Skeletal System Information Book PDF

Summary

This document provides information about the skeletal system, including terminology, bone anatomy, and function. It details the different types of bones and their roles in the human body. The document also covers the basic elements of the skeletal system.

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SKELETAL SYSTEM    –Š‹• Šƒ’–‡”ǡ›‘—™‹ŽŽŽ‡ƒ”ǣ Ǧ‡”‹‘Ž‘‰›”‡Žƒ–‡†–‘–Š‡ ƒƒ–‘›‘ˆ–Š‡•‡Ž‡–ƒŽ•›•–‡ Ǧ...

SKELETAL SYSTEM    –Š‹• Šƒ’–‡”ǡ›‘—™‹ŽŽŽ‡ƒ”ǣ Ǧ‡”‹‘Ž‘‰›”‡Žƒ–‡†–‘–Š‡ ƒƒ–‘›‘ˆ–Š‡•‡Ž‡–ƒŽ•›•–‡ Ǧ‡”‹‘Ž‘‰›‡‡†‡†ˆ‘”–Š‡ ‡šƒ‹ƒ–‹‘‘ˆ–Š‡•‡Ž‡–ƒŽ•›•–‡  ǦŠ‡‹’‘”–ƒ–ˆ— –‹‘•‘ˆ–Š‡•‡Ž‡–ƒŽ •›•–‡ Anatomy of the skeleton The 206 bones of the skeletal system carry out six important anatomic and physiologic functions: They protect internal tissues and organs; for example, the 33 vertebrae surround and protect the spinal cord, brain, and heart. They stabilize and support the body. They provide surfaces for muscle, ligament, and tendon attachment. They move through lever action when contracted. They produce red blood cells (RBCs) in the bone marrow (a process called hematopoiesis, from the Greek haima, or blood, and poiesis, meaning making or forming). They store mineral salts; for example, approximately 99% of the body’s calcium. Below is a list of key terms, along with the correct way to pronounce them. Calcaneus Kal-kay-nee-uhs Coccyx Kok-siks Hematopoiesis Hee-muh-toe-poy-ee-sis Occipital Ok-sip-uh-tuhl Periosteum Per-ee-os-tee-uhm Xiphoid process Zeye-foyd Prah-sess Bones-r-us The skeleton is divided into two parts: the axial (from the Latin axis, meaning axle or wheel) and appendicular (from the Latin appendare, meaning to add or append). The axial skeleton forms the body’s vertical axis and contains 74 bones in the head and torso; it also includes 6 bones of the middle ear, for a total of 80 bones. (See the body’s bones.) Anatomically speaking The body’s bones The human skeleton contains 206 bones; 80 form the axial skeleton and 126 form the appendicular skeleton. The illustrations below show some of the major bones and bone groups. The appendicular skeleton contains 126 bones and includes the body’s appendages, or upper and lower extremities The axial skeleton The axial skeleton forms the long axis of the body and includes bones of the skull, vertebral column, and rib Fontanel, also spelled cage. fontanelle, derives from French and means little The skull fountain. It can also refer The skull contains 28 irregular bones in two major to any membrane- areas: covered area between the brain case, or cranium (from the Greek kranion, two bones. meaning upper part of the head), and the face. Eight bones form the cranium, 14 bones make up the face, and the inner ears contain 6 ossicles (from the Latin ossiculum, meaning bone), or 3 small bones in each ear. The jaw bone, or mandible (from the Latin mandibula, meaning jaw) is the only movable bone in the skull. (See Bones of the skull.) Getting it together Sutures are immobile joints that hold the skull bones together. The coronal suture unites the frontal bone and the two parietal bones. In infants, this suture isn’t closed, leaving a diamond-shaped area (called the anterior fontanel), which is covered only by a membrane. This soft spot closes between ages 10 and 18 months. At the back of the head of infants, the posterior fontanel closes by age 2 months. A real airhead Sinuses are air-filled spaces within the skull that lessen the bone weight, moisten incoming air, and act as resonating chambers for the voice. Up front The sinuses, the forehead, and the area directly behind it are part of the frontal bone. This bone also forms the orbits (eye sockets) and the front part of the cranial floor. Take it from the top The main part of the skull consists of a number of bones sutured together: The coronal suture connects the frontal bone with the parietal bones. Two parietal bones crown the head, forming the roof and the upper part of each side of the skull. The squamous suture connects the parietal bones with the temporal bones. Temporal bones form the lower part of the sides of the skull and part of its floor. They contain structures of the middle and inner ear and the mastoid sinuses. Anatomically speaking Bones of the skull The skull is a complex bony structure. It’s formed by two sets of bones, the cranial bones and the facial bones The lambdoid suture connects the parietal bones to the occipital bone. jogger The occipital bone forms the rear