Increased posterior tibial slope results in increased incidence of posterior lateral meniscal root tears in ACL reconstruction patients

2021 ◽  
Author(s):  
David Bernholt ◽  
Nicholas N. DePhillipo ◽  
Zachary S. Aman ◽  
Brian T. Samuelsen ◽  
Mitchell I. Kennedy ◽  
...  
Keyword(s):  
Acl Reconstruction ◽  
Tibial Slope ◽  
Posterior Tibial Slope ◽  
Posterior Tibial ◽  
Meniscal Root

scholarly journals ACL rupture and posterior tibial slope - how do we handle this?

2020 ◽  
Vol 8 (5_suppl4) ◽  
pp. 2325967120S0028
Author(s):  
Jörg Dickschas
Keyword(s):  
Range Of Motion ◽  
Acl Reconstruction ◽  
Plate Osteosynthesis ◽  
Critical Role ◽  
Tibial Slope ◽  
Posterior Tibial Slope ◽  
Tibial Tubercle ◽  
Tibial Osteotomy ◽  
Posterior Tibial ◽  
Closed Wedge

Aims and Objectives: In recent publications on acl-ruptures and especially on failure of acl reconstruction there comes a strong focus on posterior tibial slope (PTS). ACL reconstructions with a PTS of >12° have an 8 times higher risk of recurrent instability and reconstruction failure. But many questions stay unclear so far-When do we have to correct the tibial slope? How do we correct it? What about simultaneous frontal axis deviations? In this publication a new algorhythm is presented. Materials and Methods: The following aspects have to be evaluated Is the PTS the only dimension of the deformity or do we have to correct the frontal axis simultaneuosly? Performing a anterior closed wedge extension osteotomy: when do we go distal the tuberosity and when do we perform a tuberosity osteotomy and use it as “bio plating”? Osteosynthesis only screws or always plate? Are there indications for a contineous correction, f.e. with a hexapod? Whats the role of preoperative range of motion of the knee (especially extension)? Always tunnel filling in the same surgery? What about PCL insufficiency and low PTS? Results: An algorhythm is presented giving a treatment path for the different questions mentioned. The procedures are shown step by step in clinical examples and surgery documentation for every pathway. Conclusion: Posterior tibial slope plays an critical role in ACl recontruction. In primary ACl tear a slope correction is probably not indicated. In ACL reconstruction failure a analysis of the PTS needs to be done and correction needs to be discussed. Simultaneuous varus deormities need to be corrected by openwedge valgisation - extension high tibial osteotomy (HTO), while as isolated PTS elevation is subject to an anterior closed wedge extension HTO. Preoperative range of motion needs to be respected not to create hyperextension. Osteosynthesis can be perormed with only screws using the tibial tubercle as “bio-plating”. In cases of former bone-tendeon-bone (BTB) ACL reconstruction a tibial tubercle osteotomy should be avoided and a infratuberositeal osteotomy should be performed and stabilized with plate osteosynthesis. In severe postraumatic cases contineous correction of the slope with fixateur externe, f.e. hexapodes, needs to be performed.

Steep Posterior Tibial Slope, Anterior Tibial Subluxation, Deep Posterior Lateral Femoral Condyle, and Meniscal Deficiency Are Common Findings in Multiple Anterior Cruciate Ligament Failures: An MRI Case-Control Study

2019 ◽  
Vol 47 (2) ◽  
pp. 285-295 ◽  
Author(s):  
Alberto Grassi ◽  
Luca Macchiarola ◽  
Francisco Urrizola Barrientos ◽  
Juan Pablo Zicaro ◽  
Matias Costa Paz ◽  
...  
Keyword(s):  
Acl Reconstruction ◽  
Tibial Plateau ◽  
Femoral Condyle ◽  
Tibial Slope ◽  
Lateral Femoral Condyle ◽  
Posterior Tibial Slope ◽  
Control Group ◽  
Medial Tibial Plateau ◽  
Posterior Tibial ◽  
Anterior Tibial

