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HarmlessAgate8389

Uploaded by HarmlessAgate8389

Dalhousie University

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osteology bone anatomy skeletal system human body

Summary

This is a lecture on the skeletal system, covering the fundamentals of the skeletal system, including bone types, functions, and typical bony features. It also discusses bone growth, articular cartilage, and its composition and structure.

Full Transcript

KINE 2320 Kinesiological Anatomy Osteology: Fundamentals of the Skeletal System Reminders o Lab 1 this week o Weekend quizzes begin this weekend Skeletal System Osteology: Axial & Appendicular Skeletons o Adult skeleton o Axial skeleton o Appendicular (peripheral) o...

KINE 2320 Kinesiological Anatomy Osteology: Fundamentals of the Skeletal System Reminders o Lab 1 this week o Weekend quizzes begin this weekend Skeletal System Osteology: Axial & Appendicular Skeletons o Adult skeleton o Axial skeleton o Appendicular (peripheral) o Occasional variations in # of bones Bony Variation Example Skeletal Functions o Protection of heart, lungs, brain, etc. o Support to maintain posture o Movement by serving as points of attachment for muscles and acting as levers o Mineral storage such as calcium & phosphorus o Hemopoiesis – in vertebral bodies, femurs, humerus, ribs, & sternum Bone Types*** o Long bones o Short bones o Flat bones o Irregular bones o Sesamoid bones Long bones o Composed of a long cylindrical shaft with relatively wide, protruding ends o Shaft contains the medullary canal Short bones o Small, cubical shaped, solid bones o Usually have a proportionally large articular surface in order to articulate with more than one bone Flat bones o Usually have a curved surface & vary from thick where tendons attach to very thin Irregular bones o Include bones throughout entire spine, pelvis & maxilla Sesamoid bones o Includes patella and two at the first metatarsophalangeal Typical Bony Features o Diaphysis o Epiphysis o Metaphyses o Periosteum o Endosteum o Medullary cavity o Articular cartilage Bone regions o Diaphysis o Shaft or body of the bone o Epiphysis o End of long bones formed from cancelleous (spongy or trabecular) bone o Metaphyses o Region where the diaphysis joins the epiphysis Bone regions o Periosteum (peri= around; osteo= bone) o Dense, white fibrous membrane covering outer surface of diaphysis o Outer fibrous layer o Dense, irregular connective tissue o Blood vessels, lymphatic vessels, nerves that go to the bone o Inner osteogenic layer o Contains elastic fibres, blood vessels, and various types of bone cells o Protects, repairs, nourishes bone o Attachment for tendons and ligaments Bone regions o Cortex o Hard, dense compact bone forming walls of diaphysis o Endosteum (endo = within) o Fibrous membrane that lines the medullary cavity o Contains osteoprogenitor cells and osteoclasts o Medullary cavity (medulla = central part) o Between the walls of the diaphysis o Contains the fatty yellow bone marrow Bone Composition and Structure o Mineral salts (Inorganic components) o Rigidity o Most of dry weight o Organic components o Collagen fibers (type I, 90% of the extracellular matrix) o Flexibility and strength/resilience in resisting tension o Water Bone Properties o Most outer bone is cortical with cancellous underneath o Cortical bone* o Low porosity o 5 to 30% non-mineralized tissue o Can withstand greater stress, but less strain o Cancellous bone* o High porosity o 30 to 90% non-mineralized tissue o Can undergo greater strain before fracturing Bone Properties o Wolff’s Law: o Bones reshape themselves based upon the stresses placed upon them: o ↑ stress = ↑ mass Osgood-Schlatter Disease Articular (hyaline) cartilage o Layer of hyaline cartilage over epiphysis o Reduces friction and absorbs shocks o Also provides flexibility and support o Bluish white o Shiny ground substance with fine collagen fibers o Most abundant type of cartilage Articular Cartilage Composition & Structure o Articular cartilage has a high level of structural organization o Chondrocytes o Sparsely distributed o Extracellular matrix o Network of fine collagen fibrils o A concentrated solution of Proteoglycans o Other o Water, inorganic salts, other matrix proteins, glycoproteins, lipids o 60 to 85% net weight Articular Cartilage Organization 1. Superficial Tangential Zone o Fine, densely packed fibers parallel to the articular surface 2. Middle Zone o Randomly oriented and homogeneously dispersed fibers 3. Deep Zone o Forms larger, radially oriented fiber bundles that cross tidemark Articular Cartilage Organization Water in Articular Cartilage o Most abundant component of articular cartilage o ~80% concentrated near the articular surface o 65% in the deep zone o Most of the water occupies the inter-fibrillar space of the extra-cellular matrix and is free to move when a load or pressure gradient is applied. o In compression: ~70% water may be moved o Decreases with age Molecular Organization of the Articular Cartilage o Interactions form a material that is: o Porous, permeable o Water flows in and out o Fiber-reinforced solid matrix swollen with water and ions Bone Growth: Endochondral Bones o Develop from hyaline cartilage o Hyaline cartilage masses at embryonic stage o Grow rapidly into bone-like structures Epiphyseal plate (Growth Plate) o Thin cartilage plate o Separates diaphysis & epiphyses Slipped epiphyseal plate Bone Growth o Longitudinal growth continues while epiphyseal plates are open o Shortly after adolescence, plates close & disappear o Most close by age 18 o Growth in diameter continues throughout life Bone Growth o Internal layer of periosteum builds new concentric layers on old layers o Simultaneously, bone around sides of the medullary cavity is resorbed so that diameter is continually increased o Osteoblasts - cells that form new bone o Osteoclasts - cells that resorb old bone Common Bone Markings o Joints o Condyle o Attachments o Facet o Angle o Head o Border o Crest o Cavities o Epicondyle o Facet o Line o Foramen o Process o Fossa o Spine o Fovea o Trochanter o Notch o Tubercle o Sinus o Tuberosity o Groove Joint Processes Form joints o Condyle o Facet o Head Attachment Processes For Ligament, Muscle, Tendon o Crest o Epicondyle o Line o Process o Spine o Suture o Trochanter o Tubercle o Tuberosity Cavity Processes Depressions (openings & grooves o Facet o Foramen o Fossa o Fovea o e.g., femur o Meatus o e.g., ear o Sinus o e.g., face o Sulcus (groove) o e.g., pre-auricular sulcus on ileum

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