portion and the As a way to base of the skull and forms a movable joint with the remember first cervical vertebra. the bones of the A large opening at the base of the occipital bone, called skull, use your head the foramen magnum (meaning large hole), allows the and think “part of man”: spinal cord to pass from the encephalon into the spine. PARietal Occipital A bat in the belfry Frontal The sphenoid bone looks like a bat with outstretched wings and legs extended to the back. Located in the cranial MAlar floor, this bone is an anchor for the frontal, parietal, Nasal. occipital, and ethmoid bones. It also supports part of the eye sockets and forms the lateral walls of the skull. The sphenoid sinuses are large air-filled spaces within the sphenoid bone. Facial bones The bones of the face include: Joints between two maxillary bones that form the upper jaw, nose, the vertebrae orbits, and roof of the mouth as well as the maxillary sinuses allow forward, backward, and the cheekbones, called zygomatic or malar bones, sideways that attach to chewing muscles movement. Not all at once, two nasal bones that form the upper part of the bridge though! of the nose (cartilage forms the lower part) the mandible that forms the lower jaw two lacrymal bones that contain the lacrymal bag (part of the conduit through which tears drain in the nasal cannula) the vomer that’s part of the nasal septum two palatine bones that form the posterior portion of the hard palate, lateral side of the nasal cavity, and small part of the orbit. The spinal column The flexible spinal column contains 24 vertebrae (plural of vertebra), the sacrum, and the coccyx. (See Some thorny words of the spine.) Joints between the vertebrae allow forward, backward, and sideways movement. The spinal column supports the head while suspending the ribs and organs in Spine comes from the Latin word spina, which means thorn, and is related to spike as well. Latin writers likened the thorn to the prickly bones in animals and fish and, thus, the word also be- came the designation for the vertebral column. Also from Latin, vertebra derives from a verb meaning to turn. Therefore, it formerly connoted any joint—not just those of the spine. A Greek word, spondylos, has the same meaning as verte- bra. It shows up in words like spondylitis, which is an inflammation of the vertebrae. Sacrum and coccyx bringing up the rear The sacrum was formerly known as the os sacrum, literally the holy bone, so called because it was thought to be a particularly choice bit and so was offered to the gods in sacrifice. The coc- cyx derives its name from the Greek word for the cuckoo, kokkyx. The Greek anatomist Galen thought this triangular bone resembled the shape of the bird’s bill. front. It also anchors the pelvic girdle and provides attachment points for many important muscles. The spinal column contains: seven cervical (neck) vertebrae, which support the skull and rotate twelve thoracic (chest) vertebrae, which attach to the ribs five lumbar (lower back) vertebrae, which support the small of the back the sacrum, a single bone that results from the fusion of five vertebrae and attaches to the pelvic girdle the coccyx, or tailbone, which is located at the bottom tip of the spinal column and is a single bone formed from the fusion of four or five vertebrae. The spinal column is curved to increase its strength and make balance possible in an upright position. The vertebrae are cushioned by intervertebral disks composed of cartilage. The 33 vertebrae of the spinal column surround and protect the spinal cord. They’re divided into five sections: cervical vertebrae, thoracic vertebrae, lumbar vertebrae, sacrum, and coccyx. Yep. I have 33 vertebrae----and they’re all perfect specimens, if I do say so myself Sternum Located in the center of the chest, the sternum is a flat, sword-shaped bone that’s attached to the clavicles (collar- bones) and the innermost part of the first two pairs of ribs. Caged in The sternum, ribs, and thoracic vertebrae form a protective enclosure around the vital organs. Known as the thoracic cage, or thorax, this flexible structure protects the heart and lungs and allows the lungs to expand during respiration. Ribs The flat, curved bones attached to the thoracic portion of the spinal column are called ribs. Ribs—true or false? The term costal refers to ribs. The first seven pairs of ribs are attached to the sternum by costal cartilage; The ulna and the they’re called