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Chapter 7: The Axial Skeleton 1 Human Skeleton • Human Skeleton = 206 Bones 1. Axial Skeleton: -longitudinal axis -80 bones 2. Appendicular Skeleton: -limbs -126 bones 2 The Axial Skeleton 3 Figure 7–1a Axial Skeleton 4 Appendicular Skeleton 5 Axial Skeleton Function 1. Support and protect organs in dorsal and ventral body cavities 2. Provide surface area for muscle attachment: A. Adjust position of head, neck, & trunk B. Perform respiratory movements C. Stabilize appendicular skeleton 6 Bones of the Axial Skeleton • The skull: 22 bones – 8 cranial bones: • form the braincase or cranium – 14 facial bones: • protect and support entrances to digestive and respiratory tracts • Skull bones interconnect at immovable joints called sutures – Dense fibrous CT 7 Skull: 22 Bones 8 Cranial Bones • Enclose the cranial cavity • Which contains the brain: – and its fluids, blood vessels, nerves, and membranes 9 The Facial Bones • Superficial facial bones: – for muscle attachment – Maxillary, Lacrimal, Nasal, Zygomatic, and Mandible • Deep facial bones: – separate the oral and nasal cavities – form the nasal septum – Palatine bones, Inferior nasal conchae, and Vomer 10 The Maxillary Bones • The largest facial bones 11 Figure 7–10a Functions of the Maxillary Bones • • • • • Support upper teeth Form inferior orbital rim Form lateral margins of external nares Form upper jaw and hard palate Contain maxillary sinuses (largest sinuses) 12 The Palatine Bones 13 Figure 7–10b,c Functions of the Palatine Bones • Form the posterior portion of the hard palate • Contribute to the floors of the orbits 14 The structures and functions of the nasal complex. 15 The Small Bones of the Face 16 Figure 7–11 Functions of the Nasal Bones • Nasal Bones – Support the bridge of the nose – Connect to cartilages of the distal part of the nose (external nares) • Vomer – Forms the inferior portion of the bony nasal septum • Inferior Nasal Conchae – To create air turbulence in the nasal cavity – To increase the epithelial surface area – To warm and humidify inhaled air 17 The Mandible Forms the lower jaw 18 Figure 7–12a,b The Hyoid Bone • Function: – Supports the larynx – Attaches muscles of the larynx, pharynx, and tongue 19 Figure 7–12c Marks of the Hyoid Bone • Greater horns (greater cornua): – support larynx – attach muscles of the tongue • Lesser horns (lesser cornua): – attach stylohyoid ligaments – support hyoid and larynx 20 Skull • Four major sutures: 1. Lambdoid: - separates occipital bone from parietal bones 2. Corona: - separates frontal bone from parietal bones 3. Sagittal: - separates parietal bones 4. Squamous: - (2) separates temporal bone from parietal bone 21 Sutures • The immovable joints of the skull 22 Figure 7–3a, b Sutures 23 Figure 7–3c Sutures 24 Figure 7–3d, e The Orbital Complex • Portions of 7 cranial and facial bones 25 Figure 7–13 The Orbital Complex • Forms the eye sockets (orbits): – frontal bone (roof) – maxillary bone (floor) – maxillary, lacrimal and ethmoid bones (orbital rim and medial wall) – sphenoid and palatine bones 26 The Nasal Complex • Bones of the nasal cavities and paranasal sinuses 27 Figure 7–14 The Nasal Complex: Sinuses • Sinuses: – – air filled chambers inside flat bones Function: 1. Reduce weight of bone 2. House mucus membranes that moisten and clean incoming air - Found in: - Sphenoid, ethmoid, frontal, palatine, and maxillary bones 28 The differences between the skulls of infants, children, and adults. 29 Skull Development • Intramembranous ossification from many centers of ossification • During development: – brain grows more rapidly than cranial bones • Growing skull bones are held together by bands of fibrous CT to provide flexibility – Expansion of brain, compression for birth • Large intersections of CT between the bones = fontalels (“soft spots”) – Persist until age 5 • Around age 5: – Brain stops growing in size, solid sutures form between cranial bones 30 The Infant Skull • Fusion is not complete at birth: – 2 frontal bones – 4 occipital bones – several sphenoid and temporal elements • Fontanels – Are areas of fibrous connective tissue (soft spots) – Cover unfused sutures in the infant skull – Allow the skull to flex during birth 31 The 4 Fontanels • Anterior fontanel: – frontal, sagittal, and coronal sutures • Occipital fontanel: – lambdoid and sagittal sutures • Sphenoidal fontanels: – squamous and coronal sutures • Mastoid fontanel: – squamous and lambdoid sutures 32 Infant Skull 33 Skull Development Abnormalities 1. Craniostenosis: - Premature closure of frontanels, Without surgery, the brain is crushed 2. Microcephaly: - Brain fails to enlarge - Cranium remains small 34 Craniostenosis Microcephaly 35 In which bone is the foramen magnum located? A. B. C. D. sphenoid occipital bone ethmoid parietal bone 36 Tomás suffers a blow to the skull that fractures the right superior lateral surface of his cranium. Which bone is fractured? A. B. C. D. frontal bone right temporal bone right parietal bone ethmoid 37 Which bone contains the depression called the sella turcica? What is located in this depression? A. B. C. D. sphenoid bone; pituitary gland ethmoid; olfactory epithelium temporal bone; inner ear lacrimal bone; tear apparatus 38 The vertebral regions, the curvatures of the vertebral column, and their functions. 