INTRODUCTION. Osteochondral lesions of the knee are relatively common both in young and senior population. The very disabling clinical symptoms, in association to the scarce regenerative capacity of the articular cartilage and the increased risk of developing a secondary osteoarthritis make an effective treatment mandatory. MATERIALS AND METHODS. From December 2008 to January 2013, 34 patients (35 knees), 24 males and 10 females (mean age 36.2 years range 14–66) underwent implant of Maioregen® (Finceramica Faenza S.P.A, Italy) biomimetic osteochondral scaffold. In 17 cases the osteochondral lesion was cause by an osteochondritis dissecans (acute or sequela), in 13 cases by a spontaneous osteonecrosis and in 4 cases the etiology was traumatic. Patients were evaluated with subjective IKDC and Tegner Lysholm scores, VAS and Tegner Activity Scale before surgery and at regular follow up (mean follow up 38.4 months, range 13 months max 63 months). RESULTS. Both Lysholm and IKDC Subjective scores significantly increased from 57.5 and 48.2 before surgery to 89.7 and 76.3 at 1 year follow up. Mean VAS scale score decreased from 6.3 to 2 at 1 year follow up. At 3 years follow up 20 evaluated patients showed an increment on both scales (Lysholm 92.38, IKDC 84.7). Only 4 patients were evaluated at 5 years follow up with mean subjective IKDC 92.5, Lysholm 98.75 and VAS 1. DISCUSSION. Maioregen ® biomimetic osteochondral scaffold showed very good results as surgical treatment option in treating ICRS grade 3–4 osteochondral lesions whatever the etiology. In particular, the implant showed good results also in treatment of osteonecrosis and could provide an alternative to unicompartimental arthroplasty in young and active patients

Purpose. Osteochondral lesions of the knee are relatively common both in young and senior population. The very disabling clinical symptoms, in association to the scarce regenerative capacity of the articular cartilage and the increased risk of developing a secondary osteoarthritis make an effective treatment mandatory. Methods and Materials. From December 2008 to January 2013, 34 patients (35 knees), 24 males and 10 females (mean age 36.2 years range 14–66) underwent implant of Maioregen® (Finceramica Faenza S.P.A, Italy) biomimetic tri-layer osteochondral scaffold. In 17 cases the osteochondral lesion was cause by an osteochondritis dissecans (acute or sequela), in 13 cases by a spontaneous osteonecrosis and in 4 cases the etiology was traumatic. Patients were evaluated with subjective IKDC and Tegner Lysholm scores, VAS and Tegner Activity Scale before surgery and at regular follow up (mean follow up 38.4 months, range 13 months max 63 months). Results. Both Lysholm and IKDC Subjective scores significantly increased from 57.5 and 48.2 before surgery to 89.7 and 76.3 at 1 year follow up. Mean VAS scale score decreased from 6.3 to 2 at 1 year follow up. At 3 years follow up 20 evaluated patients showed an increment on both scales (Lysholm 92.38, IKDC 84.7). Only 4 patients were evaluated at 5 years follow up with mean subjective IKDC 92.5, Lysholm 98.75 and VAS 1. Conclusion. Maioregen® biomimetic osteochondral scaffold showed very good results as surgical treatment option in treating ICRS grade 3–4 osteochondral lesions whatever the etiology. In particular, the implant showed good results also in treatment of osteonecrosis and could provide an alternative to unicompartimental arthroplasty in young and active patients

Large cartilage lesions in younger patients can be treated by fresh osteochondral allograft transplantation, a surgical technique that relies on stable initial fixation and a minimum chondrocyte viability of 70% in the donor tissue to be successful. The Missouri Osteochondral Allograft Preservation System (MOPS) may extend the time when stored osteochondral tissues remain viable. This study aimed to provide an independent evaluation of MOPS storage by evaluating chondrocyte viability, chondrocyte metabolism, and the cartilage extracellular matrix using an ovine model. Femoral condyles from twelve female Arcott sheep (6 years, 70 ± 15 kg) were assigned to storage times of 0 (control), 14, 28, or 56 days. Sheep were assigned to standard of care [SOC, Lactated Ringer's solution, cefazolin (1 g/L), bacitracin (50,000 U/L), 4°C storage] or MOPS [proprietary media, 22-25°C storage]. Samples underwent weekly media changes. Chondrocyte viability was assessed using Calcein AM/Ethidium Homodimer and reported as percent live cells and viable cell density (VCD). Metabolism was evaluated with the Alamar blue assay and reported as Relative Fluorescent Units (RFU)/mg. Electromechanical properties were measured with the Arthro-BST, a device used to non-destructively compress cartilage and calculate a quantitative parameter (QP) that is inversely proportional to stiffness. Proteoglycan content was quantified using the dimethylmethylene blue assay of digested cartilage and distribution visualized by Safranin-O/Fast Green staining of histological sections. A two-way ANOVA and Tukey's post hoc were performed. Compared to controls, MOPS samples had fewer live cells (p=0.0002) and lower VCD (p=0.0004) after 56 days of storage, while SOC samples had fewer live cells (p=0.0004, 28 days; p=0.0002, 56 days) and lower VCD (p=0.0002, 28 days; p=0.0001, 56 days) after both 28 and 56 days (Table 1). At 14 days, the percentage of viable cells in SOC samples were statistically the same as controls but VCD was lower (p=0.0197). Cell metabolism in MOPS samples remained the same over the study duration but SOC had lower RFU/mg after 28 (p=0.0005) and 56 (p=0.0001) days in storage compared to controls. These data show that MOPS maintained viability up to 28 days yet metabolism was sustained for 56 days, suggesting that the conditions provided by MOPS storage allowed fewer cells to achieve the same metabolic levels as fresh cartilage. Electromechanical QP measurements revealed no differences between storage methods at any individual time point. QP data could not be used to interpret changes over time because a mix of medial and lateral condyles were used and they have intrinsically different properties. Proteoglycan content in MOPS samples remained the same over time but SOC was significantly lower after 56 days (p=0.0086) compared to controls. Safranin-O/Fast Green showed proteoglycan diminished gradually beginning at the articular surface and progressing towards bone in SOC samples, while MOPS maintained proteoglycan over the study duration (Figure 1). MOPS exhibited superior viability, metabolic activity and proteoglycan retention compared to SOC, but did not maintain viability for 56 days. Elucidating the effects of prolonged MOPS storage on cartilage properties supports efforts to increase the supply of fresh osteochondral allografts for clinical use. For any figures or tables, please contact the authors directly