Background: Tibiofemoral anatomic parameters, such as tibial slope, femoral condyle shape, and anterior tibial subluxation, have been suggested to increase the risk of anterior cruciate ligament (ACL) reconstruction failure. However, such features have never been assessed among patients experiencing multiple failures of ACL reconstruction. Purpose: To compare the knee anatomic features of patients experiencing a single failure of ACL reconstruction with those experiencing multiple failures or with intact ACL reconstruction. Study: Case-control study; Level of evidence, 3. Methods: Twenty-six patients who experienced failure of revision ACL reconstruction were included in the multiple-failure group. These patients were matched to a group of 25 patients with failure of primary ACL reconstruction and to a control group of 40 patients who underwent primary ACL reconstruction with no failure at a minimum follow-up of 24 months. On magnetic resonance imaging (MRI), the following parameters were evaluated: ratio between the height and depth of the lateral and medial femoral condyles, the lateral and medial tibial plateau slopes, and anterior subluxation of the lateral and medial tibial plateaus with respect to the femoral condyle. The presence of a meniscal lesion during each procedure was evaluated as well. Anatomic, demographic, and surgical characteristics were compared among the 3 groups. Results: The patients in the multiple-failure group had significantly higher values of lateral tibial plateau slope ( P < .001), medial tibial plateau slope ( P < .001), lateral tibial plateau subluxation ( P < .001), medial tibial plateau subluxation ( P < .001), and lateral femoral condyle height/depth ratio ( P = .038) as compared with the control group and the failed ACL reconstruction group. Moreover, a significant direct correlation was found between posterior tibial slope and anterior tibial subluxation for the lateral ( r = 0.325, P = .017) and medial ( r = 0.421, P < .001) compartments. An increased anterior tibial subluxation of 2 to 3 mm was present in patients with a meniscal defect at the time of the MRI as compared with patients who had an intact meniscus for both the lateral and the medial compartments. Conclusion: A steep posterior tibial slope and an increased depth of the lateral femoral condyle represent a common finding among patients who experience multiple ACL failures. Moreover, higher values of anterior subluxation were found among patients with repeated failure and those with a medial or lateral meniscal defect.

scholarly journals Increased Radiographic Posterior Tibial Slope Is Associated With Subsequent Injury Following Revision Anterior Cruciate Ligament Reconstruction

2019 ◽  
Vol 7 (11) ◽  
pp. 232596711987937 ◽  
Author(s):  
Richard J. Napier ◽  
Enrique Garcia ◽  
Brian M. Devitt ◽  
Julian A. Feller ◽  
Kate E. Webster
Keyword(s):  
Risk Factor ◽  
Acl Reconstruction ◽  
Cruciate Ligament ◽  
Acl Injury ◽  
Tibial Slope ◽  
Posterior Tibial Slope ◽  
Posterior Tibial ◽  
Revision Acl Reconstruction ◽  
Injury Group ◽  
Anterior Cruciate

Background: Increased posterior tibial slope has been identified as a possible risk factor for injury to the anterior cruciate ligament (ACL) and has also been shown to be associated with ACL reconstruction graft failure. It is currently unknown whether increased posterior tibial slope is an additional risk factor for further injury in the context of revision ACL reconstruction. Purpose: To determine the relationship between posterior tibial slope and further ACL injury in patients who have already undergone revision ACL reconstruction. Study Design: Cohort study; Level of evidence, 3. Methods: A total of 330 eligible patients who had undergone revision ACL reconstruction between January 2007 and December 2015 were identified from a clinical database. The slope of the medial and lateral tibial plateaus was measured on perioperative lateral radiographs by 2 fellowship-trained orthopaedic surgeons using a digital software application. The number of subsequent ACL injuries (graft rupture or a contralateral injury to the native ACL) was determined at a minimum follow-up of 2 years (range, 2-8 years). Tibial slope measurements were compared between patients who sustained further ACL injury to either knee and those who did not. Results: There were 50 patients who sustained a third ACL injury: 24 of these injuries were to the knee that underwent revision ACL reconstruction, and 26 were to the contralateral knee. Medial and lateral slope values were significantly greater for the third-injury group compared with the no–third injury group (medial, 7.5° vs 6.3° [ P = .01]; lateral, 13.6° vs 11.9° [ P = .001]). Conclusion: Increased posterior tibial slope, as measured from lateral knee radiographs, was associated with increased risk of graft rupture and contralateral ACL injury after revision ACL reconstruction. This is consistent with the concept that increased posterior slope, particularly of the lateral tibial plateau, is an important risk factor for recurrent ACL injury.

