Since its creation, labral repair has become the preferred method among surgeons for the arthroscopic treatment of acetabular labral tears resulting in pain and dysfunction for patients. Labral reconstruction is performed mainly in revision hip arthroscopy but can be used in the primary setting when the labrum cannot be repaired or is calcified. The purpose of this study was to compare the survival between primary labral repair and labral reconstruction with survival defined as no further surgery (revision or total hip replacement).

Patients who underwent labral repair or reconstruction between January 2005 and December 2018 in the primary setting were included in the study. Patients were included if they had primary hip arthroscopy with the senior author for femoroacetabular impingement (FAI), involving either labral reconstruction or labral repair, and were within the ages of 18 and 65 at the time of surgery. Exclusion criteria included confounding injuries (Leggs Calves Perthes, avascular necrosis, femoral head fracture, etc.), history of unilateral or bilateral hip surgeries, or Tönnis grades of 2 or 3 at the time of surgery. Labral repairs were performed when adequate tissue was available for repair and labral reconstruction was performed when tissue was absent, ossified or torn beyond repair.

A total of 501 labral repairs and 114 labral reconstructions performed in the primary setting were included in the study. Labral reconstruction patients were older (37±10) compared to labral repair (34±11).(p=0.021). Second surgeries were required in 19/114 (17%) of labral reconstruction and 40/501(8%) [odds ratio: 2.3; 95% CI 1.3 to 4.2] (p=0.008). Revision hip arthroscopy were required in 6/114(5%) labral reconstructions and 33/501(6.5%) labral repair (p=0.496). Total hip replacement was required in 13/114 labral reconstructions and 7/501 labral repairs [odds ratio:9.1 95%CI 3.5 to 23] (p=< 0.01). The mean survival for the labral repair group was 10.2 years (95%CI:10 to 10.5) and 11.9 years (98%CI:10.9 to 12.8) in the labral reconstruction group.

Conversion to total hip was required more often following primary labral reconstruction. Revision hip arthroscopy rates were similar between groups as was the mean survival, with both over 10 years. Similar survival was seen in labral repair and reconstruction when strict patient selection criteria are followed.

Objective: Various tear types and patterns of meniscus injuries have been described. We record meniscus tear type and pattern in a standard manner for every knee arthroscopy in our database of more than 17,000 knee surgeries. We determined if meniscus tear type and pattern correlate with function and activity levels at least two years after partial meniscectomy.

Methods: Two hundred six (206) patients underwent partial medial meniscectomy and 117 underwent partial lateral meniscectomy by a single surgeon (average age=49 years; range, 18 to 80). At index surgery, the type and pattern of meniscus tear was recorded. Tears were designated as bucket handle/vertical longitudinal (BV), flap/radial (FR), or complex (CH) which includes horizontal cleavage tears. Patients not in neutral or near-neutral alignment and those undergoing concurrent procedures for microfracture or ACL reconstruction were excluded. Patients were followed for a minimum of two years (average=4.6 yrs) after partial meniscectomy. Patients completed questionnaires including Lysholm and Tegner scores to assess function and activity.

Results: For the medial meniscus, there was significant correlation between tear type and patient age. The BV lesion group (n=35) was significantly younger (41 years) than the FR (n=65) (50 years) and CH (n=193) (53 years) groups (p=0.01). The BV group had significantly higher Lysholm (89) scores versus FR (80) and CH (77) (p=0.04). The BV group also had higher Tegner activity levels (5.8) than FR (4.6) and CH (4.5) (p=0.04). For lateral meniscus, the BV (n=15) (40 years) and FR (n=37) (48 years) groups were significantly younger than the CH group (n=45) (56 years); p=0.03. FR patients had higher Lysholm and Tegner scores, but not significantly different. Twenty-five percent (25%) of BV medial meniscus tears required further surgery while less than 15% of other types of medial or lateral tears required further surgery. Average time to second surgery for all patients was 2.4 years, with medial being 2.6 years and lateral being 1.5 years.

Conclusions: In this series, BV medial meniscus tears had better function and activity levels at least two years post-meniscectomy, perhaps due to younger age. This group also required more reoperations during the first two years after index meniscectomy than any other group, perhaps as a result of higher activity levels. Overall, partial lateral meniscectomy patients required reoperation sooner than medial meniscectomies. Tear type did not significantly influence outcomes after lateral meniscectomy. Therefore, meniscus tear type and pattern correlated with function and activity levels for medial but not lateral > 2 years after partial meniscectomy.

