Osteochondral Defects of the Knee

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Presentation transcript:

Osteochondral Defects of the Knee

Articular Cartilage Physiological role of articular cartilage Minimizes stresses on secondary bone Reduces friction on weight bearing surface Critical in proper joint function

The Problem Young active patients with articular cartilage defects! Which defects progress to OA ? Which defects are symptomatic ? How do we most effectively treat these defects?

Goals of Treatment Restore integrity of load bearing surface Obtain full range of motion Regain pain free motion Inhibit further cartilage degeneration

Contributing Factors Age of the patient Defect size Knee stability Knee alignment Patient’s level of activity

Partial Thickness Defects Articular cartilage lacks the capacity to repair structural damage Injuries/defects progress when exposed to mechanical wear

Full Thickness Defects Do not heal with hyaline cartilage Progress to osteoarthritis Healing by secondary stimulation leads to the formation of fibrocartilage Lacks physiological capabilities of hyaline cartilage Poor wear characteristics

Non-Surgical Options Activity modification (decrease load) Muscle strengthening (load absorption) Bracing (selective joint unloading) Aspiration (decrease painful joint distention)

Non-Surgical Options Pharmacological Oral Inject able Non-steroidal anti-inflammatory medication Contrition sulfate Glucosamine Inject able Corticosteroids - decrease the inflammatory response but have no mechanical benefit Synvisc - may improve the status of the articular surface by improving chondrocyte “health”

Surgical Options Arthroscopic lavage - remove debris Arthroscopic debridement - smooth surface Thermal chondroplasty - “seal” the articular surface Drilling or microfracture - create fibrocartilage scar Abrasion arthroplasty

Surgical Options Osteotomy - realignment to unload diseased compartment Osteochondral autograft - replace a damaged surface Autologous chondrocyte transplant - replace injured cartilage Allograft transplantation - use of human cadaveric osteochondral tissue for joint resurfacing

Arthroscopic Lavage Arthroscopic removal of debris and inflammatory mediators Temporary relief Not a “curative” procedure Insufficient for athletic or active patients

Arthroscopic Debridement Lavage and chondroplasty No sub-chondral stimulation May lead to improvement for up to 5 yrs. Pain improvement in 80-85% Debridement does nothing to promote repair Malaligned or unstable knees do poorly

Thermal Chondroplasty New procedure Requires bi-polar or ultrasonic device “Seal” the articular surface with heat Keplan L,M.D. reported no injury to the chondrocytes of the involved or peripheral cartilage. “Radio-frequency energy appears to be safe for use on articular surface.” Arthroscopy, Jan-Feb. 2000, pp 2-5.

Drilling or Microfracture Debride the cartilage to a stable rim Subchondral bone penetration (drill or pick) through the calcified cartilage layer 3 to 4 perforations per square centimeter Results in fibrocartilage repair Fibrocartilage lacks the durability and mechanical properties of hyaline cartilage

Drilling Results Joseph Tippet,M.D. 62 month follow up 71% Excellent 15% Good 14% Fair / Poor

Results : Richard Steadman, M.D. reported improvement in 364 of 485 patients (75%) at 7 years post-op 90 - 100% of the defects were healed at 4 wks. with 30% hyaline cartilage 12 mos. 42% hyaline cartilage Myron Spector, M.D. demonstrated complete filling of the lesions at 3 months in an animal model

Abrasion Arthroplasty Debridement and stimulation of secondary bone 1 - 1.5mm deep Intracortical rather than cancellous Fibrocartilage stimulation/repair

Results : Abrasion Arthroplasty Johnson 399 patients 66% with continued pain 99% with activity restriction

Results : Abrasion Arthroplasty Unpredictable May not be better than debridement alone Rand noted 50% of patients who had an abrasion underwent TKR within 3 yrs.

All “resurfacing procedures” “work better” or “last longer” when proper alignment is restored

Osteotomy Redistribution of joint load Goal - to shift load away from the degenerative area to a “normal” area High tibial to correct varus alignment bow legged Distal femoral to correct valgus alignment knocked kneed

Osteochondral Grafting Autologous plugs of bone with hyaline cartilage cap Best done for small lesions (< 2cm.) New technique Limited data at follow-up

Osteochondral Autografting Advantages Potential for physiologic hyaline cartilage Single stage procedure Can be done all arthroscopically

Osteochondral Autografting Disadvantages / Concerns Damage to secondary plate Creates bleeding - fibrocartilage Donor site morbidity Incongruency of plugs

