; Fadale, Paul D; Hulstyn, Michael J et al. (2013) Knee biomechanics during a jump-cut maneuver: effects of sex and ACL surgery. Med Sci Sports Exerc 45:942-51
Coats-Thomas, Margaret S; Miranda, Daniel L; Badger, Gary J et al. (2013) Effects of ACL reconstruction surgery on muscle activity of the lower limb during a jump-cut maneuver in males and females. J Orthop Res 31:1890-6
Fleming, Braden C; Fadale, Paul D; Hulstyn, Michael J et al. (2013) The effect of initial graft tension after anterior cruciate ligament reconstruction: a randomized clinical trial with 36-month follow-up. Am J Sports Med 41:25-34
Miranda, Daniel L; Rainbow, Michael J; Crisco, Joseph J et al. (2013) Kinematic differences between optical motion capture and biplanar videoradiography during a jump-cut maneuver. J Biomech 46:567-73
Mulcahey, Mary K; Monchik, Keith O; Yongpravat, Charlie et al. (2012) Effects of single-bundle and double-bundle ACL reconstruction on tibiofemoral compressive stresses and joint kinematics during simulated squatting. Knee 19:469-76

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