Movement in humans

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Created by
Karina Ip

Cards (46)

  • Movement
    Brought by musculo-skeletal system: bones, muscles, joints, tendons, ligaments
  • Skeleton structure
    • Vertebrates have an endoskeleton
    • Human skeleton is made up of bones and cartilages
  • Bones
    • Living tissue composing of calcium salts (calcium phosphate), living cells, proteins and water
    • Has blood vessels, arteries supply nutrients to bones
  • Soups cooked with trotters are not a good source of calcium salts as calcium salts are not readily dissolved in water
  • Calcium salts can dissolve in vinegar as minerals can dissolve
  • Compact bone
    Dense and hard
  • Compact bone
    • Forms outer shell of all bones and shafts of limb bones
    • Provides great strength for supporting the body's weight
  • Osteoporosis
    • Bone disease caused by more bone cells being reabsorbed than being deposited
    • Results in progressive loss of bone density and thinning of bone tissue
    • More porous and easy to break
  • Preventing osteoporosis
    1. Take in more calcium for bone formation
    2. Take in more vitamin D to help the absorption of calcium from food
    3. Do regular weight-bearing exercise to stimulate bone formation
  • Functions of bones
    • Supporting and maintaining body shape
    • Protecting internal organs eg brain, heart, lungs, spinal cord
  • When bones are soaked in HCl, they become soft and flexible because the inorganic component is dissolved away
  • Structure of bones
    • Hollow space in the middle filled with fatty tissue called yellow bone marrow
    • Tiny cavities at both ends filled with red bone marrow where red and white blood cells are produced
  • Cartilage
    • A matrix of collagen protein
    • Contains less minerals
    • More elastic and flexible than bones
    • Found on the ends of bones
  • Functions of cartilage
    • Acts as shock absorber and reduces friction between two bones when moving against each other
    • Gives shape to structures eg ears and nose
    • Supports the wall of trachea and bronchi
  • Cartilage has no blood vessels and nerves, unlike bones
  • Wearing of cartilage causes serious pain as it exposes the pain receptors which are stimulated
  • Framework of the human skeleton
    • Axial (central axis): skull, rib cage, vertebral column
    • Appendicular (both sides): girdles, limb bones
  • Function of axial skeleton
    Mainly for support and protection of internal organs
  • Function of appendicular skeleton
    Mainly for movement
  • Features of skull
    • Consists of cranium and facial bones
    • Cranium bones fused together at sutures (immovable joint)
    • Protects brain and sense organs
    • Upper jaw and cranium is an immovable joint
    • Lower jaw and cranium is a movable joint
  • Features and functions of vertebral column
    • Supports the weight of upper body
    • S-shape acts as a spring to absorb shock during movement
    • Provides surfaces for muscle attachment to maintain body upright
    • Protects spinal cord
    • Compressible intervertebral discs allow bending and act as shock absorber
  • Features and functions of rib cage
    • Held by sternum in front and vertebral column at the back
    • Protects lungs and heart
    • Helps bring about breathing actions
  • Function of limb bones
    Allow movement of the body
  • Features and functions of girdles
    • Flat bones
    • Pectorial girdles (shoulders) attach arms to axial skeleton
    • Pelvic girdle (hip) attaches legs to axial skeleton
  • Functions of the skeleton
    • Support body weight and give shape
    • Allow movement (skeleton: surfaces for muscle attachment; bones and muscles together)
    • Protect organs (skull, vertebral column, rib cage)
    • Produce blood cells (red bone marrow)
    • Store minerals and lipids (bones, yellow bone marrow)
  • Joint
    Junction where two or more bones meet
  • Types of joints
    • Immovable
    • Movable (hinge joints and ball-and-socket joint)
  • Movable joints
    • Consist of synovial cavity, ligament, synovial membrane, synovial fluid, membrane
  • Ligament
    Tough elastic fibres forming capsule at joint, hold bones together and limit degree of movement to prevent dislocation
  • Synovial membrane
    On inner surface of capsule, secretes synovial fluid into synovial cavity
  • Synovial fluid
    Acts as a lubricant to reduce friction between bone surfaces during movement, nourishes cartilage cells
  • Cartilage
    Acts as shock absorber to reduce friction between bones and protect them from wearing away
  • Osteoarthritis
    Top layer of cartilage breaks down and wears away, bones rub together causing pain, swelling, loss of motion, joint may lose normal shape and bone spurs may grow
  • Types of movable joints
    • Hinge joint (eg elbow, knee, fingers, toes)
    • Ball-and-socket joint (eg shoulder, hip)
  • Function of hinge joints
    Allow movement of bones in one plane only
  • Function of ball-and-socket joints
    Allow rotational movement of bones in (almost?) all directions, ball-shaped head of one bone fits into cup shaped socket of other bone
  • Skeletal muscles

    Muscle consists of muscle fibres which are elongated in shape and able to contract, with light and dark bands (striated), under conscious control (voluntary muscles)
  • Transmission of nerve impulses across neuromuscular synapse / junction
    1. Nerve impulses arrive at motor neurone endings
    2. Neurotransmitters released from synaptic vesicles at presynaptic membrane
    3. Neurotransmitters diffuse across synaptic cleft to muscle fibres
    4. Neurotransmitters bind to receptors on muscle fibre membrane and stimulate nerve impulses
    5. Nerve impulses spread along muscle fibres and trigger muscle contraction
  • Having large number of mitochondria in the synaptic knob / nerve ending of motor neurone is important for the synthesis / secretion / resynthesis of neurotransmitter
  • Muscle contraction
    Maximal contraction exists, response of motor unit is all or none (contract simultaneously), strength depends on number of motor units activated