Muscle Strength and Balance in Individuals With Joint Hypermobility

Joint hypermobility is a clinical condition characterized by joints having a range of motion beyond their normal limits. Joint hypermobility (JH) makes the joints more vulnerable to trauma in individuals with increased joint range of motion, changes in neuromuscular reflexes and decreased joint position sense. Individuals with (external focus) EF have difficulty in stabilization and end of extension range of motion compared to healthy individuals. Accordingly, findings such as balance problems and an increased risk of falling occur in these patients. Recent evidence suggests that children and adults with JH may be identified with seemingly unrelated, common clinical problems such as chronic fatigue, anxiety, and a range of gastrointestinal functional disorders.

The benefit of an external focus of attention compared to an internal focus of attention to enhance motor skill learning and performance has been consistently demonstrated by a large body of evidence across different populations, tasks, and skill levels . These developments included tasks such as balance, running, agility performance, direction changing performance, force production, horizontal and vertical jumping performance. In general, an external focus of attention has been shown to produce more accurate performance, improved reaction time, and more efficient movement (e.g., reduced muscle activity). According to the constrained action hypothesis, an IF encourages broader involvement of cognitive processes due to greater reliance on conscious control strategies. These strategies interfere with the normal automatic control processes of the motor system. An EF, on the other hand, encourages these automatic control processes, thus further enhancing motor learning. With the use of external focus of attention in neuromuscular training; It has been stated that in addition to improving motor performance and biomechanical changes, the connection between the sensory areas of the brain and the thalamus has increased. It has been found to possibly reduce "noise" in the central nervous system that interferes with fine movement control and affects the outcome of movement; dopamine availability may increase, which may strengthen memory by increasing synaptogenesis processes; It has been stated in publications that newly learned motor skills can be preserved and resistance to stress and fatigue can be achieved. Considering all these situations, investigators think that young individuals with joint hypermobility may have problems with muscle strength and balance skills, which are among the physical fitness parameters. It is important to optimally evaluate physical fitness parameters in order to prevent injuries and ensure the effectiveness of the modalities used in treatment. This study was planned to investigate whether external focus of attention is effective in revealing balance skills and muscle strength at an optimal level compared to internal focus of attention in individuals with joint hypermobility.