The aim of this study was to determine whether there is a difference in the presence of the lateral intercondylar ridge and the lateral bifurcate ridge between patients with sub-acute and chronic ACL injuries. We hypothesized that the ridges would be present less often with chronic ACL deficiency. Twenty-five patients with a chronic ACL injury were matched for age and gender to 25 patients with a sub-acute ACL injury. The lateral intercondylar ridge and lateral bifurcate ridge were scored as either present, absent, or indeterminate due to insufficient visualization by three blinded observers. The kappa for the three observers was .61 for the lateral intercondylar ridge and .58 for the lateral bifurcate ridge. The lateral intercondylar ridge was present in 88% of the sub-acute patients and 88% of the chronic patients. The lateral bifurcate ridge was present in 48% of the sub-acute and 48% of the chronic patients. This matched-pairs case–control study was unable to show a difference in the presence of the femoral bony ridges between patients with acute and chronic ACL injuries. The authors would suggest looking for the ridges as a landmark of the native ACL insertion site during ACL reconstruction in both acute and chronic ACL injuries.
Introduction
Recently, there has been an increase in interest in anatomic anterior cruciate ligament (ACL) reconstruction. This means using the native ACL insertion sites to determine the tunnel positions. It is hypothesized that this method will more closely restore the native anatomy of the ACL and may decrease the risk of developing early osteoarthritis. In acute patients, the remnants of the ACL can often be seen and used to determine the location of the insertion sites. However, in chronic patients, the remnants are often (partially) gone, and the surgeon has to rely on other landmarks, such as osseous landmarks, to determine the tunnel positions. The lateral intercondylar ridge is an osseous landmark that was first described by Clancy [6], who called it the residents’ ridge. It is located on the medial wall of the lateral femoral condyle and runs from anterior to posterior with the knee in 90 degrees of flexion (operating position). Since its discovery, the ridge has been described in multiple anatomical studies. Purnell et al. [10] concluded that it clearly demarcates the anterior-most border of the origin of the ACL. Farrow et al. studied the morphology of the intercondylar notch in 200 human femurs and found the lateral intercondylar ridge to be present in 194 of them. Ferretti et al. [4] recently described an additional ridge perpendicular to the lateral intercondylar ridge, separating the anteromedial (AM) and posterolateral (PL) bundle insertion of the ACL; the lateral bifurcate ridge.
It is suspected that the lateral intercondylar ridge exists because of osseous remodeling in response to stress from the ligament fibers, in accordance with Wolff’s law [5]. This might be why the ridge is more clearly defined in young active people, as they put more strain on their ACL [8]. If this is true, when there is no ACL (in case of chronic insufficiency), the ridge could possibly gradually disappear. It has been suggested by surgeons that in patients with chronic ACL injury, the ridge is less visible or not visible at all. However, to our knowledge, this has never been proven in literature. Our hypothesis is that both the lateral intercondylar ridge and the lateral bifurcate ridge are present less often in patients with chronic ACL injury than in patients with acute ACL injury.
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Materials and methods
This was a matched-pairs case–control study. Between 2005 and 2009, all patients who underwent ACL reconstruction after a chronic ACL injury were included. Chronic ACL injury was defined as the patient being ACL deficient for longer than 12 months before undergoing reconstructive surgery. These patients were then matched for gender and categorized age (<14 years, 14–18, 18–23, 23–30, 30–45, or 45+) to patients with sub-acute ACL injuries with ± one age category accepted. Sub-acute was defined as a time shorter than 6 months between the ACL injury and the reconstructive surgery. A 6-month time period was left between the two groups in order to prevent overlap between the chronic and the sub-acute patients. Patients with previous injury to or surgery on the ipsilateral knee were excluded. Three orthopedic surgeons trained in sport medicine independently reviewed the arthroscopic footage of all patients and scored the presence of the lateral intercondylar ridge and lateral bifurcate ridge as either present, absent, or indeterminate due to insufficient visualization. Patient age, gender, body mass index (BMI), and the surgical delay were recorded. This study was approved by the Institutional Research Board (IRB).
