BackgroundThe exact incidence of cyst formation after graft transplantation for osteochondral lesions is unknown. The primary purpose was to assess and compare cystic occurrence after autografting, allografting, and osteoperiosteal grafting for osteochondral lesions of the talus. Our secondary aim was to assess the correlation of clinical outcomes with the presence of postoperative cysts.MethodsA literature search was performed up to October 2023 through PubMed, Embase (Ovid), and Cochrane Library. The primary outcome was the postoperative cystic occurrence rate. A random-effects model with moderator analysis was used to calculate differences in occurrence rates between treatment groups. The relationship between the presence of cysts and clinical outcomes was described.ResultsThirteen studies were included with 382 ankles. The average radiological follow-up at which the presence of cystic occurrence was assessed ranged from 12 to 84 months. The rates of cystic occurrence for the osteochondral autograft transplantation group, the allograft transplantation group, and the osteoperiosteal transplantation group were 42% (95% confidence interval [CI] = 24-61), 58% (95% CI = 40-74), and 34% (95% CI = 12-67), respectively, without any significant differences noted. No relationship between the presence of cysts and clinical outcomes was found.ConclusionPostoperative cystic occurrence is common after osteochondral autograft transplantation (42%), allograft transplantation (58%), and osteoperiosteal transplantation (34%) in osteochondral lesions of the talus-without significant intertreatment differences. The postoperative presence of cysts was not correlated with clinical outcomes. Future research should assess whether the postoperative presence of cysts correlates with (clinical) outcomes at longer follow-up.Level of Evidence:Level IV, systematic review and meta-analysis.

Autologous osteochondral transplantation (AOT) is an option to treat large osteochondral lesions of the talus (OLTs), accompanying subchondral cyst, and previous unsuccessful bone marrow stimulation (BMS) procedures. Although there is extensive literature on the outcomes of surgical interventions for medial osteochondral lesions, research focusing on lateral lesions remains limited. This article presents the intermediate-term clinical and radiologic outcomes following AOT for lateral OLTs.

Twenty-eight patients with lateral OLTs were followed up for a minimum of 3 years after AOT. Clinical evaluations included the Foot and Ankle Outcome Score (FAOS) and Foot and Ankle Ability Measure (FAAM). Radiographic assessments evaluated articular surface (subchondral plate) irregularity, progression of degenerative arthritis, and changes in talar tilt and anterior talar translation. The quality of osteochondral graft was evaluated using the Magnetic Resonance Observation of Cartilage Repair Tissue (MOCART) score.

The average FAOS and FAAM scores significantly increased from 39.6 to 91.2 and from 37.8 to 89.8 points, respectively, at the final follow-up (P < .001). Radiologic assessments revealed 2 patients (7.1%) with articular step-off ≥2 mm and 1 patient (3.6%) with progressive arthritis. The average MOCART score reached 92.8 points. Postoperative complications included 2 patients with wound problems, 1 with a superficial peroneal nerve injury, and 1 with donor site morbidity. The rate of return to preinjury level of sports activity was 82.1%. At a mean follow-up of 68.5 months, no patient required reoperation for OLT or recurrent ankle instability.

AOT for lateral OLTs demonstrated favorable intermediate-term clinical and radiologic outcomes. Most lateral OLTs were accessible via lateral ankle ligament division and capsulotomy, with minimal occurrence of iatrogenic complications such as recurrent ankle instability. AOT appears to be an effective surgical option for patients with large lateral osteochondral lesions unresponsive to conservative treatment, large subchondral cysts, and prior unsuccessful BMS procedures.

Nonprimary osteochondral lesions of the talus (OLT) pose a significant challenge in orthopaedics, with no definitive consensus on optimal surgical treatment.

To consolidate the most recent evidence on operative treatments for nonprimary OLT by assessing patient-reported outcomes (PROs), postoperative complications, and clinical failures.

Systematic review; Level of evidence, 4.

This review adhered to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 and PRISMA in Exercise, Rehabilitation, Sport medicine and Sports science guidelines. Searches were conducted in PubMed, Embase, and Cochrane Library databases through June 2023. Eligible studies evaluated operative outcomes in skeletally mature patients with nonprimary OLT after failed previous surgeries. Primary outcomes included clinical and functional PROs. Secondary outcomes included postoperative complications and clinical failures. Quantitative analyses involved weighted means, mean differences, minimal clinically important differences, success rates (95% binomial proportion confidence interval), and a pre-to-postoperative meta-analysis.

Out of 3992 identified records, 50 studies involving 806 ankles from 794 patients were included. All operative treatments significantly improved PROs (P < .05), except osteochondral allograft transplantation (OCA) for American Orthopaedic Foot and Ankle Society and pain (visual analog scale/numeric rating scale [VAS/NRS]) scores and HemiCAP for pain (VAS/NRS) scores. Autologous chondrocyte implantation (ACI) and osteochondral autologous transplantation (OAT) demonstrated the greatest PRO success rates, exceeding 80%. Postoperative complications occurred in 4% of cases, most frequently with HemiCAP. Clinical failures affected 22% of cases, particularly with autologous matrix-induced chondrogenesis, OAT, OCA, and HemiCAP.

Our systematic review demonstrated that ACI and OAT are promising treatments for nonprimary OLT, with ACI showing fewer clinical failures than OAT. Conversely, OCA and HemiCAP exhibited lower effectiveness and higher clinical failure rates, suggesting a need for reassessment.

To provide a comprehensive systematic review to determine the impact of early weight-bearing compared with late weight-bearing on the clinical outcomes of patients who underwent osteochondral lesion of the talus (OLT) and were treated with autologous osteochondral transplantation (AOT) and to review the rate of return to sports and/or activities, patient satisfaction, and complications.

A systematic review of the PubMed, Embase, and The Cochrane Library databases was performed according to the Preferred Reporting Items for Systemic Reviews and Meta-Analyses guidelines. Publications were divided into group A, in which patients were allowed early weight-bearing within the first 6 weeks, whereas group B consisted of patients who were only allowed weight-bearing after 6 weeks. Unweighted estimates were calculated instead of quantitative random-effects meta-analysis due to the high heterogeneity and low level of evidence of the included studies.

In total, 44 studies with 1,838 ankles were included. There were 25 studies in group A and 19 studies in group B. Both the American Orthopaedic Foot and Ankle Society and visual analog scale scores were not affected by early weight-bearing after AOT for OLT. There were similar rates of return to sports and/or activities (71.4%-100% vs 71.4%-100%) and patient satisfaction (71.4%-100% vs 65.7%-100%). Notably, late weight-bearers had lower rates of postoperative knee symptoms (0-30% vs 0-39.1%) despite more late weight-bearers presenting with complication rates >20% compared with early weight-bearers (20% vs 14.3%) respectively. Late weight-bearers also had greater rates of repeat surgery (0-26% vs 0-18.2%) compared with early weight-bearers, with the most common cause for repeat surgery being arthroscopic debridement for postoperative impingement pain.

Protocols allowing for early weight-bearing after AOT for OLT yielded similarly good outcomes in terms of American Orthopaedic Foot and Ankle Society, visual analog scale for pain score, return to sports and/or daily activities, and patient satisfaction when compared with late weight-bearing. Although the differences in ranges for postoperative complications were not exceedingly different, late weight-bearers have slightly lower rates of postoperative knee symptoms and marginally greater rates of repeat surgery, with the most common cause for repeat surgery being arthroscopic debridement for postoperative impingement pain, similar to the studies with a low level of evidence appraised. The strength of these conclusions is limited because of the high level of heterogeneity, low level of evidence and high risk of bias in the literature reviewed.

Level IV, systematic review of Level I to Level IV studies with predominantly Level IV studies.

To investigate the medium and long-term follow-up outcomes of large cystic medial osteochondral lesions of the talus (OLTs) treated with autologous tibial osteoperiosteal grafts from the medial tibia and to explore the risk factors influencing the treatment outcomes.

The retrospective study included 75 patients with large cystic medial OLTs who underwent autologous osteoperiosteal cylinder graft taken from the medial tibia between January 2004 and August 2018. They were assessed preoperatively and postoperatively using a visual analog scale, the Orthopedic Foot & Ankle Society Ankle-Hindfoot Scale (AOFAS), and short-form 36-item Short Form Health Survey score. Magnetic resonance observation of cartilage repair tissue, second-look arthroscopy, and biopsy were used to evaluate the grafting areas.

After a follow-up period of 6.3 years, the virtual analog scale score decreased to 1.47 ± 1.32, and the AOFAS and 36-item Short Form Health Survey scores increased to 82.78 ± 11.65 and 83.26 ± 8.49, respectively, all of which showed significant improvement over preoperative scores (P < .001), and the average magnetic resonance observation of cartilage repair tissue score was 82.6 ± 8.4 (56.0-91.6). Eight patients underwent a second-look arthroscopic examination and were rated by the International Cartilage Repair Society scale; of them, 2 patients were rated grade Ⅰ, 4 were rated grade Ⅱ, and 2 were rated grade Ⅲ. Three patients underwent grafting area biopsy during the second-look arthroscopy, and the results showed that the grafting areas were rich in chondrocytes. Large OLTs (≥200 mm2) and obesity (body mass index ≥25) were responsible for the poor improvement of AOFAS score, according to multivariate Cox regression analysis.

