Repair of Medial Patellofemoral Ligament Compared to Conservative Treatment for First Time Patella Dislocation
Status: | Recruiting |
---|---|
Healthy: | No |
Age Range: | 10 - Any |
Updated: | 4/2/2016 |
Start Date: | October 2014 |
End Date: | January 2018 |
Contact: | Neal P Johnson, AS |
Email: | njohnson@lymankneemd.com |
Phone: | 208-758-0716 |
Repair of Medial Patellofemoral Ligament Compared to Conservative Treatment for First Time Patella Dislocation; A Randomized Prospective Trial
Background: The forces involved in a patella dislocation event can cause significant
collateral damage involving the articular cartilage of the patella femoral joint. As a
result, prevention of recurrent patella dislocation and the associated disability and
morbidity has generated significant interest in the orthopedic community. Historically,
nonoperative treatment for first time patella dislocation has been problematic due to high
redislocation rates. Nonoperative protocols generally involve bracing and/or immobilization,
followed by physical therapy (1). Surgical approaches to recurrent patella dislocation, both
soft tissue and boney realignment operations, have also had mixed results, including low
success rates, associated complications, and variable rates of return to functional activity
(2,3,4). This study is intended to compare the outcomes of a relatively low-risk Medial
Patellofemoral Ligament (MPFL) direct repair procedure to conservative treatment.
Methods/Design: This study is designed as a two arm randomized prospective trial.
Approximately fifty subjects will be randomly assigned to either a surgical or non-operative
arm by means of a computer randomized allocation program. All subjects will have X-Ray
Images and Magnetic Resonance Imaging (MRI) to determine the site of the MPFL damage, and to
determine if any excluding conditions exist. Subjects randomized to the surgical group will
have repair of the MPFL. Routine aftercare will consist of physical therapy in a clinic that
has agreed to follow our protocol. Subjects randomized to the nonoperative group will
receive 2 weeks of patellar immobilization, followed by patellar stabilization bracing with
physical therapy for approximately 12 weeks. Physical therapy will progress through five
phases with the goal of gait normalization, full range of motion and return to sport. Both
arms will be given outcome questionnaires and physical activity assessments before
treatment, and at one, three, six, twelve, and twenty four month intervals.
Discussion: This prospective randomized trial will investigate the results of direct repair
of the medial patellofemoral ligament and conservative treatment by applying subjective
outcome measures (Kujala scores), and exam findings to determine MPFL functional restoration
or redislocation. Subjects will be examined in the clinic setting at 10 days, one month, and
six months post trauma. Any reported recurrent dislocation or subluxation event will be
documented during recovery. All subjects will receive merchant x-ray views at 3 months with
manual lateral translation of the patella.
collateral damage involving the articular cartilage of the patella femoral joint. As a
result, prevention of recurrent patella dislocation and the associated disability and
morbidity has generated significant interest in the orthopedic community. Historically,
nonoperative treatment for first time patella dislocation has been problematic due to high
redislocation rates. Nonoperative protocols generally involve bracing and/or immobilization,
followed by physical therapy (1). Surgical approaches to recurrent patella dislocation, both
soft tissue and boney realignment operations, have also had mixed results, including low
success rates, associated complications, and variable rates of return to functional activity
(2,3,4). This study is intended to compare the outcomes of a relatively low-risk Medial
Patellofemoral Ligament (MPFL) direct repair procedure to conservative treatment.
Methods/Design: This study is designed as a two arm randomized prospective trial.
Approximately fifty subjects will be randomly assigned to either a surgical or non-operative
arm by means of a computer randomized allocation program. All subjects will have X-Ray
Images and Magnetic Resonance Imaging (MRI) to determine the site of the MPFL damage, and to
determine if any excluding conditions exist. Subjects randomized to the surgical group will
have repair of the MPFL. Routine aftercare will consist of physical therapy in a clinic that
has agreed to follow our protocol. Subjects randomized to the nonoperative group will
receive 2 weeks of patellar immobilization, followed by patellar stabilization bracing with
physical therapy for approximately 12 weeks. Physical therapy will progress through five
phases with the goal of gait normalization, full range of motion and return to sport. Both
arms will be given outcome questionnaires and physical activity assessments before
treatment, and at one, three, six, twelve, and twenty four month intervals.
