Abstract
Introduction: The purpose of our investigation was to determine if tibial lateral meniscus insertions (anterior and posterior horn) can precisely and reproducibly be determined on preoperative radiographs. Bony landmarks and their topographic relations to the meniscus insertions were described, measured and statistically evaluated. We concentrated on the lateral meniscus because there are many reasons to restrict the indications for meniscus replacement on the lateral compartment.
Methods: We prepared the lateral meniscus insertions in 22 tibial plateaus from 11 body donors. Insertion site outline was performed on anterior and posterior horns with radio opaque 1.6 mm steal balls. Anteroposterior and lateral radiographs were performed. On these radiographs, different landmarks of the tibial head were defined and their distances measured (width, depth, distance from lateral tibia border to meniscus midpoint, distance from lateral tibia border to lateral tibial spine). These measures were statistically evaluated and percent values for meniscus insertion midpoint position were determined.
Results: On anteroposterior radiographs, from lateral to medial, the anterior meniscus midpoint was located on 45.1 % ± 1.3 % of the tibial width, the posterior meniscus midpoint on 49.8 % ± 1.9 % of the tibial width. On lateral radiographs, from anterior to posterior, the anterior meniscus midpoint was located on 41.9 % ± 3.2 % of the tibial depth, the posterior meniscus midpoint on 72.1 % ± 2.3 % of the tibial depth. With linear regression analysis, we could show that the lateral meniscus insertions have constant relations, as well to the dimensions of the tibia plateau as to the lateral tibial spine.
Conclusions: We think that it is possible to determine precisely and reproducibly on preoperative anteroposterior and lateral radiographs the insertions of the lateral meniscus. Our results and the method to determine preoperatively meniscus insertions might bring decisive advantages considering the optimal fixation of meniscus transplants, enhancing biomechanical conditions and possibly improving postoperative results.
Correspondence should be addressed to Ms Larissa Welti, Scientific Secretary, EFORT Central Office, Technoparkstrasse 1, CH-8005 Zürich, Switzerland