Autologous osteoperiosteal grafting was an effective treatment for large cystic medial OLTs, with effective cartilage regeneration in the grafted areas in the medium and long term. However, the large OLTs and obesity may reduce the treatment outcomes.

Level IV, case series.

Osteochondral lesions of the talar dome (OLTD) are most often found in patients for whom the return to sports activities is the main issue. Two types of surgery have been distinguished at present, bone marrow stimulation techniques and mosaicplasty techniques. The size of the lesion indicating the need for bone marrow stimulation as the required surgical procedure has recently been decreased (<1cm). The main objective of this study was therefore to evaluate the return to sport after OLTD surgery. Our hypothesis is that surgery of osteochondral lesions of the talar dome allows the resumption of sports activities in the majority of cases.

This multicenter prospective study was conducted across 10 French centers specializing in foot and ankle surgery. All patients aged 18 to 65 with symptomatic OLTD resistant to thorough medical treatment for at least 6 months, justifying surgery, were included from June 2018 to September 2019. In addition to the usual demographic data, the practice of sport and level (professional, competitive, leisure) were systematically investigated preoperatively. A common protocol for surgical management and postoperative follow-up had previously been established according to the arthrographic stage of the lesion. The most recent recommendations based on size, but also depth, were taken into account. The primary endpoint was return to sport.

A final functional evaluation with the AOFAS (American Orthopedic Foot & Ankle Society) score was performed at a minimum of 12 months. Of 58 sports patients, 70.6% returned to sport (41/58) with an average delay of 4.3 months. A high AOFAS functional score (p=0.02) and a stage 1 lesion (p=0.006) were the only preoperative criteria significantly associated with a return to sport. No other factor was predictive of a return to sport.

Our prospective study shows that 70.6% of sports patients returned to sport after OLTD surgery according to a surgical protocol and standardized follow-up.

II.

The conventional operative method to treat an osteochondral lesion of the talus (OLT) is through bone marrow stimulation (BMS). Autologous osteochondral transplantation (AOT) is being used as an alternative option in cases with a large OLT, accompanying subchondral cyst, and/or failed BMS. We aimed to compare the intermediate-term clinical and radiologic results between medial and lateral OLTs after an AOT procedure.

Among the patients who underwent AOT, 45 cases with at least 3 years' follow-up were included in this retrospective study. We had 15 cases of lateral lesions and selected 30 cases of medial lesions matched for age and gender. Lateral lesions were resurfaced without an osteotomy; medial lesion resurfacing was combined with a medial malleolar osteotomy. Clinical assessment was performed using the Foot and Ankle Outcome Score (FAOS) and Foot and Ankle Ability Measure (FAAM). Radiographic assessment included the irregularity of articular surface (subchondral plate), the progression of degenerative arthritis, and the change of the talar tilt.

The mean FAOS and FAAM scores significantly improved after surgery in both groups. Up to 1 year postoperatively, there was significant difference in FAAM scores between the both groups (mean 75.3 points in medial group and 87.2 points in lateral group, P < .001). Delayed union or malunion of the malleolar osteotomy was found in 4 cases (13%) in the medial group. In addition, the progression of joint degeneration was observed in 3 cases (10%) in the medial group. There were no significant differences in the irregularity of articular surface and the change of talar tilt between both groups.

A comparison between medial and lateral OLTs treated with AOT demonstrated comparable intermediate-term clinical outcomes. However, patients with medial OLT required a longer period to restore ability for daily and sport activities. In addition, we found more complications and higher rate of progression in the radiologic arthritis grade after medial malleolar osteotomy.

Level IV, retrospective comparative study.

The primary aim was to determine and compare the complication rate of different surgical treatment options for osteochondral lesions of the talus (OLTs). The secondary aim was to analyze and compare the severity and types of complications.

A literature search was performed in MEDLINE (PubMed), EMBASE (Ovid), and the Cochrane Library. Methodological quality was assessed using the Methodological Index for Non-Randomized Studies (MINORS). Primary outcome was the complication rate per surgical treatment option. Secondary outcomes included the severity (using the Modified Clavien-Dindo-Sink Complication Classification System for Orthopedic Surgery) and types of complications. The primary outcome, the severity, and the sub-analyses were analyzed using a random effects model. A moderator test for subgroup-analysis was used to determine differences. The types of complications were presented as rates.

In all, 178 articles from the literature search were included for analysis, comprising 6,962 OLTs with a pooled mean age of 35.5 years and follow-up of 46.3 months. Methodological quality was fair. The overall complication rate was 5% (4%-6%; treatment group effect, P = 0.0015). Analysis resulted in rates from 3% (2%-4%) for matrix-assisted bone marrow stimulation to 15% (5%-35%) for metal implants. Nerve injury was the most observed complication.

In 1 out of 20 patients treated surgically for an OLT, a complication occurs. Metal implants have a significantly higher complication rate compared with other treatment modalities. No life-threatening complications were reported.

The effectiveness of autologous osteoperiosteal transplantation (AOPT) for the treatment of large cystic talar osteochondral lesions (OCLs) should be further evaluated, and the postoperative cartilage coverage is questionable. The purpose of this retrospective observational study was to investigate the clinical outcomes of AOPT for the treatment of large cystic talar OCLs and to report second-look arthroscopic results.

From June 1, 2017, to June 1, 2021, all talar OCLs at our center were reviewed. Painful cystic lesions treated with AOPT were included in the study. The American Orthopaedic Foot and Ankle Society (AOFAS; 0-100 points) ankle-hindfoot score, Foot Function Index (FFI; 0-100 points), visual analog scale (VAS; 0-10 points) score, and Tegner score (0-10 points) were used to describe pain and functional outcomes. Furthermore, complications, patient-reported satisfaction degrees, imaging results (including computed tomography and magnetic resonance), and second-look arthroscopic evaluation data were also collected for analysis.

A total of 29 cases were eligible for the study, and 26 responded to the latest follow-up request, with a mean follow-up duration of 30.2 (range, 12-57) months. The AOFAS score improved from 69.2 ± 10.9 preoperatively to 80.9 ± 10.0 at the latest follow-up (p = 0.000). The FFI score improved from 30.4 ± 18.4 preoperatively to 16.3 ± 14.0 at the latest follow-up (p = 0.000). The VAS pain score improved from 4.0 ± 2.1 preoperatively to 2.5 ± 2.0 at the latest follow-up (p = 0.001). No donor site morbidity was found. The mean postoperative MOCART score was 57.7 ± 9.5. Second-look arthroscopy showed a fibrillated cartilage-like surface at the lesion site in most cases, while two cases exhibited a nearly normal surface.

The transplantation of osteoperiosteal cylinder autografts taken from the iliac crest for the treatment of large cystic talar OCLs yielded acceptable clinical results. Good integration of the bony part was observed, but cartilage regeneration remained uncertain.

Osteochondral lesions of the talus (OLT) are common following ankle trauma. Operative treatment is often required, with osteochondral autografting frequently performed for large or cystic lesions, or following failed primary surgery. The aim of this systematic review was to evaluate the current evidence for osteochondral autograft transfer system (OATS) in the management of OLT. A systematic search of the PubMed, EMBASE, Scopus, and Cochrane Library databases was performed based on the Preferred Reporting Items for Systematic Reviews (PRISMA) guidelines. Study quality was assessed using the modified Coleman Methodology Score (CMS). Meta-analysis was carried out using RevMan, version 5.4 (The Cochrane Collaboration, 2020). A total of 23 studies were included. The mean modified CMS was 48.1±7.47. Fourteen studies reported preoperative and postoperative Visual Analog Scale (VAS) and American Orthopaedic Foot & Ankle Score (AOFAS). The aggregate mean preoperative and postoperative VAS score across 14 studies was 6.47±1.35 and 1.98±1.18, respectively. Meta-analysis of seven studies on 210 patients found that OATS resulted in a significant reduction in VAS score compared to baseline (Mean Difference {MD} -4.22, 95% Confidence Interval {CI} -4.54 to -3.90, P < 0.0001). The aggregate mean preoperative and postoperative AOFAS scores across 14 studies were 56.41±8.52 and 87.14±4.8, respectively. Based on eight studies on 224 patients, OATS resulted in a significant improvement in AOFAS score compared to baseline (MD 29.70, 95% CI 25.68 to 33.73, P = < 0.0001). Donor site pain occurred in 9% of cases. Current evidence from low-quality studies suggests that OATS is a safe and effective treatment option for OLT, though it is associated with a risk of donor site morbidity.