scholarly journals The Reliability of Radiographic Evaluation of the Posterior Tibial Slope in Skeletally Immature Patients

2020 ◽  
Vol 8 (7_suppl6) ◽  
pp. 2325967120S0046
Author(s):  
Jordan Liles ◽  
Gregory Pereira ◽  
Richard Danilkowicz ◽  
Jonathan Riboh ◽  
Amanda Fletcher
Keyword(s):  
Acl Reconstruction ◽  
Proximal Tibia ◽  
Tibial Slope ◽  
Observer Agreement ◽  
Posterior Tibial Slope ◽  
Skeletal Maturation ◽  
Skeletally Immature ◽  
Perfect Agreement ◽  
Posterior Tibial ◽  
Tibial Cortex

Objectives: An association exists between increased posterior tibial slope and anterior cruciate ligament (ACL) injuries in pediatric patients with open physes. Additionally, an increased posterior tibial slope is also associated with increased odds of a further ACL injury after ACL reconstruction. Reliable radiographic measurement techniques are important for investigating limb alignment prior to and following pediatric ACL reconstruction. There have been multiple methods described to measure tibial slope, however, it is unknown if these are reliable in the pediatric population given the altered and developing proximal tibia anatomy during skeletal maturation. The purpose of this study is to evaluate the intra- and interobserver reliability of previously described posterior tibial slope measurements from lateral radiographs of skeletally immature patients. Methods: A retrospective chart review was performed including patients age 6-18 years old with available lateral knee radiographs and no prior surgery or musculoskeletal pathology. 130 patients (ten in each age group) were analyzed by three reviewers. Measurements were made using the Centricity Enterprise Web PACS System (Version 3.0; GE Medical Systems, Barrington, Illinois). The posterior tibial slope was measured using three previously described methods: the anterior tibial cortex (ATC), posterior tibial cortex (PTC), and the proximal tibia anatomic axis (TPAA) (Figure 1). The radiographs were graded by each reviewer twice, performed two weeks apart. The intra- and interobserver agreements were determined using the intraclass correlation coefficient (ICC) with the second set of measurements used for interobserver agreement. ICC estimates and their 95% confident intervals were calculated using SAS statistical package (Version 9; SAS Institute, Cary, North Carolina) based on an individual ratings, absolute-agreement, two-way mixed-effects model. As described by Landis and Koch, the interpretation of the ICC was as follows—slight: 0.00 to 0.20; fair: 0.21 to 0.40; moderate: 0.41 to 0.60; substantial: 0.61 to 0.80; almost perfect agreement: 0.81 to 1.00. Results: There were 130 patients included with an average age of 12 years old (range 6-18 years) with 47.7% (n=62) male patients. The mean measurements were ATC: 12.3 degrees, PTC 7.2 degrees, and TPAA: 9.3 degrees. Measures of intra-observer agreement met almost perfect agreement criteria among all three reviewers for all three methods of measuring the posterior tibial slope with a mean of 0.88 (range, 0.86-0.92) for ATC, 0.85 (range, 0.82-0.87) for PTC, and 0.87 (range, 0.82-0.92) for TPAA. (Table 1) Measures of inter-observer agreement was substantial across all three reviewers for all three methods of measuring with an average of 0.72 (range, 0.70-0.83) for ATC, 0.74 (range, 0.68-0.83) for PTC, and 0.74 (range, 0.68-0.84) for TPAA (Table 1). Conclusion: In accordance with prior reports, the ATC measurement yields larger values and PTC smaller values when measuring posterior tibial slope. The three different methods of measuring demonstrated almost perfect agreement for intra-rater reliability and substantial agreement for inter-rater reliability. There was no difference in reliability across the three different measurement methods. Thus, despite the transforming anatomy during skeletal maturation, the posterior tibial slope can be reliability measured in the skeletally immature population using plain lateral radiographs and any of the three described methods- ATC, PTC, or TPAA. [Figure: see text]

