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Purpose To identify the radiological predictive risk factors for anterior cruciate ligament reconstruction (ACLR) failure, compare the diagnostic accuracies of different parameters of conventional radiographs and magnetic resonance imaging (MRI), and determine the cutoff values for patients at higher risk. Methods Twenty-eight patients who were diagnosed as ACLR failure via MRI or arthroscopic examination were included in the study group. They were matched to 56 patients who underwent primary ACLR with the same surgical technique and without graft failure at the minimum 24-month follow-up by age, sex, and body mass index. On true lateral whole-leg radiographs, the posterior tibial slope (PTS) referenced to the tibial mechanical axis (PTS-mechanical), PTS referenced to the tibial proximal anatomical axis (PTS-anatomical), and anterior tibial translation (ATT) were measured. On the sagittal slices of MRI, the medial tibial slope (MTS), medial tibial plateau (MTP) subluxation (MTPsublx), lateral tibial slope (LTS), and lateral tibial plateau (LTP) subluxation (LTPsublx) were obtained. Receiver operator characteristic (ROC) curves were constructed to compare the diagnostic performance and determine the cutoff values of different radiological parameters. Results The study group demonstrated higher values of PTS-mechanical (10.7° ± 2.9° vs 8.7° ± 1.9°, p  = 0.003), PTS-anatomical (13.2° ± 2.8° vs 10.5° ± 2.5°, p  < 0.001), ATT (10.7 ± 3.3 mm vs 8.9 ± 2.2 mm, p  = 0.014), LTS (9.4° ± 2.1° vs 5.5° ± 2.5°, p  < 0.001), and LTPsublx (8.2 ± 2.8 mm vs 6.8 ± 1.9 mm, p  = 0.009) as compared with the control group. The area under the ROC curve of LTS was significantly larger than that of PTS-mechanical ( p  = 0.006) and PTS-anatomical ( p  = 0.020). Based on the maximum Youden indexes, the cutoff values of PTS-mechanical, PTS-anatomical, and LTS were 10.1° (sensitivity, 64.3%; specificity, 78.6%), 12.0° (sensitivity, 71.4%; specificity, 71.4%), and 7.7° (sensitivity, 85.7%; specificity, 80.4%), respectively. Conclusion Due to the morphological asymmetry of the MTP and LTP, steep LTS measured on MRI is the best radiological predictor of ACLR failure. Detailed measurement of the LTS on MRI is recommended to evaluate the risk of ACLR failure prior to the surgery. Level of evidence III.

Purpose The purpose of this study was to describe the medial and lateral posterior tibial slope (MPTS and LPTS) on 3D-CT in a Caucasian population without osteoarthritis. It was hypothesised that standard TKA alignment techniques would not reproduce the anatomy in a high percentage of native knees. Methods CT scans of 301 knees [male:female = 192:109; mean age 30.1 ( ± 6.1)] were analysed retrospectively. Tibial slope was measured medially and laterally in relation to the mechanical axis of the tibia. The proportion of MPTS and LPTS was calculated, corresponding to the “standard PTS” of 3°–7°. The proportion of knees accurately reproduced with the recommended PTS of 0°–3° for PS and 5°–7° for CR TKA were evaluated. Results Interindividual mean values of MPTS and LPTS did not differ significantly (mean (range); MPTS: 7.2° ( – 1.0°–19.0°) vs. LPTS: 7.2° ( − 2.4°–17.8°), n.s.). The mean absolute intraindividual difference was 2.9° (0.0°–10.8°). In 40.5% the intraindividual difference between MPTS and LPTS was > 3°. When the standard slope of 3°–7° medial and lateral was considered, only 15% of the knees were covered. The tibial cut for a PS TKA or a CR TKA changes the combined PTS (MPTS + LPTS) in 99.3% and 95.3% of cases, respectively. Conclusion A high interindividual range of MPTS and LPTS as well as considerable intraindividual differences were shown. When implementing the recommended slope values for PS and CR prostheses, changes in native slope must be accepted. Further research is needed to evaluate the impact of altering a patient’s native slope on the clinical outcome. Level of evidence IV.