Osteochondral lesions of the talus (OLTs) represent 50% of ankle sprains and are most common in athletes who play competitive sports or are on active military duty. OLTs can cause significant physical damage if left untreated and may inflict financial burdens and mental health issues. Over the years, replacement surgeries, mainly autologous osteochondral transplantation (AOT) and osteochondral allograft transplantation (OAT), have become instrumental in treating OLTs. However, these procedures' effectiveness in returning to full fitness to resume competitive sports or active duty has not been well-established. This systematic review attempts to help this population cohort better understand OLTs and highlight the existing clinical evidence on AOT and OAT effectiveness in treating such patients. We performed a literature search between March 2022 through September 2022 following the Preferred Reporting Items for Systematic reviews and Meta-Analyses guidelines. Of eligible studies evaluating surgical outcomes of AOT and OAT in sportspeople and active-duty military personnel, 86% of patients who received AOT returned to competitive sports or active duty compared to 61% who received OAT. Additionally, on average, patients who underwent AOT returned to full fitness in five months rather than in 16 months for those who underwent OAT. As highlighted in this review, the limited evidence indicates that AOT may lead sportspeople and active-duty military personnel to return to pre-injury levels and resume athletic activities sooner. It is challenging to assume the same for OAT, given the limited studies in athletic cohorts with OLTs. Nevertheless, AOT and OAT are crucial surgical options that can significantly benefit competitive sportspeople and military personnel in resuming their careers.

It is unclear whether the results of osteochondral transplant using autografts or allografts for talar osteochondral defect are equivalent.

A systematic review of the literature was conducted to compare allografts and autografts in terms of patient-reported outcome measures (PROMs), MRI findings, and complications.

Systematic review; Level of evidence, 4.

This study was conducted according to the PRISMA guidelines. The literature search was conducted in February 2021. All studies investigating the outcomes of allograft and/or autograft osteochondral transplant as management for osteochondral defects of the talus were accessed. The outcomes of interest were visual analog scale (VAS) score for pain, American Orthopaedic Foot and Ankle Society (AOFAS) score, and Magnetic Resonance Observation of Cartilage Repair Tissue (MOCART) score. Data concerning the rates of failure and revision surgery were also collected. Continuous data were analyzed using the mean difference (MD), whereas binary data were evaluated with the odds ratio (OR) effect measure.

Data from 40 studies (1174 procedures) with a mean follow-up of 46.5 ± 25 months were retrieved. There was comparability concerning the length of follow-up, male to female ratio, mean age, body mass index, defect size, VAS score, and AOFAS score (P > .1) between the groups at baseline. At the last follow-up, the MOCART (MD, 10.5; P = .04) and AOFAS (MD, 4.8; P = .04) scores were better in the autograft group. The VAS score was similar between the 2 groups (P = .4). At the last follow-up, autografts demonstrated lower rate of revision surgery (OR, 7.2; P < .0001) and failure (OR, 5.1; P < .0001).

Based on the main findings of the present systematic review, talar osteochondral transplant using allografts was associated with higher rates of failure and revision compared with autografts at midterm follow-up.

Autologous osteochondral transplantation (AOT) is a treatment option for large or cystic osteochondral lesions of the talus (OLTs), with promising clinical results. However, donor-site morbidity (DSM) has always been a concern with this procedure.

To investigate the clinical and radiological outcomes of autograft harvesting from the medial trochlea for OLTs.

Case series; Level of evidence, 4.

A total of 46 consecutive patients were included after AOT procedures for OLTs, with donor autografts (single or double plugs) harvested from the medial trochlea of the ipsilateral knee. Lysholm scores were collected postoperatively at 12-month intervals to assess clinical outcomes. Postoperative magnetic resonance imaging (MRI) was used to assess the donor site using the MOCART (magnetic resonance observation of cartilage repair tissue) score. DSM was evaluated at 12-month intervals. Statistical analysis was performed to compare patients treated with single-plug and double-plug AOT procedures and establish whether there was any correlation between MOCART and Lysholm scores.

The mean follow-up period was 98.3 months (range, 67-144 months). The Lysholm scores for all patients were 92.5 ± 6.1 and 99.9 ± 0.2 at the 12-month and final follow-ups, respectively. MRI of the donor sites was taken at an average of 93.8 ± 20.5 (range, 61-141) months postoperatively, and the mean MOCART score was 76.2 ± 4.9. The overall incidence of DSM in this study was 4.3% at 12 months, postoperatively, which decreased to 0% at the 24-month follow-up. There was no significant difference in either the Lysholm score (P = .16) or the MOCART score (P = .83) between the single-plug and double-plug groups at the final follow-up. There were no significant correlations between MOCART and Lysholm scores and patient age, number of grafts, or body mass index.

According to the study findings, the DSM of donor autografts harvested from the medial trochlea was low, and the number (single or double) of grafts did not affect the functional outcome.

No consensus has been reached regarding the optimal surgical treatment for focal chondral defects of the talus.

A Bayesian network meta-analysis was conducted to compare the clinical scores and complications of mosaicplasty, osteochondral auto- and allograft transplant, microfracture, matrix-assisted autologous chondrocyte transplant, and autologous matrix-induced chondrogenesis (AMIC) for chondral defects of the talus at midterm follow-up.

Bayesian network meta-analysis; Level of evidence, 4.

This Bayesian network meta-analysis followed the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) extension statement for reporting of systematic reviews incorporating network meta-analyses of health care interventions. PubMed, Embase, Google Scholar, and Scopus databases were accessed in February 2021. All clinical trials comparing 2 or more surgical interventions for the management of chondral defects of the talus were accessed. The outcomes of interest were visual analog scale (VAS) score, American Orthopaedic Foot and Ankle Society (AOFAS) score, rate of failure, and rate of revision surgery. The network meta-analysis were performed through the routine for Bayesian hierarchical random-effects model analysis. The log odds ratio (LOR) effect measure was used for dichotomous variables, and the standardized mean difference (SMD) was used for continuous variables.

Data from 13 articles (521 procedures) were retrieved. The median length of the follow-up was 47.8 months (range, 31.7-66.8 months). Analysis of variance revealed no difference between the treatment groups at baseline in terms of age, sex, body mass index, AOFAS score, VAS score, and mean number of defects. AMIC demonstrated the greatest AOFAS score (SMD, 11.27) and lowest VAS score (SMD, -2.26) as well as the lowest rates of failure (LOR, 0.94) and revision (LOR, 0.94). The test for overall inconsistency was not significant.

At approximately 4 years of follow-up, the AMIC procedure for management of focal chondral defects of the talus produced the best outcome.

Magnetic resonance imaging (MRI) is commonly used for evaluation of ankle cartilage repair, yet its association with clinical outcome is controversial. This study analyzes the correlation between MRI and clinical outcome after cartilage repair of the talus including bone marrow stimulation, cell-based techniques, as well as restoration with allo- or autografting.

A systematic search was performed in MEDLINE, Embase, and Cochrane Collaboration. Articles were screened for correlation of MRI and clinical outcome. Guidelines of Preferred Reporting Items for Systematic Reviews and Meta-analysis (PRISMA) were used. Chi-square test and regression analysis were performed to identify variables that determine correlation between clinical and radiologic outcome.

Of 2687 articles, a total of 43 studies (total 1212 cases) were included with a mean Coleman score of 57 (range, 33-70). Overall, 93% were case series, and 5% were retrospective and 2% prospective cohort studies. Associations between clinical outcome and ≥1 imaging variable were found in 21 studies (49%). Of 24 studies (56%) using the composite magnetic resonance observation of cartilage repair tissue (MOCART) score, 7 (29%) reported a correlation of the composite score with clinical outcome. Defect fill was associated with clinical outcome in 5 studies (12%), and 5 studies (50%) reported a correlation of T2 mapping and clinical outcome. Advanced age, shorter follow-up, and larger study size were associated with established correlation between clinical and radiographic outcome (P = .021, P = .028, and P = .033).

Interpreting MRI in prediction of clinical outcome in ankle cartilage repair remains challenging; however, it seems to hold some value in reflecting clinical outcome in patients with advanced age and/or at a shorter follow-up. Yet, further research is warranted to optimize postoperative MRI protocols and assessments allowing for a more comprehensive repair tissue evaluation, which eventually reflect clinical outcome in patients after cartilage repair of the ankle.Level of Evidence: Level III, systematic review and meta-analysis.

Autologous osteochondral transplantation (AOT) using a cylindrical graft in the treatment of osteochondral lesions of the talus (OLTs) is typically indicated for patients with larger lesions. However, with lesions that are irregular in shape, the AOT graft may not completely replace the lesion. For these lesions, we utilize extracellular matrix cartilage allograft (EMCA) augmentation in AOT to act as a physiologic grout at the host-graft interface.

To determine if the combination of EMCA with concentrated bone marrow aspirate (CBMA) would improve integration of the host-graft interface and subsequently reduce postoperative cyst formation after AOT. It was also hypothesized that EMCA in conjunction with CBMA would demonstrate improved MOCART (magnetic resonance observation of cartilage repair tissue) scores and functional outcome scores at a minimum 2 years after surgery.

Cohort study; Level of evidence, 3.

