washington university sports medicine - triatria.com/.../revision-acl-reconstruction_-matava.pdf ·...
TRANSCRIPT
![Page 1: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/1.jpg)
Revision Anterior Cruciate Ligament
Reconstruction
Matthew J. Matava, M.D.Washington University Sports Medicine
![Page 2: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/2.jpg)
Disclosures
• Research Support: Arthrex Inc.
Breg Inc.
• Stock: Ostesys
• Governing Board: NFL Physicians Society
Southern Orthopedic Association
• Board/Committee: AOSSM STOP Sports Injuries
AOSSM Public Relations Committee
Matthew Matava, M.D.The following relationships with commercial
interests existed during the past 12 months:
![Page 3: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/3.jpg)
Incidence of Primary ACL Graft Failure
Failure estimated in 5%-10% (16,000 cases!)
Biau et al. BMJ (2006)
32% +Lachman and 22% +pivot shift despite
satisfactory subjective outcome
Definition of failure?
Objective laxity
Patient perception of instability
Postoperative stiffness/pain
Extensor mechanism dysfunction
Infection
200,000 ACL Reconstructions per Year in U.S.
MARS Data, AJSM (2010)
![Page 4: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/4.jpg)
Cause(s) of Reconstruction Failure
Technical error
Non-anatomic tunnel placement
Insufficient graft material
Insufficient graft fixation
Graft impingement
Failure of biologic incorporation
Infection
Arthrofibrosis
Insufficient cellular re-population
Insufficient medial meniscal restraint
Poor-to-fair inter-observer agreement on graft failure etiology
![Page 5: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/5.jpg)
Cause(s) of Reconstruction Failure
Traumatic re-injury
Early: Fixation failure
• Agressive rehabilitation
• Premature return to sports
Late: Graft rupture
Secondary instability patterns
Varus/valgus malalignment
Posterolateral corner insufficiency
Medial collateral ligament laxity
![Page 6: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/6.jpg)
Mode of Failure – MARS Group (2010)
Traumatic
(32%)
Technical
Error (24%)Biologic
(7%)
15% 6%
2%
12%
![Page 7: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/7.jpg)
Relevance of Symptom Pattern
If knee never felt stable:
Poor initial graft tension
Failure of initial fixation
Incorrect graft placement
Late onset of instability:
New trauma
Biologic failure of incorporation
Insufficient secondary restraints
Timing of Symptom Onset
![Page 8: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/8.jpg)
Relevance of Symptom Pattern
Instability only
Optimum condition for revision surgery
Pain only
Revision for pain only results in unsatisfactory outcome
Rule out infection, arthrosis, chondral damage, meniscal
insufficiency, or arthrofibrosis
Pain and instability
Pain from instability may be addressed by revision
Pain independent of instability: meniscal/chondral issues
MARS Cohort: 90% of patients have meniscal or cartilage damage
![Page 9: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/9.jpg)
Comprehensive Physical Exam
Standing alignment
Gait
Varus thrust
Quadriceps avoidance
Extensor mechanism
Patellar mobility
Anterior laxity
Lachman
Pivot shift
Anterior drawer
KT-1000
![Page 10: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/10.jpg)
Comprehensive Physical Exam
Posterolateral stabilizers
Varus stress: 0° and 30°
External rotation recurvatum
Dial test: 0° and 90°
Reverse pivot shift
Assessment of medial stabilizers
Valgus stress: 0° and 30°
Posteromedial drawer
![Page 11: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/11.jpg)
Radiographic Evaluation
PA 45° Flexion-
weight bearing
Merchant ViewFull-length
Upright0°Lateral 30° Lateral
Assess x-rays for:
1) Hardware
2) Tunnel placement
3) Tunnel expansion
![Page 12: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/12.jpg)
Radiographic Evaluation
Magnetic Resonance Imaging
Evaluate menisci and cartilage
Multi-planar ligament evaluation
Computerized Tomography
Determination of tunnel osteolysis
Hardware not an issue with CT
Technetium bone scan
Helpful with discordant pain patterns
![Page 13: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/13.jpg)
Influence of Limb Alignment
Varus malalignment:
adduction moment
ACL deficiency exacerbated
Medial compartment O.A.
Posterolateral corner insufficiency
Combined HTO and ACL reconstruction:
Anterior laxity + medial O.A.