Tibial pilon fractures are typically the result of high-energy axial loads, with complex intra- articular fractures that are often difficult to reconstruct anatomically. Only nine simultaneous pilon and talus fractures have been published previously, but we hypothesised the chondral surface of the dome is affected more frequently. Data was acquired prospectively from 154 acute distal tibial pilon fractures (AO/OTA 43B/C) in adults. Radiographs, photographs, and intra-operative drawings of each case were utilised to document the presence of any macroscopic injuries of the talus. Detailed 1x1mm maps were created of the injuries in each case and transposed onto a statistical shape model of a talus; this enables the cumulative data to be analysed in Excel. Data was analysed using a Chi-squared test. From 154 cases, 104 were considered at risk and their talar domes were inspected; of these, macroscopic injuries were identified in 55 (52.4%). The prevalence of talar dome injury was greater with B-type fractures (53.5%) than C-type fractures (31.5%) (ρ = .01). Injuries were more common in men than women and presented with different distribution of injuries (ρ = .032). A significant difference in the distribution of injuries was also identified when comparing falls and motor vehicle accidents (ρ = .007). Concomitant injuries to the articular surface of the dome of the talus are relatively common, and this perhaps explains the discordance between the post-operative appearance following internal fixation and the clinical outcomes observed. These injuries were focused on the lateral third of the dome in men and MVAs, whereas women and fall mechanism were more evenly distributed. Surgeons who operatively manage high-energy pilon fractures should consider routine inspection of the talar dome to assess the possibility of associated macroscopic osteochondral injuries

Osteochondral (OC) defects of the knee are associated with pain and significant limitation of activity. Studies have demonstrated the therapeutic efficacy of mesenchymal stem cell (MSC) therapies in treating osteochondral defects. There is increasing evidence that the efficacy of MSC therapies may be a result of the paracrine secretion, particularly exosomes. Here, we examine the effects of MSC exosomes in combination with Hyaluronic Acid (HA) as an injectable therapy on functional osteochondral regeneration in a rabbit osteochondral defect model. Exosomes were purified from human MSC conditioned medium by size fractionation. A circular osteochondral defect of 4.5 mm diameter and 2.5 mm depth was surgically created in the trochlear grooves of 16 rabbit knees. Thereafter, eight knees received three weekly injections of 200 µg of exosomes in one ml of 3% HA, and the remaining eight knees received three weekly injections of one ml of 3% HA only. The rabbits were sacrificed at six weeks. Analyses were performed by macroscopic and histological assessments, and functional competence was analysed via Young Modulus calculation at five different points (central, superior, inferior, medial and lateral) of the repaired osteochondral defect site. MSC exosomes displayed a modal size of 100 nm and expressed exosome markers (CD81, TSG101 and ALIX). When compared to HA alone, MSC exosomes in combination with HA showed significantly better repair histologically and biomechanically. The Young Modulus was higher in 4 out of the 5 points. In the central region, the Young Modulus of MSC exosome and HA combination therapy was significantly higher: 5.42 MPa [SD=1.19, 95% CI: 3.93–6.90] when compared to HA alone: 2.87 MPa [SD=2.10, 95% CI: 0.26–5.49], p < 0 .05. The overall mean peripheral region was also significantly higher in the MSC exosome and HA combination therapy group: 5.87 MPa [SD=1.19, 95% CI: 4.40–7.35] when compared to HA alone: 2.70 MPa [SD=1.62, 95% CI: 0.79–4.71], p < 0 .05. The inferior region showed a significantly higher Young Modulus in the combination therapy: 7.34 MPa [SD=2.14, 95% CI: 4.68–10] compared to HA alone: 2.92 MPa [SD=0.98, 95% CI: 0.21–5.63], p < 0.05. The superior region showed a significantly higher Young Modulus in the combination therapy: 7.31 MPa [SD=3.29, 95% CI: 3.22–11.39] compared to HA alone: 3.59 MPa [SD=2.55, 95% CI: 0.42–6.76], p < 0.05. The lateral region showed a significantly higher Young Modulus in the combination therapy: 8.05 MPa [SD=2.06, 95% CI: 5.49–10.61] compared to HA alone: 3.56 MPa [SD=2.01, 95% CI: 1.06–6.06], p < 0.05. The medial region showed a higher Young Modulus in the combination therapy: 6.68 MPa [SD=1.48, 95% CI: 4.85–8.51] compared to HA alone: 3.45 MPa [SD=3.01, 95% CI: −0.29–7.19], but was not statistically significant. No adverse tissue reaction was observed in all the immunocompetent animals treated with MSC exosomes. Three weekly injections of MSC exosomes in combination with HA therapy results in a more functional osteochondral regeneration as compared to HA alone

