OBJECTIVE(S) Identify the subdivisions of the skeleton as axial or appendicular. List at least three functions of the skeletal system. Name the four main.

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OBJECTIVE(S) Identify the subdivisions of the skeleton as axial or appendicular. List at least three functions of the skeletal system. Name the four main classifications of bones. Identify the major anatomical areas of a long bone. AXIAL https://www.youtube.com/watch?v=XjO3-qM03z0 https://www.youtube.com/watch?v=AbTOj0JVj8A APPENDICULAR

Overview of the Skeletal System The word skeleton comes from the Greek word meaning “dried-up body,” our internal framework is so beautifully designed and engineered that it puts any modern skyscraper to shame. Our skeleton is a tower of bones arranged so that we can stand upright and balance ourselves.

Identify the subdivisions of the skeleton as axial or appendicular. The skeleton is subdivided into two divisions: the axial skeleton, the bones that form the longitudinal axis of the body, and the appendicular skeleton, the bones of the limbs and girdles. In addition to bones, the skeletal system includes joints, cartilages, and ligaments(fibrous cords that bind the bones together at joints). The joints give the body flexibility and allow movement to occur.

List at least three functions of the skeletal system. Functions of the Bones Our bones perform several important body functions: Support.  Bones, the “steel girders” and “reinforced concrete” of the body, form the internal framework that supports the body and cradles its soft organs. The bones of the legs act as pillars to support the body trunk when we stand, and the rib cage supports the thoracic wall. Protection.   Bones protect soft body organs. For example, the fused bones of the skull provide a snug enclosure for the brain, allowing one to head a soccer ball without worrying about injuring the brain. The vertebrae surround the spinal cord, and the rib cage helps protect the vital organs of the thorax. Movement.  Skeletal muscles, attached to bones by tendons, use the bones as levers to move the body and its parts. As a result, we can walk, swim, throw a ball, and breathe. Now imagine your bones forming a rigid metal framework inside your body, somewhat like a system of plumbing pipes. What problems could you envision with this arrangement? These images should help you understand how well our skeletal system provides support and protection while allowing movement.

List at least three functions of the skeletal system. Functions of the Bones 5. Storage.  Fat is stored in the internal cavities of bones. Bone itself serves as a storehouse for minerals, the most important of which are calcium and phosphorus. A small amount of calcium in its ion form (Ca2+) must be present in the blood at all times for the nervous system to transmit messages, for muscles to contract, and for blood to clot. Because most of the body’s calcium is deposited in the bones as calcium salts, the bones are a convenient place to get more calcium ions for the blood as they are used up. Problems occur not only when there is too little calcium in the blood, but also when there is too much. Hormones control the movement of calcium to and from the bones and blood according to the needs of the body. Indeed, “deposits” and “withdrawals” of calcium (and other minerals) to and from bones go on almost all the time. 6. Blood cell formation.  Blood cell formation, or hematopoiesis (hem″ah-to-poi-e′sis), occurs within the marrow cavities of certain bones.

Name the four main classifications of bones. The adult skeleton is composed of 206 bones. There are two basic types of osseous, or bone, tissue: Compact bone is dense and looks smooth and homogeneous.  Spongy bone is composed of small needlelike pieces of bone and lots of open space. The unique shape of each bone fulfills a particular need. Bones are classified according to shape into four groups: long, short, flat, and irregular . long bones are typically longer than they are wide. As a rule they have a shaft with heads at both ends. Long bones are mostly compact bone. All the bones of the limbs, except the patella (kneecap) and the wrist and ankle bones, are long bones. Short bones are generally cube-shaped and contain mostly spongy bone. The bones of the wrist and ankle are short bones. Sesamoid bones, which form within tendons, are a special type of short bone. The best-known example is the patella. Flat bones are thin, flattened, and usually curved. They have two thin layers of compact bone sandwiching a layer of spongy bone between them. Most bones of the skull, the ribs, and the sternum (breastbone) are flat bones. Bones that do not fit one of the preceding categories are called irregular bones. The vertebrae, which make up the spinal column, and the hip bones fall into this group.

Identify the major anatomical areas of a long bone. FIGURE 5.2 The structure of a long bone (humerus).  (a) Anterior view with longitudinal section cut away at the proximal end.  (b) Pie-shaped, three-dimensional view of spongy bone and compact bone of the epiphysis.  (c) Cross section of the shaft (diaphysis). Note that the external surface of the diaphysis is covered by a periosteum, but the articular surface of the epiphysis (see b) is covered with hyaline cartilage.

 Even when looking casually at bones, one can see that their surfaces are not smooth but scarred with bumps, holes, and ridges. These bone markings, described and illustrated in Table 5.1, reveal where muscles, tendons, and ligaments were attached and where blood vessels and nerves passed.  There are two categories of bone markings: (a) projections, or processes, which grow out from the bone surface, and (b) depressions, or cavities, which are indentations in the bone. There is a little trick for remembering some of the bone markings listed in the table: All the terms beginning with T are projections. The terms beginning with F (except facet) are depressions.

Microscopic Anatomy To the naked eye, spongy bone has a spiky, open appearance, whereas compact bone appears to be very dense. Looking at compact bone tissue through a microscope, however, one can see that it has a complex structure (Figure 5.3). It is riddled with passageways carrying nerves, blood vessels, and the like, which provide the living bone cells with nutrients and a route for waste disposal.   Bone is one of the hardest materials in the body, and although relatively light in weight, it has a remarkable ability to resist tension and other forces acting on it. Nature has given us an extremely strong and exceptionally simple (almost crude) supporting system without giving up mobility. The calcium salts deposited in the matrix give bone its hardness, which resists compression. The organic parts (especially the collagen fibers) provide for bone’s flexibility and great tensile strength.

FIGURE 5.3 Microscopic structure of compact bone.  Diagram of a pie-shaped segment of compact bone. (The inset shows a more highly magnified view.) Notice the position of osteocytes in lacunae(cavities in the matrix). Periosteum

REVIEW/ QUIZ What is the relationship between muscle function and bones? Muscles use bones as levers to bring about body movements. Where are most long bones found in the body? Most long bones are found in the limbs. What is the anatomical name for the shaft of a long bone? For its ends? Shaft = diaphysis; bone ends = epiphyses. How does the structure of compact bone differ from the structure of spongy bone when viewed with the naked eye? Compact bones appear solid and very dense with few holes. Spongy bone areas look like the cross-beams of a house with lots of space between the bone spicules. https://www.youtube.com/watch?v=aRXv3qOl8-4