Human Musculoskeletal Anatomy

    avatar
    Created by
    Josh

    Cards (49)

    • Cartilage
      Smooth, elastic connective tissue which provides structural support to the body. Cartilage consists of cells called chondrocytes, which produce and are surrounded by extracellular matrix. The spaces between cells are called lacunae.
      View source
    • Types of cartilage
      • Yellow/elastic cartilage (highest density of chondrocytes)
      • Hyaline cartilage (middle density of chondrocytes)
      • White/fibrous cartilage (lowest density of chondrocytes)
      View source
    • Compact bone
      Dense bone which forms the hard external layer of all bones to provide protection and strength to bones.
      View source
    • Organic component of compact bone
      Mostly the protein collagen
      View source
    • Inorganic component of compact bone
      Mostly hydroxy-apatite, containing calcium and phosphate
      View source
    • Collagen
      Provides tensile strength (resistance to being pulled apart) to the bone
      View source
    • Hydroxy-apatite
      Provides compressive strength (resistance to being compressed)
      View source
    • Osteoblasts
      Cells, embedded in the matrix of the bone, which form, repair and reform the inorganic component of the bone
      View source
    • Osteoclasts
      Cells which break down the inorganic component of the bone when the bone is broken down and reformed
      View source
    • Haversian System
      A unit/osteon of compact bone. Haversian systems consist of a central canal containing the bone's blood vessels and nerve fibres, called the Haversian canal, surrounded by lamellae, which are layers of compact matrix containing organic and inorganic tissues. The function of Haversian systems is to help the bone resist bending and fracturing.
      View source
    • Rickets
      A disorder, only found in children, caused by a deficiency of calcium, Vitamin D or phosphorus. Causes weak or soft bones, stunted growth and skeletal deformities.
      View source
    • Osteomalacia
      The same disorder as rickets, except when found in adults. Also causes weak or softened bones. Also caused by a deficiency of Vitamin D, calcium or phosphate.
      View source
    • Osteoporosis/brittle bone disease
      Caused by loss of bone density due to a fall in oestrogen levels due to menopause, or fall in testosterone levels due to alcohol consumption, hypogonadism or use of certain medications. Symptoms include back pain, loss of height and stooped posture, and bone fractures which occur much more easily than might be expected. Treated by use of bisphosphonates, selective oestrogen receptor modulators, parathyroid hormones, supplements of calcium or Vitamin D and HRT/testosterone treatment. Fractures would also be treated using plaster etc.
      View source
    • Skeletal muscle
      Muscle, which is connected to the skeleton, which moves the limbs and other parts of the body.
      View source
    • Myofibrils
      Smaller fibres that make up muscle fibres
      View source
    • Actin
      A thin filament that is one of the two major filaments in myofibrils
      View source
    • Myosin
      A thick filament that is one of the two major filaments in myofibrils
      View source
    • Tropomyosin
      An accessory protein in actin that regulates muscle contraction
      View source
    • Troponin
      An accessory protein in actin that regulates muscle contraction
      View source
    • Sarcomere
      The smallest units of muscle fibres which can contract independently
      View source
    • Muscle contraction
      1. An impulse stimulates the release of the neurotransmitter acetylcholine.
      2. Acetylcholine stimulates the release of calcium ions.
      3. Calcium ions bind to the accessory protein troponin. This causes tropomyosin (another accessory protein) to move away from the active site of actin.
      4. ATP is hydrolysed, which releases energy.
      5. The head of the myosin filament attaches to actin. This is called a cross-bridge.
      6. Myosin pulls the actin filament into the middle of the sarcomere. This shortens the muscle slightly.
      7. ATP attaches to the head of the myosin filament. Myosin detaches from the actin. The cross-bridge is broken.
      8. This repeats until either calcium ions or ATP run out.
      View source
    • Sliding filament theory
      The mechanism of muscle contraction, where the proteins of muscles slide past/over one another, and this results in movement.
      View source
    • Slow-twitch muscle fibres
      Responsible for endurance activities. They contract more slowly, and release large amounts of energy more slowly. They respire mostly aerobically, and therefore have high capillary density and a high concentration of mitochondria. They have a high concentration of myoglobin, and therefore can store more oxygen.
      View source
    • Fast-twitch muscle fibres