true ribs. The remaining five pairs of radius articulate ribs are called false ribs because they aren’t attached directly to the sternum. All ribs are independently with the attached to the spinal column. humerus to form the elbow joint Appendicular skeleton The appendicular skeleton includes the upper and lower extremities. The upper extremities The clavicles, or collarbones, are two flat bones at- tached to the sternum on their anterior side and to the scapulae (shoulder blades) laterally. This forms the sternoclavicular joint. The scapulae are a pair of large, triangular bones that are located at the back of the thorax. These bones, plus the clavicles, form the shoulder girdles. Armed and dangerous The humerus, or upper arm bone, is a long bone with a shaft and two bulbous ends. The two long bones of the lower arm are the ulna, located on the little finger side of the humerus, and the radius,on the thumb side. These Anatomically speaking Bones of the hand A view of the right hand, illustrating the positions of the carpals, metacarpals, and phalanges. bones articulate with the humerus to form the elbow joint. The wrists are composed of eight small, irregular carpal bones aligned in two rows. Ligaments bind the carpals together. A handful of terms The bones of the hand are comprised of metacarpal bones and phalanges. (See Bones of the hand.) The way these bones come together enables move- ment of the hand Five small long metacarpal bones attach to the carpals and form the palm of the hand. Phalanges is the plural Phalanges, or finger bones, are miniature long bones. of the Greek word pha- Each finger has three phalanges, while the thumb has two. lange, or phalanx. The latter term was applied The thumb metacarpal has a freely movable joint, allow- to Greek and Roman ing a wide range of movementbetween the thumb meta- carpal and the trapezium, the carpal at the base of the noted for their closely thumb. joined and unified ma- neuvers. Lower extremities The lower extremities contain bones of the hip, thigh, leg, It says here that ankle, and foot. the word patella, for kneecap, is a Girdle words Latin word that Three pairs of bones fuse during childhood to form the means a small, flat pelvic girdle, the broadest bone in the body. This bone dish—just what supports the trunk, protects the abdominal organs within the kneecap looks its basin, and attaches the lower extremities to the body. like The three pairs of fused bones include the ilium, which is the largest and uppermost of the three; the ischium, the lower and strongest set of bones; and the pubis, a pair of anterior bones that meet at the symphysis pubis—a car - tilaginous joint. Give ’em a leg up The two femurs, or upper leg bones, are the longest and heaviest bones in the body. They connect at the proximal end with the hip, articulating with the acetabulum, or hip socket. The femurs connect with the tibia at the dis- tal end. The kneecap, or patella, is a small, flat bone that protects the knee joint and overlaps the distal end of the femur and the proximal end of the tibia. Below the knee The tibia, sometimes called the shinbone, is the largest and strongest of the lower leg bones. It articulates with the femur at the proximal end and meets the fibula and the talus at the distal end. The fibula connects with the tibia at its proximal and distal ends. The fibula’s distal end also articulates with the talus. The articulation of the fibula, tibia, and talus bones creates the bony prominence on the outside of the ankle, called the lateral malleolus. Now, fleetly, to the foot The foot bones form a strong, stable arch with lengthwise and crosswise support. Strong ligaments and tendons of the leg muscles help the foot bones maintain their arched position: Seven short tarsal bones structurally resemble the wrist, and they articulate with the tibia and fibula: – The talus bone (astragalus) forms part of the ankle joint. – The heel, called the calcaneus, is the largest tarsal bone. – The scaphoid bone is also called the navicular because of its boat shape. – The cuneiforms (the lateral, intermediate, and medial) are three wedge-shaped bones that form the arch of the foot. – The cuboid bone articulates in the front with the metatarsal bones. Five metatarsal bones form the foot and articulate with the tarsal bone and the phalanges. The fourteen phalanges (toes) are similar to fingers, with three bones in each toe except the great toe, which, Words will like the