Juvenile Osteochondritis dissecans (JOCD) in humans and subchondral cystic lesions (SCL) in horses (also termed radiolucencies) share similarities: they develop in skeletally immature individuals at the same location in the medial femoral condyle (MFC) and their etiology is only partially understood but trauma is suspected to be involved. JOCD is relatively uncommon in people whereas SCLs arise in 6% of young horses leading to lameness. Ischemic chondronecrosis is speculated to have a role in both osteochondrosis and SCL pathogenesis. We hypothesize that MFC radiolucencies develop very early in life following a focal internal trauma to the osteochondral junction. Our aims were to characterize early MFC radioluciencies in foals from 0 to 2 years old. Distal femurs (n=182) from Thoroughbred horses (n=91, 0–2 years old), presented for post-mortem examination for reasons unrelated to this study, were collected. Radiographs and clinical tomodensitometry were performed to identify lesions defined as a focal delay of ossification. Micro-tomodensitometry (m-CT) and histology was then performed on the MFCs (CT lesions and age-matched subset of controls). Images were constructed in 3D. The thawed condyles, following fixation, were sectioned within the region of interest, determined by CT lesion sites. Hematoxylin eosin phloxin and safran (HEPS) and Martius-Scarlet-Blue (MSB) stains were performed. Histological parameters assessed included presence of chondronecrosis, fibrin, fibroplasia and osteochondral fracture. An additional subset of CT control (lesion-free) MFCs (less 6 months old) were studied to identify early chondronecrosis lesions distant from the osteochondral junction. One MFC in clinical CT triages controls had a small lesion on m-CT and was placed in the lesion group. All m-CT and histologic lesions (n=23) had a focal delay of ossification located in the same site, a weight bearing area on craniomedial condyle. The youngest specimen with lesions was less than 2 months old. On m-CT 3D image analysis, the lesions seemed to progressively move in a craniolateral to caudomedial direction with advancing age and development. Seventy-four percent (n=17/23) of the lesions had bone-cartilage separation (considered to be osteochondral fractures) confirmed by the identification of fibrin/clot on MSB stains, representing an acute focal bleed. Fibroplasia, indicating chronicity, was also identified (74%, n=17/23). In four cases, the chondrocytes in the adjacent cartilage were healthy and no chondronecrosis was identified in any sections in the lesions. Nineteen cases had chondronecrosis and always on the surface adjacent to the bone, at the osteochondral junction. None of the subset of control specimens, less than 6 months old (n=44), had chondronecrosis within the growth cartilage. Early subchondral cystic lesions of the medial femoral condyle may arise secondary to focal internal trauma at the osteochondral junction. The presence of fibrin/clot is compatible with a recent focal bleed in the lesion. Medial femorotibial joint internal forces related to geometry could be the cause of repetitive trauma and lesion progression. In the juvenile horse, and potentially humans, the early diagnosis of MFC lesions and rest during the susceptible period may reduce progression and promote healing by prevention of repetitive trauma, but requires further study

The goal of this study was to identify the effect of mismatches in the subchondral bone surface at the native:graft interface on cartilage tissue deformation in human patellar osteochondral allografts (OCA). Hypothesis: large mismatches in the subchondral bone surface will result in higher stresses in the overlying and surrounding cartilage, potentially increasing the risk of graft failure. Nano-CT scans of ten 16mm diameter cadaveric patellar OCA transplants were used to develop simplified and 3D finite element (FE) models to quantify the effect of mismatches in the subchondral bone surface. The simplified model consisted of a cylindrical plug with a 16 mm diameter (graft) and a washer with a 16 mm inner diameter and 36 mm outer diameter (surrounding native cartilage). The thickness of the graft cartilage was varied from 0.33x the thickness of native cartilage (proud graft subchondral bone) to 3x the thickness of native cartilage (sunken graft subchondral bone; Fig. 1). The thickness of the native cartilage was set to 2 mm. The surface of the cartilage in the graft was matched to the surrounding native cartilage. A 1 MPa pressure was applied to the fixed patellar cartilage surface. Scans were segmented using Dragonfly and meshed using HyperMesh. FE simulations were conducted in Abaqus 2019. The simplified model demonstrated that a high stress region occurred in the cartilage at the sharp bony edge between the graft and native subchondral bone, localized to the region with thinner cartilage. A 20% increase in applied pressure occurs up to 50μm away from the graft edge (primarily in the graft cartilage) for grafts with proud subchondral bone but varies little based on the graft cartilage thickness. For grafts with sunken subchondral bone, the size of the high stress region decreases as the difference between graft cartilage and native cartilage thickness decreases (Fig. 2-4), with a 200 μm high stress region occurring when graft cartilage was 3x thicker than native cartilage (i.e., greater graft cartilage thickness produces larger areas of stress in the surrounding native cartilage). The 3D models reproduced the key features demonstrated in the simplified model. Larger differences between native and graft cartilage thickness cause larger high stress regions. Differences between the 3D and simplified models are caused by heterogeneous cartilage surface curvature and thickness. Simplified and 3D FE analysis confirmed our hypothesis that greater cartilage thickness mismatches resulted in higher cartilage stresses for sunken subchondral bone. Unexpectedly, cartilage stresses were independent of the cartilage thickness mismatch for proud subchondral bone. These FE findings did not account for tissue remodeling, patient variability in tissue mechanical properties, or complex tissue loading. In vivo experiments with full-thickness strain measurements should be conducted to confirm these findings. Mismatches in the subchondral bone can therefore produce stress increases large enough to cause local chondrocyte death near the subchondral surface. These stress increases can be reduced by (a) reducing the difference in thickness between graft and native cartilage or (b) using a graft with cartilage that is thinner than the native cartilage. For any figures or tables, please contact the authors directly

