Search Results (29)

Background/Objectives: The medial meniscus is crucial for load transmission and knee stability. Meniscal tears disrupt joint biomechanics, increasing the risk of cartilage degeneration. However, few studies have quantitatively compared how different tear types affect stress and contact mechanics using finite element analysis (FEA). This study aims to analyze stress distributions for various meniscal tear types and develop a predictive model for meniscal stress behavior. This study investigates how stress distributions differ between healthy and torn medial menisci under identical loading conditions. The study examines which meniscal tear type produces the highest stress concentrations. The effects of different tear types on penetration, gap formation, pressure distribution, and sliding distance at the meniscus interface are also analysed. Materials and Methods: The FEA model of the knee joint, including femoral and tibial cartilage and the medial meniscus, was developed. Simulations were conducted for a healthy meniscus and for menisci with radial, horizontal and complex tears. Stress, penetration, gap, pressure, and sliding distance were calculated, and a mathematical model describing their relationships was established. Results: All torn menisci exhibited significantly higher stresses than the healthy meniscus (p < 0.001). Radial tears generated the highest stress concentrations (p < 0.001). Pressure was mainly influenced by meniscal geometry, while the gap remained nearly constant. Penetration increased slightly (p < 0.05). The predictive model demonstrated a strong correlation between meniscal stress and interface parameters (R² > 0.9). In a healthy meniscus, stress distribution is homogeneous (≈26 MPa). Stress concentration increases depending on the tear type: limited in a horizontal tear (≈26.5 MPa), significant in a vertical tear (≈30.8 MPa), and highest in a radial tear (≈40.6 MPa). These results indicate that as the tear progresses, the load-bearing capacity of the meniscus decreases, and stresses concentrate at the tear edges. Conclusions: Meniscal tears, especially radial ones, substantially alter knee biomechanics and elevate tissue stress. These biomechanical insights highlight the importance of early diagnosis and targeted rehabilitation strategies to prevent further cartilage damage and osteoarthritis progression. Full article

Background: Anterior Cruciate Ligament (ACL) tears are increasingly frequent among adolescents and are often accompanied by meniscal and chondral injuries that may compromise long-term outcomes. While risk factors are well documented in adults, they remain less well defined in younger patients, who present unique anatomical and activity-related characteristics. Understanding these associations is essential for optimizing surgical timing and outcomes in this age group. The purpose of this study was to determine the rate of concomitant intra-articular injuries in adolescents undergoing ACL reconstruction and to identify associated risk factors. Methods: We retrospectively reviewed 186 adolescents (12–18 years) who underwent primary ACL reconstruction using a bone–patellar tendon–bone (BPTB) autograft between 1999 and 2020. Demographic, anthropometric, and intraoperative findings on meniscal and chondral lesions were collected. Multivariable logistic regression models were used to identify factors associated with concomitant injuries. Results: Concomitant intra-articular lesions were found in 108 of 186 patients (58.1%). Meniscal tears were the most common finding, involving the lateral meniscus in 27.4%, the medial meniscus in 18.8%, and both menisci in 11.9%. The posterior horn was the most common tear location, and longitudinal and bucket handle patterns predominated. Older age was associated with any concomitant lesion (p = 0.028), and surgical delay (p = 0.021) was associated with a higher likelihood of medial meniscal tears. Sex and BMI were not significantly associated. Conclusions: Concomitant injuries are common in adolescents undergoing ACL reconstruction. Older age and delayed surgery were associated with a higher likelihood of meniscal damage, emphasizing the need for early diagnosis and timely surgical management as potentially relevant to limiting long-term degenerative changes in young athletes. Level of evidence: Level III, retrospective study. Full article

(1) Background: This is the first study investigating the age-related distribution of meniscal and chondral lesions in an all-male cohort undergoing first-time knee arthroscopy. (2) Methods: The study population included 876 adult men stratified into five decade-based age groups. Lesions were confirmed arthroscopically after MRI evaluation, with chondral injuries being graded using the ICRS system. (3) Results: The frequency of medial meniscal tears differed significantly across age strata (p = 0.042), increasing with age. No differences were detected for lateral meniscal damage or patellar damage. Age was a significant predictor of medial meniscal damage (OR = 1.04; p = 0.003), but not for other types of knee injuries. Medial meniscal damage correlated with patellar damage (men < 30, 50–59) and inversely with lateral damage (30–39); other correlations were non-significant. Chondropathy severity increased significantly with age in the medial femoral condyle and medial tibial plateau (p < 0.001), with severe (ICRS grade IV) lesions showing a steep rise after 60 years. Cartilage lesions at the level of the lateral knee compartment were, by contrast, less prevalent and less severe, with no significant variation across age groups. (4) Conclusions: These findings demonstrate that intra-articular knee pathology in men shifts with age, with medial compartment degeneration becoming increasingly prominent. Full article