Introduction: Many knee outcomes measures have recently been developed and validated. However, most of these are lengthy and too cumbersome to use in a busy sports medicine practice. The purpose of this study was to develop a one-page outcomes form that documents function, activity and patient satisfaction for collection of knee outcomes data in a format that can be analyzed easily so that a surgeon may better assess the outcomes of the therapeutic regimens used.

Methods: Validated knee questionnaires were evaluated for their length and ease of scoring. Scores were evaluated for test-retest reliability, floor and ceiling effects, criterion validity, construct validity, and responsiveness to change. In addition, the psychometric properties of a single-item patient satisfaction instrument with outcomes score were studied.

Results: The Lysholm score and Tegner activity scale are short in length and provide a validated outcomes measurement tool for several sports medicine procedures. In addition to being validated for ACL, meniscus, and chondral defects, we tested their psychometric properties in patients seeking treatment for osteoarthritis of the knee. The Tegner scale and overall Lysholm score showed acceptable test-retest (ICC = 0.87 and 0.79, respectively) reliability, floor and ceiling effects, criterion validity, construct validity, and responsiveness to change. The standard error of the Lysholm was 6.7 and the minimum detectable change at 95% confidence level (MDC95) was 16. For the Tegner score, the standard error was 0.60 and the MDC95 was 1.2. For the one-item patient satisfaction scale, there was an acceptable floor (4.3%) but a high ceiling (39.4%) effect. There was acceptable criterion validity with significant (p< 0.05) correlations between the satisfaction with surgical outcomes and the validated Group Health of America Consumer Satisfaction Survey. There was acceptable construct validity with all hypotheses demonstrating significance (p< 0.05). Acceptable responsiveness to change was found.

Conclusions: The Lysholm score, the Tegner activity scale, and a one-item patient satisfaction with outcomes scale provide a valid one-page knee outcomes measurement form. This simple form allows the collection of knee outcomes data in a busy sports medicine practice to help surgeons better assess the clinical outcomes in their patients.

Objective: Lysholm and Tegner scores have been validated to assess outcomes of meniscus surgery. We prospectively determined Lysholm scores for function and calculated Tegner index to determine percentage of pre-injury activity level regained by patients six years after partial meniscectomy alone versus placement of collagen meniscus implants (CMI, MenaflexTM). We hypothesized that in this prospective randomized multicenter clinical trial, patients who received collagen meniscus implant would have better function and would have regained more of their lost activity than patients with meniscectomy alone.

Methods: Patients 18 to 60 years old who had undergone 1 to 3 prior partial medial meniscectomies (thus deemed “chronic”) and remained symptomatic randomly received either a CMI (n=76) or another partial medial meniscectomy (control) (n=69). Lysholm and Tegner data were collected prospectively. Tegner index was calculated by subtracting preoperative Tegner scores from the longest follow-up scores and then dividing that difference by the difference of pre-injury less preoperative scores. The quotient multiplied by 100 yields a percentage that represents amount of lost activity regained as a result of therapeutic intervention. The findings were then compared to earlier analyses of the same patients.

Results: Average follow-up for both groups was 72 months (range for CMI, 24 to 88; for controls, 24 to 92). For both groups, Lysholm scores improved significantly (p=0.0001) from preoperative to 6 years postoperative, but there was no difference between treatments. Average Tegner index for CMI patients was 0.47; thus, 6 years after receiving CMI they had regained 47% of activity lost due to the inciting injury. Average Tegner index for controls was 0.22; thus, they regained 22% of lost activity. This difference was clinically and statistically significant (p=0.028). The Lysholm scores for both groups were unchanged from 2-year findings; however, Tegner index for CMI patients improved from 0.42 to 0.47, but Tegner index decreased for controls from 0.29 earlier to 0.22 at 6 years.

Conclusion: CMI (Menaflex) and partial meniscectomy both allowed chronic patients to regain function equally 6 years after index surgery. However, patients treated with CMI had significantly higher Tegner index at 6 years compared to controls, thus chronic CMI patients regained more of the activity they had lost as a result of their inciting injury. Noteworthy, CMI patients continued to gain activity from 2 to 6 years while meniscectomy only controls lost activity. These findings suggest that control patients reduced their activity levels in an attempt to maintain their function.