Introduction. Osteochondral autologous autograft (also called mosaic arthroplasty) is the preferred treatment method for very large osteochondral defects in the ankle. For long-term success of this procedure, the transplanted plugs should reconstruct the curvature of the articular surface. The different curvatures between femoral-patella joint and the dome of the talus makes the reconstruction difficult and requires lots of experience. Material. Prior to the surgery a CT arthrogram of the ankle, as well as a CT of the knee were obtained and 3D bone models for the knee, the ankle as well as a model for the ankle cartilage were created. Using custom-made software a set of osteochondral grafts (“plugs”) positioned over the defect site were planned and an optimal harvest location for each plug was chosen. Intraoperatively, an optoelectronic navigation system was installed and sensors were attached to femur, talus, and conventional harvest and delivery chisels. A combined pair-point and surface matching was performed to register femur and talus. For each planned plug the surgeon positioned, oriented, and rotated the harvest and delivery chisels with respect to preoperative plan by using the visual and numerical feedback of the system. Results. We performed the above described procedure on a 37 year old female patient with osteochondral injury of the dome of the right talus with an approximate size of 20mm × 9mm. One 8mm and two 6mm plugs were planned and intraoperative navigated. At 6 months postoperative she had a significant improvement in her passive range of motion from 0–15° dorsi-flexion and 0–60° plantar-flexion, compared to her uninjured ankle of 0–15° dorsi-flexion and 0–80° plantar-flexion. The inversion and eversion of the ankle are normal and x-ray evaluation showed good and complete integration of the osteochrondal plugs. Discussion. A virtual preoperative planning tool helped to solve the complex geometrical problem of reconstructing the articular cartilage surface of the talus using multiple autologous osteochondral plugs from the knee. The intraoperative optoelectronic guidance allowed the surgeon to transfer this plan into the intraoperative situation

Background:. Full thickness cartilage defect of the knee frequently resulted in fibrous tissue formation, and larger lesions often lead to degenerative arthritis of the knee. Many techniques are designed to repair the cartilage defect including chondrocyte transplantation, microfracture and osteochondral graft. Each method has achieved some success but no universal results. Autologus osteochondral graft has gained in clinical popularity because of its technical feasibility and cost effectiveness. Purpose:. The purpose of this retrospective study was to evaluate the medium-term results of autologous osteochondral graft for focal contained articular cartilage defects of the knee in 25 patients with 26 knees with 2- to 7-year follow-up. Patients and Methods:. The cohort consisted of 17 men and 8 women with an average age of 31.3 ± 11.8 (range 20 to 65) years. One patient had bilateral knees. The diagnosis included 9 osteonecrosis, 10 osteochondritis dessicans, and 7 traumatic defects. A 1.0 mm oversized 10 mm long ossteochondral plug was harvested from either from the sulcus terminalis or the intercondylar notch, and implanted into the recipient site The numbers of osteochondral plug ranged from 1 to 3. In larger lesions, osteochondral grafts were implanted in the weight bearing area, and microfracture in non-weight bearing area. Postoperative management included crutch walking with non-weight bearing for 6 weeks, then partial weight bearing for another 6 weeks before full weight bearing. Range of knee motion, quadriceps and hamstring strengthening exercises were encouraged. The evaluations included functional assessment, radiograph of the knee and second look arthroscopy. Results:. At follow-up of 52.9 ± 20.3 (range 25 to 84) months, the results were 50% excellent, 35% good, 11% fair and 4% poor. Overall satisfactory results were noted in 85%. The improvements in pain and function of the knee ranged from 8 to 16 weeks after surgery. There was no correlation of the clinical results with the diagnosis of the lesion. However, the lesion size greater than 500 mm. 2. is associated with failure. Radiographic degenerative changes were noticed in 6 (23%) and 7 (27%) in medial compartment, 5 (19%) and 5 (19%) in lateral compartment, and 1 (4%) and 2 (8%) in the patellofemoral compartment pre- and postoperatively (P > 0.05). Twelve knees underwent a second look arthroscopy. Of the 11 asymptomatic knees, 8 knees with the defect smaller than 500 mm. 2. showed complete bonding of the graft to the adjacent host cartilage, and 3 cases showed minimal fissuring and fibrous tissue formation between graft and host tissue. One symptomatic knee with greater than 500 mm. 2. lesion showed extensive fibrous tissue between the graft and host cartilage. Conclusion:. Autologous osteochondral graft provides good or excellent results in 85% of patients with focal contained chondral and osteochondral defects of the knee. There was no correlation of the clinical results with the nature of the disease and the size of the lesion smaller than 500 mm. 2. Any lesion larger than 500 mm. 2. is prone to poor clinical outcome