Discussion: This prospective randomized trial will investigate the results of direct repair
of the medial patellofemoral ligament and conservative treatment by applying subjective
outcome measures (Kujala scores), and exam findings to determine MPFL functional restoration
or redislocation. Subjects will be examined in the clinic setting at 10 days, one month, and
six months post trauma. Any reported recurrent dislocation or subluxation event will be
documented during recovery. All subjects will receive merchant x-ray views at 3 months with
manual lateral translation of the patella.
Background Historic treatment for first time patella dislocation has been largely
conservative. Treatment options include nonoperative treatment and a large variety of
operative options. Nonoperative treatment, usually consists of bracing and/or immobilization
followed by physical therapy, has been problematic due to a relatively high reported
redislocation rate(1). The forces involved in a patella dislocation event can damage the
articular cartilage of the patella femoral joint. As a result, prevention of recurrent
patella dislocation and the associated disability and morbidity has generated significant
interest in the orthopedic community.
Historic surgical approaches to recurrent patella dislocation have had mixed results. The
isolated "lateral release", has been shown to have a very low success rate(2), while
associated complications have been appreciated. Lateral release procedures are now more
often performed in conjunction with other proximal or distal realignment procedures(3). More
aggressive bone realignment procedures such as tibial tubercle transfers have the
disadvantage of reported poor long term functional recoveries and low "return to sport"
rates(4,5).
There has been increasing interest in ligament reconstruction for patella dislocation. The
ligament of interest is the medial patella-femoral ligament (MPFL), which is essentially a
thickened band of the medial capsule of the knee. The MPFL has been established as the
primary constraint to patella dislocation. This ligament extends from a point just anterior
to the attachment of the medial collateral ligament to the medial aspect of the patella, and
is routinely disrupted with a patella dislocation event. The goals of reconstruction
procedures are to replace and/or augment this band of tissue. While many reports of the
results of MPFL reconstruction have been good to excellent, there are significant associated
risks of complication, prolonged recovery, and associated graft costs or autograft harvest
morbidity.
An alternative approach to MPFL functional restoration, and the subject of this study
proposal, is a direct repair of the MPFL. Variations of this approach have been previously
studied. A basic understanding of established injury patterns to the MPFL is requisite to
evaluating the limitations to these studies.
Studies evaluating MPFL injury by MRI have shown that acute patella dislocations have a very
high incidence of associated MPFL injury. The location of the lesion in the ligament can be
described in one of four ways: 1) at the patellar attachment, 2) at the femoral attachment,
3) intrasubstance portion of the ligament, or 4) a combined injury pattern. Several studies
have demonstrated varying percent distributions of injury(6,7), but it is clear that all
patterns exist. This conclusion is consistent with the author's experience is treating these
injuries.
Detecting the injury location can also be a challenge. Arthroscopic examination has been
shown to be ineffective at determining the location of injury(8) and, in the experience of
the author, MRI evaluation is frequently inaccurate, especially in the chronic or recurrent
patella dislocation setting. The author proposes a functional intraoperative test to
determine the ligament injury location.
Some prior reports have included surgical treatment of MPFL injuries using one technique
only, with results similar to nonoperative treatment. For instance, some studies have
evaluated treating all patella dislocations with repair at the patellar insertion, a
treatment which may have limited or no benefit for patients with injuries at the femoral
attachment of the ligament. There are two limited reports evaluating somewhat similar
techniques, and these reports indicate some of the best results in the literature in the
management of patella-femoral instability (9,10). These results are consistent with the
author's experience with the treatment of this condition.
The subject of this study is to determine the difference in nonoperative and surgical
patient outcomes using contemporary surgical techniques; identifying the location of the
injury and choosing either direct repair or appropriate advancement. We hypothesize that
minimally invasive surgical repair of the MPFL will improve patient outcomes and minimize
recurrent patellar dislocation, when compared to conservative treatment. Our null hypothesis
is that there will be no difference in outcomes between the two groups.
Methods/Design Trial Design - The study design will be a prospective parallel-group,
randomized trial with allocation concealment.
Participants - At least 50 subjects will be recruited by referral from primary care
providers, specialists, urgent care and emergency departments, and physical therapy clinics
within a 50 mile radius of the clinic. Men, women, and minors, aged 10-17 will be recruited.