IntroductionAn increased tibial slope is a risk factor for rupture of the anterior cruciate ligament. In addition, a tibial bone bruise or posterior lateral impression associated with slope changes also poses chronic ligamentous instability of the knee joint associated with an anterior cruciate ligament (ACL) injury. In the majority of cases, the slope is measured in one plane X-ray in the lateral view. However, this does not sufficient represent the complex anatomy of the tibial plateau and especially for the posterolateral quadrant. Normal values from a “healthy” population are necessary to understand if stability of the knee joint is negatively affected by an increasing slope in the posterolateral area. Until now there are no data about the physiological slope in the posterolateral quadrant of the tibial plateau.Materials and methodsIn 116 MRI scans of patients without ligamentous lesions and 116 MRI scans with an ACL rupture, tibial slope was retrospectively determined using the method described by Hudek et al. Measurements were made in the postero-latero-lateral (PLL) and postero-latero-central (PLC) segments using the 10-segment classification. In both segments, the osseous as well as the cartilaginous slope was measured. Measurements were performed by two independent surgeons.ResultsIn the group without ligamentous injury the mean bony PLL slope was 5.8° ± 4.8° and the cartilaginous PLL slope was 6.7° ± 4.8°. In the PLC segment the mean bony slope was 6.6° ± 5.0° and the cartilaginous slope was 9.4° ± 5.7°. In the cohort with ACL rupture, the bony and cartilaginous slope in both PLL and PCL were significantly higher (P < 0.001) than in the group without ACL injury (bony PLL 9.8° ± 4.8°, cartilage PLL 10.4° ± 4.7°, bony PLC 10.3° ± 4.8°, cartilage PLL 12.8° ± 4.3°). Measurements were performed independently by two experienced surgeons. There were good inter- (CI 87–98.7%) and good intraobserver (CI 85.8–99.6%) reliability.ConclusionThe bony and the cartilaginous slope in the posterolateral quadrant of the tibial plateau are different but not independent. Patients with an anterior cruciate ligament injury have a significantly steeper slope in the posterolateral quadrant compared to a healthy group. Our data indicate that this anatomic feature might be a risk factor for a primary ACL injury which has not been described yet.Level of evidenceIII.

BackgroundThis study aims to compare variables such as medial posterior tibial slope, lateral posterior tibial slope, medial tibial plateau depth calculated by preoperative MRI, and posterior tibial slope calculated by lateral knee X-ray on randomly selected patients with ACL injuries to a control group of patients without the injury. The secondary aim is to determine the critical value of these parameters and ascertain whether they can be used as a screening tool to identify at-risk individuals.MethodsStudy participants included 426 subjects with noncontact knee injuries. Using stratified systematic random sampling, they were randomly divided into two equal groups of sixty, one for patients with ACL tears, and the other for those with ACL that was intact based on clinical and MRI findings. Based on the blinded assessment, MPTS, LPTS, MTPD, and PTS were assessed in MRI and lateral knee X-ray (PTS only), and the results were compared between groups using appropriate statistical models.ResultsThere were higher MPTS, LPTS, and PTS scores in the ACL tear group when compared to the control group (p < 0.01), while MTPD was lower when compared to the control group (p > 0.05). ROC analysis for predicting ACL tear revealed an area under the curve for MPTS, LPTS, PTS, and MTPD as 0.942, 0.907, 0.967, and 0.878, respectively. The critical angle for MPTS, LTPS, PTS and MTPD was 8.25°,6.75°,8.5° and 2.25 mm, respectively, which has sensitivity of 91.0%, 86.7%, 93.3% and 80%; specificity of 86.7%, 78.3%, 90.0% and 71.7%, respectively.ConclusionsMedial posterior tibial slope, lateral posterior tibial slope, and posterior tibial slope were significantly higher in individuals in the ACL tear group but there was no significant difference in medial tibial plateau depth. MPTS, LPTS, and PTS are better predictors of identifying at-risk individuals predisposed to ACL injury than MTPD.

