Injuries can occur for a number of reasons, such as from playing sports or being involved in an accident. When the soft tissues of the body are injured, it can result in impairment of normal movement, which may be painful and limited. Physical therapy is often needed to put the patient back on the road to recovery, and this usually involved the practice of therapeutic exercise as a means to restore strength, balance, flexibility, and range of motion.
The patient's movement abilities will be assessed and his or her medical history will be taken by the physical therapist. Based on this information, a personalized training plan of specific exercises will be devised to present the patient with increasing physical challenges that will promote healing. The first step is to overcome pain, and then continuing on to regain bodily endurance, flexibility, and strength.
A combination of different exercises are implemented in a physical therapy program, these are classified by the nature of the movement and how it affects the body. With passive exercise, the muscles don't have to do any work, manual or mechanical force is applied externally, which helps restore normal movement to the joints. Whereas with active exercises, the cooperation of the muscles is needed, either alone or with assistance, this not only improves motion of joints, but also strengthens neuromuscular control.
After the patient has demonstrated that he or she is capable of safely completing flexibility and range of motion activities, it is time to move on to strength and endurance training. Resistance is gradually increased, which has the effect of strengthening muscle and connective tissues which have damaged, naturally improving strength.
Strength exercises are classified as static or dynamic. A static activity does not require movement of the joint, the tension and resistance are equal, and the muscle fibers remain the same length throughout the movement. The angle is the key aspect which makes the difference in this case, so patients are advised to vary the angle of each set, making sure they hold it for several seconds each time, as this is what builds strength.
Dynamic exercises require muscle and joint involvement and can be sub-grouped as isotonic, isokinetic, variable-resistance, and manual movements. What each of these has is common is that it results in concentric and eccentric muscle action, which is the lengthening and shortening of fibers, generating force. This repetitive stretching of muscle-tendon bundles eventually boosts tensile strength.
Isotonic movements are those which lengthen the muscle by means of an externally applied force that imposes a change on the angle of the joint. Examples include the use of free weights, ankle weights, and weight machines. Variable-resistance exercises involve limited force production by the muscles when the joints are in extreme positions of range-of-motion. There are machines to apply resistance relative to force with proper joint alignment. Manual resistance is similar except that it is performed with the therapist's assistance rather than a machine.
Isokinetic exercises are carried out with a fixed speed and equal muscle force and resistance. Machines to generate this type of movement deliver force to match the user's level of muscle resistance and often have adjustable settings in terms of concentric and eccentric actions with varying velocities.
The patient's movement abilities will be assessed and his or her medical history will be taken by the physical therapist. Based on this information, a personalized training plan of specific exercises will be devised to present the patient with increasing physical challenges that will promote healing. The first step is to overcome pain, and then continuing on to regain bodily endurance, flexibility, and strength.
A combination of different exercises are implemented in a physical therapy program, these are classified by the nature of the movement and how it affects the body. With passive exercise, the muscles don't have to do any work, manual or mechanical force is applied externally, which helps restore normal movement to the joints. Whereas with active exercises, the cooperation of the muscles is needed, either alone or with assistance, this not only improves motion of joints, but also strengthens neuromuscular control.
After the patient has demonstrated that he or she is capable of safely completing flexibility and range of motion activities, it is time to move on to strength and endurance training. Resistance is gradually increased, which has the effect of strengthening muscle and connective tissues which have damaged, naturally improving strength.
Strength exercises are classified as static or dynamic. A static activity does not require movement of the joint, the tension and resistance are equal, and the muscle fibers remain the same length throughout the movement. The angle is the key aspect which makes the difference in this case, so patients are advised to vary the angle of each set, making sure they hold it for several seconds each time, as this is what builds strength.
Dynamic exercises require muscle and joint involvement and can be sub-grouped as isotonic, isokinetic, variable-resistance, and manual movements. What each of these has is common is that it results in concentric and eccentric muscle action, which is the lengthening and shortening of fibers, generating force. This repetitive stretching of muscle-tendon bundles eventually boosts tensile strength.
Isotonic movements are those which lengthen the muscle by means of an externally applied force that imposes a change on the angle of the joint. Examples include the use of free weights, ankle weights, and weight machines. Variable-resistance exercises involve limited force production by the muscles when the joints are in extreme positions of range-of-motion. There are machines to apply resistance relative to force with proper joint alignment. Manual resistance is similar except that it is performed with the therapist's assistance rather than a machine.
Isokinetic exercises are carried out with a fixed speed and equal muscle force and resistance. Machines to generate this type of movement deliver force to match the user's level of muscle resistance and often have adjustable settings in terms of concentric and eccentric actions with varying velocities.
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