Inclusion criteria:
- A first patellofemoral traumatic dislocation
- A need for reduction
- An absence of fractures on x-ray exam of the frontal and lateral knee and axial patella
- An absence of knee ligament lesions with surgical indications (with the exception of
the MPFL)
- No previous knee surgery
Exclusion criteria:
- A prior episode of patellofemoral dislocation
- Fractures on x-ray exam of the frontal and lateral knee and axial patella Prior surgery
on the knee
- Tibial tuberosity-trochlear groove distance greater than 20mm
- Current pregnancy or plan to become pregnant during the study period. Recruitment - The
recruitment process will consist of two phases. Phase one will consist of a short
screening questionnaire, and phase two will consist of a clinical examination and
questionnaire. Recruitment will remain open until at least fifty subjects that meet the
inclusion criteria agree to participate.
Randomization - After screening and accepting subjects in the recruiting process, subjects
will be randomly assigned to either an operative group or non-operative group by means of
computer randomized sequencing and blind allocation. Random sequence generation will be done
by using Random Allocation Software 1.0.0., and allocation will be concealed by placing
allocations in sequentially numbered, sealed envelopes. Randomization, allocation, and
concealment will be accomplished by an administrative assistant with no interest in the
study or its outcome.
Interventions - All subjects will be briefed on their respective treatment protocols. The
operative group will be advised on the risks of this surgery, including the chance of
recurrent dislocations, as well as the more general risks of infection, DVT/PE, anesthesia
complications, and associated possible complications (Table 1.1). The non-operative group
will be advised of the possible failure of treatment, possibility of recurrent dislocation,
and the possible need for surgery (Table 1.2).
All subjects will receive long standing and sunrise x-rays for diagnostic purposes. An MRI
will be obtained for identifying the site of the lesion for both groups. Additionally, we
will ask the subjects to complete a Kujala Scoring questionnaire and physical activity
assessment as a baseline measurement, with the intention of evaluating and subjectively
comparing the two types of treatment. Treatment for the surgical group will be performed at
an outpatient surgical facility, and the non-operative group will receive treatment at a
physical therapy clinic of their choice.
Surgical Treatment Group - Subjects who are randomized to the surgical group treatment will
undergo surgical repair of their medial patellofemoral ligament. This will be identified
using an MRI scan for the site of the lesion. If this cannot be identified, the following
process will be used to determine the site of the lesion: On physical examination, the point
of maximal tenderness between the patella and the femur will be identified and that will be
the assumed site of traumatic injury to the medial patellofemoral ligament.
Surgery will be performed initially with a diagnostic arthroscopy to evaluate for loose
bodies or chondral damage anywhere in the patellofemoral joint. A video will be taken of
this and provided to the patient postoperatively. If there are no loose bodies or chondral
damage to be treated, the medial patellofemoral ligament will then be repaired.
An incision will be made approximately 2 cm in length over the assumed site of the injury.
The medial patellofemoral ligament will be identified and a tag suture will be applied to
it. Traction on the medial patellofemoral ligament at this location will confirm that this
is the site of primary injury by determining whether there is a firm endpoint with traction.
If there is not a firm endpoint, a secondary incision over the alternate location, either
the patella or the femur, will be made and the medial patellofemoral ligament will be
identified in that location.
Repairs of the medial patellofemoral ligament will be made at all sites opened surgically
whether it be either the femur or the patella, or both. Surgical repair will consist of
providing decortication of the bone at the anatomic location of the medial patellofemoral
ligament. Placement of a single 5 mm metal suture anchor with FiberWire-type sutures and a
repair of the medial patellofemoral ligament using the FiberWire sutures to dock the
ligament into its anatomic location. The repairs will be then be oversewn with #1 Vicryl
suture at the site of the repair.
Following this, the local anesthetic will be applied to the incisions. They will be
copiously irrigated and repaired with absorbable sutures.
The subjects will be placed in a hinged knee brace postoperatively with a range of motion
restriction of 0-45 degrees. Weight bearing will be allowed immediately following surgery.
The subjects will start physical therapy the week of surgery and will begin with quadriceps
strengthening with a restriction of range of motion from 0-45 for the first four weeks
postoperatively followed by unrestricted full range of motion after week six. Full sport
activities will be allowed to be resumed after eight weeks, provided the patient have at
least 85% of the strength in their quadriceps compared to the contralateral side. Actual
progression will be individualized based upon the patient's weekly reassessment and the
presence of any complications.