Background and Objectives: The relationship between posterior tibial slope (PTS) and isolated meniscal injuries remains a topic of debate. This study aimed to investigate whether an increased PTS was associated with a higher risk of isolated meniscal tears, using a case-control design with propensity score matching to minimize confounding factors. Materials and Methods: A retrospective case-control study was conducted at a University Hospital. A total of 294 patients who underwent arthroscopic surgery for meniscal injuries were compared to a matched control group without documented knee pathology. Two independent observers measured PTS on standardized lateral knee radiographs and assessed inter- and intra-rater reliability. Propensity score matching was performed to control for potential confounders. Statistical analysis included logistic regression to evaluate the association between PTS and isolated meniscal injuries. Results: A significantly increased mean PTS was observed in patients with isolated meniscal injuries compared to controls (p < 0.05). However, PTS was not significantly associated with the specific location of meniscal tears. Inter- and intra-rater reliability for PTS measurements was excellent (intraclass correlation coefficient > 0.75). Conclusions: An increased posterior tibial slope was associated with a higher risk of meniscal injury, even in the absence of ACL rupture. However, no significant association was found between PTS and specific tear patterns or locations. These findings support the role of posterior tibial slope as an independent anatomical risk factor for meniscal damage and underscore the importance of its early identification in clinical risk assessment and prevention strategies. Full article

Background/Objectives: This is the first study to examine age-related patterns of meniscal/chondral lesions in women undergoing first-time knee arthroscopy. Methods: We analyzed meniscal tear type/location and evaluated cartilage damage in femoral condyles and the tibial plateau in a medium-sized Romanian cohort (n = 241). Results: Age was associated significantly (p ≤ 0.004) with medial meniscal damage (O.R. = 1.04, 95% CI: 1.01–1.06), medial femoral condyle chondropathy (O.R. = 1.06, 95% CI: 1.03–1.10), and medial tibial plateau chondropathy (O.R. = 1.07, 95% CI: 1.02–1.12). Medial meniscus tear patterns differed significantly between age groups (p < 0.001, Cramér’s V = 0.32). Bucket-handle tears—the most common tear type—peaked in middle age (p < 0.001, Cramér’s V = 0.30). The two menisci showed different distributions of tear patterns in women aged ≥40 years (p ≤ 0.023, Cramér’s V ≤ 0.41). Meniscal tears most commonly involved the posterior third. The distribution of tear sites in menisci (medial vs. lateral) varied significantly in women aged 40–59 years (p = 0.020, Cramér’s V = 0.28). The medial femoral condyle and medial tibial plateau showed significant intergroup differences in ICRS scores (p ≤ 0.024, Cramér’s V ≤ 0.34). The frequency of ICRS grade 4 cartilage lesions increased markedly in the 40–59 age group at both sites, continuing to rise in older patients for the medial tibial plateau. Conclusions: Knee pathology in women worsens with age, especially in the medial compartment. Early screening (intervention) in middle-aged women may help prevent advanced joint damage. Full article

Orthopedics is undergoing a transformative shift driven by personalized medical technologies that enhance precision, efficiency, and patient outcomes. Virtual surgical planning, robotic assistance, and real-time 3D navigation have revolutionized procedures like total knee arthroplasty and hip replacement, offering unparalleled accuracy and reducing recovery times. Integrating artificial intelligence, advanced imaging, and 3D-printed patient-specific implants further elevates surgical precision, minimizes intraoperative complications, and supports individualized care. In sports orthopedics, wearable sensors and motion analysis technologies are revolutionizing diagnostics, injury prevention, and rehabilitation, enabling real-time decision-making and improved patient safety. Health-tracking devices are advancing recovery and supporting preventative care, transforming athletic performance management. Concurrently, breakthroughs in biologics, biomaterials, and bioprinting are reshaping treatments for cartilage defects, ligament injuries, osteoporosis, and meniscal damage. These innovations are poised to establish new benchmarks for regenerative medicine in orthopedics. By combining cutting-edge technologies with interdisciplinary collaboration, the field is redefining surgical standards, optimizing patient care, and paving the way for a highly personalized and efficient future. Full article