A retrospective analysis was performed comparing patients treated with AOT/CBMA alone and AOT with CBMA/EMCA. Clinical outcomes were evaluated with the Foot and Ankle Outcome Score. Magnetic resonance imaging appearance was evaluated with the use of the MOCART (magnetic resonance observation of cartilage repair tissue) score. Cyst formation was also evaluated on postoperative magnetic resonance imaging.

A total of 26 patients were included in the AOT + CBMA/EMCA group (10 male, 16 female), and 34 patients were included in the AOT/CBMA group (17 male, 17 female). The mean Foot and Ankle Outcome Score significantly improved in both groups (P < .001) across all subscales (symptoms, pain, activities of daily living, sports activities, and quality of life), but there was no significant difference between groups at final follow-up. There was no significant difference in mean MOCART scores between the groups (P = .118). In the AOT/CBMA group, 3 patients (8.8%) complained of knee pain, and 1 (2.9%) required additional surgery (hardware removal). In the AOT + CBMA/EMCA group, 2 patients (7.7%) complained of knee pain, and 6 patients (23%) required additional surgery (3 hardware removals and 3 arthroscopic debridements of scar tissue in the ankle).

We found that while EMCA with CBMA has benefit in regeneration and repair of OLT treated with bone marrow stimulation, there appears to be little benefit of EMCA over CBMA alone as a physiologic grout at the graft-host interface in OLT treated with AOT.

The aim: To conduct a comparative analysis of the results of arthroscopic debridement with drilling (ADD) versus osteochondral autologous transplantation (OAT) in the treatment of talar osteochondral lesions and defects (OHLD) based on the assessment of the function of the ankle joint, the level of pain and changes in the range of movements (ROM) in the affected joint.

Materials and methods: The study included 40 patients with OHLD, with an average area of 3.14 cm2 and a depth of 1.15 cm, located in the posterior and middle medial part of the talus block. In the group 1 performed ADD. In group 2 - OAT. The results were evaluated before surgery, at 12 and 24 months. The level of pain to VAS, the function to AOFAS, the ROM in the joint were studied.

Results: After treatment, there was a significant reduction in pain with the best result in group 2 (p<0.05). AOFAS showed that after 12 and 24 months the functional state of the joint in group 2 was better than in group 1 (p<0.01). After 12 months, ROM increased significantly in both groups. After 24 months, there was no increase in ROM in group 1, and in group 2 the growth was statistically significant (p<0.01), which confirmed the higher prospects and stability of the result when performing OAT.

Conclusions: OAT is better than ADD for talar OHLD, provides maximum recovery of the joint surface, significantly reduces pain and improves ankle function.

Osteochondral lesion of the talus is defined as damage in the cartilage that covers the talus bone, compromising the integrity of the joint in the long term. Due to the low incidence of this pathology, there are few studies to understand the importance of lesion size and position in cartilage strains. The purpose of this study is then to analyze the influence of the lesion size in joint behavior. A 3D virtual and in vitro model of a patient's injured ankle joint was developed. The models were built using CT scan and MRI images, to obtain the CAD models of intact and with 10 mm lesion size for 3D print models using additive manufacturing. The physical model was tested with 685N applied vertically to determine experimentally the principal strains and contact pressures in the cartilage. Five finite element models were developed with lesion dimensions (5 to 20 mm) and with 3 ankle joint positions. The numerical and experimental results were correlated with an R² = 0.86 justified by the complexity of the model geometry. The maximum principal strain was 2566µε in the plantar flexion position without lesion. The experimental contact area between cartilages increased by 1.2% in the 10 mm lesion size for 431 mm². The maximum stress in the cartilage was observed for a 20 mm lesion size with 2.5 MPa. The 5 and 10 mm sizes present similar results; the 15 mm lesion size presents a stress increase of 13% comparatively with 10 mm. Plantar flexion seems to be the most critical configuration; stress increases with an increase of lesion size around the cartilage.

The primary aim of this study was to evaluate the exact location distribution in patients with osteochondral lesions of the talus (OLTs) using a 9-grid scheme. The secondary aim is to match lesion location to lesion size, arthroscopic or open operation, and trauma occurrence.

A systematic review was performed in the databases PubMed, EMBASE, and Cochrane. Search terms consisted of "talus" and "osteochondral lesion." Two independent reviewers evaluated search results and conducted the quality assessment using the Methodological Index for Non-Randomized Studies (MINORS). Primary outcome measure was OLT location in the 9 zone-grid. Secondary outcome measures were OLT size in 9-zones, preoperative radiological modality use, demographic lesion size variables as well as open or arthroscopic treatment.

Fifty-one articles with 2,087 OLTs were included. Heterogeneity concerning methodological nature was observed and methodological quality was low. The posteromedial (28%) and centromedial (31%) zones combined as one location was the location with the highest incidence of OLTs with a rate of 59%. Individual OLT size was reported for only 153 lesions (7%). Preoperative combination of X-ray and magnetic resonance imaging (MRI), and/or computed tomography (CT) was reported in 20 studies (43%). Trauma was reported in 78% of patients. Furthermore, 67% was treated arthroscopically and 76% received primary OLT treatment.

The majority of OLTs are located in the posteromedial and centromedial zone, while the largest OLTs were reported in the centrocentral zone. Further research is required to identify the prognostic impact of location occurrence on the outcomes following OLT treatment.

This is a review on talus osteochondritis dissecans and talus osteochondral lesions. A majority of the osteochondral lesions are associated with trauma while the cause of pure osteochondritis dissecans is still much discussed with a possible cause being repetitive microtraumas associated with vascular disturbances causing subchondral bone necrosis and disability. Symptomatic nondisplaced osteochondral lesions can often be treated conservatively in children and adolescents while such treatment is less successful in adults. Surgical treatment is indicated when there is an unstable cartilage fragment. There are a large number of different operative technique options with no number one technique to be recommended. Most techniques have been presented in level II to IV studies with a low number of patients with short follow ups and few randomized comparisons exist. The actual situation in treating osteochondral lesions in the ankle is presented and discussed.

Talus osteochondral lesions are a commonly underdiagnosed problem in young athletes. Talus osteochondral lesions surgical algorithm remains controversial. Current metrics suggest that conventional treatment of osteochondral lesions of the talus is promising; yet return to sport is poorly studied. Fifty-seven patients following talus osteochondral lesion surgical intervention were included in this study. About 63.1% were female with mean age 37.1 years, mean lesion size 10 × 12.5 mm, and mean follow-up 79.9 months postoperatively. Patients were divided into 4 groups by surgery performed: antegrade arthroscopic bone marrow stimulation, retrograde arthroscopic drilling, osteochondral autograft transfer, and allograft cartilage implantation. Outcome metrics include Visual Analog Scale for pain and function, Short Form-12, Foot and Ankle Disability Scale, Tegner, Marx activity scores, Naal Sports inventory, and patient satisfaction. Over 77% of patients were satisfied with surgical intervention. Each intervention significantly decreased pain and increased function, except retrograde drilling. All interventions trended toward decreased Tegner score; only antegrade drilling showed significant decrease. Based on Naal's sports inventory, 85.7% of surgically treated patients reported participating in sport activities, on average 3 times/week and 50.6 minutes/session. Traditionally, talus osteochondral lesions present a difficult problem that is marred by unsatisfactory nonoperative outcomes in typically active patients. As our surgical understanding has evolved, we've continued to improve on outcomes. Our patients demonstrated 77.2% overall satisfaction rate, a statistically significant improvement in pain and function, at an average follow-up of 79.9 months postoperatively, and a high rate of return to sport with little difference between surgical interventions.

In order to repair an osteochondral defect, it is critical to advance a bi-lineage constructive scaffold with gradient transition. In this study, we developed a simple and straightforward approach for fabricating a multi-domain gel scaffold through the assembly/disassembly of low-molecular-weight gels (LMWGs) inside a stable PEGDA network by photopolymerization. The versatility of this technology enabled to vary biological, topological, and mechanical properties through material selection and to generate a chondrogenic-osteogenic gradient transition. The multi-domain gel exhibited an increasing stiffness gradient along the longitudinal direction from the cartilage layer at approximately 20 kPa to the bone layer at approximately 300 kPa as well as spatial variation at the gradient interface. Moreover, the transitional layer with a condensed structure and intermediate stiffness prevented delamination of the contrasting layers and maintained microenvironmental differences in the upper and lower layers. The in vitro results indicated that each domain had an individual capacity to spatially control the differentiation of MSCs toward osteoblastic lineage and chondrocytic lineage. This was mainly because the mechanical and topographical cues from the respective domains played an important role in modulating the Rho-ROCK signaling pathway, whereas the blockage of ROCK signals significantly impaired domain-modulated osteogenesis and enhanced chondrogenesis. Additionally, the quantity and quality of osteochondral repair were evaluated at 4 and 8 weeks through histological analysis and micro-computed tomography (micro-CT). The results indicated that the multi-domain gels distinctly improved the regeneration of subchondral bone and cartilage tissues. Overall, the outcomes of this study can motivate future bioinspired gradient and heterogeneity strategies for osteochondral tissue regeneration. STATEMENT OF SIGNIFICANCE: The regeneration of osteochondral defects remains a major challenge due to the complexity of osteochondral structure and the limited self-repair capacity of cartilage. The gradient design to mimic the transition between the calcified cartilage and the subchondral bone plate as well as the zones of cartilage is an effective strategy. In this study, controlled multi-domain gels were fabricated through the assembly/disassembly of low-molecular-weight gels inside a stable PEGDA network by photopolymerization. The prepared multi-domain gels showed a chondrogenic-osteogenic gradient transition, which decreased the possibility of delamination and stimulated osteochondral tissue regeneration in vivo. Overall, our study promotes new strategies of bioinspired gradients and heterogeneities for more challenging applications.

