What is clinical biomechanics?
The body is a comprehensive number of systems capable of responding to the internal and external environment almost immediately. This results in the ability to respond and act on the onslaught of changes that occur every second of the day. Biomechanics is a science for decrypting how mechanical forces affect the inner functioning of the human body. Clinical biomechanics applies these findings to everyday movement.
The aim of clinical biomechanics is to develop therapeutic protocols and methods that help to increase the quality of life of individuals suffering from health, diseases or diseases that inhibit the ability to move and function properly. By providing a "looking glass" to how the body reacts and performs, and by using biomechanical principles for specialized movement, clinical biomechanics can also be a useful tool for maximizing or increasing performance in athletes. Moreover, this scientifically based practice is beneficial in reducing or preliminary -ventilation injuries.
Clinical biomechanics methodologies require a number of doctors from doctors and surgeons to movement experts such as physiotherapists, ergotherapists, athletic coaches and orthotic engineers. Ortototic engineers design their own assistance equipment for problems associated with movement dysfunction or problems with the location of normal movement. For example, an "AFO" or ankle foot is a hardened system designed by an orthotist and mounted individuals to maximize the function of the legs. This can be achieved by disabling ankle movement or supporting ankle by limiting the range of movement if the ankle can no longer move properly.
Clinical biomechanics is a bridge between research and the actual application of the correct movement in a real life situation. Everything from the extent of the muscle strength of the affected part of the body to the overall combination of motion patterns. For example, when an individual has trouble walking, the entire walking pattern is examined. The obvious problem may be the inability of anchorPull the leg when the leg turns, but there may also be an essential cause, such as the weak muscles of the hip and leg.
The use of clinical biomechanics is also an important factor in increasing the performance of athletes. Observation and evaluation of the way in which the athlete performs sports or biomechanical analysis can detect a slight abnormality in movement samples. Using acceptable biomechanics research theories on these fine movement irregularities can significantly improve the performance and efficiency of movement and therefore prevent future injuries.