The Skeletal System What Makes Up the Skeletal
- Slides: 100
The Skeletal System What Makes Up the Skeletal System? • • • Bones Cartilages Joints Ligaments Other connective tissues Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Skeletal System What are the Functions of the Skeletal System? • Support against gravity • Storage • Calcium, phosphorous • Fat • Blood cell production • Protection of soft internal organs • Leverage for muscle action Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Structure of Bone What is Bone (Osseous Tissue)? • Specialized cells • 2% of bone weight • Strong flexible matrix • Calcium phosphate crystals • Two-thirds of bone weight • Collagen fibers Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Structure of Bone What is the Macroscopic Features of Bone? • General shapes of bones • Long bones (e. g. , humerus) • Short bones (e. g. , carpal bones) • Flat bones (e. g. , parietal bone) • Irregular bones (e. g. , vertebra) Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Structure of Bone Shapes of Bones Figure 6 -1
The Structure of Bone What are the Features in a Long Bone? • Diaphysis (shaft) • Compact (dense) bone • Marrow cavity • Epiphyses (ends) • Spongy (cancellous) bone • Articular cartilage • Periosteum (covering) • Endosteum (lining) Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Structure of Bone The Structure of a Long Bone Figure 6 -2
The Structure of Bone What is the Microscopic Features of Bone? • Periosteum • Outer fibrous layer • Inner cellular layer • Osteocytes • Within lacunae (holes) in matrix • Between lamellae of matrix Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Structure of Bone What is the Microscopic Features of Bone • Osteon—Basic functional unit of compact bone; columnar in shape • Concentric layers of osteocytes • Concentric layers of matrix (lamellae) • Central (Haversian) canal • Axial tunnel for blood vessels • Perforating canal Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Structure of Bone Structure of a Typical Bone Figure 6 -3(a)
The Structure of Bone Structure of a Typical Bone Figure 6 -3(b)
The Structure of Bone What are the Cells in Bone? • Osteocytes • Mature bone cells between lamellae • Osteoclasts • Source of acid, enzymes for osteolysis • Osteoblasts • Responsible for osteogenesis (new bone) Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Bone Formation and Growth Intramembranous Ossification • Ossification—Process of converting other tissues to bone Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Bone Formation and Growth Bone Formation in 16 -Week-Old Fetus Figure 6 -4
Chondrocytes at the center of the growing cartilage model enlarge and then die as the matrix calicifies. Newly derived osteoblasts cover the shaft of the cartilage in a thin layer of bone. Blood vessels penetrate the cartilage. New osteoblasts form a primary ossification center. The bone of the shaft thickens, and the cartilage near each epiphysis is replaced by shafts of bone. Blood vessels invade the epiphyses and osteoblasts form secondary centers of ossification. Articular cartilage Enlarging chondrocytes within calcifying matrix Epiphysis Diaphysis Epiphyseal cartilage Marrow cavity Primary ossification center Bone formation Blood vessel Marrow cavity Blood vessel Secondary ossification center Cartilage model Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -5 1 of 6
Chondrocytes at the center of the growing cartilage model enlarge and then die as the matrix calicifies. Enlarging chondrocytes within calcifying matrix Cartilage model Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -5 2 of 6
Chondrocytes at the center of the growing cartilage model enlarge and then die as the matrix calicifies. Newly derived osteoblasts cover the shaft of the cartilage in a thin layer of bone. Enlarging chondrocytes within calcifying matrix Epiphysis Diaphysis Bone formation Cartilage model Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -5 3 of 6
Chondrocytes at the center of the growing cartilage model enlarge and then die as the matrix calicifies. Newly derived osteoblasts cover the shaft of the cartilage in a thin layer of bone. Blood vessels penetrate the cartilage. New osteoblasts form a primary ossification center. Enlarging chondrocytes within calcifying matrix Epiphysis Diaphysis Marrow cavity Primary ossification center Bone formation Blood vessel Cartilage model Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -5 4 of 6
