Skeletal muscle contraction

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Bea

Cards (44)

  • Neurotransmitter
    A chemical produced and secreted by a neuron which transmits the nerve impulse across the synaptic cleft to the muscle fibre.
  • All or none law
    Depending on whether the stimulus is above a threshold, all muscle fibres will give a complete contraction or no contraction at all.
  • Motor neurone
    A nerve cell which conducts a nerve impulse to a group of muscle fibres.
  • Motor unit
    A motor neuron and the muscle fibres stimulated by its axon
  • Action potential
    Positive electrical charge inside the nerve and muscle cells which conducts the nerve impulses down the neurone and into the muscle fibre.
  • Slow oxidative muscle fibres
    A type of muscle fibre rich in mitochondria, myoglobin and capillaries which produces a small amount of force over a long period of time.
  • Fast glycolytic muscle fibres
    A type of muscle fibre rich in phosphocreatine which produces maximal force over a short period of time.
  • Phosphocreatine
    A high energy compound stored in the muscle cell used as a fuel for very high intensity energy production.
  • Mitochondria
    A structure in the sarcoplasm responsible for aerobic energy production.
  • Myoglobin
    A protein in the muscle responsible for transporting oxygen to the mitochondria.
  • Aerobic work
    Low intensity, long duration, exercise in the presence of oxygen.
  • Anaerobic work
    High intensity, short duration, exercise in the absence of oxygen.
  • Work: relief ratio
    The volume of relief in relation to the volume of work performed.
  • Joint
    An area of the body where two or more bones articulate to create human movement
  • Ligament
    A tough band of fibrous, slightly elastic connective tissue that attaches bone to bone
  • Articular cartilage
    Smooth tissue which covers the surface articulating bones to absorb shock and allow friction- free movement
  • Flexion
    Movement which decreases the angle at a joint, usually to the front of the body
  • Extension
    Movement which increases the joint angle, usually to the back of the body
  • Dorsi-flexion
    Movement at the ankle joint as the toes move up
  • Plantar flexion
    Movement at the ankle joint as the toes move down
  • Abduction
    Movement of the limbs away from the midline of the body
  • Adduction
    Movement of the limbs towards the midline of the body
  • Horizontal extension
    Movement of the limbs away from the midline of the body parallel to the ground
  • Horizontal flexion
    Movement of the limbs towards the midline of the body parallel to the ground
  • Rotation
    Movement whereby articulating bones turn about their longitudinal axis in a screwdriver action
  • Tendon
    A fibrous connective tissue that attaches a muscle to bone
  • Agonist
    A muscle responsible for creating movement at a joint. Also known as the prime mover.
  • Antagonist
    A muscle that opposes the agonist providing a resistance for coordinated movement
  • Fixator
    A muscle that stabilises one part of a body while another moves
  • Antagonistic muscle action
    Paired muscle action. As the agonist muscle shortens to create movement, the antagonist lengthens to coordinate the action
  • Isotonic contraction
    Muscular contraction which changes length during its contraction. This can occur in two ways: concentric and eccentric contraction
  • Concentric contraction
    Muscular contraction which shortens while producing tension
  • Eccentric contraction
    Muscular contraction which lengthens while producing tension
  • Isometric contraction
    Muscular contraction which stays the same length while producing tension
  • Delayed onset muscle soreness
    Pain and stiffness felt in the muscle which peaks 24-72 hours after exercise, associated with eccentric muscle contractions
  • Movement analysis
    Analysis of the type and cause of bodily movement, including knowledge of the joint type , articulating bones, movement pattern, agonist and antagonist muscle action and contraction type
  • Articular / hyaline cartilage
    This covers the ends of the bones at a joint and is there to prevent friction between the articulating bones
  • Joint capsule
    A tough fibrous layer of tissue encasing the joint, which is present to protect and strengthen the joint
  • Synovial membrane
    The inner layer or lining to the joint capsule, which nourishes the articular cartilage and prevents friction
  • Synovial fluid
    Fluid that fills the joint capsule, which nourishes the articular cartilage and prevents friction