Multiple Sclerosis Clinical Trial
Official title:
Muscle Architecture of Lower Extremity In Multiple Sclerosis
The aim of this study was to determine the muscle architecture of the lower extremity muscles (pennation angle, muscle fiber length and muscle thickness) in patients with multiple sclerosis. Lower extremity muscles of patients with multiple sclerosis and healthy individuals; rectus femoris, biceps femoris, tibialis anterior, gastrosoleus and gastrocnemius muscles will be examined by ultrasound method.
Multiple sclerosis (MS) is characterised by complex and heterogeneous symptoms, often leading
to reduced quality of life and impaired functional capacity. The latter is related to reduced
muscle strength of predominately the lower limbs . The mechanisms underlying the observed
strength deficits are of muscular as well as neural origin . At the whole muscle level, a
number of studies have examined skeletal muscle characteristics of MS patients, with some
studies but not all, reporting loss of muscle mass and decreased or comparable maximal muscle
strength.
However, there is no study describing the features of lower extremity muscle architecture in
multiple sclerosis. Muscle architecture is defined as the alignment of muscle fibers with
respect to the axis of force. Although the diameters of the muscles of different sizes are
quite similar to the diameters of the fibers, the sequences of these fibers contain several
differences. The alignment of the muscle forming fibers has a significant effect on the force
of muscle formation. The parameters that determine muscle architecture characteristics are
the muscle fiber length, pennation angle, the physiological cross-sectional area. For each
muscle these parameters may differ from each other. Any type of load in the case is the
result of an adaptation process that results in muscle development. Muscle architecture
allows the macroscopic understanding and interpretation of this adaptation process.
Determining the muscle architecture of multiple sclerosis patients by ultrasound will guide
the rehabilitation process.
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