Chondrocytes at the center of the growing cartilage model enlarge and then die as the matrix calicifies. Newly derived osteoblasts cover the shaft of the cartilage in a thin layer of bone. Blood vessels penetrate the cartilage. New osteoblasts form a primary ossification center. The bone of the shaft thickens, and the cartilage near each epiphysis is replaced by shafts of bone. Enlarging chondrocytes within calcifying matrix Epiphysis Diaphysis Marrow cavity Primary ossification center Bone formation Blood vessel Marrow cavity Blood vessel Cartilage model Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -5 5 of 6
Chondrocytes at the center of the growing cartilage model enlarge and then die as the matrix calicifies. Newly derived osteoblasts cover the shaft of the cartilage in a thin layer of bone. Blood vessels penetrate the cartilage. New osteoblasts form a primary ossification center. The bone of the shaft thickens, and the cartilage near each epiphysis is replaced by shafts of bone. Blood vessels invade the epiphyses and osteoblasts form secondary centers of ossification. Articular cartilage Enlarging chondrocytes within calcifying matrix Epiphysis Diaphysis Epiphyseal cartilage Marrow cavity Primary ossification center Bone formation Blood vessel Marrow cavity Blood vessel Secondary ossification center Cartilage model PLAY Endochondral Ossification Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -5 6 of 6
Bone Formation and Growth Appositional Bone Growth Figure 6 -6
Bone Formation and Growth What are the Requirements for Normal Bone Growth • Minerals • Calcium, phosphate • Vitamins • Vitamin D 3 • Vitamin C • Vitamin A • Hormones • Growth Hormone • Sex hormones, thyroid hormone, others Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Bone Remodeling/Homeostasis What is the Role of Remodeling in Support? • Remodeling—Continuous breakdown and reforming of bone tissue Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Bone Remodeling/Homeostasis Key Note What you don’t use, you lose. The stresses applied to bones during exercise are essential to maintaining bone strength and bone mass Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Bone Remodeling/Homeostasis What is Injury and Repair? • Fracture—A crack or break in a bone Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Immediately after the fracture, extensive bleeding occurs. Over a period of several hours, a large blood clot, or fracture hematoma, develops. Bone fragments An internal callus forms as a network of spongy bone unites the inner edges, and an external callus of cartilage and bone stabilizes the outer edges. Spongy bone Cartilage of internal of external callus The cartilage of the external callus has been replaced by bone, and struts of spongy bone now unite the broken ends. Fragments of dead bone and the areas of bone closest to the break have been removed and replaced. External callus Fracture hematoma Dead bone A swelling initially marks the location of the fracture. Over time, this region will be remodeled, and little evidence of the fracture will remain. New bone Periosteum Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Internal callus External callus Figure 6 -7 1 of 5
Immediately after the fracture, extensive bleeding occurs. Over a period of several hours, a large blood clot, or fracture hematoma, develops. Bone fragments Fracture hematoma Dead bone Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -7 2 of 5
Immediately after the fracture, extensive bleeding occurs. Over a period of several hours, a large blood clot, or fracture hematoma, develops. Bone fragments An internal callus forms as a network of spongy bone unites the inner edges, and an external callus of cartilage and bone stabilizes the outer edges. Spongy bone Cartilage of internal of external callus Fracture hematoma Dead bone New bone Periosteum Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -7 3 of 5
