Abstract
Many researchers have studied the structures of the anterolateral part of the knee. Several researchers have investigated the existence of the anterolateral ligament (ALL) and its frequency has been inconsistently reported. Therefore, we assessed whether the ALL is the anatomical true ligament and studied the morphological variations of this structure. Sixty-four Korean adult cadavers (120 knees, mean age: 79.1 years) were used for this study. The lateral part of the knee joint was carefully dissected with internal rotation of the tibia. We checked the existence and morphological features and measured the dimensions (length, width, and thickness) of the ALL. The ALL was clearly distinguished from the capsulo-osseous layer of the iliotibial tract and runs obliquely from the lateral femoral epicondyle to the tibial plateau. The ALL was found in 42.5% of the samples, and 15 cadavers had ALLs in both knees. There was no prevalence difference between females and males. Most of the anterior border of the ALL was blended with the knee capsule. Therefore, we concluded that this structure is a local thickening of the capsule in the anterolateral region of the knee, where it possibly developed against some external physical stress. Therefore, the ALLs in this present study can be defined as a capsular ligament of the knee and, as per the nomenclature of the capsular ligament, can be also called the ‘anterolateral (capsular) ligament'.
Highlights
In 1879, Dr Paul Segond described ‘a pearly, resistant, fibrous band which invariably showed extreme amounts of tension during forced internal rotation’ [1]
The anterolateral ligament (ALL) could be observed at the anterolateral part of the knee joint capsule after the capsulo-osseous layer of the iliotibial tract (ITT) was reflexed
We found that the fibres of the anterior border of the ALL were intertwined with the anterior capsule of the knee (Figure 5)
Summary
In 1879, Dr Paul Segond described ‘a pearly, resistant, fibrous band which invariably showed extreme amounts of tension during forced internal rotation (of the knee)’ [1] He suggested that this structure exists in the anterolateral region of the tibia and is related to avulsion fracture pattern in the tibia’s anterolateral proximal aspect. Some authors [9,10,11,12] have reported that they could not find ‘a distinct ligamentous structure’ that stands out in the anterolateral part of the knee They only described the location of capsular thickening at the anterolateral part of the knee where the ALL has been claimed to be found by other authors.
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