Chondral defects on the patella are a difficult problem in the young active patient and there is no consensus on how to treat these injuries. Fresh osteochondral allografts are a valid option for the treatment of full-thickness osteochondral defects and can be used to restore joint function and reduce pain. The primary purpose of this study was to investigate the clinical and subjective outcomes of a series of patients following fresh osteochondral allograft transplantation for isolated chondral defects of the patella. A series of 5 patients underwent surgery using an open approach for graft transplantation. A strict protocol for the allograft tissue was followed. Transplant recipients must be aged <60, have a full-thickness, isolated chondral lesion and have failed previous traditional treatments. The fresh allografts are hypothermically stored at 4°C in X-VIVO10 media for up to 30 days to maintain cartilage viability. Pre- and post-operative clinical measures including knee stability, range of motion, and quadriceps girth were completed. Post-operative plain radiographs were completed including weight-bearing AP, lateral and skyline views. Patient-centred outcome measures including the Knee Osteoarthritis Outcome Score (KOOS) and the Knee Society Score (KSS) were gathered a minimum of 1-year post-operative. Descriptive and demographic data were collected for all patients. A paired t-test was employed to determine the difference between the pre-operative and post-operative outcomes. All patients were female, with a mean age of 27.4 (SD 3.65). Knee ligament stability was similar pre- and post-operatively. Knee ROM assessment of flexion and extension demonstrated a less than 10° increase from pre to post-operative. Quadriceps girth measurements demonstrated a mean change of 0.5 cm from pre- to post-operative for the surgical limb. Post-operative radiographs demonstrated incorporation of the graft in 4/5 cases within 6-months of surgery. One patient developed fragmentation of the graft after 18-months, and one patient had a subsequent trochleoplasty for persistent pain. The mean KOOS domain scores demonstrated significant improvement (p<0.05) as follows: Symptoms pre-op = 28.57, post-op = 55; Pain pre-op 28.89, post-op = 57.22; ADLs pre-op = 48.92, post-op = 66.18; Sports/Recreation pre-op = 6, post-op = 32; and QoL pre-op = 12.5, post-op = 42.5. Mean pre-op surgical versus non-surgical limb KSS scores were 107.4 and 179 respectively. The mean post-op surgical versus non-surgical limb KSS scores were 166 and 200. Isolated chondral defects of the patella can cause substantial pain, reduced function, and can be challenging to address surgically. This series of 5 cases demonstrated improved function, KOOS and KSS for 4/5 patients. To our knowledge this is a novel biological procedural technique for this problem, which has shown promising results making it a viable treatment option for young active patients with osteochondral defects of the patella

INTRODUCTION. Osteochondral defects are still a challenge for the orthopaedic surgeon, since most of the current surgical techniques lead to fibrocartilage formation and poor subchondral regeneration, often associated to joint stiffness and/or pain. Thinking of the ideal osteochondral graft from both the surgical an commercial point of view, it should be an off-the-shelf product; this is the research direction and the explanation for the new biomaterials recently proposed to repair osteochondral defect inducing an “in situ” cartilage regeneration starting from the time of the implantation into the defect site. For the clinical pilot study we performed, a newly developed nanostructured biomimetic scaffold was used to treat chondral and osteochondral lesions of the knee; its safety and manageability, as much as the surgical procedure reproducibility and the clinical outcome, were evaluated in order to test its intrinsic potential without any cells colture aid. MATERIALS AND METHODS. A new osteochondral scaffold was obtained by enucleating equine collagen type 1 fibrils with hydroxyapatite nanoparticles in 3 different layers with 3 different gradient ratios at physiological conditions. 30 patients (9F, 21M, mean age 29,3yy) affected by either chondral or osteochondral lesions of the knee (8 medial femoral condyles, 5 lateral femoral condyles, 12 patellae, 8 femoral throcleas) underwent the scaffold implantation from January to July 2007. The sizes of the lesions were in between 2 and 6 squared cm. All patients and their clinical outcome were analyzed prospectively at 6, 12, 24 and 36 months using the Cartilage standard Evaluation Form as proposed by ICRS and an high resolution MRI. RESULTS. We observed a statistically significant scores improvement and function recovery comparing the pre-operative to the follow-up parameters evaluated. Moreover, we noticed a better improvement from 12 to 24mm follow up while the good results gained at 2yy were confirmed at 3yy follow up evaluation. The MOCART scoring scale was used to analyze the MRIs. In 80% of cases we obtained a complete filling of the cartilage defect and in some patients we even appreciated articular surface congruency. In this series we report 1 failure followed by a re-operation with different technique. CONCLUSIONS. This new minimally invasive one-step surgical approach to osteochondral defects seems to be an easy and effective procedure. The results obtained are very encouraging and this procedure show satisfactory outcomes even in big osteochondral defects

