Myotonia is a delayed relation of a muscle after a strong relaxation or the inability to relax voluntary muscle after vigorous effort. It can affect any muscle group. Repeated effort will be needed to relax the muscle, although the condition usually improves after the muscles have warmed-up.
The medical term for delayed relaxation of a muscle after a strong contraction is myotonia. This condition is characterized by prolonged muscle stiffness or difficulty relaxing the muscle after it has been contracted. Myotonia can occur in conditions such as myotonic dystrophy or myotonia congenita.
Delayed relaxation of a muscle refers to a condition where a muscle takes longer than normal to return to its resting state after contraction. This can result from fatigue, overuse, or certain medical conditions affecting the muscle's ability to relax efficiently. Treatment may involve rest, stretching, and in some cases, medical intervention.
Both muscle relaxation and muscle contraction require ATP.
muscle relaxation can help you!
Muscle relaxation occurs when the muscle fibers stop contracting and return to their resting state after being stimulated.
Delayed ankle reflex relaxation can be caused by conditions such as nerve damage, spinal cord injuries, electrolyte imbalances, or certain neurological disorders. Additionally, medications that affect the nervous system can also lead to delayed ankle reflex relaxation.
tetanus
Relaxation of a skeletal muscle usually involves the Golgi tendon proprioceptors.
progressive relaxation
Muscle tissue, also called cardiac muscle, are striated and highly resistant to fatigue, thus enables contraction and relaxation which involved in pumping blood.
The contractile response of a single muscle fiber to a single muscle impulse is called a "twitch." A twitch consists of a brief contraction followed by relaxation, and it can be divided into three phases: the latent period, contraction phase, and relaxation phase. The characteristics of a twitch, such as its duration and force, can vary depending on the type of muscle fiber involved.
No, relaxation does not require ATP. ATP is primarily used for muscle contraction. Relaxation occurs when calcium ions are actively pumped out of the muscle cell, which does not require ATP.