strain on revision graft
strain on posterolateral corner
![Page 14: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/14.jpg)
Influence of Lateral Ligamentous Patholaxity
LaPrade et al, Am J Sports Med, 1999
Knee Joint Load Applied and Flexion Angle
Ab
so
lute
AC
L G
raft
Fo
rce (
N)
![Page 15: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/15.jpg)
Influence of Medial Meniscal Deficiency
Medial meniscal strain is increased in ACL deficiency
Greater laxity after ACL-R in patients with previous
medial meniscectomy compared to intact menisci
Allen et al. J Ortho Res, 2000Papageorgiou, et al, AJSM 2001
![Page 16: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/16.jpg)
Technical Considerations: Co-morbidities
Indications for two-stage procedure
>5° extension loss
>20° flexion loss
Skin Incisions
Longitudinal incisions preferred
Use prior incision or last incision
Avoid:
• Skin bridges <5 cm
• ‘’L-shaped’’ incisions
![Page 17: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/17.jpg)
Anterior Femoral Tunnel
Most common cause for failure
Tight in flexion
Graft attenuation or rupture
Far anterior:
Drill separate tunnel
“Blended” tunnels:
Re-drill with 2-incision technique
Non-aperture fixation
Stacked interference screws
Two-stage revision with bone graft
Management
Problem
![Page 18: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/18.jpg)
Vertical Femoral Tunnel
Sagittal stability with rotational laxity
Usually due to vertical tibial tunnel
Drill femur from AM portal
Beware of MFC and posterior blowout
Hyper-flex knee to 105°
Two-incision technique
Re-drill appropriate tunnel
Use suspensory fixation
The Problem
Avoidance
Management
![Page 19: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/19.jpg)
Tibial Tunnel Issues
Graft too anterior:
Graft impingement
Loss of extension
Graft impingement
Graft too medial:
Damage to medial plateau
Loss of extension
Graft too posterior:
Vertical graft
Loss of extension
No rotational control
![Page 20: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/20.jpg)
Tibial Tunnel Issues
Re-drill tunnel in optimal position
Use divergent tunnels
Compaction drilling
Allograft dowel or bio-screw as “filler”
“Stacked” interference screws
Fix with suture over post
Double-bundle augmentation
Bone graft and staged reconstruction
Management
![Page 21: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/21.jpg)
Staged Bone Grafting
Tunnel expansion >15 mm:
Rigid fixation is difficult
Precludes accurate graft placement
Prevents native bone incorporation
Removal of all fibrous tissue
Visualize tunnel interior
Cancellous autograft/allograft chips
Iliac crest dowel for structural defects
Indications
Technique
CT scan at 6 mo. to confirm incorporation
![Page 22: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/22.jpg)
Determine Patient’s Definition of Success
Primary goals of revision surgery:
Stabilize the knee
Prevent damage to menisci and cartilage
Maximize functional level
Success of revision surgery is influenced by:
Etiology of primary failure
Preoperative knee laxity
Status of the menisci, articular cartilage, and 2° restraints
Realistic expectations must be discussed preoperatively
![Page 23: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/23.jpg)
Outcome Based on Graft Choice
O’Neill, AJSM (2004): 6%
Garafolo et al. Arthroscopy (2006): 6%
Noyes and Barber-Westin, AJSM (2006): 19%
Diamantopoulos et al. AJSM (2008): 7%
Denti et al. AJSM (2008): 12%
Shelbourne et al. AJSM (2014): 4%
Noyes et al. AJSM (1994): 33%
Fox et al. Arthroscopy (2004): 25%
Johnson et al. CORR (1996): 88%
Autograft (Ipsilateral or Contralateral) Failure Rates
Allograft Failure Rates
![Page 24: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/24.jpg)
Outcome Based on Time to Revision
Correlation between chondral lesions and O.A.
Salmon et al. AJSM (2006)
Duration of instability symptoms correlated with O.A.
Battaglia and Miller, Arthroscopy (2005)
Delayed revision associated with chondral lesions
Ohly et al. JBJS-B (2007)
• Early revision (<6 months): 24% chondral damage
• Late revision (>6 months): 52% chondral damage
Rate of O.A. at Follow-up: 37% to 80%
![Page 25: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/25.jpg)
Return to Play Following ACL Revision
Reinhardt et al., CORR (2012)
52% return to sport rate in athletes <18 years of age
>50% had allograft as primary graft source
Wright et al., JBJS (2012)
Systematic review of 21 studies
54% of 485 athletes returned to sports
Shelbourne et al. AJSM (2014)
BTB autograft revision in 259 patients
Return-to-sport rates:
• School age: 74%
• Collegiate: 74%
• Recreational: 62%
![Page 26: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/26.jpg)
Summary of Key Points
1. Determine cause(s) of primary reconstruction
failure: Key to a successful revision
2. Determine patient’s symptoms:
Knee instability should be the primary
indication for a revision reconstruction
3. Determine all relevant co-morbidities:
Careful physical examination and review
of relevant imaging studies
![Page 27: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/27.jpg)
Summary of Key Points
4. Determine patient’s goals for surgical outcome:
Not all failed reconstructions require revision
5. Anatomic graft placement must be a priority
6. Address all co-morbidities:
A staged procedure is indicated if the
morbidity of a combined reconstruction
outweighs the chance for a safe surgery
4. Set realistic expectations preoperatively
![Page 28: Washington University Sports Medicine - TRIAtria.com/.../Revision-ACL-Reconstruction_-Matava.pdf · Vertical Femoral Tunnel Sagittal stability with rotational laxity Usually due to](https://reader035.vdocument.in/reader035/viewer/2022081401/5f03ec177e708231d40b6ed7/html5/thumbnails/28.jpg)
Thank You
Washington University Sports Medicine