Background: The slope of the tibial plateau has been proposed as a reason for failure of anterior cruciate ligament reconstruction. Purpose: To evaluate the interobserver reliability of measurements of tibial slope on radiographs versus magnetic resonance imaging (MRI) scans and to assess whether the modalities can be used interchangeably for this purpose. Study Design: Cohort study (diagnosis); Level of evidence, 3. Methods: This retrospective study included 81 patients aged 18 to 30 years who were evaluated in a sports medicine setting for knee pain and who had lateral knee radiographs as well as knee MRI scans on file. Medial and lateral tibial plateau slope measurements were made by 3 blinded reviewers from the radiographs and MRI scans using graphic overlay software. The paired t test was used to compare measurements of the medial tibial plateau slope (MTPS) and lateral tibial plateau slope (LTPS) from radiographs and MRI scans. Intraclass correlation coefficients (ICCs) were calculated to determine intra- and interobserver reliability of measurements within each imaging modality, and Pearson correlation coefficients were calculated to determine the relationship between measurements on radiographs versus MRI scans. Results: Imaging from 81 patients were included. The average MTPS was significantly larger on radiographs compared with MRI scans (8.7° ± 3.6° vs 3.7° ± 3.4°; P < .001), and the average LTPS was also significantly larger on radiographs compared with MRI scans (7.9° ± 3.4° vs 5.7° ± 3.7°; P < .001). ICC values indicated good to excellent intraobserver agreement for all imaging modalities (ICC, 0.81-0.97; P ≤ .009). The ICCs for interobserver reliability of MTPS and LTPS measurements were 0.92 and 0.85 for radiographs, 0.87 and 0.83 for MRI based off the subchondral bone, and 0.86 and 0.71 for MRI based off the cartilage, respectively (P < .001). Medium correlation was noted between radiographic and MRI measurements; Pearson correlation coefficients for radiographic versus subchondral MRI measurements were 0.30 and 0.37 for MTPS and LTPS, respectively. Conclusion: The average MTPS and LTPS were significantly larger on radiographs compared with MRI scans. Although tibial slope measurements using radiography and those using MRI are reliable between individuals, the measurements from radiographs and MRI scans cannot be used interchangeably, and caution should be used when interpreting and comparing studies using measurements of the tibial slope.

Background The impact of anatomical factors, such as the lateral tibial slope (LTS), on outcomes following anterior cruciate ligament (ACL) reconstruction is an area of growing interest. This study was led by the observation that patients with a higher LTS may have different recovery trajectories. Hypothesis/Purpose The purpose of this study was to investigate the correlation between a higher LTS and long term subjective outcomes following single-bundle ACL reconstruction. Study Design This study was designed as a retrospective cohort study. Methods The study comprised 138 patients who underwent single-bundle ACL reconstruction. The LTS was measured on preoperative radiographs. Patient-reported outcome measures (PROMs) were collected, which included the Lysholm Knee Score, UCLA Activity Score, IKDC Score, and Tegner Activity Score, over a mean follow-up duration of 137 months. Results A significant negative correlation was found between LTS and all measured PROMs ( p  < 0.001). The established cut-off value of LTS distinguishing between “Good” and “Fair” Lysholm scores was 8.35 degrees. Female patients have statistically significant higher LTS and lower PROMs scores than male. Patients with LTS greater than or equal to 8.35 had significantly lower PROMs, indicative of poorer functional and subjective outcomes. Conclusion Our findings suggest that a higher LTS is associated with inferior subjective outcomes following single-bundle ACL reconstruction in long term. The LTS cut-off value of 8.35 degrees could potentially be used as a reference in preoperative planning and patient counseling. Clinical relevance Understanding the relationship between LTS and ACL reconstruction outcomes could inform surgical planning and postoperative management. These findings highlight the need to consider anatomical variances, such as LTS, when assessing patient-specific risks and recovery expectations, contributing to the advancement of personalized care in sports medicine.

