Axial and Appendicular Skeleton Chapters 7 & 8. Axial and Appendicular Skeleton The skeleton (greek=dried up body) has 206 bones. The axial skeleton is.

Download Axial and Appendicular Skeleton Chapters 7 & 8. Axial and Appendicular Skeleton The skeleton (greek=dried up body) has 206 bones. The axial skeleton is.

Post on 17-Dec-2015




1 download

Embed Size (px)


<ul><li> Slide 1 </li> <li> Axial and Appendicular Skeleton Chapters 7 &amp; 8 </li> <li> Slide 2 </li> <li> Axial and Appendicular Skeleton The skeleton (greek=dried up body) has 206 bones. The axial skeleton is composed of the skull, vertebral column, and rib cage. The appendicular skeleton is composed of the upper and lower limbs and the shoulder and pelvic girdle. *** see page 147 for the definition of certain bone land marks. </li> <li> Slide 3 </li> <li> Slide 4 </li> <li> I. The skull-contains cranial bones that protect the brain, these are joined at sutures. The facial bones make up the rest of the skull and serve several functions. See the section on the fetal skull pg173-174 and learn the regions. A. The skull is composed of many cavities and openings which allow nerves, blood vessels, and organs to function. B. Cranium- composed of eight bones, two are paired 1. parietal (2) 3. frontal 5. ethimoid 2. temporal (3) 4. occipital6. sphenoid C. Facial bones- there are 14 facial bones 1. mandible 4. nasal (2)7. zygomatics(2) 2. maxillae (2) 5. vomer 8. lacrimal (2) 3. palantine(2) 6. inferior nasal conchae (2) </li> <li> Slide 5 </li> <li> Supracilliary Arch Orbital Part </li> <li> Slide 6 </li> <li> Anterior Cranial Fossa </li> <li> Slide 7 </li> <li> Parietal Bone and Sutures </li> <li> Slide 8 </li> <li> Occipital Bone </li> <li> Slide 9 </li> <li> Slide 10 </li> <li> Groove for transverse dural sinus Occipital Bone Groove for sigmoid sinus </li> <li> Slide 11 </li> <li> Temporal Bone and Zygomatic bone </li> <li> Slide 12 </li> <li> Temporal Bone </li> <li> Slide 13 </li> <li> Petrous Part </li> <li> Slide 14 </li> <li> Groove for transverse dural sinus Temporal Bone Groove for sigmoid sinus </li> <li> Slide 15 </li> <li> Cranial Fossa </li> <li> Slide 16 </li> <li> SPHENOID BONE </li> <li> Slide 17 </li> <li> Sphenoid Bone </li> <li> Slide 18 </li> <li> Slide 19 </li> <li> Slide 20 </li> <li> Slide 21 </li> <li> Ethmiod bone Superior Nasal Conchae </li> <li> Slide 22 </li> <li> Slide 23 </li> <li> Facial Bones Alveolar Margin Alveolar sockets (where teeth insert) </li> <li> Slide 24 </li> <li> Mandible and Maxillae </li> <li> Slide 25 </li> <li> Facial Bones </li> <li> Slide 26 </li> <li> Cleft Palate is a congenital condition in which the two halves of the maxillary and palate bone fuse. The opening affects the roof of the mouth and the nasal cavity and upper lip. It is treated with surgery and can be easily prevented by taking folic acid during pregnancy. </li> <li> Slide 27 </li> <li> D. Special parts of the skull 1. Orbits- cavities that hold the eye and all tissues related to the eye. It is formed by the union of seven bones which also form the lacrimal fossa, optic foramen, and orbital fissures. 2. Nasal Cavity- made up of bone and cartilage the top is made by the cibriform plate and the bottom by the palantine. There are three conchae (shelfs) two made by the ethmoid bone and one by the inferior conchae bone. The nasal septum divides the nose down the middle. 3. Paranasal sinuses- air filled cavities around the nasal area that connect to the nasal cavity and help in treating the air as well as in voice resonance. 4. Hoyd bone- inferior to mandible, only bone that does not have a joint, it is an attachment site for the tongue and other neck muscles. </li> <li> Slide 28 </li> <li> Bones of the nasal cavity </li> <li> Slide 29 </li> <li> Bone of the Eye Orbit </li> <li> Slide 30 </li> <li> Sinuses </li> <li> Slide 31 </li> <li> Hyoid Bone </li> <li> Slide 32 </li> <li> Slide 33 </li> <li> Vertebral Column II. The vertebral column- made up of 26 (33 technically but 9 are fused) bones, forms the bodys axis, it protects the spinal cord. It articulates with the ribs and provides attachment for dorsal muscles and rib muscles. Anterior and posterior longitudinal ligaments, the supraspinous and interspinous ligaments, and the ligamentum flavum stabilize the vertebral column. </li> <li> Slide 34 </li> <li> Intervertebral Disc A. Intervertebral discs- composed of fibrocartilage it endures compression and shock absorption. It has two regions the annulus fibrosus and the nucleus pulpusus. They make up 25% of the height of the column and flatten throughout the day. </li> <li> Slide 35 </li> <li> Vertebral sections and curves B. Regions and normal curvatures- The spinal column in made up of the cervical (7), throracic (12), lumbar (5), sacrum (5 fused), and coccyx (4 fused). Each region has a curve: concave for cervical and lumbar and convex for thoracic and sacral. </li> <li> Slide 36 </li> <li> Ligaments of the vertebrae </li> <li> Slide 37 </li> <li> Common vertebral landmarks C. General structure of vertebrae- All vertebrae except the first two cervical vertebrae (atlas and axis) share common characteristics that differ slightly according to region. All vertebrae have a centrum (body), vertebral arch, vertebral foramen, pedicles, laminae, spinous process, tansverse process, and inferior/superior articulating facets. </li> <li> Slide 38 </li> <li> Slide 39 </li> <li> Axis and Cervical Vertebrae D. Regional vertebral characteristics- each region has vertebrae that serve different functions thus they vary slightly: 1. Cervical vertebrae- rectangle like, bifid spinous process, triangular vertebral foramen, has transverse foramen, superior/anterior facets are located in slightly opposite positions. </li> <li> Slide 40 </li> <li> Thoracic and Lumbar Vertebrae 2. Thoracic vertebrae- body is slightly heart shape, has demifacets (for ribs), long spinous process, circular vertebral foramen, transverse processes articulate with ribs, provides most of the rotation. 