scholarly journals Posterior tibial slope in patients undergoing anterior cruciate ligament (ACL) reconstruction with patellar tendon autograft: Analysis of subsequent ACL graft tear or contralateral ACL tear

2020 ◽  
Vol 8 (7_suppl6) ◽  
pp. 2325967120S0035
Author(s):  
Rodney Benner ◽  
Jonathan Jones ◽  
Tinker Gray ◽  
K. Donald Shelbourne
Keyword(s):  
Acl Reconstruction ◽  
Patellar Tendon ◽  
Revision Surgery ◽  
Tibial Slope ◽  
Posterior Tibial Slope ◽  
Acl Tear ◽  
Posterior Tibial ◽  
Revision Acl Reconstruction ◽  
The Mean ◽  
Tendon Autograft

Objectives: To examine the relationship of posterior tibial slope and rate of graft tear or contralateral anterior cruciate ligament (ACL) tear among patients undergoing primary or revision ACL reconstruction with patellar tendon autograft. Methods: From June 2001 to 2015, 2,796 patients received primary or revision ACL reconstruction with patellar tendon autograft (PTG) and were followed prospectively to determine rate of graft tear and contralateral ACL tear. Minimum follow-up for study inclusion was 4 years. Posterior tibial slope (PTS) was measured preoperatively on digital lateral view radiographs with knee flexion between 30° and 45°. Intersecting lines were drawn along the medial tibial plateau and the posterior tibia; the value of the acute angle at the lines’ intersection was then subtracted from 90° to obtain the PTS. This procedure was carried out by a clinical assistant with interrater reliability of 0.89. Chi-square analysis, Pearson correlation, and t-tests were used to determine relationships between rate of graft tear or contralateral ACL tear and PTS, age, and sex among primary and revision surgery groups. A threshold of PTS ≥10° was used for analysis. Results: The mean age of patients was 24.3±10.2 years for patients undergoing primary ACL reconstruction (n=2472) and 24.3±8.8 years for revision ACL reconstruction (n=324). The mean follow-up time was 11.6 ± 4.0 years. The rate of primary graft tear was 5.1% (n=126), and primary contralateral ACL tear rate was 4.9% (n=121). The rate of revision graft tear was 5.9% (n=19), and revision contralateral tear rate was 1.9% (n=6). Among primary reconstructions, the mean surgery age of patients who experienced graft tear (19.2 ± 6.3 years) or contralateral tear (21.5 ± 9.5 years) were significantly younger (P<.001, P=.0011, respectively) than patients who did not suffer a subsequent tear (24.7 ± 10.3 years). The mean PTS among primary graft tears was 5.4 ± 3.1°, which was statistically significantly higher than the mean of 4.8 ± 2.9° for patients without tear (P=.041). The mean PTS was 4.9 ± 3.3° for patients with contralateral tears, which was not statistically significant different than other groups. Furthermore, primary reconstruction patients with PTS≥10° had a significantly higher rate of graft tear (9.6%) than patients with PTS ≤9° (4.7%) (P=0.004), but not a higher rate of contralateral tear. Among patients undergoing revision surgery, there were no statistically significant differences between graft tear, contralateral tear, and no tear groups with relation to age, PTS, or PTS ≥10°. Among all patients (primary or revision group), there was no difference in PTS between sexes (P=0.278), nor was surgery age significantly correlated to PTS (R=0.0226). Conclusion: Higher PTS appears to be correlated to higher rates of ACL graft tear in patients undergoing primary ACL reconstruction with PTG, particularly when PTS is greater than 10°. However, rate of graft tear remains low (5.1% overall, 9.6% with PTS≥10°). Furthermore, for patients undergoing revision surgery, there is no significant association between PTS and rate of subsequent tear. Therefore, caution should be exercised when considering more radical interventions, such as osteotomy, to prevent retear in patients with high PTS.