Statistical analysis
The Kappa inter rater reliability for multiple raters was calculated. The ratings of one observer were used for further statistical analysis. When one of the ridges was scored as indeterminate, those data were considered missing. The demographic data were compared between the groups, using a paired t-test for continuous variables and the McNemar test for nominal variables. The presence of the lateral intercondylar and bifurcate ridge was expressed in percentages for both groups. The difference between the sub-acute and chronic group was calculated using the McNemar test. The a priori alpha level for statistical significance was set a P < .05.
Results
The kappa for the three observers was .61 for the lateral intercondylar ridge and .58 for the lateral bifurcate ridge.
Subject demographic data are displayed in Table 1. There was no difference between the groups for age, gender, and BMI. The surgical delay was different between the groups, with a mean of 2 months for the sub-acute subjects and 29 months for the chronic subjects (P < .001).
Table 1
Demographic data of the included subjects
Acute
Chronic
P value
Mean or ratio
Range
Mean or ratio
Range
Age
28
16–51
27
16–63
NS
Gender
Male: female
10:15
10:15
NS
BMI
25
20–38
26
20–38
NS
Surgical delay
2
1–6
29
12–109
<.001ǂ
SD standard deviation, BMI body mass index
ǂ The surgical delay was significantly different between the chronic and sub-acute group
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The lateral intercondylar ridge was present in 88% of the sub-acute patients and 88% of the chronic patients (Fig. 1). It was scored as indeterminate in 4% and absent in 8% of the subjects in both groups. The lateral bifurcate ridge was present in 48% of both the sub-acute and chronic patients (Fig. 1). It was scored as indeterminate in 20 and 24% and absent in 32 and 28% of the sub-acute and chronic subjects, respectively (Figs. 2, 3).
Fig. 1
Arthroscopic anteromedial portal view of the right knee in 90° of flexion. Both the lateral intercondylar ridge and lateral bifurcate ridge are present
Fig. 2
Arthroscopic anteromedial portal view of the right knee in 90° of flexion. The lateral intercondylar ridge is present, but the lateral bifurcate ridge is absent
Fig. 3
Arthroscopic anteromedial portal view of the right knee in 90° of flexion. Both the lateral intercondylar ridge and lateral bifurcate ridge are absent
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For objects that were scored as indeterminate, the presence of the ridges could not be accurately determined. Therefore, for further statistical analysis, these patients were considered missing data, leaving 23 paired subjects in each group for comparison of the presence of the lateral intercondylar ridge. There was no difference between the sub-acute group and the chronic group (P = 1.00). Fifteen paired subjects in each group were available for comparison of the presence of the lateral bifurcate ridge. There was no difference between the sub-acute group and chronic group (P = 1.00).
Discussion
The most important finding of the present study was that it was unable to identify a difference in the presence of the femoral bony ridges between patients with acute and chronic ACL injuries. It showed that the lateral intercondylar ridge is present in 88% of both acute and chronic ACL injuries. The lateral bifurcate ridge is present in 48% of acute and chronic patients. Farrow et al. [2] could identify the lateral intercondylar ridge in 97% of their specimens. However, these were femurs from a museum collection that had no soft tissue left and were studied in real time without the use of an arthroscope. It was not known if these subjects had ACL injuries.
A limitation of this study is that the presence of the ridges was determined from arthroscopic videos, not during the surgery by the observer. Therefore, the observer was unable to personally maneuver the scope and probe the ridges to determine their presence. However, we did find good agreement for the lateral intercondylar ridge among the three observers. The inter rater agreement for the lateral bifurcate ridge was only moderate. A possible explanation for this is that the observers found that this ridge was more difficult to visualize, resulting in the ridge often being scored as indeterminate. Based on the good inter rater agreement for the lateral intercondylar ridge, we felt it was justified to use the ratings of one observer for statistical analysis purposes. During this statistical analysis, an indeterminate score was considered as missing data. There were two patients in which the lateral intercondylar ridge could not be determined, one in the sub-acute group and one in the chronic group. Unfortunately, these two subjects were not paired to one another, thus when the paired analysis was done, two subjects in each group were excluded from the analysis, resulting in 23 patients in both groups, instead of 25. A similar situation occurred for the lateral bifurcate ridge, resulting in merely 15 available subjects in each group for that comparison.