Although bone marrow stimulation (BMS) as a treatment for osteochondral lesions of the talus (OCLT) shows high rates of sport resumption at short-term follow-up, it is unclear whether the sports activity is still possible at longer follow-up. The purpose of this study was, therefore, to evaluate sports activity after arthroscopic BMS at long-term follow-up.

Sixty patients included in a previously published randomized-controlled trial were analyzed in the present study. All patients had undergone arthroscopic debridement and BMS for OCLT. Return to sports, level, and type were assessed in the first year post-operative and at final follow-up. Secondary outcome measures were assessed by standardized questionnaires with use of numeric rating scales for pain and satisfaction and the Foot and Ankle Outcome Score (FAOS).

The mean follow-up was 6.4 years (SD ± 1.1 years). The mean level of activity measured with the AAS was 6.2 pre-injury and 3.4 post-injury. It increased to 5.2 at 1 year after surgery and was 5.8 at final follow-up. At final follow-up, 54 patients (90%) participated in 16 different sports. Thirty-three patients (53%) indicated they returned to play sport at their pre-injury level. Twenty patients (33%) were not able to obtain their pre-injury level of sport because of ankle problems and eight other patients (13%) because of other reasons. Mean NRS for pain during rest was 2.7 pre-operative, 1.1 at 1 year, and 1.0 at final follow-up. Mean NRS during activity changed from 7.9 to 3.7 to 4.4, respectively. The FAOS scores improved at 1 year follow-up, but all subscores significantly decreased at final follow-up.

At long-term follow-up (mean 6.4 years) after BMS for OCLT, 90% of patients still participate in sports activities, of whom 53% at pre-injury level. The AAS of the patients participating in sports remains similar pre-injury and post-operatively at final follow-up. A decrease over time in clinical outcomes was, however, seen when the follow-up scores at 1 year post-operatively were compared with the final follow-up.

Level II.

To evaluate the clinical and sports-related outcomes of arthroscopic microfracture (MFx) for osteochondral lesion of the talus (OLT) in elite athletes.

The athletes who underwent arthroscopic MFx for OLTs at our institution between January 2011 and September 2015 with minimum 2 years of follow-up were reviewed. The Foot and Ankle Outcome Score, American Orthopaedic Foot & Ankle Society, and visual analog scale pain score, time and rate of "return-to-competition" (RTC, return to an official match for at least 1 minute after treatment), and rate of "return-to-play" (RTP, participation in at least 2 entire seasons after treatment) were used to evaluate the outcomes. We compared athletes who were able to RTP with those who were not.

In total, 41 patients (mean age 19.34 ± 3.76 years) were included. The mean follow-up was 54.9 ± 13.72 months. In total, 36 patients had medial lesions, and 5 patients had lateral lesions. All subscales of preoperative Foot and Ankle Outcome Score were significantly improved at the final follow-up. The mean preoperative American Orthopaedic Foot & Ankle Society score of 74.46 ± 8.10 improved to 91.62 ± 2.99 (P < .001) at the final follow-up. The mean preoperative visual analog scale pain score of 5.44 ± 1.57 improved to 2.66 ± 1.04 (P < .001). All patients achieved RTC (100%) at mean time of 5.45 ± 3.18 months, and 74.4% of patients were able to RTP. The RTP-group showed significantly smaller lesions compared to the No-RTP group (71.52 ± 43.29 vs 107.00 ± 45.28 mm², P = .009). The cut-off OLT size for predicting RTP was 84.0 mm², with a sensitivity of 90.0% and specificity of 75.9%.

All athletes were able to RTC at average of 5.45 months after MFx for OLTs with minimal subchondral involvement, and 74.4% were able to RTP. The only prognostic variable for RTP was lesion size, and its predictive cut-off was 84.0 mm².

IV, Case series.

(1) To determine the rate of return to play following autologous osteochondral transplantation (AOT) for osteochondral lesions of the talus (OLT) and (2) report subsequent rehabilitation protocols.

A systematic review of the PubMed, Embase, and The Cochrane Library databases was performed according to the PRISMA guidelines based on specific eligibility criteria. Return to play data was meta-analysed and subsequent rehabilitation protocols were summarised. Level of evidence and quality of evidence (Zaman's criteria) were also evaluated.

Nine studies that totalled 205 ankles were included for review. The mean follow-up was 44.4 ± 25.0 (range 16-84) months. The mean OLT size was 135.4 ± 56.4 mm2. The mean time to return to play was 5.8 ± 2.6 months. The mean rate of return to play was 86.3% (range 50-95.2%), with 81.8% of athletes returning to pre-injury status. Based on the fixed-effect model, the rate of return to play was 84.07%. Significant correlation was found between increase age and decrease rate of return to play (R2 = 0.362, p = 0.00056). There was no correlation between OLT sizes and rate of return to play (R2 = 0.140, p = 0.023). The most common time to ankle motion post-surgery was immediately and the most common time to full weight-bearing was 12 weeks.

This systematic review indicated a high rate of return to play following AOT in the athletic population. Size of OLT was not found to be a predictor of return to play, whereas advancing age was a predictor. Rehabilitation protocols were largely inconsistent and were primarily based on individual surgeon protocols. However, the included studies were of low level and quality of evidence.

Level IV.

Osteochondral lesion of the talus (OCLT) is defined as a defect on the articular surface of the talus with/without subchondral bone involvement. Several surgical techniques are described in literature to treat OCLT. Particulated Juvenile Cartilage Allograft Transplantation (PJCAT) is a new emerging technique that has the potential of restoring the native cartilage. However, available data on PJCAT in treating OCLT is confined to a small number of studies with heterogeneous population. The aim of this study is to systematically review the literature on clinical and radiological outcomes of PJCAT in treating OCLT.

A systematic search of Medline database was performed using Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines. Number of patients and demographic data included age, gender and body mass index (BMI) were extracted. The level of evidence of each included study was identified. When feasible, mechanism of injury, lesion size and average follow up were recorded. The American Orthopedic Foot and Ankle Society Score (AOFAS), and Foot and Ankle Outcome Score (FAOS) were obtained to assess the functional outcomes. Magnetic Resonance Observation of Cartilage Repair Tissue (MOCART) score was selected to evaluate the radiological outcomes.

A total of 10 studies were eligible for this review involving 132 patients. Postoperative AOFAS scores were available for 44 patients who underwent PJCAT with an average of 86.14 at 25.5 months follow up. FAOS scores have been reported in 3 studies for 81 patients. The average preoperative score was 47.35 which has been improved to 62.88 at follow up of 23.6 months. MOCART was evaluated in 42 feet after the mean follow up of 18.2 months. The repair tissue was characterized by variable features; however, certain peculiarities were observed with higher frequency including infill hypertrophy, incomplete border zone integration, deep surface disruption, structure inhomogeneity, patches of hyperintense signals, damage of subchondral lamina and subchondral bone, adhesions and absence of effusion.

PJCAT seems to be a promising modality of treatment for OLT in terms of functional outcomes. Fair attempts of defect filling can be confirmed with MRI. Nevertheless, heterogeneous picture of regenerate cartilaginous tissue and lack of repair in subchondral bone and subchondral lamina are not in favor with claims of full restoration of lost normal hyaline articular cartilage.

Osteochondral lesions of the talus are lesions that are seen particularly in the young age group and are often related to sports injuries and trauma. These lesions, which show late symptoms radiologically, can be determined in the early stages with magnetic resonance imaging. The aim of this study was to present a new osteotomy technique to reduce the complications of mosaicplasty surgery to a minimum and provide an early return to work.

A total of 11 patients who had cartilage lesions due to osteochondritis dissecans in the medial aspect of the talus underwent mosaicplasty after a triplanar osteotomy. The dimensions of the lesion and the depth of the triplanar osteotomy were determined preoperatively. Coronal, sagittal and transverse cuts were made at the depth defined arthroscopically. Following the osteotomy, an osteochondral graft taken from the ipsilateral knee was placed in the prepared area. Osteotomy side was fixed with one or two cannulated screws following mosaicplasty.

With this technique, weight-bearing can be immediate in cases with no need for osteotomy in the joint surface. In cases including the joint surface, partial weight-bearing is permitted after 4 weeks and can be increased as tolerated. In the 11 cases treated with this technique, full weight-bearing was achieved at mean 5 weeks (range, 5-8 weeks). No shift (upward displacement of osteotomized fragment) or non-union was seen in any patient.