Postoperative follow-ups will be made at the below-mentioned intervals with appropriate
Kujala scoring and physical activity assessment (Table 2). X-rays will be taken on the first
postoperative visit to confirm location of suture anchor repairs.
Appointments for physical examinations will be made at 7-10 days, 1 month, and three months
after surgery. Any reported recurrent dislocation or subluxation event will be documented
during recovery. All subjects will receive sunrise x-ray views at 3 months with manual
lateral translation of the patella, as part of the study.
Conservative Treatment Group - The conservative treatment protocol is based on accepted
physical therapy models of care and is established relative to patient tolerance for tissue
healing, recovery, and response to modalities and procedures. Actual progression will be
individualized based upon the patient's weekly reassessment and the presence of any
complications. Prevention and minimization of recurrent dislocation, painful subluxation and
osteoarthrosis are paramount in early management scenarios. The post traumatic and post
surgical sequelae of pain, inflammation, swelling, bruising and muscular deactivation will
be managed with acceptable standards of practice and prescribed medications. Prevention and
dissipation of these sequelae, including modifying activities that put excessive stress or
loading on the patellofemoral joint are the initial goals of rehabilitation in concert with
gradual progression of mobility and muscular reactivation techniques. The protocol is
divided into five phases: Phase I and II, 0-4 weeks; Phase III, 5-8 weeks; Phase IV- 9-12
weeks, Phase V- 13+ weeks (Table 3).
In addition to physical therapy appointments, subjects in the conservative treatment group
will be given physical examination appointments and Kujala outcome scoring questionnaires
and physical activity assessments at the same intervals as the surgical intervention group
(Table 2). All subjects will receive sunrise x-ray views at 3 months with manual lateral
translation of the patella, as part of the study.
Blinding-Due to the nature of the study, blinding of subjects after assignment to treatment
groups is not feasible. All records and data will be collected and securely stored in the
Clinical Research Coordinator's office. The data will be blinded before final statistical
analysis by an independent statistician.
conservative. Treatment options include nonoperative treatment and a large variety of
operative options. Nonoperative treatment, usually consists of bracing and/or immobilization
followed by physical therapy, has been problematic due to a relatively high reported
redislocation rate(1). The forces involved in a patella dislocation event can damage the
articular cartilage of the patella femoral joint. As a result, prevention of recurrent
patella dislocation and the associated disability and morbidity has generated significant
interest in the orthopedic community.
Historic surgical approaches to recurrent patella dislocation have had mixed results. The
isolated "lateral release", has been shown to have a very low success rate(2), while
associated complications have been appreciated. Lateral release procedures are now more
often performed in conjunction with other proximal or distal realignment procedures(3). More
aggressive bone realignment procedures such as tibial tubercle transfers have the
disadvantage of reported poor long term functional recoveries and low "return to sport"
rates(4,5).
There has been increasing interest in ligament reconstruction for patella dislocation. The
ligament of interest is the medial patella-femoral ligament (MPFL), which is essentially a
thickened band of the medial capsule of the knee. The MPFL has been established as the
primary constraint to patella dislocation. This ligament extends from a point just anterior
to the attachment of the medial collateral ligament to the medial aspect of the patella, and
is routinely disrupted with a patella dislocation event. The goals of reconstruction
procedures are to replace and/or augment this band of tissue. While many reports of the
results of MPFL reconstruction have been good to excellent, there are significant associated
risks of complication, prolonged recovery, and associated graft costs or autograft harvest
morbidity.
An alternative approach to MPFL functional restoration, and the subject of this study
proposal, is a direct repair of the MPFL. Variations of this approach have been previously
studied. A basic understanding of established injury patterns to the MPFL is requisite to
evaluating the limitations to these studies.
Studies evaluating MPFL injury by MRI have shown that acute patella dislocations have a very
high incidence of associated MPFL injury. The location of the lesion in the ligament can be
described in one of four ways: 1) at the patellar attachment, 2) at the femoral attachment,
3) intrasubstance portion of the ligament, or 4) a combined injury pattern. Several studies
have demonstrated varying percent distributions of injury(6,7), but it is clear that all
patterns exist. This conclusion is consistent with the author's experience is treating these
injuries.
