Ultrasound Examination of the VMO in Patellofemoral Pain Syndrome

Overview

The aim of this study is to examine in detail the ultrasonographic characteristics of the vastus medialis obliquus and vastus medialis longus muscles in individuals with patellofemoral pain syndrome and to compare these findings with those of healthy individuals. It is anticipated that the results obtained will contribute to a better understanding of the muscle-based mechanisms of PFAS and provide a scientific basis for the development of muscle-specific assessment and intervention strategies in physical therapy and rehabilitation practices.

Patellofemoral pain syndrome (PFAS) is a musculoskeletal problem characterized by pain in the front of the knee joint, commonly seen in young and physically active individuals. The etiology of PFAS is multifactorial and is associated with abnormal loading of the patella within the femoral trochlear groove, alterations in joint biomechanics, and functional deficiencies of the surrounding soft tissues. These mechanical irregularities in the patellofemoral joint can lead to pain, loss of function, and activity limitations over time. The quadriceps femoris muscle group plays a fundamental role in providing dynamic stability to the patella. The vastus medialis obliquus (VMO) and vastus medialis longus (VML) muscles within this muscle group are critical for controlling the patella medially and maintaining its proper alignment within the femoral groove. It is known that the oblique fiber structure of the VMO muscle provides medial stabilizing force to the patella, while the VML muscle contributes to force production during knee extension and overall patellar guidance with its longer fibers. In individuals with PFAS, delayed activation patterns, decreased muscle strength, and morphological changes in the vastus medialis muscle have been reported. However, it is observed in the literature that the VMO and VML muscles are treated as a single structure in most studies, and the separate morphological characteristics of these two muscles and their relationship with patellofemoral pain have not been sufficiently investigated. However, the different anatomical, biomechanical, and functional characteristics of these muscles necessitate that their roles in PFAS pathophysiology be evaluated separately. Ultrasonography is a non-invasive, reliable, and reproducible imaging method for evaluating the morphological characteristics of muscle tissue and is increasingly used in clinical research. Ultrasonographic evaluation allows for the objective examination of muscle thickness, cross-sectional area, and architectural features, thereby providing important information about structural changes in muscle function. The aim of this study is to examine in detail the ultrasonographic characteristics of the vastus medialis obliquus and vastus medialis longus muscles in individuals with patellofemoral pain syndrome and to compare these findings with healthy individuals. It is anticipated that the results will contribute to the understanding of the muscle-based mechanisms of PFAS and provide a scientific basis for the development of muscle-specific assessment and intervention strategies in physical therapy and rehabilitation practices.