Objectives: Partial meniscectomy is the current standard of care for torn menisci not suitable for repair. Arthroscopic partial meniscectomy is the most commonly performed orthopaedic surgical procedure. The purpose of this study was to determine what specific factors influence longevity of improvements in function and activity levels following arthroscopic partial meniscectomy.

Methods: Six hundred forty (640) knees which had undergone isolated partial meniscectomy were identified from a clinical database. One hundred ninety-three (193) knees had partial lateral meniscectomy, 342 had partial medial meniscectomy, and 105 had partial medial and lateral meniscectomy. Average age was 52 years (range, 15 to 79) with 207 females and 433 males. Patients were excluded if they had concurrent ACL reconstructions or microfracture for chondral defects. Lysholm function and Tegner activity scores were collected for a minimum of 8 years after the index partial meniscectomy.

Results: For all knees, Lysholm scores improved significantly from preoperative (54) to 1 year postoperative (76) (p< 0.001). Lysholm scores did not change from year 1 to year 5. At year 6, average Lysholm score decreased to 69, and by year 8, the score decreased further to 63. When comparing degenerative knees to non-degenerative knees, the non-degenerative group had greater improvement and maintained it longer. Medial meniscus patients maintained their improvement at 6 and 7 years while the lateral meniscus group showed less improvement and decreased at years 6 and 7. Anatomic location of meniscus tear (anterior, middle or posterior thirds) was not associated with changes in improvement of Lysholm or Tegner scores. Tegner activity levels improved significantly from preoperative (3.6) to 1 year postoperative (4.7) (p< 0.001). This improvement was maintained at years 2, 3, and 4. There was no significant difference between preoperative Tegner and year-5 Tegner scores (4.0) (p> 0.05). This same finding was also seen at years 6, 7, and 8. In degenerative knees, there was less improvement, and levels declined at years 6, 7, and 8.

Conclusions: Patients who undergo partial meniscectomy can expect 4 to 5 years of improved function and activity levels. Knee function continues to improve up to 5 years, but it decreases as activity levels decrease. Patients who delay treatment or have degenerative changes experience a decrease in function and activity levels sooner. Meniscectomy provides a short term improvement in function and activity levels, but long term improvement seems unlikely. Our findings confirm that specific factors such as which meniscus (medial or lateral) undergoes meniscectomy, chronicity of the tear, and preexisting degenerative changes might be expected to influence longevity of improvements after partial meniscectomy.

Purpose: Meniscus loss leads to decreased clinical function and activity levels and increases rate of knee degeneration, thus leading to additional surgeries or even knee replacement, especially in chronic patients. Chronic patients are more focused on preserving their knees and avoiding additional surgeries. The purpose of this study was to determine if replacement of lost or irreparable meniscus tissue with the Collagen Meniscus Implant (CMI) decreased the need for additional surgeries in multiply operated chronic knee patients compared to meniscectomy only. We hypothesized that patients who gained meniscus tissue with the CMI would require fewer surgeries than meniscectomy only controls through five years.

Methods: In this prospective randomized multicenter clinical trial (Level of Evidence I), patients 18 to 60 years old who had undergone one to three prior partial medial meniscectomies (PMM) and currently had clinical symptoms of meniscus pathology were randomized either to receive the CMI or have an additional PMM (control). Eighty-five CMI were implanted, but one was removed at 3 weeks after an incision wound infection, and two patients died. The remaining 82 CMI patients were compared to 66 controls over 5 years to determine survivorship. Survivorship was defined as not having an additional unplanned surgery outside the experimental protocol on the study knee.

Results: Follow-up rate at 5 years was 96%. Eight CMI patients (9.5%) and 15 control patients (22.7%) required reoperation through 5 years. Survivorship at one year was 90% for control and 95% for CMI patients, 86% for control and 95% for CMI patients at 2 years, 83% and 92% at 3 years, 79% for control patients and 91% for CMI patients at 4 years, and 74% for control patients and 89% for CMI patients at 5 years. CMI patients had a significantly higher survivorship compared to controls (p=0.04). The risk (odds) of reoperation was 2.7 times greater for controls compared to CMI patients at 5 years (95% CI=1.2 to 6.7). Furthermore, the majority of control patient reoperations occurred prior to 24 months, but only four CMI reoperations occurred during the first 24 months.