Background:. Different surgical approaches have been proposed for the treatment of chondral lesions. However surgical management of osteochondral defects of the knee joint involving subchondral bone are still under debate. Purpose:. The aim of this prospective non-randomized uncontrolled clinical investigation is to confirm the effectiveness of a commercially available biomimetic osteochondral scaffold in regenerating cartilage and subchondral bone of severe osteochondral lesions of the knee joint with one step surgery. Methods:. The biomimetic scaffold has a multilayer structure consisting of a combination of type I collagen and type I collagen/hydroxyapatite, mimicking the osteochondral connective tissue of the knee joint. From 2009 to 2011, sixty-one patients affected by grade III or IV osteochondral lesions of the knee, according to Outerbridge Classification, were admitted to three centers and received the biomimetic scaffold. Four-nine patients were evaluated using the International Knee Documentation Committee (IKDC), Tegner and VAS scores, and MRI at 1-, 2- and 3-year follow-ups. Biopsies were carried out in 5 patients at an average time of 19.2 months to histologically evaluate the quality of the newly-formed tissue. Results:. All patients tolerated the surgery well; no major adverse events were observed in the early postoperative period. Clinical evaluation of the 49 patients showed a statistically significant improvement in all scores at 1- 2- and 3-year follow-ups as compared to preoperative baseline scores. Improvement in the scores and functional recovery seemed to reach a plateau after 2 years; no significant improvement was seen between the 2- and the 3-year follow-up. Conclusions:. A synthetic biomimetic scaffold used in one-step surgery for the treatment of severe osteochondral knee lesions significantly improved symptoms and joint function, as demonstrated by subjective and objective scoring system evaluation. Furthermore, the athletic subpopulation exhibited a significantly better outcome than the non-athletic subpopulation

Osteochondral fracture of the femoral head is an uncommon injury with a high potential for a poor functional outcome. Management is often challenging with limited options. We present two cases in which osteochondral fractures of the femoral head were treated with partial resurfacing using the HemiCAP System (Arthrosuface, Franklin MA, USA). Patient 1. A 22-year-old male professional motorbike rider presented with an anterior left hip dislocation that occurred during a race. A CT scan after a closed reduction revealed a large osteochondral impaction fracture/defect that was addressed via partial resurfacing using the HemiCAP System. Patient 2. A 34-year-old male presented with an anterior left hip dislocation after a motor vehicle accident and underwent a closed reduction. CT showed a loose osteochondral fragment, that was fixed back with headless screws, and an adjacent defect was addressed with a HemiCAP implant. Both patients were kept non weight-bearing for two months and had an uneventful recovery. Patient 1 was last reviewed at our institution one month post-operatively with a pain-free hip. His follow-up is being continued interstate and at telephone interview, 18 months after surgery, he had returned to full function and resumed riding on the professional racing circuit. Patient 2, at three-month review, had a pain-free hip with a full range of motion. CT scan showed excellent joint surface congruity at the implant articular surface junction. We report the use of the HemiCAP System as a novel method of treating osteochondral defects, which has never been reported before. There has only been one other reported case of using a HemiCAP in an osteoarthritic femoral head. This is a short follow-up with only two patients treated; however we are encouraged by the results so far, as there are no other satisfactory alternative treatment options

Introduction. Young, high-demand patients with large post-traumatic tibial osteochondral defects are difficult to treat. Fresh osteochondral allografting is a joint-preserving treatment option that is well-established for such defects. Our objectives were to investigate the long-term graft survivorships, functional outcomes and associated complications for this technique. Methods. We prospectively recruited patients who had received fresh osteochondral allografts for post-traumatic tibial plateau defects over 3cm in diameter and 1cm in depth with a minimum of 5 years follow-up. The grafts were retrieved within 24 hours, stored in cefalozolin/bacitracin solution at 4°C, non-irradiated and used within 72 hours. Tissue matching was not performed but joints were matched for size and morphology. Realignment osteotomies were performed for malaligned limbs. The Modified Hospital for Knee Surgery Scoring System (MHKSS) was used for functional outcome measure. Kaplan-Meier survivorship analysis was performed with conversion to TKR as end point for graft failure. Results. Of 132 patients identified, 14 were lost to follow-up and 37 had less than 5 years follow-up, leaving 81 patients. There were 29 conversions to TKR at a mean of 12 (3-23) years post-operatively. The remaining 52 patients had a mean MHKSS score of 83 (49-100) with a mean follow-up of 11.7 (5-34) years. The Kaplan-Meier graft survivorships were 94% at 5 years (SE 2.7), 83% at 10 years (SE 4.6), 62% at 15 years (SE 7.4) and 45% at 20 years (SE 8.5). Associated complications included infection (1.2%) treated by 2-stage TKR, graft collapse (8.6%) treated by TKR, osteotomy and conservatively and knee pain relieved by hardware removal (7.4%). Conclusion. Fresh osteochondral allograft is a successful treatment option for large post-traumatic tibial osteochondral defects in young patients, with satisfactory long term survivorships and functional outcomes with acceptable complication rates