      Used for rapid movements. They release small amounts of energy and contract very quickly. They respire mostly anaerobically and therefore have a lower density of mitochondria. They have a low concentration of myoglobin. They have large glycogen stores which are used for glycolysis (the first stage in aerobic or anaerobic respiration which produces pyruvate).
      View source
    • Anaerobic respiration

      Occurs when there is insufficient oxygen for aerobic respiration. After glycolysis, the pyruvate is reduced to lactic acid using reduced coenzymes. The buildup of lactic acid in muscles decreases pH of muscles, which affects the Central Nervous System. Reduced stimulation from the CNS reduces muscle contraction. Anaerobic respiration is also much less efficient than aerobic respiration and produces many fewer molecules of ATP per molecule of glucose that enters into glycolysis.
      View source
    • Creatine phosphate
      Donates a phosphate group to ADP molecules to regenerate ATP during a short burst of activity.
      View source
    • Appendicular skeleton

      The bones of the limbs/that support the limbs.
      View source
    • Bones of the appendicular skeleton
      • Pectoral girdle (clavicle and scapula)
      • Forelimb (humerus, radius, ulna)
      • Hand (carpals, metacarpals, phalanges)
      • Pelvic girdle (hip bone)
      • Hindlimb (femur, patella, tibia, fibula)
      • Foot (tarsals, metatarsals, phalanges)
      View source
    • Axial skeleton

      Bones of the head and torso.
      View source
    • Bones of the axial skeleton
      • Skull (cranium and facial bones)
      • Middle ear ossicles
      • Hyoid bone
      • Rib cage (ribs, sternum)
      • Vertebral column
      View source
    • Types of fractures
      • Closed/simple (bone doesn't break the skin)
      • Open/compound (bone breaks the skin)
      • Stress (hairline crack)
      • Transverse (horizontal fracture)
      • Oblique (angled)
      • Segmental (two locations, same bone)
      • Comminuted (three or more locations, same bone)
      • Compression (bone is crushed)
      View source
    • Causes of fractures
      • Trauma
      • Osteoporosis/some types of cancer (weakens bones)
      • Repeated stress
      View source
    • Vertebral structure

      A series of 33 vertebrae, separated by intervertebral discs. There are also ligaments spanning the length of spine and in-between the vertebrae. The function of the vertebral column is protection of the spinal cord, support of the weight of the body above the pelvis, posture, and movement.
      View source
    • Parts of a vertebra
      • Vertebral body (towards the back of the body, supports the weight of the body, lined with hyaline cartilage)
      • Vertebral arch (towards the sides and front of the body, muscles and ligaments are attached)
      • Vertebral foramen (all vertebral foramen together forms vertebral canal for the spinal cord)
      View source
    • Types of vertebrae
      • Cervical (smaller vertebral body, wider vertebral canal, transverse foramen for vertebral arteries and veins)
      • Thoracic (attached to the ribs, have more limited motility)
      • Lumbar (larger vertebral body, as it bears more weight)
      View source
    • Scoliosis
      Sideways curvature of the spine, most causes largely unknown, can be caused by neuromuscular conditions, or by injury/infection of the spine. Treated by a brace, surgery, or medication.
      View source
    • Functions of the skeleton
      • Support
      • Muscle attachment
      • Protection
      • Production of red blood cells
      • Storage of calcium
      View source
    • Types of joints
      • Movable
      • Slightly moveable
      • Fused/fixed/immovable
      View source
    • Types of movable joints
      • Hinge
      • Ball and socket
      • Pivot
      • Gliding
      • Saddle
      • Planar
      View source
    • Osteoarthritis
      A joint disease resulting from the breakdown of joint cartilage. Causes stiff and painful joints. Caused by joint injury, secondary arthritis, age, and obesity. Treated by lifestyle changes (weight loss, regular exercise, suitable footwear), medication, physiotherapy, and surgery.
      View source
    See similar decks