Conclusion: This study confirms that chronic patients who received the CMI required fewer additional surgeries in their multiply operated knees than PMM only controls through 5 years. The additional tissue regeneration supported by the CMI may decrease progression of degenerative changes and reduce necessity and frequency for additional surgeries. This study further confirms the importance of preserving as much meniscus tissue as possible at time of meniscus surgery, and clearly it supports potential positive benefits of regrowing or regenerating lost meniscus tissue. Our hypothesis was affirmed.

Introduction: Meniscus repairs with sutures have become more common as the importance of preserving the meniscus has been established. Studies have shown a high rate of repeat surgery, but it is unclear what factors contribute to failure. The purpose of this study was to determine what factors lead to failure of suture meniscus repair. Failure was operationally defined as repeat surgery on the meniscus within 2 years of the repair.

Methods: Two hundred eighty-three (283) meniscus suture repairs were performed by a single surgeon. The average patient age was 31 years (range, 18 to 71). There were 177 males and 106 females. All repairs were completed with an inside-out suture technique. One hundred thirty-seven (137) had an ACL reconstruction and meniscus repair (93 concurrent reconstructions and 44 two-staged ACL reconstructions). One hundred eighty-one (181) medial menisci and 102 lateral menisci were repaired. Of the medial repairs, 80% were in the posterior third of the meniscus, 11% in the middle third, 1% in the anterior third, and 8% extended to all areas of the meniscus. Of the lateral meniscus repairs, 49% were in the posterior third, 26% in the middle third, 22% in the anterior third, and 3% extended to all areas.

Results: Twenty-eight (28) patients (10%) had required repeat surgery on the repaired meniscus within the first 2 years and were considered failures. The average time to repeat meniscus surgery was 12 months (range, 2.5 to 24 months). There were no differences based on age, gender or location. Thirteen percent (13%) of medial repairs and 4% of lateral repairs failed (p=0.012). Medial meniscus repairs failed significantly earlier (5.6 months) than lateral meniscus repairs (12.9 months) (p=0.001). For patients who had ACL reconstruction and meniscus repair, factors associated with failure included age (failed age=22; non-failure age=29; p=0.013), and concurrent ACL reconstruction (two-staged repair failures=2%; concurrent repair failures=11%; p=0.04).

Conclusion: Failure of suture repair of the meniscus within the first two years following index repair is more likely to occur in medial meniscus repairs and in young patients who had a repair and concurrent ACL reconstruction.

Purpose: The purpose of this study was to determine psychometric properties of the Lysholm score and Tegner activity scale as patient-administered outcomes scores for anterior cruciate ligament injuries of the knee. We hypothesized that these two outcomes measures remain valid by today’s standards twenty-five years after they were originally introduced as physician-administered outcomes instruments.

Methods: One thousand seven hundred eighty-three (1783) patients were included in this study. There were 749 females and 1034 males. Average age was 37 years (range, 18 to 77). Isolated ACL tears were documented in 593 patients, and 1190 patients had concurrent injuries including meniscus pathology and/or cartilage damage. Patients with multiple ligamentous injuries were excluded. All patients in this study were diagnosed with an ACL tear at arthroscopy. For responsiveness, scores were measured preoperatively and at a minimum of two years postoperatively. For test-retest, scores were measured at a minimum of two years postoperatively and again within four weeks of the original postoperative questionnaire. For criterion validity, patients completed the short form (SF-12^®) of the health related quality-of-life scale and the IKDC score in addition to Lysholm and Tegner instruments. For all other analyses, preoperative Lysholm score or Tegner activity levels were used.

Results: There was acceptable test-retest reliability for overall Lysholm score (ICC=0.94 [95% confidence interval=0.88 to 0.96]) and Tegner (ICC=0.82 [95% confidence interval=0.66 to 0.89]). The minimum detectable change for Lysholm was 8.9 and for Tegner was 1.4. The Lysholm score demonstrated acceptable internal consistency (Cronbach’s alpha=0.72). The Lysholm score correlated with IKDC (r=0.78) and the physical function domain of SF-12^® (r=0.43). The Tegner scale correlated with physical function domain of SF-12^® (r=0.2) and IKDC (r=0.22). Both scores had acceptable floor and ceiling effects, and all hypotheses were significant. The Lysholm score and Tegner scale both had a large overall effect size. There were no differences between isolated and combined ACL injuries.