Immediately after the fracture, extensive bleeding occurs. Over a period of several hours, a large blood clot, or fracture hematoma, develops. Bone fragments An internal callus forms as a network of spongy bone unites the inner edges, and an external callus of cartilage and bone stabilizes the outer edges. Spongy bone Cartilage of internal of external callus The cartilage of the external callus has been replaced by bone, and struts of spongy bone now unite the broken ends. Fragments of dead bone and the areas of bone closest to the break have been removed and replaced. Fracture hematoma Dead bone New bone Periosteum Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Internal callus External callus Figure 6 -7 4 of 5
Immediately after the fracture, extensive bleeding occurs. Over a period of several hours, a large blood clot, or fracture hematoma, develops. Bone fragments An internal callus forms as a network of spongy bone unites the inner edges, and an external callus of cartilage and bone stabilizes the outer edges. Spongy bone Cartilage of internal of external callus The cartilage of the external callus has been replaced by bone, and struts of spongy bone now unite the broken ends. Fragments of dead bone and the areas of bone closest to the break have been removed and replaced. External callus Fracture hematoma Dead bone PLAY A swelling initially marks the location of the fracture. Over time, this region will be remodeled, and little evidence of the fracture will remain. New bone Periosteum Internal callus Steps in the Repair of a Fracture Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings External callus Figure 6 -7 5 of 5
An Overview of the Skeleton What are the Bone Markings (Selected)? • • Tuberosity Condyle Trochlea Facet Fossa Foramen Sinus Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
An Overview of the Skeleton Surface Features of Bones Table 6 -1 (1 of 2)
An Overview of the Skeleton Surface Features of Bones Table 6 -1 (2 of 2)
An Overview of the Skeleton What are the Skeletal Divisions? • Axial skeleton • Skull • Thoracic cage and sternum • Vertebral column • Appendicular skeleton • Upper, lower limbs • Pectoral girdle • Pelvic girdle Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
An Overview of the Skeleton The Skeleton Figure 6 -8(a)
An Overview of the Skeleton The Skeleton Figure 6 -8(b)
An Overview of the Skeleton The Axial and Appendicular Divisions of the Skeleton. Figure 6 -9
The Axial Division: The Skull What are the Bones of the Cranium? • Frontal bone • Forehead, superior surface of orbits • Parietal bones • Sides, roof • Occipital bone • Foramen magnum • Temporal bones • Sides, base Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Axial Division: The Skull The Adult Skull (Part I) Figure 6 -10
The Axial Division: The Skull What are the Bones of the Face? • Maxillary bones • Zygomatic bones • Mandible Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Axial Division: The Skull What are the Bones of the Face? (continued) • • • Palatine bones The Vomer Nasal bones Lacrimal bones Inferior nasal conchae Nasal complex Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
The Axial Division: The Skull The Adult Skull (Part II) Figure 6 -11(a)
The Axial Division: The Skull The Adult Skull (Part II) Figure 6 -11(b)
The Axial Division: The Skull Sectional Anatomy of the Skull Figure 6 -12(a)
The Axial Division: The Skull Sectional Anatomy of the Skull Figure 6 -12(b)
The Axial Division: The Skull Sectional Anatomy of the Skull Figure 6 -12(c)
The Axial Division: The Skull The Paranasal Sinuses Figure 6 -13
The Axial Division: The Skull The Hyoid Bone Figure 6 -14
Axial Division: The Skull of a Newborn Figure 6 -15(a)
Axial Division: The Skull of a Newborn Figure 6 -15(b)
Vertebral Column/Thoracic Cage What is the Vertebral Column? (Spine) • 26 Bones • 7 Cervical vertebrae (C 1 to C 7) • 12 Thoracic vertebrae (T 1 to T 12) • 5 Lumbar vertebrae (L 1 to L 5) • Sacrum • Coccyx (tailbone) Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Vertebral Column/Thoracic Cage The Vertebral Column Figure 6 -16
Vertebral Column/Thoracic Cage Typical Vertebrae of the Cervical, Thoracic, and Lumbar Regions Figure 6 -17(a)
Vertebral Column/Thoracic Cage Typical Vertebrae of the Cervical, Thoracic, and Lumbar Regions Figure 6 -17(b)
Vertebral Column/Thoracic Cage Typical Vertebrae of the Cervical, Thoracic, and Lumbar Regions Figure 6 -17(c)