With the triplanar osteotomy technique described here, potential shift complications can be reduced to a minimum. As only the lesion region is targeted, the osteochondral surface formed by the fracture is much less.

Case Series; Level of Evidence, 4.

To systematically evaluate the outcomes and complications of osteochondral autograft transfer (OAT) and osteochondral allograft transplantation (OCA) for the surgical treatment of capitellar osteochondritis dissecans (OCD).

A literature search was conducted across 3 databases (PubMed, Cochrane, and CINAHL [Cumulative Index to Nursing and Allied Health Literature]) from database inception through December 2019 in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) guidelines. Individual study quality was assessed using the Methodological Index for Non-randomized Studies scale. Studies were published between 2005 and 2019.

Eighteen studies consisting of 446 elbow OCD lesions treated with OAT surgery were included. There was a single OCA study eligible for inclusion. Patient ages ranged from 10 to 45 years. Of the OAT studies, 4 used autologous costal grafts whereas the remainder used autografts from the knee. Outcome measures were heterogeneously reported. A significant improvement in Timmerman-Andrews scores from preoperatively to postoperatively was reported in 9 of 10 studies. Return-to-play rates to the preinjury level of competitive play ranged from 62% to 100% across 16 studies. Significant improvement in motion, most often extension, was noted in most studies. Reported complication, reoperation, and failure rates ranged from 0% to 11%, 0% to 26%, and 0% to 20%, respectively. When used, knee autografts resulted in low donor-site morbidity (Lysholm scores, 70-100).

OAT surgery for large, unstable OCD lesions of the capitellum reliably produced good outcomes, few complications, and a high rate of return to competitive play. Complications are relatively uncommon, and donor-site morbidity is low. Less is known about the performance of OCA given the paucity of available literature.

Level IV, systematic review of Level II to IV studies.

Autologous osteochondral transplantation (AOT) has been shown to be a viable treatment option for large osteochondral lesions of the talus. However, there are limited data regarding the management of large lesions in an athletic population, notably with regard to return to sport. Our investigation focused on assessing both qualitative and quantitative outcomes in the high-demand athlete with large (>150 mm²) lesions.

AOT is a viable option in athletes with large osteochondral lesions and can allow them to return to sport at their preinjury level.

Case series; Level of evidence, 4.

The study population was limited to professional and amateur athletes (Tegner score, >6) with a talar osteochondral lesion size of 150 mm² or greater. The surgical intervention was AOT with a donor site from the lateral femoral condyle. Clinical outcomes at a minimum of 24 months included return to sport, visual analog scale (VAS) for pain score, and Foot and Ankle Outcome Score (FAOS). In addition, graft incorporation was evaluated by magnetic resonance imaging (MRI) using MOCART (magnetic resonance observation of cartilage repair tissue) scores at 12 months after surgery.

A total of 38 athletes, including 11 professional athletes, were assessed. The mean follow-up was 45 months. The mean lesion size was 249 mm². Thirty-three patients returned to sport at their previous level, 4 returned at a lower level compared with preinjury, and 1 did not return to sport (mean return to play, 8.2 months). The VAS improved from 4.53 preoperatively to 0.63 postoperatively (P = .002). FAOSs improved significantly in all domains (P < .001). Two patients developed knee donor site pain, and both had 3 osteochondral plugs harvested. Univariant analysis demonstrated no association between preoperative patient or lesion characteristics and ability to return to sport. However, there was a strong correlation between MOCART scores and ability to return to sport. The area under receiver operating characteristic of the MOCART score and return to play was 0.891 (P = .005), with a MOCART score of 52.50 representing a sensitivity of 0.85 and specificity of 0.80 in determining ability to return to one's previous level of activity.

Our study suggests that AOT is a viable option in the management of large osteochondral talar defects in an athletic population, with favorable return to sport level, patient satisfaction, and FAOS/VAS scores. The ability to return to sport is predicated upon good graft incorporation, and further research is required to optimize this technique. Our data also suggest that patients should be aware of the increased risk of developing knee donor site pain when 3 osteochondral plugs are harvested.

To determine the rate of return of patients to sport after arthroscopic autologous matrix-induced chondrogenesis (AT-AMIC) for outcomes 2 years after surgery.

Retrospective observational cross-sectional study.

C.A.S.C.O.-Foot and Ankle Unit, Istituto Ortopedico Galeazzi, Milan, Italy.

Twenty-six consecutive patients, 65.4% male (mean ± SD age: 33.7 ± 11.0 years), that underwent AT-AMIC procedure between 2012 and 2015 were selected retrospectively. From this population, only sporting patients at amateur's level were included. Arthroscopic autologous matrix-induced chondrogenesis was proposed in patients with pain and persistent disability.

All patients were assessed with the American Orthopaedic Foot and Ankle Score (AOFAS), physical component score of the 12-Item Short Form Health Survey (SF-12), Halasi ankle activity score, and University of California, Los Angeles (UCLA) activity scale preoperatively and at 24 months postoperatively.

Overall, 80.8% of the patient group returned to the same preinjury sport. The mean follow-up was 42.6 ± 10.9 months (range from 25 to 62 months). Significant differences were observed with reference to AOFAS, SF-12, Halasi, and UCLA scores at the last follow-up in patients who had undergone AT-AMIC (all, P < 0.001).

A high percentage of patients return to their preinjury sport after AT-AMIC surgery.

To summarize the research progress of surgical procedures in osteochondral lesions of the talus (OLT).

By consulting the related literature of OLT in recent years, the advantages and disadvantages of various surgical treatment schemes were analyzed and summarized.

There are many surgical treatments for OLT, including bone marrow stimulation, osteochondral transplantation, autologous chondrocyte transplantation, and biologically assisted therapy. Various schemes have different indications and limitations. With the continuous development of various technologies, the effectiveness of OLT treatment will gradually improve.

There are still many difficulties and controversies in the treatment of OLT, and there is no unified treatment plan. It is suggested that individualized operation plan should be formulated according to the specific conditions of patients.

Osteochondral defects (OCDs) of the talus are found subsequent to ankle sprains and ankle fractures. With many surgical treatment strategies available, there is no clear evidence on return-to-sport (RTS) times and rates.

To summarize RTS times and rates for talar OCDs treated by different surgical techniques.

Systematic review; Level of evidence, 4.

The literature from January 1996 to November 2018 was screened, and identified studies were divided into 7 different surgical treatment groups. The RTS rate, with and without associated levels of activity, and the mean time to RTS were calculated per study. When methodologically possible, a simplified pooling method was used to combine studies within 1 treatment group. Study bias was assessed using the MINORS (Methodological Index for Non-Randomized Studies) scoring system.

A total of 61 studies including 2347 talar OCDs were included. The methodological quality of the studies was poor. There were 10 retrospective case series (RCSs) that investigated bone marrow stimulation in 339 patients, with a pooled mean rate of RTS at any level of 88% (95% CI, 84%-91%); 2 RCSs investigating internal fixation in 47 patients found a pooled RTS rate of 97% (95% CI, 85%-99%), 5 RCSs in which autograft transplantation was performed in 194 patients found a pooled RTS rate of 90% (95% CI, 86%-94%), and 3 prospective case series on autologous chondrocyte implantation in 39 patients found a pooled RTS rate of 87% (95% CI, 73%-94%). The rate of return to preinjury level of sports was 79% (95% CI, 70%-85%) for 120 patients after bone marrow stimulation, 72% (95% CI, 60%-83%) for 67 patients after autograft transplantation, and 69% (95% CI, 54%-81%) for 39 patients after autologous chondrocyte implantation. The mean time to RTS ranged from 13 to 26 weeks, although no pooling was possible for this outcome measure.

Different surgical treatment options for talar OCDs allow for adequate RTS times and rates. RTS rates decreased when considering patients' return to preinjury levels versus return at any level.

Despite the promising clinical results of autologous osteochondral transplantation in the treatment of osteochondral lesions of the talus, the occurrence of knee donor-site morbidity remains a concern. However, the proportion of patients experiencing donor-site morbidity is not well established because of important variations in estimates drawn by heterogeneous studies with loss to followup, often made at short-term (< 1 year). Therefore, both a meta-analysis of studies that assumed no patients lost to followup had donor-site morbidity and assumed all patients lost to followup had donor-site morbidity may help to estimate the true risk of donor-site morbidity.

To evaluate the proportion of patients who developed knee donor-site morbidity after autologous osteochondral transplantation for osteochondral lesion of the talus, by (1) meta-analysis of the proportion of patients experiencing donor-site morbidity in the best-case scenario as reported, in which no patients lost to followup were assumed to have donor-site morbidity and (2) meta-analysis of the percentage of patients who had donor-site morbidity in the worst-case scenario, in which all patients lost to followup were assumed to have donor-site morbidity and (3) present the characteristics of studies associated with the reporting of donor-site morbidity.