Detecting the injury location can also be a challenge. Arthroscopic examination has been
shown to be ineffective at determining the location of injury(8) and, in the experience of
the author, MRI evaluation is frequently inaccurate, especially in the chronic or recurrent
patella dislocation setting. The author proposes a functional intraoperative test to
determine the ligament injury location.
Some prior reports have included surgical treatment of MPFL injuries using one technique
only, with results similar to nonoperative treatment. For instance, some studies have
evaluated treating all patella dislocations with repair at the patellar insertion, a
treatment which may have limited or no benefit for patients with injuries at the femoral
attachment of the ligament. There are two limited reports evaluating somewhat similar
techniques, and these reports indicate some of the best results in the literature in the
management of patella-femoral instability (9,10). These results are consistent with the
author's experience with the treatment of this condition.
The subject of this study is to determine the difference in nonoperative and surgical
patient outcomes using contemporary surgical techniques; identifying the location of the
injury and choosing either direct repair or appropriate advancement. We hypothesize that
minimally invasive surgical repair of the MPFL will improve patient outcomes and minimize
recurrent patellar dislocation, when compared to conservative treatment. Our null hypothesis
is that there will be no difference in outcomes between the two groups.
Methods/Design Trial Design - The study design will be a prospective parallel-group,
randomized trial with allocation concealment.
Participants - At least 50 subjects will be recruited by referral from primary care
providers, specialists, urgent care and emergency departments, and physical therapy clinics
within a 50 mile radius of the clinic. Men, women, and minors, aged 10-17 will be recruited.
Inclusion criteria:
- A first patellofemoral traumatic dislocation
- A need for reduction
- An absence of fractures on x-ray exam of the frontal and lateral knee and axial patella
- An absence of knee ligament lesions with surgical indications (with the exception of
the MPFL)
- No previous knee surgery
Exclusion criteria:
- A prior episode of patellofemoral dislocation
- Fractures on x-ray exam of the frontal and lateral knee and axial patella Prior surgery
on the knee
- Tibial tuberosity-trochlear groove distance greater than 20mm
- Current pregnancy or plan to become pregnant during the study period. Recruitment - The
recruitment process will consist of two phases. Phase one will consist of a short
screening questionnaire, and phase two will consist of a clinical examination and
questionnaire. Recruitment will remain open until at least fifty subjects that meet the
inclusion criteria agree to participate.
Randomization - After screening and accepting subjects in the recruiting process, subjects
will be randomly assigned to either an operative group or non-operative group by means of
computer randomized sequencing and blind allocation. Random sequence generation will be done
by using Random Allocation Software 1.0.0., and allocation will be concealed by placing
allocations in sequentially numbered, sealed envelopes. Randomization, allocation, and
concealment will be accomplished by an administrative assistant with no interest in the
study or its outcome.
Interventions - All subjects will be briefed on their respective treatment protocols. The
operative group will be advised on the risks of this surgery, including the chance of
recurrent dislocations, as well as the more general risks of infection, DVT/PE, anesthesia
complications, and associated possible complications (Table 1.1). The non-operative group
will be advised of the possible failure of treatment, possibility of recurrent dislocation,
and the possible need for surgery (Table 1.2).
All subjects will receive long standing and sunrise x-rays for diagnostic purposes. An MRI
will be obtained for identifying the site of the lesion for both groups. Additionally, we
will ask the subjects to complete a Kujala Scoring questionnaire and physical activity
assessment as a baseline measurement, with the intention of evaluating and subjectively
comparing the two types of treatment. Treatment for the surgical group will be performed at
an outpatient surgical facility, and the non-operative group will receive treatment at a
physical therapy clinic of their choice.
Surgical Treatment Group - Subjects who are randomized to the surgical group treatment will
undergo surgical repair of their medial patellofemoral ligament. This will be identified
using an MRI scan for the site of the lesion. If this cannot be identified, the following
process will be used to determine the site of the lesion: On physical examination, the point
of maximal tenderness between the patella and the femur will be identified and that will be
the assumed site of traumatic injury to the medial patellofemoral ligament.
Surgery will be performed initially with a diagnostic arthroscopy to evaluate for loose
bodies or chondral damage anywhere in the patellofemoral joint. A video will be taken of
this and provided to the patient postoperatively. If there are no loose bodies or chondral
damage to be treated, the medial patellofemoral ligament will then be repaired.