Conclusion: After 25 years of changes in treatment of ACL injuries and postoperative rehabilitation protocols, the Lysholm knee score and Tegner activity scale continue to demonstrate acceptable psychometric parameters. The Lysholm score and Tegner scale both had acceptable test-retest reliability, construct validity, criterion validity, content validity, and responsiveness when patient-administered similar to the physician-administered results when they were originally validated. Our hypothesis was affirmed.

Prospectively, we determined amount of meniscus loss and anatomic location of Collagen Meniscus Implant (CMI) placement after partial medial meniscectomy (PMM). At 1-year relook we determined total meniscus tissue present based on surface area coverage. We correlated percent of meniscus and anatomic location of the original lesion with function and activity levels 6 years after CMI placement. We hypothesized that meniscus amount and anatomic location would influence clinical function and activity levels.

In a prospective randomized controlled multicenter clinical trial (Level of Evidence I), 114 chronic patients (1 to 3 prior PMM on the involved meniscus) 18 to 60 years old underwent partial medial meniscectomy, and then randomly one group received a CMI to fill the meniscus defect. There were 68 PMM only controls and 46 CMI patients. At index surgery, amount and anatomic location of meniscus removed and CMI placement were documented on a standard grid. Locations were categorized as posterior (A), middle (B), or anterior (C) third. A 1-year relook was done on CMI patients, and meniscus surface area coverage was measured. Patients were followed clinically for a minimum of two years and subjectively annually thereafter. Average follow-up was 69 months (range, 24 to 92). All patients completed validated questionnaires including Lysholm and Tegner scores to assess function and activity.

For CMI patients, 29 had lesions which included posterior and middle thirds (AB), and 17 had lesions involving all three zones (ABC). Lysholm scores were significantly higher in patients with AB lesions (81) compared to ABC lesions (71), p=0.046. AB lesion patients also had significantly higher Tegner index (0.70) than ABC lesion patients (0.22), thus AB patients regained more of their lost activity, p=0.049. Comparing all patients with > 60% meniscus surface area coverage, CMI patients had significantly higher Tegner index compared to controls (0.59 vs. 0.30), p=0.036. No differences between treatment groups were seen in patients with < 60% meniscus surface area coverage. When comparing 24 month to final follow-up values, controls had no change for Lysholm (p=0.13) or Tegner (p=0.39) scores, but CMI patients improved significantly over time for both Lysholm (p=0.02) and Tegner (p=0.04) scores.

Zones of meniscus involvement influenced clinical outcomes at 6 years in CMI patients. Those whose lesions extended into all three zones did worse than those with lesions in posterior and middle zones only. Patients with successful CMI procedures yielding > 60% meniscus surface area coverage were significantly better than PMM only controls for both clinical function and activity levels. Noteworthy, CMI patients continue to improve over time for clinical function and activity levels, but PMM controls do not.

INTRODUCTION: Absence of meniscus tissue leads to decreased clinical function and activity levels. In a previous study, we reported significant correlation between actual measured amounts of meniscus tissue removed at meniscectomy and symptoms, function and activity 2 years after surgery. In particular, it was noteworthy that patients with > 50% remaining meniscus tissue were significantly better in all categories measured than patients with < 50% total meniscus tissue remaining. The purpose of the present study was to determine, prospectively, changes in Tegner activity levels from preoperative to 2 years postoperative in patients who received Collagen Meniscus Implants (CMI) and were documented to have > 50% total meniscus tissue at 1-year relook arthroscopy.

METHODS: In a randomized controlled investigational device clinical trial (Level of Evidence I), 138 patients 18 to 60 years old underwent partial medial meniscectomy and placement of a CMI to fill the meniscus defect. There were 64 acute (no prior meniscus surgery) and 74 chronic (1 to 3 prior partial meniscectomies on the involved meniscus) patients. At index surgery, meniscus defect size was measured with specially designed instruments, and the percent of meniscus loss was calculated based on these actual measurements. Relook arthroscopy was performed at 1 year on 124 patients (90% surgical follow-up), and percent total meniscus tissue (remnant + new tissue) was determined by making these same measurements and calculations. Patients were followed clinically for a minimum of 2 years after CMI placement. At each follow-up, all patients completed questionnaires, including a Tegner score to assess activity. We then determined changes in Tegner score from the index surgery to 2 years status post CMI in these patients.

RESULTS: Of 124 relooks, 111 patients (90%) had > 50% total meniscus tissue. In these patients, average Tegner activity scores improved by two levels from 3 to 5 from preoperative to 2 years status post CMI. This increased change in activity levels significantly correlated with total meniscus tissue > 50% (r=0.21, p=0.02). These findings mirrored those we previously reported for partial meniscectomy patients in which > 50% of the meniscus was maintained.

