Single- vs. Double-Bundle ACL Reconstruction
| Status: | Completed |
|---|---|
| Conditions: | Orthopedic |
| Therapuetic Areas: | Orthopedics / Podiatry |
| Healthy: | No |
| Age Range: | 14 - 50 |
| Updated: | 4/21/2016 |
| Start Date: | March 2011 |
| End Date: | January 2015 |
Single- vs. Double-Bundle ACL Reconstruction: A Prospective Randomized Trial
The purpose of this double-blind, randomized clinical trial to compare outcomes of
single-bundle (SB) to anatomic double-bundle (DB) ACL reconstruction. We hypothesize that
anatomically reconstructing both bundles of the ACL will lead to better restoration of
healthy knee mechanics and clinical outcomes. In addition to standard clinical outcome
measures, we will utilize a unique combination of high-speed biplane radiography (for highly
accurate assessment of knee kinematics) and 3D imaging (MRI and CT, to define joint and
cartilage morphology) to characterize joint kinematics and cartilage surface interactions
during functional tasks.
The specific aims of this study are to:
Specific Aim 1: Determine if anatomic double-bundle ACL reconstruction restores normal
dynamic knee function better than single-bundle ACL reconstruction.
Hypothesis 1.1 Knee kinematics after anatomic double-bundle ACL reconstruction are more
similar to the uninjured contra-lateral limb than after single-bundle ACL reconstruction, as
measured with dynamic stereoradiography 6 and 24 months after surgery.
Hypothesis 1.2 Graft elongation from 6 to 24 months after surgery is reduced with anatomic
double-bundle ACL reconstruction in comparison to single-bundle ACL reconstruction, as
measured with dynamic stereoradiography.
Specific Aim 2: Determine if anatomic double-bundle ACL reconstruction results in better
clinical outcomes than single-bundle ACL reconstruction.
Hypothesis 2.1 Anatomic double-bundle ACL reconstruction will result in more symmetrical
laxity and better range of motion and hop test scores in comparison to single-bundle ACL
reconstruction.
Hypothesis 2.2 In comparison to single-bundle ACL reconstruction, anatomic double-bundle ACL
reconstruction will result in better patient-oriented outcomes, indicating fewer symptoms, a
higher level of activity and more complete return to sport.
Successful completion of these aims will provide quantitative evidence of the efficacy of
anatomic double-bundle ACL reconstruction for restoring normal knee mechanics. Should the
results show a clear benefit for this procedure, it would provide support for wider
adaptation of anatomic DB reconstruction. By completing the proposed aims, we will also
establish a sound basis for additional studies with longer follow-up (including the subjects
in this cohort), to assess the benefits of anatomic DB ACL reconstruction for improving
long-term clinical outcomes and maintaining joint and cartilage health.
single-bundle (SB) to anatomic double-bundle (DB) ACL reconstruction. We hypothesize that
anatomically reconstructing both bundles of the ACL will lead to better restoration of
healthy knee mechanics and clinical outcomes. In addition to standard clinical outcome
measures, we will utilize a unique combination of high-speed biplane radiography (for highly
accurate assessment of knee kinematics) and 3D imaging (MRI and CT, to define joint and
cartilage morphology) to characterize joint kinematics and cartilage surface interactions
during functional tasks.
The specific aims of this study are to:
Specific Aim 1: Determine if anatomic double-bundle ACL reconstruction restores normal
dynamic knee function better than single-bundle ACL reconstruction.
Hypothesis 1.1 Knee kinematics after anatomic double-bundle ACL reconstruction are more
similar to the uninjured contra-lateral limb than after single-bundle ACL reconstruction, as
measured with dynamic stereoradiography 6 and 24 months after surgery.
Hypothesis 1.2 Graft elongation from 6 to 24 months after surgery is reduced with anatomic
double-bundle ACL reconstruction in comparison to single-bundle ACL reconstruction, as
measured with dynamic stereoradiography.
Specific Aim 2: Determine if anatomic double-bundle ACL reconstruction results in better
clinical outcomes than single-bundle ACL reconstruction.