A systematic search of the PubMed, Embase and The Cochrane Library databases was performed from their inception to October 2017 according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. The inclusion criteria were clinical studies that reported knee donor-site morbidity after autologous osteochondral transplantation for osteochondral lesion of the talus, mean followup ≥ 1 year, full-text studies published in a peer-review journal and written in English. Quality of evidence (Case Series Quality Appraisal Checklist), sample size, mean patient age, study design, mean followup time, and observed rate of knee donor-site morbidity were evaluated. Twenty-six studies with 915 ankles (904 patients) were included in the systematic review and meta-analysis. Approximately half of the included studies were of small cohort (n < 30, 12 studies), and 12 of 26 studies did not report at all on loss to followup. In the studies that reported loss to followup (14 of 26), a total of 32 patients (35 ankles) were reported lost. Random-effects models were used to estimate the risk of donor-site morbidity as between-study heterogeneity was determined to be high in both meta-analyses that assumed that no patients lost to followup experienced donor-site morbidity (I = 82.1%) and the one that assumed all patients lost to followup experienced donor-site morbidity (I = 88.7%). Multivariable metaregression was used to estimate the association between study characteristics and the observed proportion of patients who experienced of donor-site morbidity. If there was evidence of an association between a study characteristic and proportion, a subgroup analysis was performed.

The estimated proportion of donor-site morbidity was 6.7% (95% confidence interval [CI], 2.8-11.8), assuming that no patients lost to followup experienced donor-site morbidity and 10.8% (95% CI, 4.8-18.3) assuming that all patients lost to followup experienced donor-site morbidity after a mean followup of 43.8 ± 24.7 months (range, 15.9-120 months). There was a negative association between study sample size and proportion of donor-site morbidity (β = -0.26; 95% CI, -0.39 to -0.12; p < 0.001 assuming that no patients lost to followup experienced donor-site morbidity and β = -0.31; 95% CI, -0.48 to -0.13; p < 0.001 assuming that all patients lost to followup experienced donor-site morbidity); that is, as study size increased, the proportion of patients reported with donor-site morbidity decreased. In larger studies (n ≥ 30), the estimated percentage of donor-site morbidity was 2.8% (95% CI, 1.2%-5.0%; I = 47.6%) assuming that no patients lost to followup experienced donor-site morbidity, and 5.0% (95% CI, 2.1%-9.0%; I = 74.5%) assuming all patients lost to followup experienced donor-site morbidity. High between-study heterogeneity (differences in methodology) could not be completely explained by variability in study sample size, mean patient age, design, or mean followup time, and may be attributable to other factors such as inconsistent definitions of donor-site morbidity.

The estimated proportion of donor-site morbidity after autologous osteochondral transplantation for osteochondral lesion of the talus ranged from 6.7% to 10.8% in the current meta-analysis. However, subgroup analysis demonstrated that larger studies (n ≥ 30) estimated a lower donor-site morbidity risk (< 5.0%) than smaller studies (n < 30). This estimate should be interpreted in light of the fact that nearly half of the included studies did not report on loss to followup, and so their estimates of donor-site morbidity may be low. In addition, high between-study heterogeneity and the inclusion of predominantly retrospective studies with small sample sizes likely contributed to estimates that suffered from a high risk of bias, probably in favor of the surgical treatment being studied.

Level IV, therapeutic study.

Autologous osteochondral transplantation is an established treatment for large-sized osteochondral lesions of the talus (OLT) with excellent short term outcomes. However, few studies assess the outcomes of autologous osteochondral transplantation at mid-term follow-up. The purpose of the current systematic review was to evaluate the clinical outcomes of the autologous osteochondral transplantation procedure in the treatment of OLT at mid-term and long-term follow-up.

A systematic search of the MEDLINE, EMBASE and Cochrane Library databases was performed in October 2017 based on the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Included studies were evaluated with regard to level of evidence (LOE) and quality of evidence (QOE) using the Coleman Methodology Score. Clinical outcomes, and complications were also evaluated.

Eleven studies, with 500 ankles were included at a mean 62.8 months follow-up. Seven studies used the American Orthopaedic Foot and Ankle Society (AOFAS) score. The weighted mean preoperative AOFAS score was 55.1 ± 6.1, and the postoperative score was 86.2 ± 4.5, with 87.4% of patients (132 of 151) being reported as excellent or good results. In total, 53 of the 500 patients (10.6%) had complications. The most common complication was donor site morbidity with 18 patients (3.6%) at final follow-up. Thirty-one patients (6.2%) underwent reoperations, and 5 ankles (1.0%) were regarded as failed autologous osteochondral transplantation.

The current systematic review demonstrated that good clinical and functional outcomes can be expected following autologous osteochondral transplantation for the treatment of OLT, with a low failure rate. The results from this study show patients can be reasonably counselled to expect good clinical outcomes in the mid-term. MRI and radiographs showed restoration of articular surface as well as a minimal presence of osteoarthritis at mid-term follow-up. However, as low level and quality of evidence and the variability of the data may confound the data, further well-designed studies are necessary to determine the effectiveness of autologous osteochondral transplantation in the treatment for OLT.

IV.

Ankle arthroscopy is a useful tool for detection and treatment of accompanying intraarticular pathologies in acute ankle fractures. The purpose of this study was to compare the treatment results of talus osteochondral lesions (OLT) with debridement and microfracture in arthroscopy assisted surgery of acute ankle fractures.

Eleven consecutive patients who were treated with arthroscopic acute debridement and 14 consecutive patients who were treated with arthroscopic acute microfracture in the treatment of ankle fracture were included in the study. All patients were controlled clinically and radiologically in the postoperative period. Ankle pain was evaluated with the visual analog score (VAS), ankle functions were assessed with American Orthopaedic Foot and Ankle Society Ankle-Hindfoot Scale (AOFAS), and osteoarthritic changes were analyzed with Van Dijk score.

There was no significant difference between the groups in terms of age, gender, injury side and trauma mechanism (n.s). Mean time to surgery, fracture healing duration, first weight-bearing and full weight-bearing, follow-up period and Van Dijk score were all similar in both groups (n.s). The AOFAS score and VAS activity score were statistically significantly better in the microfracture group (p = 0.044 and p = 0.001).

The clinical relevance of the present study is to define the acute treatment of the first osteochondral damage that occurred simultaneously with ankle fracture, to improve postoperative functional outcomes and to prevent post-traumatic osteoarthritis. Both debridement and microfracture yield good functional outcomes in the second year of the treatment. Microfracture ensures significantly more successful clinical results than debridement.

Level III.

The evidence supporting best practice guidelines in the field of cartilage repair of the ankle are based on both low quality and low levels of evidence. Therefore, an international consensus group of experts was convened to collaboratively advance toward consensus opinions based on the best available evidence on key topics within cartilage repair of the ankle. The purpose of this article is to report the consensus statements on Rehabilitation and Return to Sports developed at the 2017 International Consensus Meeting on Cartilage Repair of the Ankle.

Seventy-five international experts in cartilage repair of the ankle representing 25 countries and 1 territory were convened and participated in a process based on the Delphi method of achieving consensus. Questions and statements were drafted within 11 working groups focusing on specific topics within cartilage repair of the ankle, after which a comprehensive literature review was performed and the available evidence for each statement was graded. Discussion and debate occurred in cases where statements were not agreed upon in unanimous fashion within the working groups. A final vote was then held, and the strength of consensus was characterized as follows: consensus, 51% to 74%; strong consensus, 75% to 99%; unanimous, 100%.

A total of 9 statements on rehabilitation and return to sports reached consensus during the 2017 International Consensus Meeting on Cartilage Repair of the Ankle. All 9 statements reached strong consensus, with at least 86% agreement.

The rehabilitation process for an ankle cartilage injury requires a multidisciplinary and comprehensive approach. This international consensus derived from leaders in the field will assist clinicians with rehabilitation and return to sports after treatment of a cartilage injury of the ankle.

Uncontained-type osteochondral lesions of the talus (OLTs) have been shown to have inferior clinical outcomes after treatment with bone marrow stimulation. While autologous osteochondral transplantation (AOT) is indicated for larger lesions, no study has reported on the prognostic significance of the containment of OLTs treated with the AOT procedure.

To clarify the effect of the containment of OLTs on clinical and radiological outcomes in patients who underwent AOT for OLTs.

Case control study; Level of evidence, 3.

A retrospective cohort study comparing patients with contained-type and uncontained-type OLTs was undertaken to include all patients who underwent AOT for the treatment of OLTs between 2006 and 2014. Analyses were performed by grouping the patients according to the containment type. Clinical outcomes were evaluated using the Foot and Ankle Outcome Score (FAOS) and the 12-Item Short Form Health Survey (SF-12) preoperatively and at final follow-up. Magnetic resonance imaging (MRI) at 2 years' follow-up was evaluated with the modified magnetic resonance observation of cartilage repair tissue (MOCART) score. Multivariate regression models were used to evaluate factors affecting postoperative FAOS, SF-12, and MOCART scores.