CONCLUSIONS: There is a significant correlation between change (increase) in Tegner activity levels over 2 years and percent total meniscus tissue in patients who receive the CMI as treatment for meniscus loss and have > 50% total meniscus tissue. This study confirms the importance of preserving as much meniscus tissue as possible at the time of repair or meniscectomy. It clearly supports the potential positive benefits of regrowing or regenerating lost meniscus tissue to assist patients in regaining their activity.

INTRODUCTION: Loss of meniscus tissue leads to decreased clinical function and activity levels. However, no report has quantified the amount of meniscus tissue removed at meniscectomy and correlated meniscus tissue loss with clinical symptoms, function, and activity. We determined, prospectively, the amount of tissue loss at time of partial medial meniscectomy and then correlate extent of meniscus loss with clinical symptoms, function, and activity levels 2 years following the index meniscectomy.

METHODS: In a randomized controlled investigational device clinical trial (Level of Evidence I), 149 patients 18 to 60 years old underwent partial medial meniscectomy and served as controls. There were 81 acute (no prior meniscus surgery) and 68 chronic (1 to 3 prior partial meniscectomies on the involved meniscus) patients. At index surgery, size of the meniscus defect was measured using specially designed instruments, and percent of meniscus loss was calculated based on actual measurements. Patients were followed clinically for a minimum of 2 years after meniscectomy. At each follow-up, every patient completed questionnaires including Lysholm and Tegner scores to assess function and activity. Amount of meniscus tissue at index surgery was correlated with the individual domains of the Lysholm scale. Tegner index was calculated to determine the amount of lost activity regained 2 years after surgical intervention.

RESULTS: Two-year data were available for 127 patients (85% follow-up). There was a significant correlation between the amount of meniscus tissue remaining following the index meniscectomy and 2-year Lysholm domains of squatting (r=0.281, p=0.001), stair-climbing (r=0.251, p=0.004), and swelling (r=0.261, p=0.003). In particular, it is noteworthy that patients who had > 50% of their meniscus remaining had significantly better function than patients who had < 50% meniscus remaining. Patients who had worse or no improvement in pain symptoms at 2 years averaged 42% meniscus remaining, while patients who had improved pain scores had on average 51% meniscus remaining. Tegner index for patients with < 50% meniscus remaining averaged 24%, and for patients with > 50% meniscus remaining averaged 52% (p=0.017); hence, a greater amount of meniscus tissue remaining allowed patients to regain significantly more of their lost activity.

CONCLUSIONS: There is a significant correlation between the amount of meniscus tissue removed at men-iscectomy and clinical symptoms, function, and activity 2 years after surgery. This study confirms the importance of preserving as much meniscus tissue as possible at the time of meniscus repair or meniscectomy as well as the potential positive benefits of regrowing or replacing lost meniscus tissue in order to minimize clinical symptoms that may be suggestive of early degenerative changes.

Introduction: Meniscus loss increases the rate of knee degeneration, leading to additional surgeries or even knee replacement. We determined if replacement of lost meniscus tissue with the Collagen Meniscus Implant (CMI) decreased the need for additional surgeries in multi-operated chronic knees by performing a statistical “survivorship” analysis.

Methods: Patients 18 to 60 years old who had undergone one to three prior partial medial meniscectomies and currently had clinical symptoms of meniscus pathology were prospectively randomized (Level of Evidence I) either to receive the CMI or have an additional partial meniscectomy and serve as controls. Seventy-seven CMIs were implanted, but 5 were removed within 6 months for technical reasons. Those five patients were excluded from this analysis. The remaining 72 CMIs were compared to 66 meniscectomy only controls over 4 years to determine survivorship. “Survivorship” was defined as not having a second surgery on the study knee.

Results: Four CMI (6%) and 12 control patients (18%) required reoperation through 4 years. Survivorship at one year was 89% for control and 97% for CMI patients, 87% for control and 95% for CMI patients at 2 years, 83% and 94% respectively at 3 years, and 79% for control and 94% for CMI patients at 4 years. CMI patients had a significantly higher survivorship than controls (p=0.02). Confidence interval (CI) analysis revealed that meniscectomy only control patients were 3.8 times [CI 95%: 1.2 to 12.4] more likely to require repeat surgery than CMI patients who retained the implant.