Background: The meniscus-bone angle (MBA), defined as the angle formed by the lateral meniscus with respect to the lateral tibial slope, has recently been identified as an intrinsic factor associated with primary anterior cruciate ligament (ACL) injuries. However, no studies have investigated the influence of MBA and other intrinsic factors excluding the influence of extrinsic factors, especially the level of sports activity. Purpose/Hypothesis: The purpose was to evaluate the intrinsic factors of primary ACL injury while controlling for the effect of sports activity level. It was hypothesized that the MBA would be a significant factor associated with ACL deficiency, irrespective of the sports activity level. Study Design: Cross-sectional study; Level of evidence, 3. Methods: A total of 143 knees in 139 patients with ACL injuries (group A) and matched controls (matched by age, sex, and Tegner Activity Scale score), 143 knees in 143 patients without ACL injuries (group N), were evaluated. Patient height, body weight, body mass index, lateral posterior tibial slope angle (LPTSA), medial posterior tibial slope angle (MPTSA), MBA of the lateral meniscus, and relative posterior inclination angle (RPIA; MBA – LPTSA) were evaluated between the 2 groups. Results: The MBA (group A: 22.3°± 4.5°; group N: 29.1°± 3.7°) and RPIA (group A: 15.0°± 6.1°; group N: 24.1°± 4.1°) were significantly (P < .001) smaller in group A, whereas LPTSA (group A: 7.3°± 3.4°; group N: 5.0°± 2.7°) and MPTSA (group A: 7.1°± 3.0°; group N: 5.6°± 2.4°) were significantly (P < .001) larger. Logistic regression analysis with ACL injury as the dependent variable showed significant differences in MBA (OR, 0.645; 95% CI, 0.579-0.718; P < .01) and LPTSA (OR, 1.3; 95% CI, 1.14-1.48; P < .001) between the 2 groups. The receiver operating characteristic curves for the MBA showed a sensitivity of 76.2% and a specificity of 83.9% with the cutoff value of 25.2° (area under the curve, 0.88). Conclusion: A low MBA with a cutoff value of 25.2° was the most significant independent factor associated with primary ACL injury when controlling for differences in sports activity level.

Background: The cause of mucoid degeneration (MD) of the anterior cruciate ligament (ACL), which is commonly observed on magnetic resonance imaging (MRI) of patients with knee pain, has yet to be elucidated. Despite the limited evidence on the relationship between ACL lesions (injury and MD) and tibial morphologic features (ie, posterior tibial slope), the potential association between the presence of ACL MD and medial and lateral tibial slope (MTS and LTS) has not been well-established. Purpose: To investigate whether MTS and LTS measurements are associated with the presence of ACL MD. Study Design: Cross-sectional study; Level of evidence, 3. Methods: Consecutive knee MRI examinations of patients referred by an orthopaedic surgeon for potential internal joint derangements were identified within a 4-year period. The presence of ACL MD and the MTS/LTS values were assessed by independent expert observers in consensus in a blinded fashion. From 413 consecutive knee MRI scans, a sample of 80 knees, including 32 knees with ACL MD (cases) and 48 knees with normal ACL (controls), were selected using propensity score matching method for age, sex, body mass index, and presence of severe medial tibiofemoral compartment cartilage damage. The association between ACL MD and MTS/LTS was evaluated using conditional regression models. Results: Knees with ACL MD had higher values of LTS (mean ± SD, 7.18° ± 3.58°) in comparison with control knees (5.32° ± 3.35°). Conditional regression analysis revealed a significant association between LTS measurements (not MTS) and ACL MD; every 1° increase in LTS was associated with a 17% (95% CI, 1%-35%) higher probability of having ACL MD. Conclusion: Excessive LTS was associated with the presence of ACL MD, independent of participants’ age, sex, BMI, and cartilage damage severity.