Determining the Ratio of Wedge Height to Degree of Correction for Anterior Tibial Closing Wedge Osteotomies for Excessive Posterior Tibial Slope

2021 ◽  
pp. 036354652110441
Author(s):  
Courtney A. Quinn ◽  
Mark D. Miller ◽  
Robert D. Turk ◽  
Daniel C. Lewis ◽  
Christopher M. Gaskin ◽  
...  
Keyword(s):  
Acl Reconstruction ◽  
Tibial Slope ◽  
Posterior Tibial Slope ◽  
Wedge Osteotomy ◽  
Tibial Osteotomy ◽  
Posterior Tibial ◽  
Closing Wedge ◽  
Anterior Tibial ◽  
Slope Correction ◽  
3D Printed

Background: Anterior closing wedge osteotomy of the proximal tibia may be considered in revision anterior cruciate ligament (ACL) reconstruction surgery for patients with excessive posterior tibial slope (PTS). Purpose: (1) To determine the ratio of wedge thickness to degrees of correction for supratubercle (ST) versus transtubercle (TT) osteotomies for anterior closing wedge osteotomies and (2) to evaluate the accuracy of ST and TT osteotomies in achieving slope correction. Study Design: Controlled laboratory study. Methods: The computed tomography (CT) scans of 38 knees in 37 patients undergoing revision ACL reconstruction were used to simulate both ST and TT osteotomies. A 10° wedge was simulated in all CT models. The height of the wedge along the anterior tibia was recorded for each of the 2 techniques. The ratio of wedge height to achieved degree of correction was calculated. ST and TT osteotomies were performed on 3-dimensional (3D)–printed tibias of the 12 patients from the study group with the greatest PTS, after the desired degree of correction was determined. Pre- and postosteotomy slopes were measured for each tibia, and the actual change in slope was compared with the intended slope correction. Results: According to CT measurements, the ratio of wedge height to degree of correction was 0.99 ± 0.07 mm/deg for the ST osteotomy and 0.83 ± 0.06 mm/deg for the TT osteotomy ( P < .001). When these ratios were used to perform simulated osteotomies on the twelve 3D-printed tibias, the mean slope correction was within 1° to 2° of the intended slope correction, regardless of osteotomy location (ST or TT) or whether slope was measured on the medial or lateral plateau. The ST technique tended to undercorrect and the TT technique tended to overcorrect. Conclusion: When anterior tibial closing wedge osteotomies were removed to correct excessive PTS, removing a wedge with a ratio of 1 mm of wedge height for every 1° of intended correction for an ST technique and a ratio of 0.8 mm to 1° for a TT technique resulted in overall average slope correction within 1° to 2° of the target. Clinical Relevance: The calculated ratios will allow clinicians to more accurately correct PTS when performing anterior closing wedge tibial osteotomy.

scholarly journals Posterior tibial slope: the fingerprint of the tibial bone

2021 ◽  
Author(s):  
Philipp W. Winkler ◽  
Brian M. Godshaw ◽  
Jon Karlsson ◽  
Alan M. J. Getgood ◽  
Volker Musahl
Keyword(s):  
Tibial Slope ◽  
Posterior Tibial Slope ◽  
Posterior Tibial ◽  
Tibial Bone
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