Conclusion: In those patients who retained the implant, the CMI decreased the need for additional surgery for chronic knee injuries in multi-operated patients. The additional tissue regeneration supported by the CMI may decrease or minimize progression of degenerative changes and reduce the necessity for additional surgeries.

Introduction: The Lysholm knee score and the Tegner activity scale are frequently used to assess outcome following treatment of meniscus pathology. The purpose of this study was to determine the psychometric properties of the Lysholm knee score and Tegner activity level for meniscus injuries of the knee.

Methods: Test-retest reliability, content validity, criterion validity, construct validity, and responsiveness to change were determined for the Lysholm score and the Tegner activity scale within 3 subsets of patients. Group A contained patients with only meniscus pathology at surgery (no ligament pathology or chondral surface pathology) (n=191). Group B consisted of patients at least 2 years from surgery for meniscus pathology, who completed a follow-up form and then completed a retest with 4 weeks of the primary questionnaire (n=122). Group C consisted of patients with meniscus pathology with other intraarticular pathology (n=477).

Results: There were acceptable (intraclass correlation coefficient > 0.70) test-retest reliability for the overall Lysholm score and the Tegner activity scale. (Group B). There were acceptable floor and ceiling effects for the Tegner scale (floor: 8.1%; ceiling: 2.5%) and the overall Lysholm score (floor: 0%; ceiling: 0.4%) (Group A and C). There were unacceptable (> 30%) ceiling effects for the Lysholm domains of limp, instability, support, and locking. There was acceptable criterion validity, with significant (P< 0.05) correlations between the Tegner activity scale and the physical score of the SF-12 and between the overall Lysholm score and the physical score of the SF-12(Group C). There was acceptable construct validity for the Tegner activity scale and Lysholm score, with all hypotheses demonstrating significance (P< 0.05) (Group A). There was acceptable responsiveness to change for the Tegner activity scale (Group A effect size=0.61; standardized response mean=0.60; Group C effect size=0.84; standardized response mean=0.70) and the Lysholm score(Group A effect size=1.2; standardized response mean=0.97; Group C effect size =1.2; standardized response mean =1.13).

Discussion: The use of outcome instruments whose psychometric properties have been vigorously established is essential. The Lysholm knee score demonstrated overall acceptable psychometric performance for outcomes assessment of meniscus injuries of the knee, although some domains demonstrated suboptimal performance. The Tegner activity scale demonstrated overall acceptable psychometric performance for outcomes assessment of meniscus injuries of the knee, however, it demonstrated only moderate effect size. Psychometric testing of other condition-specific knee instruments in patients with meniscus pathologies of the knee would be helpful to allow for comparison of properties.

Introduction: Studies have shown that the Kellgren-Lawrence (K-L) score can differentiate the severity of osteoarthritis (OA). However, this grading system has not been compared with intraoperative assessment. The purpose of this study was to correlate the arthroscopic findings of knees with severe OA with their Kellgren-Lawrence grade.

Methods: Tibiofemoral knee OA was graded according to the K-L scale in 89 knees presenting for arthroscopic treatment for knee OA. The study group consisted of 55 males and 34 females with an average age of 55 (range 37 to 88) years. Each radiograph was examined by two orthopaedic surgeons, and arthroscopic data were collected prospectively.

Results: Radiographic grading yielded five knees with Grade 2 K-L, 47 with Grade 3 K-L, and 37 with Grade 4 K-L. At arthroscopy, ipsilateral tibial/femoral lesions were noted in 66 knees, including 17 knees with tibial/femoral lesions of both compartments. Meniscus pathology was present in 78 knees including 37 knees with both medial and lateral pathology. When comparing knees with radiographic K-L grades of 3 and 4, the following was noted: more males had Grade 4 K-L (p=0.001); knees with Grade 4 K-L were more likely to exhibit Outerbridge Grade III or IV tibial/femoral lesions on 3 or 4 surfaces (p=0.001); Grade 4 K-L knees had significantly more ipsilateral tibial/femoral lesions (p=0.000); and finally, Grade 4 K-L knees were more likely to contain meniscus pathology (p=0.032).

Conclusion: Grade 4 Kellgren-Lawrence scores correlated with more severe chondral degeneration and meniscus pathology. The Kellgren-Lawrence scale can differentiate between moderate and severe osteoarthritis.