Background and Objectives: Although gender and age are high-profile risk factors for meniscal injuries, their interplay is not yet fully understood. Little information is available about patients undergoing first-time meniscus surgery and the epidemiology of meniscus tears in Eastern Europe. This study investigated sex- and age-related trends in meniscal injuries (medial and/or lateral, with or without co-occurring knee chondropathy) in a substantial cohort of patients undergoing first-time meniscus surgery at a high-volume medical center in western Romania. Materials and Methods: This retrospective study included 488 patients of different ages. Logistic regression was applied across the age continuum, followed by analyses stratified by age quartiles to investigate age-related variations. Results: Increasing age was significantly associated with increased odds of having medial meniscus tears (O.R. = 1.04 (1.01–1.07)) and associated knee chondropathy (O.R. = 1.03 (1.00–1.05)). Women displayed significant, twofold lower odds of having lateral meniscus damage (O.R. = 0.54 (0.31–0.96)). Men tended to have a higher prevalence of associated knee chondropathy (O.R. = 1.71 (0.96–3.04)). The frequency of medial meniscus tears and patellar damage rose significantly, starting from the third age quartile (33–42 years) and the second quartile (23–32 years), respectively. Significant positive associations between medial and lateral meniscal damage were found across all age quartiles (r_s ≥ 0.42), with their magnitude increasing with age. Medial damage also correlated significantly with patellar damage, but weaker and only from the third quartile onward (r_s ≥ 0.30). Conclusions: Increasing age was linked to a higher risk of medial meniscal injuries and knee chondropathy, with the latter tending to occur earlier. Male sex was associated with a higher likelihood of lateral meniscal damage. These findings highlight the importance of considering age and sex in the diagnosis and management of meniscal injuries and provide valuable data for an Eastern European population. Full article

Background and Objectives: Knee joint injuries incur substantial healthcare and socioeconomic burdens worldwide. The connection between various demographic and clinical factors and meniscal injury patterns in patients undergoing surgery for meniscal rupture remains underexplored, especially in Eastern European cohorts. This study aimed to determine the influence of age, sex, and history of previous meniscal rupture on the patterns and types of knee joint injuries in adults aged 35 years and older undergoing surgery. Materials and Methods: A single-site exploratory retrospective analysis was conducted on 420 Romanian patients. The age of 35 years was selected as a cut-off for recruiting patients, as it marks the typical age at which early degenerative changes in the musculoskeletal system begin to emerge. Nonparametric/frequency analysis was applied to datasets stratified based on injury type—medial meniscal damage (MMD), lateral meniscal damage (LMD), and any patellar damage (APD). Logistic regression was used to determine influential predictors, including age, sex, and history of meniscal rupture. Results: Surgery was performed at a significantly younger age in patients with previous meniscus rupture (p < 0.001), but at a significantly older age in patients with co-occurring patellar lesions (p = 0.048). Men tended to be younger at the time of first surgery or any reoperations (p = 0.054) and displayed LMD significantly more often than MMD (p = 0.023). Significant differences existed in the distribution of different tear types in LMD (p < 0.001) and MMD (p < 0.001), with bucket handle tears and parrot beak tears being the most common. Male sex was associated with significantly higher odds of LMD (p = 0.046). Patients with previous meniscal rupture had a significantly and approximately threefold higher likelihood of presenting with MMD (p = 0.003). Conclusions: Age, sex, and history of meniscal rupture significantly influence the patterns and prevalence of knee injuries in adults aged 35 years and older. These findings reveal a dynamic interplay between demographic factors and knee joint pathologies, providing a foundation for targeted prevention and treatment strategies. Future studies should expand to larger, diverse populations to refine these insights. Full article