Purpose To document the effectiveness of a novel technique to decrease tibial slope in patients who underwent a proximal opening-wedge osteotomy with an anteriorly sloped plate placed in a posteromedial position. The hypothesis was that posteromedial placement of an anteriorly sloped osteotomy plate with an adjunctive anterior bone staple on the tibia would decrease, and maintain, the tibial slope correction at a minimum of 6 months following the osteotomy. Methods All patients who underwent biplanar medial opening-wedge proximal tibial osteotomy with anterior staple augmentation to decrease sagittal plane tibial slope were included, and data were collected prospectively and reviewed retrospectively. Indications for decreasing tibial slope included medial compartment osteoarthritis with at least one of the following: ACL deficiency, posterior meniscus deficiency, or flexion contracture. Preoperative, immediate postoperative, and 6-month postoperative radiographs were reviewed. Results Twenty-one patients (14 males and 7 females) were included in the study with a mean age of 36.5 years. Intrarater and interrater reliability of slope measurements were excellent at all time points (ICC ≥ 0.94, ICC ≥ 0.85). The osteotomy resulted in an average tibial slope decrease of 0.8 from preoperative (n.s.). At 6-month postoperative, average slope was not significantly different from time-zero postoperative slope (mean = +0.2°). Conclusions The most important finding of this study was that posteromedial placement of an anteriorly angled osteotomy plate augmented with an anterior staple during a biplanar medial opening-wedge proximal tibial osteotomy did not decrease sagittal plane tibial slope. Whether a staple was effective in maintaining tibial slope from time zero to 6 months postoperatively was unable to be assessed due to no significant change in tibial slope from the preoperative postoperative states. The results of this study note that current osteotomy plate designs and surgical techniques are not effective in decreasing sagittal plane tibial slope. Level of evidence IV.

Introduction The aim of this study is to evaluate the effect of the medial and lateral posterior tibial slope (MPTS, LPTS) in patients with acutely ruptured ACL on the menisci. It was hypothesized that medial and lateral meniscus lesions are seen more often with high PTS (posterior tibial slope). We hypothesized that in case of a high tibial slope a possible meniscus lesion is more often located in the posterior horn of the meniscus than in knees with a low tibial slope. Materials and methods We identified 537 patients with ACL insufficiency between 2012 and 2013. Of these, 71 patients were eligible for the study according to the study’s criteria. PTS was measured via MRI and classified into two groups: >10° for high tibial slope and ≤10° for low tibial slope. Any meniscal lesion was documented during arthroscopic ACL reconstruction and evaluated regarding meniscal lesion patterns with high and low PTS, taking into account the type and the location of the tear (anterior horn, intermediate part and posterior horn). Statistical analysis for differences in meniscal lesion was performed using Chi-square tests and McNemar tests for dependent variables. The level of significance was set at p  ≤ 0.05. Results High PTS (MPTS and LPTS) was associated with a higher incidence of meniscal lesions with an odds ratio of 2.11, respectively, 3.44; however, no statistical significance was found. Among the total number of ACL-insufficient knees studied, the meniscal lesion spread more often to the posterior part in the group with a low PTS. In contrast, less damage of the posterior horn of the meniscus could be found in the group with a high PTS. Conclusion High PTS seems to predetermine for meniscal lesion in an acute ACL-insufficient knee. More damage to the posterior part of the menisci could generally be seen but was not associated with a high PTS. There was no statistical significance to support the initial hypothesis. Further research is needed to find out if factors other than tibial slope are risk factors for meniscal lesion in acute ACL injury. Level of evidence IV.