thumb, contains only two bones. never hurt Anatomy of bones me. But let’s keep sticks out of it! Bones are classified according to their shape: Long bones are the main bones of the limbs, except the patella, and those of the wrists and ankles. Short bones are the bones of the wrists and ankles. Flat bones include the sternum, scapulae, and cranium, among others. Irregular bones include the vertebrae and hip bones. Boning up on bone material All bones consist of two types of bone material: an outer layer of dense, smooth compact bone and an inner layer of spongy, cancellous (porous) bone. Compact bone is found especially in the shaft of long bones and in the outer layers of short, flat, and irregular bones. Cancellous bone fills the central regions of the epiphysis (the end of a long bone where bone formation takes place) and the inner portions of short, flat, and irregular bones. Osteon, Greek for bone, provides a key word-forming root for medical terms relating to bones, oste- or osteo-. Osteoblast is a com- pound of osteo- and -blast; the latter is another common medical root derived from a Greek word that means a bud or a shoot of a developing organism. An osteoblast is thus a cell that buds forth new bone tissue. The Greek word clast, on the other hand, means to break or fragment. Therefore, an osteoclast is a cell that breaks down bone. The Romans had a name for it Another very common root for forming words is the Latin word os, or oss-, also meaning bone. This root is contained in words like ossify, meaning to change or to become bone, and ossification, the process of becoming bone. As osteoblasts add new tissue to the outside of a bone, large phagocytic cells called osteoclasts eat away bony tissue in the medullary cavity to keep the bone from becoming too thick. A healthy bone is constantly broken down,resorbed, andrepaired long after it stops growing in size. During adulthood, bone formation (or ossifica- tion) and bone resorption balance one another so that each boneremains a constant size. Duringchildhood and adolescence, ossification is faster than resorption and bones grow larger. Cartilage Bones and joints need support as well as shock absorp- tion. Cartilage is a dense connective tissue that has these capabilities. It consists of fibers embedded in a strong, gel-like substance. Unlike rigid bone, cartilage has the flexibility of firm plastic. Cartilage supports and shapes various structures, such as the auditory canal and the intervertebral disks. It also cushions and absorbs shock. Cartilage has no blood or nerve supply. Types of cartilage Cartilage may be fibrous, hyaline, or elastic: Fibrous cartilage forms at the meniscus and the inter- vertebraldisks. Hyaline cartilage covers articular bone surfaces (where one or more bones meet at a joint), connects the ribs and sternum, and appears in the trachea, bronchi, and nasal septum. Elastic cartilage is located in the auditory canal, ex- ternal ear, and epiglottis. Bone movement Bones are rigid structures that can’t bend without being damaged, so individual bones move at joint sites, or Articulations. Every bone in the body except the hyoid bone, which anchors the tongue, is connected to another bone by flexible connective tissue. How does it move? Classifying joints Joints can be classified by the type of movement they al- low and by their structure. The three classes of joints identified by the range of movement they allow are: synarthrosis—immovable amphiarthrosis—slightly movable diarthrosis—freely movable. Our joints are jumpin’! It must What is it made of? be that By structure, a joint maybe classified as fibrous, carti- laginous, or synovial. In fibrous joints, the articular sur- diarthrosis faces of the two bones are bound closely by fibrous con- nective tissue and little movement is possible. The cranial suturesare examplesof fibrousjoints. In cartilaginous joints, cartilage connects one bone to another; these joints allow slight movement. An example is the symphysis pubis (the junction of the pelvic bones). Body surfaces in the synovial joints are covered by articular cartilage andjoined by ligaments (dense, strong, flexiblebands of fibrousconnectivetissue that bind bones to other bones) lined with synovial mem- brane. Freely movable, synovial joints include most joints of the arms and legs. Synovialjoints also include an ar- ticular capsule—a saclike envelope, whose outer layer

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