Hypothesis 2.1 Anatomic double-bundle ACL reconstruction will result in more symmetrical
laxity and better range of motion and hop test scores in comparison to single-bundle ACL
reconstruction.
Hypothesis 2.2 In comparison to single-bundle ACL reconstruction, anatomic double-bundle ACL
reconstruction will result in better patient-oriented outcomes, indicating fewer symptoms, a
higher level of activity and more complete return to sport.
Successful completion of these aims will provide quantitative evidence of the efficacy of
anatomic double-bundle ACL reconstruction for restoring normal knee mechanics. Should the
results show a clear benefit for this procedure, it would provide support for wider
adaptation of anatomic DB reconstruction. By completing the proposed aims, we will also
establish a sound basis for additional studies with longer follow-up (including the subjects
in this cohort), to assess the benefits of anatomic DB ACL reconstruction for improving
long-term clinical outcomes and maintaining joint and cartilage health.
Anterior cruciate ligament (ACL) reconstruction is the 6th most common orthopaedic
procedure. Disruption of the ACL leads to altered knee function and significantly increases
the risk for osteoarthritis (OA). Current methods to reconstruct the ACL are generally
perceived to be successful; however, several recent meta-analyses have indicated that normal
structure and function of the knee is restored only 60% to 70% of the time and 60 to 90%
have radiographic evidence of knee OA within 10 to 20 years. Though the causes of
post-traumatic OA are almost certainly multifactorial, a significant factor contributing to
the increased risk for OA following ACL injury and surgery may be failure to restore normal
anatomy and kinematics of the knee.
We have previously shown that conventional single-bundle (SB) ACL reconstruction fails to
restore normal knee kinematics, leading to altered patterns of joint loading. There is
growing support for the theory that cartilage adapts to its local loading environment and
abnormal joint loading may play an important role in the development and progression of OA.
Our understanding of ACL anatomy has also improved over the last few years, revealing the
shortcomings of current surgical techniques to restore anatomy of the ACL. We have developed
double-bundle (DB) surgical procedures to restore normal anatomy of the anteromedial (AM)
and posterolateral (PL) bundles of the ACL. The underlying principle for this approach is
that more anatomical graft placement will lead to better knee mechanics, which are necessary
for improved long-term outcome.
To determine if anatomic DB ACL reconstruction can effectively restore normal dynamic knee
function, we will conduct a double-blind randomized clinical trial to compare SB vs.
anatomic DB ACL reconstruction. The specific aims of this study are to determine if DB is
better than SB ACL reconstruction in terms of 1) dynamic knee function and 2) clinical
outcomes. We will randomly assign 160 subjects with an isolated ACL injury to SB or DB ACL
reconstruction and will follow the subjects for 2 years. We will utilize a unique
combination of high-speed biplane radiography (for accurate assessment of knee kinematics)
and 3D imaging (MRI and CT, to define joint and cartilage morphology) to characterize joint
kinematics and cartilage surface interactions during functional tasks. Clinical outcomes
will include laxity, range of motion, functional strength and patient-reported symptoms,
function and activity. Successful completion of this study will provide evidence of the
efficacy of anatomic DB ACL reconstruction for restoring normal knee mechanics and improving
clinical outcomes. If the results show a clear benefit of this procedure, then a sound basis
will have been established for future studies to assess the benefits of anatomic DB ACL
reconstruction on long-term clinical outcomes and joint health.
procedure. Disruption of the ACL leads to altered knee function and significantly increases
the risk for osteoarthritis (OA). Current methods to reconstruct the ACL are generally
perceived to be successful; however, several recent meta-analyses have indicated that normal
structure and function of the knee is restored only 60% to 70% of the time and 60 to 90%
have radiographic evidence of knee OA within 10 to 20 years. Though the causes of
post-traumatic OA are almost certainly multifactorial, a significant factor contributing to
the increased risk for OA following ACL injury and surgery may be failure to restore normal
anatomy and kinematics of the knee.
