Tetanic contraction: Difference between revisions

Tetanic muscle contraction is a type of muscle contraction which occurs in skeletal muscles, resulting in a stronger prolonged contraction. Tetanic contraction occurs through summation of action potentials travelling into a muscle fibre^[1]. As the frequency of the action potentials increases, the muscle has less time to relax and remove the calcium (Ca²⁺) ions in the sarcoplasm which initiated muscle contraction, through the binding to troponin, causing the myosin binding site to be revealed. Once a given frequency has been reached, the muscle fibre doesn't have time to remove all of the Ca²⁺ in the sarcoplasm before the next action potential, resulting in Ca²⁺ remaining in the sarcoplasm. As some Ca²⁺ remains in the sarcoplasm, when the next action potential arrives, more Ca²⁺ is released from the sarcoplasmic reticulum, resulting in a higher amount of Ca²⁺ in the sarcoplasm than in the first action potential. This results in a stronger contraction as more Ca²⁺ is present, so more myosin binding sites are unveiled, therefore more myosin-actin cross bridges can be formed^[2].