Another limitation of the current study is the small sample size. This is attributed to the demographics of the practice sampled in this study, which primarily consists of acute ACL injuries. With the available sample size of 25 subjects per group, we were unable to find any difference in the presence of both ridges. In order to conclude that there is no difference in the presence of the ridges between patients with acute and chronic ACL injuries, a post-hoc power analysis was performed with a desired power of .90. To find a 5% difference in the presence of the intercondylar ridge, assuming that the ridge is present in 90% of the patients with an acute ACL injury, we would need over 500 subjects per group. Based on our results and power analysis, we believe that the observed difference between acute and chronic patients is not clinically relevant.
A strong point of this study was that it was a matched-pairs case–control study. There was no influence of gender or age on the results of this study. An explanation for the inability of the current study to find a difference in the presence of the ridges between patients with chronic and acute ACL injuries could be that the presence of the ridges is influenced by other factors. One of which could be age. It is possible that more pronounced ridges may result as people age, due to the sustained force of the ACL on the femur for a longer period of time. Another factor of influence could be an individual’s activity level. This was not recorded in the present study. More active people have more force of the ACL, possibly resulting in greater ridge formation in young active people [8].
The range in surgical delay in the chronic group was 12–109 months, but it may take longer after ACL injury for the bony ridges to disappear. It is possible that this process takes many years. However, if this is the case, the clinical significance of when not to expect the ridge to be present would be small, since it is rare to perform reconstructive surgery on patients years after their injury. Furthermore, it is possible that there is no difference in the presence of the ridges between patients with acute and chronic ACL injuries. Surgeons who suggest that the ridge disappears may be biased by knowing the patient’s history before starting the procedure. When the ACL remnants are no longer visible, it may be more difficult to locate the ridges. Sometimes, the ridge cannot be seen but only felt when the wall of the notch is carefully probed [5]. On the other hand, the observers in our study were specifically looking for both ridges and had no knowledge of patient’s history.
If there is little difference in the presence of the ridges in acute and chronic ACL injuries, this would be beneficial to ACL reconstruction. The ridges are an important landmark for determining the native ACL insertion site [9]. In chronic injuries, when the femoral remnant has disappeared, the ridges can still be used to locate the ACL footprint. Even during ACL revision surgery, if the previous tunnel was drilled outside of the native insertion site, the ridges could inform the surgeon where to place the new tunnels [11]. The ridges can also be very useful during navigation-assisted reconstruction [1, 3, 7, 12]. They can even be used to locate the native ACL insertion site in an uninjured knee, using three-dimensionally reconstructed computer tomography (CT) scans (Fig. 4).
Fig. 4
Three-dimensionally reconstructed CT-scan of the right femur of a subject without ACL injury. Both the lateral intercondylar ridge and the lateral bifurcate ridge can be identified
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Conclusions
The aim of this matched-pairs case–control study was to determine whether there is a difference in the presence of the lateral intercondylar ridge and the lateral bifurcate ridge between patients with acute and chronic ACL injuries. We hypothesized that the ridges would be present less often after chronic ACL deficiency. There was good agreement on the presence of the lateral intercondylar ridge and moderate agreement on the presence of the lateral bifurcate ridge. We found that the lateral intercondylar ridge was present in 88% of the acute patients and 88% of the chronic patients. The lateral bifurcate ridge was present in 48% of the acute patients and 48% of the chronic patients. To definitively conclude that there is no difference in the presence of the ridges between acute and chronic ACL injuries, more than 1000 subjects would be needed. We believe that such a small difference would probably not be clinically significant. The authors would suggest looking for the ridges as a landmark of the native ACL insertion site during ACL reconstruction in both acute and chronic ACL injuries.
Acknowledgments
The authors did not receive any outside funding or grants directly related to the research presented in this manuscript. Our department receives funding from Smith and Nephew to support research related to reconstruction of the ACL. The research that forms the basis for this manuscript was done at our institution.
Open Access
This article is distributed under the terms of the Creative Commons Attribution Noncommercial License which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
Open AccessThis is an open access article distributed under the terms of the Creative Commons Attribution Noncommercial License (https://creativecommons.org/licenses/by-nc/2.0), which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.
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