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This comprehensive overview delves into the classification and functions of muscle groups, including agonists, antagonists, synergists, and fixators. It covers the naming conventions based on muscle fiber direction, size, location, shape, and action. The structure of skeletal muscle is examined, detailing the organization of muscle fibers, fascicles, and myofibrils, alongside the roles of tropomyosin and troponin in muscle contraction. Furthermore, it explores smooth and cardiac muscle characteristics, along with respiratory processes like anaerobic and aerobic respiration, and the implications of muscle fatigue and oxygen debt.
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Muslces Group 4
Classification • Agonist: prime mover • Antagonist: reverses agonist • Synergist: prevents rotation • Fixator: stabilizes the origin of the prime mover
Naming (LADSNOR!) • Direction of the muscle fibers • Ex) transverse, rectus, oblique • Relative size of muscles • Ex) major, minor • Location • Number and location of origin • Shape • Action of the muscle • Ex) extensor, flexor
Origin and Insertion • Origin: immovable end • Insertion: movable end
Characteristics • Muscle cells are elongated • Contractions are due to the movement of microfilaments
Structure (cont.) • From outermost to innermost • Muscle>Fascicles>Muscle fibers>Myofibril>Thick and thin filaments • Fascia>Epimysium>Perimysium>Endomysium
Tissue layers of a skeletal muscle • Fascia: covering the whole muscle • Epimysium: lies beneath the fascia • Perimysium: separates cells of fascicle • Endomysium: separates individual muscle fibers
Fascicle • Collection of muscle fibers • Covered by blood vessels and axon of motor neurons • Each muscle fibers is separated by endomysium • It is surrounded by sarcolemma • Contains nucleus and sarcoplasmic reticulum • Each muscle fibers is composed of myofibril
Sarcomere • It is a repeating pattern formed by striations
Sarcomere (cont.) • Troponin: protein that works with tropomyosin to block muscle contraction until calcium ions are present • Transverse tubule: set of membranous channels that contain extracellular fluid
Smooth muscle • It is shorter than skeletal muscle, and has single centrally located nuclei • It lacks troponin • It alternates between a state of relaxation and contraction
Cardiac muscle • Composed of striated cells, containing a single nucleus • It has a well developed sarcoplasmic reticulum • Its transverse tubule is larger than skeletal muscle’s
Contraction • Acetylcholine(ACh) is the neurotransmitter that contracts skeletal muscles • ACh binds with receptors on the motor endplate, which causes muscle impulse • Calcium ions diffuse from sarcoplasmic reticulum to sarcoplasmand binds to troponin
Contraction (cont.) • Tropomyosin moves, which allows actin and myosin to link • Actin is pulled to the center of the sarcomere, which allows muscle fibers to shorten
Respiration • Anaerobic breaks down glucose and releases ATP • Aerobic requires oxygen to produce ATP
Oxygen debt • When cellular respiration is not able to sustain the muscle, lactic acid diffuses into the blood stream • This creates an oxygen debt, that must be repaid later
Muscle fatigue • When a muscle loses its ability to contract • Most likely occurs from accumulation of lactic acid