Introduction. Osteochondral defects of the knee may occur following patella dislocation or following direct trauma or twisting injuries to the knee in adolescents. Often a diagnostic and therapeutic challenge, if these lesions are left, posttraumatic osteoarthritis may occur. This retrospective single centre study presents the short-term results following operative fixation of osteochondral fragments of the knee using Omnitech ® screws. Method. All skeletally immature patients presenting with an osteochondral fracture of their femur or patella confirmed on xray and MRI were identified. Arthroscopic evaluation of the osteochondral defect was performed followed by open reduction and internal fixation of the osteochondral fragment using Omnitech ® screws. A standard postoperative rehabilitation protocol was followed. Patients were evaluated at follow-up using a Knee Injury and Osteoarthritis Outcome Score (KOOS). Results. Eight patients were identified. The mean age at time of injury was 15 years (range 14–16) for two girls and 14.4 years (range 13–16) for six boys. The lateral femoral condyle was involved in six cases and patella in two cases. At mean follow up of 14 months (range 1–38) there was no revision for failure and no postoperative complications. The KOOS score (out of 100) at final follow up was subdivided as follows; Pain, 93 (range 81–100), other symptoms, 77 (range 36–100), function in daily living (ADL), 97 (range 84–100), function in sport and recreation, 84 (range 55–100) and knee related quality of life, 79 (range 44–100). Discussion. The short-term results of using Omnitech® screws are promising. Subchondral screw placement with adequate compression of the osteochondral fragment is achievable with Omnitech ® screws. Seven patients are back to their pre-injury sporting activity and one patient is currently undergoing postoperative rehabilitation, one month following surgery

Purpose. One of the current research topics is the aim to produce tissue engineered osteochondral grafts for future treatment of osteochondral lesions (OCL) of the talus. For the exact anatomic reconstruction, the dimensions of the medial and lateral talar dome must be considered. Sparse data is available regarding the normal anatomic talar dimensions on standard radiographs of ankle joints [1, 2]. The purpose of this study was to describe normal anatomy of different sections of the talar dome on 3D reconstructions of computertomographic (CT) images. Method. CT data sets (Somatom 10, Siemens Erlangen, Germany) of 82 patients (86 ankles) (28 female, 54 male; average age 41.9y (range 15–76y)) without talar pathologies were included. Measurements were performed with a geometry analysis software (VGStudio MAX 2.0, Volume Graphics, Heidelberg, Germany). To assure measurement reproducibility, the reference planes were defined in a first step. To measure the frontal talar edge radius, circles were fitted into the medial and lateral talar edge on frontal planes. To allow measurement of different segments of the talus, the frontal plane was tilted through the center of the talus (defined as a circle fitted to the talus on sagittal view) at 15 and 30 anteriorly and posteriorly. To measure the sagittal radius of the medial and talar edge, ircles were fitted into the medial and lateral talar edge on sagittal planes. Results. The talar edge radius in the frontal plane at 0 wa s 4.9 mm medially (3.0 mm laterally), at 15 ant. 4.2 mm (3.1 mm), at 30 ant. 4.6 mm (3.1 mm), at 15 post. 4.5 mm (3.9 mm), and at 30 post 4.1 mm (6 mm). There was a significant difference (p<0.01) between the mean medial and lateral talar edge radius at all angles. The talar edge radius in the sagittal plane was 20.4 mm medially and 20.3 laterally. There was no significant difference between the mean medial and lateral sagittal talar edge radius. Conclusion. This study shows a significant difference between physiological medial and lateral edge configuration at different frontal planes of the talar dome. No difference was found comparing the sagittal radius of the medial and talar dome. The assessed data provides important aid for engineering of pre-formed, pre-sized osteochondral grafts. Such pre-shaped grafts could help restoring the physiological joint surface by matching exactly into the lesion and consequently achieving the recovery of the physiological joint biomechanics and prevention of secondary degenerative disease

Background. An osteochondral defect in the knees of young active patients represents a treatment challenge to the orthopaedic surgeon. Early studies with allogenic cartilage transplantation showed this tissue to be immunologically privileged, showed fresh grafts to maintain hyaline cartilage, and surviving chondrocytes several years after implantation. Methods. Between January 1978 and October 1995 we enrolled 63 patients in a prospective non-randomised study of fresh osteochondral allografts for post-traumatic distal femur defects in our institute. Five international patients who were lost to follow-up were excluded from this study. The indications for the procedure were: patients younger than 50 years of age having unipolar post-traumatic defects, or osteochondritis dissecans larger than three cm in diameter and one cm in depth. Results. Fifty-eight patients, ages 11-48 (mean 28) were followed for 15-32 years (mean 21.8 years). Thirteen of the 58 grafts have subsequently required further surgery, with three having graft removal and ten converted to total knee arthroplasty. Three patients died during the study due to unrelated causes and are included in the survivorship curve. Kaplan-Meier survivorship analysis showed: 91%, 84%, 69%, and 59% graft survival at 10, 15, 20, and 25 years, respectively. Patients with surviving grafts had good function, with a mean modified Hospital for Special Surgery score of an average 86 at 20 years or more following the allograft transplantation surgery. Late osteoarthritic degeneration as was seen on radiographs was associated with lower Hospital for Special Surgery scores representing patients with poorer clinical outcome. Conclusion. The authors confirm the value of fresh osteochondral allograft as a long term solution for articular defect in the knees of young patients. We recommend the use of fresh osteochondral allograft for treatment of large osteochondral defects in the distal femur of young and active patients