The proper function and longevity of the knee joint are ensured by the knee menisci. Their susceptibility to damage and injury is one of the main risk factors for rapid cartilage loss and the development of osteoarthritis. The vascularization pattern and nutritional status of a torn meniscus determine its potential for healing and the success of meniscus surgery. Blood supply is a crucial factor in assessing healing potential. Knee cartilage volume loss and its modification often result from meniscal damage or excision, leading to osteoarthritis. Modern methods for preserving meniscal tissue are currently the treatment of choice. Magnetic resonance imaging (MRI) is the gold standard for assessing meniscus lesions. It provides a comprehensive evaluation of tear stability and progression risk. Additionally, it offers high sensitivity and specificity. Arthrography combined with computed tomography (CT) can be used for patients who are unable to undergo MRI. Other methods, such as X-ray and ultrasound, are not useful for the typical diagnosis of meniscal lesions. Minimally invasive surgery has become the gold standard for both treatment and diagnosis. Modern techniques, such as all-inside compression sutures and other suturing techniques, are also considered. In contrast, in the past, open total meniscectomy was routinely performed as the gold standard, based on the mistaken belief that the menisci were functionless. Currently, new treatment methods for meniscal lesions are being explored, including mesenchymal stem cells, synthetic implants, and platelet-rich plasma (PRP). The crucial role of the menisci in knee biomechanics drives the development of modern solutions focused on preserving meniscal tissue. Full article

Background: Tibiofemoral contact mechanics (TFCM) is an accepted biomechanical metrics for evaluating the meniscus in its intact, torn, and repaired states. Pressure sensors are increasingly used, with accuracy and repeatability influenced by test conditions, their design, and their properties. To identify factors optimising performance, we performed a systematic review of the literature on their use for measuring TFCM in posterior meniscal root tears. Methods: The Cochrane Controlled Register of Trials, PubMed, and Embase were used to perform a systematic review using the PRISMA criteria. As laboratory and surgical setup can influence sensor performance, we collected data on specimen preparation, repair techniques, hardware use, and biomechanical testing parameters. Results: 24 biomechanical studies were included. Specimen preparations were similar across studies with respect to femoral and tibial mounting. Single axial compressive forces were applied between 100 and 1800 N at varying flexion angles (0–90°). Tekscan (Boston, MA, USA) was the commonest sensor used to measure TFCM, followed by digital capacitive sensors and Fujifilm (Tokyo, Japan). Factors influencing their performance included fluid exposure, lack of adequate fixation, non-specific calibration protocols, load saturation exceeding calibration, damaged sensels and inappropriate pre-test conditioning. Conclusions: Understanding potential factors influencing pressure sensors may improve accuracy, area, and pressure distribution measurements. Full article

Background: Osteoarthritis (OA) of the knee is the most common joint disease, characterized by the degeneration of joint cartilage. Intra-articular hyaluronic acid (IAHA) injections are a well-established non-surgical treatment. Methods: This retrospective study analyzed knee OA patients receiving IAHA combined with niacinamide injections, assessing pain reduction in relation to patient data, the number of injections, and radiological findings. Results: IAHA injections led to significant pain reduction on the numeric rating scale (NRS) (0–10), with a mean decrease of 3.34 ± 1.65. Pain relief was greater with multiple injections. A comparison of subgroups by injection frequency (1, 2, or >2) showed significant pain reduction between 1 and 2 injections (p = 0.027) and between 1 and >2 injections (p = 0.032). The OA grade measured using the Kellgren–Lawrence (p = 0.95) and Vallotton MRI classifications (p = 0.50) did not correlate with pain reduction. However, patients with meniscal damage (p = 0.02) showed a greater benefit. A strong positive correlation was found between baseline pain intensity and pain reduction (p < 0.001; r = 0.61). Conclusions: IAHA with niacinamide significantly reduces knee OA pain, with more injections enhancing pain relief. Greater benefits were observed in patients with higher baseline pain and meniscal damage. The favorable safety profile and potential for repeated treatments make IAHA a valuable option in knee OA management. Full article

The management of anterior cruciate ligament (ACL) injuries in pediatric patients presents unique challenges due to the presence of open growth plates in the proximal tibia and distal femur. Delaying ACL reconstruction until skeletal maturity may protect the physes but increases the risk of secondary injuries, such as meniscal tears and chondral damage, due to prolonged joint instability. Conversely, early surgical intervention restores knee stability but raises concerns about potential growth disturbances, including leg-length discrepancies and angular deformities. This narrative review examines current approaches to pediatric ACL management, highlighting the risks and benefits of both conservative and surgical treatments. Additionally, it explores the role of finite element modeling (FEM) as an innovative tool for pre-surgical planning. FEM offers a non-invasive method to optimize surgical techniques, minimize iatrogenic damage to growth plates, and improve patient outcomes. Despite its potential, FEM remains underutilized in clinical practice. This review underscores the need to integrate FEM into pediatric ACL care to enhance surgical precision, reduce complications, and improve long-term quality of life for young patients. By synthesizing available evidence, this review aims to provide clinicians with a comprehensive framework for decision-making and identify future directions for research in pediatric ACL reconstruction. Full article