3. Lumbar vertebrae-bears most of the weight so it has a massive body, short thick pedicles and laminae, triangular vertebral foramen, articulating facets prevent rotation, and short thick spinous process. </li> <li> Slide 41 </li> <li> Anterior and Posterior Sacrum 4.Sacrum-five fused vertebrae, articulates with the bones of pelvis, center of gravity for the human is within this region 5.. 5. Coccyx- 4 (or 3-5) fused vertebrae, also known as the tail bone. </li> <li> Slide 42 </li> <li> Spinal Abnormalities E. Abnormalities of the spinal column- These present themselves when the curvatures of the spinal column are exaggerated. 1. Scoliosis- lateral curvature, most often in thoracic region. The cause is sometimes unknown. Sometimes the vertebrae are deformed and or the one side of muscles is stronger pulling the vertebral column to that side. In some cases scoliosis can cause compression of the lung. 2. Kyphosis- a bent on a saggital plane along the thoracic region causing a hunchback. Happens most often in women as a result of vertebral fractures due to osteoporosis. 3. Lordosis an over curvature of the lumbar region causing a swayed back. This often occurs in people carrying a large long infront or spinal tuberculosis or osteomalacia (boen softening) </li> <li> Slide 43 </li> <li> Bones of the Anterior Thorax III. The bony thorax- the rib cage is also part of the axial skeleton and assist in breathing as well as protect internal organs. A. Sternum- has three sections: manubrium, body, xyphoid process (cartilage) B. Ribs- there are twelve pairs of ribs, the first 7 are true ribs (attach to sternum) and the last 5 are false ribs (floating). </li> <li> Slide 44 </li> <li> Slide 45 </li> <li> Slide 46 </li> <li> Slide 47 </li> <li> Slide 48 </li> <li> Bone of the upper appendicular Skeleton IV. The pectoral girdle- consist of the scapula and clavicle, attaches upper limbs to axial skeleton, and provides attachment sites for muscles A. Clavicles-also called the collarbone, they are long bones. B. Scapulae-also called shoulder-blades, they are flat bones with three borders. </li> <li> Slide 49 </li> <li> Slide 50 </li> <li> Slide 51 </li> <li> V. The upper limb- 30 bones make up these three sections A. Arm- applies to area between shoulder and elbow: the humerus. B. Forearm- applies to area from elbow to writst: radius and ulna. These bones articulate with the humerus, the wrist, and each other. They are attached to each other by the interosseous membrane. C. Hand- includes the carpals (wrist bones) metacarpals (palm) and phalanges (finger digits). Phalanges are numbered 1-5 beginning with the thumb (pollex) </li> <li> Slide 52 </li> <li> Slide 53 </li> <li> Slide 54 </li> <li> Slide 55 </li> <li> Slide 56 </li> <li> Slide 57 </li> <li> Slide 58 </li> <li> VI. The pelvic girdle- consists of two coxal bones (os coxae) that attach to the axial skeleton by very strong ligaments, they bear the bodys weight and have deep joint sockets for the lower limbs. The two coxal bones are made up of three fused bones. A. Ilium- large lateral flaring bones B. Ischium-located posterior inferior to ilium, also known as the sit bones C. Pubis-anterior bones of the pelvis D. True and false pelvis- false pelvis refers to the greater pelvis that is superior to pelvic brim, forms part of the abdomen, and contains abdominal organs. The true pelvis is inferior to pelvic brim and holds pelvic organs. E. Pelvic structure and childbearing- womens pelvic girdles are designed for child bearing. They have a true pelvis that is broad and shallow, bones are lighter and thinner, the acetabula are smaller and further apart and the pubic arch is more rounded. VII. The lower limbs- they carry the entire weight of the body, it includes the thigh (femur) the leg (tibia and fibia) and the foot (tarsals, metatarsals, and phalanges). </li> <li> Slide 59 </li> <li> Slide 60 </li> <li> Slide 61 </li> <li> Slide 62 </li> <li> Slide 63 </li> <li> Slide 64 </li> <li> Slide 65 </li> <li> Slide 66 </li> <li> Slide 67 </li> <li> Slide 68 </li> <li> Disorders of the appendicular skeleton Hip dysplasia- common birth defect in which the acetabulum is incompletely formed or the ligatments are lose allowing the femur to slip out of its socket. The treatment involves properly positioning the head of the femur so cause the acetabulum to deepen. Club foot-a congenital disorder that is caused by heredity or malpositioning of the fetus in the womb. The soles of the feet point medially and the toes point inferiorly. It is treated with casts that reposition the foot or with surgery. </li> <li> Slide 69 </li> <li> Growth of body and proportions of limbs to trunk-. After birth limbs grow faster than the trunk. </li> </ul>


View more >