Purpose. Platelet-derived growth factor-BB (PDGF-BB) is a well characterized wound healing protein known to be chemotactic and mitogenic for cells of mesenchymal origin, including osteoblasts and chondrocytes. Biocompatible scaffolds, combined with growth factors such as PDGF-BB, have potential to stimulate regeneration and repair of osseous and cartilaginous tissues. The purpose of this study was to determine the efficacy and safety of recombinant human PDGF-BB (rhPDGF-BB) combined with a collagen implant to augment healing of osteochondral defects. Method. A single osteochondral defect (8mm x 8mm) was created in the medial femoral condyle of 32 adult goats. Collagen implants(8.5mm x 8mm) hydrated with four doses of rhPDGF-BB (0g, 15g, 75g, 500g) were press-fit into the defect. Defects in four animals were left untreated. All goats were sacrificed 12 weeks postoperatively. Macroscopic evaluation and quantitative CT analyses were performed. Histologic sections were stained with Safranin O/Fast Green and assessed with a modified ODriscoll scoring scale for cartilage and bone repair. Significance was determined by One-Way ANOVA or nonparametric Kruskal-Wallis. Results. Macroscopic evaluation indicated significant improvement of the gross cartilage repair score for the rhPDGF-BB treatment groups compared to the 0g rhPDGF-BB control (500g;0g) and empty defect groups (500,75,15g; Empty). MicroCT analysis indicated a significant increase in trabecular number for the 500g group compared to 0g control, 75g, and Empty groups(p=0.004). Average bone volume reconstitution for the 500g group was increased (58.8%) compared to the 0g control. The total cartilage repair score was significantly improved (p=0.048) in the 500g treatment group (14.30.3) compared to the 0g control group (12.10.4). All rhPDGF-BB treatment groups exhibited increased Safranin-O staining of the matrix compared to the 0g control group, and a significantly decreased incidence(p=0.01) of subchondral cyst formation compared to the empty defect group. Conclusion. The results of this study indicate that rhPDGF-BB, combined with a collagen implant, is safe and improves repair of large osteochondral defects located in a high-load bearing region in a caprine model. Increases in gross scoring and histopathologic cartilage repair score for the rhPDGF-BB treatment groups, in addition to the presence of bony bridging, especially for the 500g rhPDGF-BB treatment group, indicate enhanced reconstitution of the subchondral bone and overlying repair tissue. The cartilage repair score was increased, on average, in the empty defect group relative to the 0g rhPDGF-BB group, however this score may be partially inflated due to collapse of the surrounding native tissue into the defect. Combined with a significant decrease in cyst formation in all rhPDGF-BB treatment groups, these results suggest that rhPDGF-BB, combined with a collagen implant, may have promise as a therapeutic agent for osteochondral defect repair

The autologous osteochondral grafting represents a treatment option for osteochondral lesions of the weight bearing articular surfaces of femoral condyles and talus. The aim of our study was to evaluate the MRI findings and to determine the correlation between the radiological and the functional outcome in the early follow up. We performed a retrospective study and followed up 33 patients 1 to 4 years after osteochondral auto-grafting. The grafts were harvested from the anterolateral region on the lateral femoral condyle of the ipsilateral knee using an insider rinsing diamond bone-cutting instrument (DBCS). The grafts were implanted using press fit technique and mosaic plasty. Sixteen (48%) women and 17 men were included in our follow up with an average age of 38.4 years (age range-16 to 58 yrs). The Lysholm and Foot and Ankle Osteoarthritis Scores were used for the assessment of the functional outcome. MRI scans were performed by all patients. While the MRI results illustrated graft incorporation, the cartilage contour interruption, irregularity of the subchondral lamina, inhomogeneity and subchondral oedema are typical findings between host and graft tissues. The clinical outcome demonstrated pain relief and improved function. There was no statistically significant correlation between radiological and functional outcome (p>0.05). The MRI is a well-recognised non-invasive diagnostic tool to assess the integration of osteochondral grafts and to evaluate the articular surface but it has a reduced clinical significance on the early post operative stages. The long-term prognostic value of the unsatisfying MRI results is unknown

Osteochondral lesions (OCL) of the talus occur in 38% of the patients with supination external rotation type IV ankle fractures and 6 % of ankle sprains. Osteoarthritis is reported subsequently in 8–48% of the ankles. Several marrow stimulation methods have been used to treat the symptomatic lesion, including arthroscopic debridement and micro fracture. Encouraging midterm results have been reported, but longterm outcome is unknown in relation to more invasive treatments such as transfer of autologous osteoarticular tissue from the knee or talus (OATS), autologous chondrocyte implantation (ACI), frozen and fresh allograft transplantation. Aim. The aim of our study was to review our long term results of arthroscopic treatment of osteochondral lesions of the talus. Materials and methods. 65 patients underwent arthroscopic treatment of the OCL between 1993 and 2000. There were 46(71%) men and 19(29%) women. The mean age at surgery was 34.2 years. The right side was affected in 43 patients and the left side in 22 patients. Results. 40/65(61.5%) patients who underwent arthroscopic treatment of the OCL were followed up. The mean follow-up was 13.1 years (9 to 18 years). The average age at final follow was 49.6 years (25–80 years). 15 (39.5%) patients reported poor, 14 (36.8%) fair, 9 (23.6%) good outcomes based on the Berndt and Harty criteria. 20/40 patients (50 %) needed further surgery. This appears a significant deterioration since this cohort were studied at 3.5 years, when the clinical results were 21.3% poor, 26.2% fair and 52.3% good, although losses to followup make exact comparison impossible. Conclusion. Arthroscopic treatment of osteochondral lesions of the talus gives medium term improvement in the majority of patients, but it appears that results deteriorate with time. Recurrence of symptoms sufficient to require further surgical intervention occurred in half the patients studied