An incision will be made approximately 2 cm in length over the assumed site of the injury.
The medial patellofemoral ligament will be identified and a tag suture will be applied to
it. Traction on the medial patellofemoral ligament at this location will confirm that this
is the site of primary injury by determining whether there is a firm endpoint with traction.
If there is not a firm endpoint, a secondary incision over the alternate location, either
the patella or the femur, will be made and the medial patellofemoral ligament will be
identified in that location.
Repairs of the medial patellofemoral ligament will be made at all sites opened surgically
whether it be either the femur or the patella, or both. Surgical repair will consist of
providing decortication of the bone at the anatomic location of the medial patellofemoral
ligament. Placement of a single 5 mm metal suture anchor with FiberWire-type sutures and a
repair of the medial patellofemoral ligament using the FiberWire sutures to dock the
ligament into its anatomic location. The repairs will be then be oversewn with #1 Vicryl
suture at the site of the repair.
Following this, the local anesthetic will be applied to the incisions. They will be
copiously irrigated and repaired with absorbable sutures.
The subjects will be placed in a hinged knee brace postoperatively with a range of motion
restriction of 0-45 degrees. Weight bearing will be allowed immediately following surgery.
The subjects will start physical therapy the week of surgery and will begin with quadriceps
strengthening with a restriction of range of motion from 0-45 for the first four weeks
postoperatively followed by unrestricted full range of motion after week six. Full sport
activities will be allowed to be resumed after eight weeks, provided the patient have at
least 85% of the strength in their quadriceps compared to the contralateral side. Actual
progression will be individualized based upon the patient's weekly reassessment and the
presence of any complications.
Postoperative follow-ups will be made at the below-mentioned intervals with appropriate
Kujala scoring and physical activity assessment (Table 2). X-rays will be taken on the first
postoperative visit to confirm location of suture anchor repairs.
Appointments for physical examinations will be made at 7-10 days, 1 month, and three months
after surgery. Any reported recurrent dislocation or subluxation event will be documented
during recovery. All subjects will receive sunrise x-ray views at 3 months with manual
lateral translation of the patella, as part of the study.
Conservative Treatment Group - The conservative treatment protocol is based on accepted
physical therapy models of care and is established relative to patient tolerance for tissue
healing, recovery, and response to modalities and procedures. Actual progression will be
individualized based upon the patient's weekly reassessment and the presence of any
complications. Prevention and minimization of recurrent dislocation, painful subluxation and
osteoarthrosis are paramount in early management scenarios. The post traumatic and post
surgical sequelae of pain, inflammation, swelling, bruising and muscular deactivation will
be managed with acceptable standards of practice and prescribed medications. Prevention and
dissipation of these sequelae, including modifying activities that put excessive stress or
loading on the patellofemoral joint are the initial goals of rehabilitation in concert with
gradual progression of mobility and muscular reactivation techniques. The protocol is
divided into five phases: Phase I and II, 0-4 weeks; Phase III, 5-8 weeks; Phase IV- 9-12
weeks, Phase V- 13+ weeks (Table 3).
In addition to physical therapy appointments, subjects in the conservative treatment group
will be given physical examination appointments and Kujala outcome scoring questionnaires
and physical activity assessments at the same intervals as the surgical intervention group
(Table 2). All subjects will receive sunrise x-ray views at 3 months with manual lateral
translation of the patella, as part of the study.
Blinding-Due to the nature of the study, blinding of subjects after assignment to treatment
groups is not feasible. All records and data will be collected and securely stored in the
Clinical Research Coordinator's office. The data will be blinded before final statistical
analysis by an independent statistician.
Inclusion criteria:
- A first patellofemoral traumatic dislocation
- A need for reduction
- An absence of fractures on x-ray exam of the frontal and lateral knee and axial
patella
- An absence of knee ligament lesions with surgical indications (with the exception of
the MPFL)
- No previous knee surgery
Exclusion criteria:
- A prior episode of patellofemoral dislocation
- Fractures on x-ray exam of the frontal and lateral knee and axial patella Prior
surgery on the knee
- Tibial tuberosity-trochlear groove distance greater than 20mm
- Current pregnancy or plan to become pregnant during the study period.
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