Ninety-four patients were included: 31 patients with a contained-type OLT and 63 patients with an uncontained-type OLT. The median patient age was 34 years (interquartile range [IQR], 28-48 years) in the contained-type group and 36 years (IQR, 27-46 years) in the uncontained-type group. The median follow-up time was 45 months (IQR, 38-63 months) in the contained-type group and 52 months (IQR, 40-66 months) in the uncontained-type group. The median FAOS and SF-12 scores improved significantly after surgery in both contained-type and uncontained-type lesions ( P < .001). The median postoperative FAOS score of patients with contained-type OLTs was higher than that of patients with uncontained-type OLTs (91.7 vs 85.0, respectively; P = .009), but no significant differences were found between the contained-type and uncontained-type groups for postoperative SF-12 and MOCART scores. The multivariate regression models showed that patients with contained-type OLTs had an approximately 10-point better score on the FAOS compared with patients with uncontained-type OLTs ( P = .006). There was a nonsignificant trend for the rate of cystic occurrence in uncontained-type OLTs to be higher than that of contained-type OLTs (55.6% vs 38.7%, respectively; P = .125).

Patients with contained-type OLTs experienced better clinical outcomes than those with uncontained-type OLTs after AOT for the treatment of OLTs. However, the AOT procedure still provided good clinical and MRI outcomes in both contained-type and uncontained-type OLTs at midterm follow-up.

The purpose of this systematic literature review is to detect the most effective treatment option for primary talar osteochondral defects in adults.

A literature search was performed to identify studies published from January 1996 to February 2017 using PubMed (MEDLINE), EMBASE, CDSR, DARE, and CENTRAL. Two authors separately and independently screened the search results and conducted the quality assessment using the Newcastle-Ottawa Scale. Subsequently, success rates per separate study were calculated. Studies methodologically eligible for a simplified pooling method were combined.

Fifty-two studies with 1236 primary talar osteochondral defects were included of which forty-one studies were retrospective and eleven prospective. Two randomised controlled trials (RCTs) were identified. Heterogeneity concerning methodological nature was observed, and there was variety in reported success rates. A simplified pooling method performed for eleven retrospective case series including 317 ankles in the bone marrow stimulation group yielded a success rate of 82% [CI 78-86%]. For seven retrospective case series investigating an osteochondral autograft transfer system or an osteoperiosteal cylinder graft insertion with in total 78 included ankles the pooled success rate was calculated to be 77% [CI 66-85%].

For primary talar osteochondral defects, none of the treatment options showed any superiority over others.

IV.

Plug protuberance occasionally occurs in osteochondral autologous transplantation (OAT). The incongruity of plugs results in poor clinical outcomes, especially in cases of protuberance. However, a surgical procedure to deal with this problem has not been reported. Purpose/Hypothesis: The purpose was to evaluate the efficacy and safety of cartilage resection of elevated plugs, with the hypothesis that patients whose elevated plugs were resected and leveled would achieve clinical outcomes equivalent to those of patients with flush plugs.

Cohort study; Level of evidence, 3.

Cases (group P) included 22 patients who underwent OAT of the knee and whose plugs showed protuberance greater than 1 mm that was resected with a scalpel to obtain smooth congruity, while controls (group C) included 22 background-matched patients who did not require plug resection. The International Knee Documentation Committee (IKDC) subjective score, IKDC objective grade, and Japanese Orthopaedic Association score for knee osteoarthritis (JOA knee score) were used preoperatively and at the final follow-up (mean ± SD, 49.3 ± 18.1 months). International Cartilage Repair Society (ICRS) Cartilage Repair Assessment was used to evaluate lesion healing during the second-look arthroscopy.

IKDC subjective scores of group C (82.5 ± 11.8) and group P (82.1± 15.1) showed no difference at the final follow-up. On postoperative IKDC objective grading, 86% of group C and 82% of group P patients were graded as "nearly normal" or better ( P = .639). The mean JOA knee scores of group C (90.9 ± 8.9) and group P (90.1 ± 9.5) did not differ significantly ( P = .647). Nine second-look arthroscopies were performed in group C versus 8 in group P, and all patients had plugs that were graded as "nearly normal" or better by the ICRS Cartilage Repair Assessment. Larger plugs tended to be used in those patients who required resection.

Resection of the elevated plug surface did not negatively affect patient outcomes in the midterm follow-up period.

To clarify the effectiveness of scaffold-based therapy for osteochondral lesions of the talus (OLT).

A systematic search of MEDLINE and EMBASE databases was performed during August 2016 and updated in January 2017. Included studies were evaluated with regard to the level of evidence (LOE) and quality of evidence (QOE) using the Modified Coleman Methodology Score. Variable reporting outcome data, clinical outcomes, and the percentage of patients who returned to sport at previous level were also evaluated.

Twenty-eight studies for a total of 897 ankles were included; 96% were either LOE III or IV. Studies were designated as either of poor or fair quality. There were 30 treatment groups reporting six different scaffold repair techniques: 13 matrix-induced autologous chondrocyte transplantation (MACT), nine bone marrow derived cell transplantation (BMDCT), four autologous matrix-induced chondrogeneis (AMIC), and four studies of other techniques. The categories of general demographics (93%) and patient-reported outcome data (85%) were well reported. Study design (73%), imaging data (73%), clinical variables (49%), and patient history (30%) were also included. The weighted mean American Orthopaedic Foot and Ankle Society (AOFAS) score at final follow-up was: 86.7 in MACT, 88.2 in BMDCT, and 82.3 in AMIC. Eight studies reported that a weighted mean of 68.3% of patients returned to a previous level of sport activity.

Scaffold-based therapy for OLT may produce favorable clinical outcomes, but low LOE, poor QOE, and variability of the data have confounded the effectiveness of this treatment.

The aim of the present study was to assess clinical evaluation of patients who underwent autologous osteochondral transplantation of the patella.

This prospective study assessed outcomes of 20 patients who underwent patellar autologous osteochondral transplantation at four time-points: preoperatively, 3 days, 6 months, and 2 years after surgery. The following outcomes were assessed at each time-point: pain (VAS), gait, swelling, trophic status, muscle strength, patellar mobility, and range of motion. The Tegner scale was also applied for each time-point.

All parameters improved, except for patellar mobility, which did not show any change. Pain score decreased from 7.1 (SD 2.3) to 2.4 (SD 2.6) at the 2-year assessment; limping decreased from 70 % before surgery to 15 % 2 years later; swelling scores decreased from an average of 1.8 (SD 0.8) 3 days after surgery to 0.5 (SD 0.7) at the 2-year assessment; muscle strength increased from 3.9 (SD 0.8) to 4.7 (SD 0.7) points at final follow-up; and the range of motion increased from 84 (SD 16.2) to 132 (SD 10.7) degrees 2 years later. Tegner score before surgery ranged from 0 to 5, and after 2 years, it ranged from 5 to 9.

Autologous osteochondral transplantation for the treatment of patellar chondral lesion was associated with significant improvement in pain, gait, swelling, and range of motion 2 years after surgery, achieving scores similar to uninjured knees. Most of them were able to return to sports activity after 6 months (recreational level) and 2 years (competitive level).

IV.

Multiple treatment strategies have been developed for osteochondral lesions (OCLs) of the talus. The purpose of this retrospective study was to assess retrograde autologous bone marrow cell (BMC) transplantation via core drilling (CD) combined with focused extracorporeal shock wave treatment (ESWT) in undisplaced OCL of the talus. A total of 69 patients with unilateral osteochondral lesions of the talus (Hepple grade I-III) were divided into two groups: 41 patients received combined therapy of ESWT and BMC transplantation (group A), while 28 were administered BMC transplantation alone (group B). The patients were followed up clinically and radiographically for a minimum of 2 years. Mean follow-up was 4.1 ± 2.8 years. AOFAS scores increased more significantly while pain intensity levels decreased in group A after treatment, compared with group B values (P < 0.001). In MRI follow-up, a more remarkable improvement of OCLs of the talus was observed in group A compared with group B (P = 0.040). Therefore, the combined technique reported here is a highly effective therapeutic option in OCLs of the talus with intact cartilage. It promotes patient recovery with pain control, and improves clinical outcome for more than 2 years after surgery.

A large number of articular cartilage defect treatments have been described. However, few have discussed the use of biologic agents implanted into the so-called dependent defect arthroscopically. Furthermore, even fewer of these reports have contained a description for treating dependent osteochondral lesions of the tibial plafond. Generally, these lesions have been treated with either microfracture or debridement, and the long-term outcomes have been less than satisfactory. With new interest in biologic treatments for osteochondral defects, we believe that bone marrow aspirate concentrate combined with a biologic scaffold provides the necessary components to provide healing of these so-called dependent lesions. We believe that the combination of bone marrow aspirate concentrate and a biologic scaffold create the perfect viscosity to hold their mold in these dependent osteochondral lesions and provide the perfect scaffold to enhance recovery. We believe that our technique provides a minimally invasive option for the treatment of these osteochondral lesions and eliminates the need for a large arthrotomy.