Vertebral Column/Thoracic Cage The Atlas and Axis Figure 6 -18
Vertebral Column/Thoracic Cage The Sacrum and Coccyx Figure 6 -19(a)
Vertebral Column/Thoracic Cage The Sacrum and Coccyx Figure 6 -19(b)
Vertebral Column/Thoracic Cage What are the Components of Thoracic Cage? • Thoracic vertebrae • Ribs • Seven pairs of true ribs • Cartilaginous joint with sternum • Five pairs of false ribs • Sternum Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Vertebral Column/Thoracic Cage Figure 6 -20(a)
Vertebral Column/Thoracic Cage Figure 6 -20(b)
Appendicular Division The Clavicle Figure 6 -21
Appendicular Division The Scapula Figure 6 -22
Appendicular Division The Humerus Figure 6 -23
Appendicular Division The Radius and Ulna Figure 6 -24
Appendicular Division Bones of the Wrist and Hand Figure 6 -25
Appendicular Division The Pelvis Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings Figure 6 -26(a)
Appendicular Division The Pelvis Figure 6 -26(b)
Appendicular Division The Pelvis Figure 6 -26(c)
Appendicular Division Differences in the Anatomy of the Pelvis in Males and Females PLAY Male and Female Pelvis Figure 6 -27
Appendicular Division The Femur Figure 6 -28
Appendicular Division The Right Tibia and Fibula Figure 6 -29
Appendicular Division The Bones of the Ankle and Foot Figure 6 -30(a)
Appendicular Division The Bones of the Ankle and Foot Figure 6 -30(b)
Articulations What is the Classification of Joints (Articulations)? • Joint—Where two bones interact • Three functional classes of joint • Synarthroses • Immovable • Amphiarthroses • Slightly movable • Diarthroses • Freely movable Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Articulations The Structure of Synovial Joints Figure 6 -31(a)
Articulations The Structure of Synovial Joints Figure 6 -31(b)
Articulations What are the Synovial Joint Movements? • • Flexion Extension Hyperextension Abduction Adduction Circumduction Rotation • Pronation, supination Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Articulations Angular Movements Figure 6 -32(a)
Articulations Angular Movements Figure 6 -32(b)
Articulations Angular Movements Figure 6 -32(c)
Articulations Angular Movements PLAY Angular Movements Figure 6 -32(d)
Articulations Rotational Movements Figure 6 -33(a)
Articulations Rotational Movements Figure 6 -33(b)
Articulations What are the Special Movements? • Foot and ankle • Inversion, eversion • Dorsiflexion, plantar flexion • Hand • Opposition of thumb, palm • Head • Protraction, retraction • Depression, elevation (jaw) Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Articulations Special Movements Figure 6 -34
Articulations What are the Structural Classification of Synovial Joints? • • • Gliding (e. g. , vertebra–vertebra) Hinge (e. g. , knee) Pivot (e. g. , atlas–axis) Ellipsoidal (e. g. , distal radius) Saddle (e. g. , thumb) Ball-and-Socket (e. g. , hip) Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Articulations Structural Classification of Synovial Joints Figure 6 -35(a)
Articulations Structural Classification of Synovial Joints Figure 6 -35(b)
Articulations Structural Classification of Synovial Joints Figure 6 -35(c)
Articulations Structural Classification of Synovial Joints Figure 6 -35(d)
Articulations Structural Classification of Synovial Joints Figure 6 -35(e)
Articulations Structural Classification of Synovial Joints PLAY A Functional Classification of Synovial Joints Figure 6 -35(f)
Articulations Key Note A joint cannot be both highly mobile and very strong. The greater the mobility, the weaker the joint, because mobile joints rely on support from muscles and ligaments rather than solid bone-tobone connections. Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Articulations Intervertebral Articulations Figure 6 -36
Articulations What is the Shoulder Joint? • Ball-and-socket design frees movement • Bursae reduce friction • Bursitis restricts motion, causes pain Copyright © 2007 Pearson Education, Inc. , publishing as Benjamin Cummings
Articulations The Shoulder Joint PLAY Humerus Rotation Figure 6 -37
Articulations The Elbow Joint PLAY Elbow Flexion/Extension Figure 6 -38
Articulations The Hip Joint Figure 6 -39
Articulations The Knee Joint Figure 6 -40
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