Background: The aim of this study was to substantiate the ability of noninvasive low-field magnetic resonance imaging (lfMRI) to accurately depict meniscal lesions, thereby establishing lfMRI as a viable option for the diagnosis of meniscal pathology. Study Design: This was a prospective, controlled study. Materials and Methods: In each of 57 stifle joints, 5 predefined lfMRI sequences using a 0.25 T lfMRI were used. The scans were evaluated by an experienced surgeon (DECVS) and through external assessment by a radiologist (DECVDI). The patients were divided into two groups depending on their meniscal status after lfMRI. Dogs (Group 1; n = 33) without lfMRI evidence of medial meniscal pathology underwent TPLO, whereas concurrent craniomedial mini-arthrotomy was performed in patients with suspected meniscal lesions (Group 2; n = 24). Gait assessment was performed 6 weeks later and 6 months postoperatively. Results: Cohen’s kappa value of 0.8571 corresponds to a high level of agreement between the observers. A significant correlation was found between preoperative lameness severity and intraoperative meniscal damage (p < 0.04). The results showed a highly significant correlation between meniscal injuries on MRI and intraoperative findings (p < 0.0001). Conclusions: LfMRI appears to be a noninvasive, reliable imaging tool for the detection of medial meniscal lesions in cranial cruciate-deficient stifle joints, aiming to avoid (minimally) invasive diagnostics in healthy menisci. Full article

(1) Background: Bone bruises in acute anterior cruciate ligament (ACL) injuries are closely linked to the occurrence of simultaneous meniscal and cartilage damage. Despite the frequent occurrence of associated injuries including bone bruises, meniscus, and cartilage damage in patients with ACL injuries, a systematic review of the relationships between the presence of bone bruises and the extent of meniscus and cartilage injuries has yet to be conducted. (2) Methods: Multiple comprehensive databases, including MEDLINE, EMBASE, and the Cochrane Library, were searched for studies that evaluated the relationship between bone bruises and meniscus or cartilage injuries following ACL injuries. Study selection, data extraction, and meta-analysis were performed. The Methodological Index for Non-Randomized Studies (MINORS) was used for quality assessments, and Review Manager 5.3 was used for data analysis. (3) Results: Data were extracted from 22 studies encompassing a total of 2891 patients with ACL injuries. Among the included studies, six studies investigated the relationships between bone bruises and medial meniscus (MM) or lateral meniscus (LM) injuries, while three studies investigated the relationships between bone bruises and cartilage injuries. There were no significant correlations between the presence of bone bruises and MM injuries (relative risk (RR) = 1.32; p = 0.61). A quantitative analysis indicated that individuals with bone bruises had a 2.71-fold higher likelihood of sustaining LM injuries than those without bone bruises (RR = 2.71; p = 0.0003). The analysis confirmed a significant relationship between bone bruises and cartilage injuries (RR = 6.18; p = 0.003). (4) Conclusions: Bone bruises occur most frequently in the lateral compartment. Bone bruises resulting from ACL injuries are related to accompanying LM injuries and cartilage injuries. Knowing these associations and the frequency of injuries may allow orthopedic surgeons to promptly address ACL-related meniscus and cartilage injuries on MRI results and in future clinical practice. Full article

Classical ballet dancers are exposed daily to physically demanding movements. Among these, the Grand Plié stands out for its biomechanical complexity, particularly the stress applied to the knee joint. This study investigates the knee kinematics of healthy professional classical ballet dancers performing the Grand Plié. Twenty dancers were evaluated with a motion analysis system using a marker-based protocol. Before measurements, the self-reported Global Knee Functional Assessment Scale was delivered for the knees’ functional ability, and the passive range of knee motion was also assessed. The average score on the Global Knee Functional Assessment Scale was 94.65 ± 5.92. During a complete circle of the Grand Plié movement, executed from the upright position, the average maximum internal rotation of the knee joint was 30.28° ± 6.16°, with a simultaneous knee flexion of 134.98° ± 4.62°. This internal rotation observed during knee flexion exceeds the typical range of motion for the joint, suggesting a potential risk for knee injuries, such as meniscal tears. The findings provide an opportunity for future kinematic analysis research, focusing on the movement of the Grand Plié and other common ballet maneuvers. These data have the potential to yield valuable information about the knee kinematics concerning meniscus damage. Full article