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Skeletal System Chapter 7 Bio160. Functions of Bone Supports Soft Tissue Attachment of skeletal muscles via tendons; when muscles contract, movement results.

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Presentation on theme: "Skeletal System Chapter 7 Bio160. Functions of Bone Supports Soft Tissue Attachment of skeletal muscles via tendons; when muscles contract, movement results."— Presentation transcript:

1 Skeletal System Chapter 7 Bio160

2 Functions of Bone Supports Soft Tissue Attachment of skeletal muscles via tendons; when muscles contract, movement results. Protection of vital organs such as central nervous system housed in cranial cavity and vertebral column

3 Functions of Bone Hematopoiesis - manufacture of blood cells in red bone marrow (in adults; proximal epiphysis of humerus and femur; ribs, sternum, clavicle, hip bones, vertebrae, skull) Storage of triglycerides Reservoir of minerals such as calcium and phosphorus

4 Microscopic Structure of Bone Compact Bone By weight, bone has 25% water, 25% collagen fibers and 50% calcium phosphate –Collagen fibers produced by osteoblasts, bone-forming cells –Calcium salts deposit along collagen fibers and cement osteoblasts into a small chamber, a lacuna

5 Microscopic Structure of Bone Once osteoblasts become trapped in lacuna, they are known as osteocytes Cytoplasmic extensions from osteocytes are located in canaliculi, small tubes through the material outside the cell, the extracellular matrix –Nutrients reach osteocytes via canaliculi and cytoplasmic extensions from Haversian canal

6 Microscopic Structure of Bone Haversian canal – longitudinal tube that forms the center of microscopic bone structure Matrix arranged in concentric rings around Haversian canal called lamella Haversian canal and surrounding lamella is called Haversian system (osteon) Spongy Bone

7 Bone Formation=Ossification Embryonic skeleton composed of fibrous membrane and hyaline cartilage in shape of bones Ossification begins 6th week of embryonic life

8 Bone Formation=Ossification Ossification replaces preexisting CT with bone Intramembranous formation occurs in flat bones of skull, part of clavicle begins at 6 weeks of embryonic life Osteoblasts secrete collagen within a preexisting fibrous membrane

9 Bone Formation=Ossification Spongy bone develops inside the membrane Surface layers are eventually reconstructed into compact bone because osteoblasts on surface reconstruct bone (much of newly formed bone will be destroyed and reformed)

10 Bone Formation=Ossification Endochondral formation gives rise to all other bones hyaline cartilage model is first formed which is replaced by bone begins at 8 weeks of life

11 Bone Formation=Ossification Bony collar – Outside of cartilage model becomes calcified cutting off nutrient supply to tissue underneath –Cartilage cells begin to die and the interior of the bone breaks down and disappears

12 Bone Formation=Ossification Primary ossification center - blood vessels invade the center of the bone, where the cartilage is dying, carrying osteoblasts –Osteoblasts replace dying cartilage with spongy bone, which eventually is remodeled into compact bone

13 Bone Formation=Ossification –The hollow interior of a long bone is formed by another bone cell called an osteoclast –Osteoclasts secrete acids and enzymes that dissolve the extracellular matrix of bone

14 Bone Formation=Ossification Secondary ossification center - more blood vessels enter the ends of a bone, bringing with them osteoblasts which produce spongy bone –generally secondary centers do not begin until after birth

15 Bone Formation=Ossification after the secondary centers have formed, bone tissue completely replaces cartilage except in 2 regions: –articular cartilage (prevents damage from bone to bone contact within joints) –epiphyseal plate = metaphysis = growth plate

16 Bone Growth Growth in length Epiphyseal plate Epiphyseal cartilage stops dividing and is replaced by bone at puberty with surge of hormones; what remains is the epiphyseal line

17 Bone Growth Growth in diameter osteoclasts inside the bone destroy bone lining the hallow cavity osteoblasts on surface of bone add new tissue around outer surface of bone

18 Bone Growth Reconstruction: remodeling is part of bone maintenance; old bone is constantly reworked. Remodeling is replacement of old bone tissue by new bone tissue like skin. Initially bone is spongy and is replaced on outside of bones with compact bone. Distal end of femur is replaced every 4 months.

19 Bone Growth Value and need for Reconstruction –Old bone weakened by degeneration of organic matrix must be replaced –Constant exchange of Ca 2+ (bones store 99% of Ca 2+ )

20 Bone Growth –Bone adjusts to mechanical stress; thickens under stress bones of athletes are heavier movement of teeth in orthodontics involves reshaping of alveoli by stress applied with braces

21 Bone Growth Hormones and vitamins that regulate growth and remodeling of bone Growth hormone and thyroxin - normal bone growth in young people Sex hormones - osteoblasts have receptors for sex hormones

22 Bone Growth –osteoporosis - with decrease of sex hormones with advancing age, porous bones may result; more common in females because of menopause when estrogen production essentially halts adequate diet which may include Ca 2+, exercise, and estrogen replacement may be indicated for prevention of osteoporosis in females

23 Bone Growth Parathyroid hormone - increases osteoclast activity, therefore increases Ca 2+ in blood Calcitonin- (from thyroid) increases osteoblast activity, therefore accelerating deposit of Ca 2+ into bone; blood Ca 2+ levels decrease Vitamin D - sun converts cholesterol derivative into Vitamin D in skin

24 Bone Growth –Vitamin D is needed to absorb Ca 2+ from intestine (Vitamin D aids in synthesis of a carrier protein molecule that is needed to transport Ca 2+ ) Vitamin C - promotes synthesis of collagen


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