Osteochondral Autografting Indications Full thickness (grade IV) lesions in the weight bearing surface of the femoral condyles Well circumscribed lesion - sharp transition zone <2 cm diameter lesion Young patient (< 45 yrs.) Normal alignment and stability

Osteochondral Autografting Contraindications Axial malalignment (varus / valgus) Arthritis : poor transition zone and or bicondylar lesions Age : patients > 55 - 60 poor results despite other inclusion criteria Lesions > 2cm. Osteochondritis dissecans without healed secondary bone Large OCD usually exceed donor area limitations & large bony defects w/ no secondary reference points

Osteochondral Autografting : Results Bobic 12 Cases Lesion 1 - 2.2cm. 10/12 excellent results at 2 yrs.

Osteochondral Autografting : Results Morgan & Carter 52 Cases IKDC evaluation Pain 65% improved 2 grades 31% improved 1 grade 4% no change (failure)

Osteochondral Autografting : Results Morgan & Carter 52 Cases IKDC evaluation Activity 27% 2 grade improvement 50% 1 grade improvement 23% no change

Osteochondral Autograft Biopsy Proven Survival : Hyaline Cartilage, Tidemark & Bone Wilson 10 years Outerbridge 9 years Hangody 5 years Bobic 3 years Morgan 1 year

Donor Site Morbidity : Osteochondral Autografts Morgan, Carter & Bobic 104 cases - no donor morbidity

Osteochondral Autograft Post-op Early motion Immediate active, active assisted, and passive ROM NWB x 2 weeks Thigh muscle strengthening & stretching 3 months Avoidance of sports & running for 3 months

Autologous Chondrocyte Implantation First procedure : biopsy Arthroscopic chondrocyte harvest from femoral intracondylar notch Cultivation of cells 14-21 days Second procedure : implantation Arthrotomy & debridement of the degenerative lesion Defect is covered with a periosteal flap Cultured chondrocytes injected into the defect, under the seal flap

Autologous Chondrocyte Implantation : Indications Age 15-55 Defect location femoral condyle Defect size 1-10cm. Defect type Grade IV Ligament stability “Normal” alignment

Autologous Chondrocyte Implantation Post-op CPM Active ROM Toe touch weight bearing for 6 months week 7-12 closed chair exercises Jogging at 9 months

Autologous Chondrocyte Implantation Swedish Results 1997 100 patients 2-9 year follow-up 90% improvement with femoral condyle lesions 74% with femoral condyle and ACL reconstruction 58% for trochlear lesions 75% for multiple defects

Autologous Chondrocyte Implantation US Clinical Experience 121 patients 6 month follow-up 42 patients 12 month follow-up 85% improved overall condition 80% improved pain scores at 12 months

Autologous Chondrocyte Implantation: Advantages Less donor site morbidity Larger and multiple defects can be addressed Good early results No violation of host’s secondary plate FDA approved

Autologous Chondrocyte Implantation : Disadvantages Requires 2 procedures Not arthroscopic Expensive No “long” term results

Osteochondral Allograft Transplantation Joint resurfacing with fresh or fresh frozen cadeveric tissue

Allograft Procedure Open procedure Expose the degenerative lesion Remove the defective articular cartilage and a “thin” bony base Utilize allograft tissue to replace and restore the articular surface

Allograft Advantages Replaces articular hyaline cartilage with hyaline cartilage Single procedure

Allograft Disadvantages Cost Risk of disease transmission from fresh allograft tissue

Allograft Results

Treatment Recommendations Low demand patients Small focal lesion (<2cm) Arthroscopic chondroplasty 50% relief up to 5 years Autograft Osteochondral or chondrocyte if failed chondroplasty

Treatment Recommendations High demand patient Small focal lesion (<2cm) Debridement plus drilling / fx 75% success with all 50% success with sports Osteochondral grafting or chondrocyte transplant if failure

Treatment Recommendations Low demand patient Large lesion (>2cm) Debridement or microfracture with chondrocyte harvest If persistent pain - osteochondral or chondrocyte transplant

Treatment Recommendations High demand patients Large lesion (>2cm.) Chondrocyte transplant 1st line treatment yields 90% success

Conclusions Articular cartilage does not repair itself Numerous treatments with varying results Most treatments fail in the long term due to articular cartilage’s inability to reproduce hyaline cartilage

Conclusions Osteochondral auto grafts and chondrocyte transplants show promising results Osteochondral auto grafts allow transplantation of bone capped with hyaline cartilage Autologous chondrocyte implantation allows near normal hyaline cartilage growth into defects