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Anatomy and Physiology
Ch. 6 and 7 Skeletal System Anatomy and Physiology
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6.1 Functions of the Skeletal System
Support Not just place to hang muscles – need bones for framework Muscles need something to pull against Site for organs and soft tissues Storage of minerals and lipids Osmotic concentration/ reaction rate/ coenzymes Calcium, potassium, sodium, magnesium, carbonate, phosphate Lipids in yellow marrow Blood cell production Red bone marrow – inner cavity of bones Makes red blood cells, white blood cells and other components of blood Protection Ribs protect heart and lungs Skull enclosed brain, etc Leverage Movement of skeletal muscles depends on leverage against skeleton
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6.2 Bone Shapes: shape or internal organization
Sutural Found in skull; they look like they have been ‘sutured ‘ or sewn together Irregular Complex shapes; vertebrae, pelvis and skull Short bones Small and boxy; wrist and ankle Flat bones Flat and thin; skull, sternum, ribs, scapulae/ protection and lots of surface area to anchor muscle Long bones Long and slender; arms, legs, fingers, toes Sesamoid bones Vary in number, found in tendons, disc or seed shaped; knee cap
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Figure 6-1 A Classification of Bones by Shape
Sutural Bones Flat Bones Sutures Parietal bone External table Sutural bone Internal table Diploë (spongy bone) Irregular Bones Long Bones Vertebra Humerus Short Bones Sesamoid Bones Carpal bones Patella 4
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Bone markings Surface structures known as landmarks
Elevations or projections These are sites for tendons and ligaments to attach and bones to articulate (joints = articulations) Depressions, grooves and tunnels Places where blood vessels or nerves ran along side a bone Used to determine age, gender, size and appearance of individual (skeletal remains)
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Bone structure – page 172 * Diaphysis – length of long bone
Wall is compact or dense bone; sturdy Center is medullary cavity; marrow Epiphysis – ‘end’ Spongy bone aka cancellous or trabecular bone Open network like lattice With thin cortex or covering Metaphysis – ‘between’ where diaphysis meets the epiphysis
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Figure 6-2 Bone Structure
Epiphysis Spongy bone Know this page Metaphysis Compact bone Diaphysis (shaft) Medullary cavity Metaphysis Epiphysis Cortex (compact bone) Diploë (spongy bone) The structure of a representative long bone (the femur) in longitudinal section The structure of a flat bone (the parietal bone) 7
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Table 6-1 An Introduction to Bone Markings
THIS IS NOT A MEMORIZE PAGE; “just FYI” that there is a lot we can label on a bone Trochanter Sinus Head Neck Tubercle Head Sulcus Crest Neck Foramen Fossa Fissure Process Tuberosity Spine Ramus Line Facet Fossa Foramen Tubercle Ramus Trochlea Skull Pelvis Condyle Condyle Femur Humerus 8
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6.3 Bone or osseous tissue = supporting connective tissue; matrix, fibers and cells
Dense with calcium salts Ca3(PO4)2 and collagen fibers (like rebar in concrete) Cells are in pockets called lacunae Organized around blood vessels Canaliculi are passages through matrix branching between lacunae and blood vessels Periosteum – fiberous (outer) and cellular (inner) layer that covers bone surfaces Cells Osteocytes, osteoblasts, osteoprogenitor cells and osteoclasts
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Bone Cells Osteocytes Osteoblasts Osteoprogenitor cells Osteoclasts
Most common 1 per lacuna, surrounded by layers of lamellae Can not divide Neighboring osteocytes are linked by gap junctions through the canaliculi Maintain mineral content and help to repair fractures Can become other cell types Osteoblasts Produce new matrix Osteoprogenitor cells Produce osteoblasts that could repair a fracture Osteoclasts Remove and recycle matrix as needed; “resorption” 50 + nuclei Very large Come from marrow (stem cells) and not osteoprogenitor cells Can make bones larger/stronger to match muscle mass or smaller through disuse
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Compact bone / Spongy bone
Osteocytes are in concentric layers around a Haversian canal = osteon Lamella are in concentric layers (target like pattern) Thickest were there is stress to bear weight Femur bears 15 X body weight before breaking – when force is end to end; breaks when force is from side Spongy bone Lamella not in osteons Bundles of fibers = trabeculae Red marrow Blood cell formation Yellow marrow Adipose/ energy reserve Locations without stress; not as dense (<weight)
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Figure 6-6 The Structure of Spongy Bone
Trabeculae of spongy bone Canaliculi opening on surface Endosteum Lamellae 12
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Figure 6-5 The Structure of Compact Bone
Central canal KNOW THIS PAGE ! Venule Circumferential lamellae Capillary Concentric lamellae Periosteum Osteons Perforating fibers Endosteum Interstitial lamellae Concentric lamellae Trabeculae of spongy bone (see Fig.6–6) Collagen fiber orientation Vein Artery Arteriole Central canal Perforating canal The organization of osteons and lamellae in compact bone The orientation of collagen fibers in adjacent lamellae 13
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