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SKELETAL SYSTEM
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SKELETAL SYSTEM FUNCTIONS Support (Primary function) Movement (Passive) Protection of Vital Organs Mineral Storage Blood Cell Formation (Hematopoiesis or Hemopoiesis)
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OSSEOUS C.T. Compact (dense) Bone -Hard & heavy -Forms surface & diaphysis -Osteons = building blocks Cancellous (spongy) Bone -Lightweight -Fills epiphyses, Contains red marrow -Trabeculae = building blocks Matrix -Mineral Salts (hardness) -Collagen (strong & flexible)
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Two Types of Bone
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Compact Bone
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Spongy Bone
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Bone Cells Osteoblasts – Secrete to form bone Osteocytes *Mature bone cells *Maintain matrix *“Trapped” osteoblasts Osteoclasts – destroy bone *Enzymes digest protein *Acids dissolve minerals *Forms Marrow Cavity; Involved in Remodeling
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Osteoblasts & Osteocytes
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SEM Osteocyte
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Osteoclast
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SEM Osteoclast http://www.ectsoc.org/gallery/images/5lg.jpg http://www.ectsoc.org/gallery/images/5lg.jpg
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SKELETAL DIVISIONS Axial Appendicular
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Classification: Shape & Location Long Short Flat Irregular Sesamoid (develop in tendons; patella) Sutural (between cranial bones)
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Torus Bones
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LONG BONE ANATOMY Diaphysis = shaft made of compact bone Epiphyses = ends filled with spongy bone containing red marrow Articular cartilage covers epiphyses Epiphyseal line indicates earlier location of epiphyseal (growth) plate
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LONG BONE ANATOMY Periosteum is C.T. covering bone Endosteum is C.T. lining medullary cavity Medullary cavity contains yellow marrow Nutrient Foramina – holes allowing for penetration of arteries
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BONE DEVELOPMENT Ossification = replacement of other connective tissue with bone Begins during the 2 nd month of gestation Size increases until late teens (females) to mid-twenties (males) Two different ossification processes: -Intramembranous bone formation -Endochondral bone formation
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INTRAMEMBRANOUS OSSIFICATION Occurs in flat bones of skull, clavicles, mandible Begins with fibrous C.T. membrane Membrane calcifies & ossifies into bone Fontanels -“Soft spot”, not yet ossified -Allows for birth & brain growth
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Process of Intramembranous Ossification Embryonic cells form osteoblasts Osteoblasts produce matrix = ossification center Matrix calcifies Matrix traps osteoblasts, Osteocytes form
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Process of Intramembranous Ossification Trabeculae form Surface trabeculae form compact bone
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ENDOCHONDRAL OSSIFICATION Occurs in remainder of skeleton Begins with hyaline cartilage model Cartilage is replaced by bony tissue Steps include: -Bone collar forms -Cartilage in shaft calcifies -Primary Ossification center forms in shaft -Secondary Ossification centers in epiphyses
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Formation of Bone Collar & Primary Ossification Center
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Formation of Secondary Ossification Centers
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Epiphyseal Plates & Articular Cartilage
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APPOSITIONAL GROWTH Bone Widens Osteoclasts enlarge medullary cavity Osteoblasts add bone to surface of diaphysis
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BONE REMODELING Replacement of old bone with new bone Involves resorption (osteoclasts) & deposition (osteoblasts) Alters bone shape in response to stress Benefits: -Allows for growth -Removes injured bone -New bone is more resistant to fracture
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FRACTURES AND THEIR REPAIR Definition: Any break in a bone Repair may take months Requires: -Adequate minerals -Vitamins -Hormones -Weight-bearing exercise
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STEPS IN FRACTURE REPAIR Broken blood vessels form a hematoma (blood clot) C.T. and Capillaries invade site; C.T. cells form fibrocartilage callus Bony callus of spongy bone replaces fibrocartilage callus Bony callus is remodeled
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Types of Fractures Open (Compound) – Broken bone ends protrude through the skin Closed (Simple) – Bone does not penetrate the skin
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Types of Fractures Comminuted – splintered, crushed; small pieces between broken ends. Elderly. Most difficult to treat. Greenstick – Partial fracture; one side breaks, other side bends. Children.
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Types of Fractures Impacted – One end of fractured bone forcefully driven into other end Spiral – fracture spirals around long bone axis from twisting force
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Types of Fractures Pott’s – distal end of fibula, tibia or both Colles’ – distal end of radius
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Types of Fractures Stress Fracture -Fracture without visible break -Microscopic fissures -No apparent damage to surrounding tissues -Results from repeated, strenuous activities -Can result from reduced calcium deposition in disease -25% involve tibia
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Osteoarthritis of the Knee
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BONES AS LEVERS Lever (bone): A rigid rod that moves about a fixed point Fulcrum (joint): The fixed point around which a lever moves Forces: Applied to levers at two points -Resistance: Force to be overcome -Effort or Work: Force required to overcome resistance; supplied by skeletal muscles
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CLASSES OF LEVERS First Class: The fulcrum is between the effort/force and the resistance -Seesaw -Tilting head backward
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FIRST CLASS LEVER F R E R E R E R E R E R E R E
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CLASSES OF LEVERS CONTINUED Second Class: Resistance is between the fulcrum and the effort/force -Wheelbarrow -Rising up on one’s toes
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SECOND CLASS LEVER F R E R E R E R E R E R E R E R E
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Third Class: The effort/force is between the fulcrum and the resistance -Most common type in the human body -Flexing the elbow CLASSES OF LEVERS CONTINUED
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THIRD CLASS LEVER F R E R E R E R E R E E R R E R E
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CLASSIFICATION OF JOINTS Structural -Based on what tissues or structures are found between the bones -Fibrous, Cartilagenous, Synovial Functional -Based on amount of movement (& amount of movement is determined by structures found between bones) -Freely movable, Slightly movable, Immovable
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ARTICULATIONS: CLASSIFICATION BY STRUCTURE
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ARTICULATIONS: CLASSIFICATION BY FUNCTION
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ARTICULATIONS: EXAMPLES Sutures Functional: Synarthrosis Structural: Fibrous Knee Functional: Diarthrosis Structural: Synovial Pubic symphysis Functional: Amphiarthrosis Structural: Cartilagenous
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STRUCTURE OF A SYNOVIAL JOINT Articular cartilage – covers bone ends Synovial membrane – lines joint capsule Synovial fluid – lubricates & nourishes cartilage Synovial cavity – space between the bones Joint capsule – fibrous C.T. Ligaments – reinforce joint Bursae – synovial sacs at other sites of friction
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TYPES OF SYNOVIAL JOINTS Classified based on shape of articular surfaces Gliding (plane) Hinge Pivot Ellipsoidal (condyloid) Saddle Ball-and-socket
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