We have previously shown that conventional single-bundle (SB) ACL reconstruction fails to
restore normal knee kinematics, leading to altered patterns of joint loading. There is
growing support for the theory that cartilage adapts to its local loading environment and
abnormal joint loading may play an important role in the development and progression of OA.
Our understanding of ACL anatomy has also improved over the last few years, revealing the
shortcomings of current surgical techniques to restore anatomy of the ACL. We have developed
double-bundle (DB) surgical procedures to restore normal anatomy of the anteromedial (AM)
and posterolateral (PL) bundles of the ACL. The underlying principle for this approach is
that more anatomical graft placement will lead to better knee mechanics, which are necessary
for improved long-term outcome.
To determine if anatomic DB ACL reconstruction can effectively restore normal dynamic knee
function, we will conduct a double-blind randomized clinical trial to compare SB vs.
anatomic DB ACL reconstruction. The specific aims of this study are to determine if DB is
better than SB ACL reconstruction in terms of 1) dynamic knee function and 2) clinical
outcomes. We will randomly assign 160 subjects with an isolated ACL injury to SB or DB ACL
reconstruction and will follow the subjects for 2 years. We will utilize a unique
combination of high-speed biplane radiography (for accurate assessment of knee kinematics)
and 3D imaging (MRI and CT, to define joint and cartilage morphology) to characterize joint
kinematics and cartilage surface interactions during functional tasks. Clinical outcomes
will include laxity, range of motion, functional strength and patient-reported symptoms,
function and activity. Successful completion of this study will provide evidence of the
efficacy of anatomic DB ACL reconstruction for restoring normal knee mechanics and improving
clinical outcomes. If the results show a clear benefit of this procedure, then a sound basis
will have been established for future studies to assess the benefits of anatomic DB ACL
reconstruction on long-term clinical outcomes and joint health.
Inclusion Criteria - subjects will be included in the study if they:
- Are between 14 and 50 years of age;
- Are scheduled for ACL reconstruction within 1 year of injury;
- Participate for greater than 100 hours per year in Level I (e.g. football, basketball
or soccer) or Level II (e.g. racquet sports, skiing, manual labour occupations)
activities;
- Have injury to both bundles of the ACL;
- Have tibial and femoral insertion sites that measure between 14 to 18 mm in diameter,
as confirmed at the time of surgery;
- Have a femoral notch that is greater than or equal to 12 mm in width as measured with
an arthroscopic ruler at the time of surgery and
- Are willing to continue participation in the study and return for all scheduled
follow-up visits, even if he/she moves from the region.
Exclusion Criteria - Subjects will be excluded from participation in the study if they:
- Had prior surgery of the involved knee;
- Had a prior or currently have injury or surgery to the contra-lateral knee;
- Have open femoral or tibial growth plates as evidenced on the preoperative standard
of care radiographs;
- Have greater than a grade I concomitant ligament injury;
- Have an Outerbridge grade 3 or 4 full thickness articular cartilage injury;
- Have evidence on the preoperative clinical MRI of insertional or intratendinous
degeneration of the quadriceps tendon;
- Have a quadriceps tendon that is less than 7 mm thick on a sagittal cut of the
preoperative clinical MRI;
- Have inflammatory or other forms of arthritis;
- Have any other injury or condition involving the lower extremity that affects the
subjects' ability to walk or participate in Level I and II activities.
Because participation in this study requires subjects to undergo a research-related MRI,
subjects will also be excluded if they:
- Had prior surgery for an aneurysm;
- Had any surgery within the past two months;
- Have a cardiac pacemaker;
- Have metal fragments in the eyes, brain or spinal cord;
- Have surgical implants;
- Have a history of claustrophobia or
- Have a history of not tolerating previous MRI scans without medication.
Women who are pregnant at the time of study enrollment or who plan to become pregnant
within the 2 year follow-up period will not be eligible for participation in the study. If
a female should become pregnant during the course of follow-up, kinematic testing, which
would expose the fetus to radiation would be suspended until the pregnancy is complete.
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