39 The Vertebral Column: 26 Bones • The spine or vertebral column: – protects the spinal cord – supports the head and body • • • • • 7 cervical vertebrae (C1-C7) 12 Thoracic vertebrae (T1-T12) 5 Lumbar vertebrae (L1-L5) 1 Sacrum (5 fused) 1 Coccyx (3-5 fused) 40 Regions and Curves of the Vertebral Column • 26 bones: – 24 vertebrae, the sacrum, and coccyx • Vertebral column is not straight – 4 curves bring the weight of the body in line with the central axis 41 Figure 7–16 The Vertebrae 42 Figure 7–20a Comparing Vertebrae 43 Characteristics of the Sacrum and Coccyx • The sacrum: – is curved, more in males than in females – protects reproductive, urinary, and digestive organs • The coccyx: – attaches ligaments and a constricting muscle of the anus 44 4 Curvatures of the Vertebral Column 1. 2. 3. 4. Cervical curve Thoracic curve Lumbar curve Sacral curve 45 Primary Curves • Thoracic and sacral curves: – are called primary curves (present during fetal development) – or accommodation curves (accommodate internal organs) 46 Secondary Curves • Lumbar and cervical curves: – are called secondary curves (appear after birth in first year of life) – or compensation curves (shift body weight for upright posture) – Necessary for bipedalism – Cervical: holds head up – Lumbar: standing 47 Abnormalities in Curvature 1. Kyphosis: - exaggerated thoracic curvature 2. Lordosis: - exaggerated lumber curvature 3. Scoliosis: - abnormal lateral curvature 48 Construction of Column • Vertebral body: stacking – transfers weight along the spine • Intervertebral disc: – Spacing between bodies (not C1 and C2) – Annulus Fibrosus: Outside • Fibrocartilage – Nucleus pulposus: Inside • Gel (cushion) • Absorbs Shock – Loss of water from discs = shrinking height 49 Construction of Column • Elastic ligaments: – link bodies for alignment • Intervertebral foramen: – holes formed by spacing from discs, allow spinal nerves to exit column • Vertebral arch: – Bone attached to vertebral body, with body it forms vertebral foramen • Vertebral Foramen: – Hole for spinal cord • Vertebral Canal: – Bony canal for spinal cord – Formed by stacking of vertebral foramen 50 Structure of a Vertebra 51 Figure 7–17a,b The Vertebral Canal 52 Figure 7–17d,e Spina bifida • Vertebral arch fails to develop correctly at 3 weeks (fetus) and the spinal cord is unprotected or even exposed • 4/1000 births show some degree – Due to lack of folic acid 53 Why does the vertebral column of an adult have fewer vertebrae than that of a newborn? A. Vertebrae are absorbed as adult stature is reached. B. Newborns require more support in the cervical region. C. The sacrum and coccyx fuse postpuberty. D. Vertebrae are formed that later 54 become ribs. What is the importance of the secondary curves of the spine? A. B. C. D. balances weight of head balances weight on lower limbs allows walking provides greater flexibility 55 When you run your finger along a person’s spine, what part of the vertebrae are you feeling just beneath the skin? A. B. C. D. superior articular processes pedicles transverse processes spinous processes 56 Joe suffered a hairline fracture at the base of the dens. Which bone is fractured, and where is it located? A. second cervical vertebra; posterior neck B. first cervical vertebra; posterior neck C. occipital bone; posterior base of skull D. sacrum; posterior pelvis 57 Examining a human vertebra, you notice that, in addition to the large foramen for the spinal cord, two smaller foramina are on either side of the bone in the region of the transverse processes. From which region of the vertebral column is this vertebra? A. B. C. D. thoracic lumbar sacral cervical 58 Why are the bodies of the lumbar vertebrae so large? A. They develop first and therefore have longer to grow. B. To provide more flexibility. C. To distribute weight over a larger area. D. To provide greater protection to the lumbar spinal nerves. 59 The significance of articulations between ribs, thoracic vertebrae, and sternum. 60 The Thoracic Cage • The skeleton of the chest: – supports the thoracic cavity • Consists of: – 24 Ribs – 1 sternum (breastbone) 61 The Sternum • The sternum: – a flat bone – in the midline of the thoracic wall 62 The Rib Cage • Formed of ribs and sternum 63 Figure 7–22a Articulations of Ribs and Vertebrae 64 Figure 7–22b Functions of the Thoracic Cage • Protects organs of the thoracic cavity: – heart, lungs, and thymus • Attaches muscles: – – – – for respiration of the vertebral column of the pectoral girdle of the upper limbs 65 The Ribs 66 Figure 7–23 Functions of Ribs • Ribs: – are flexible – are mobile – can absorb shock • Rib movements (breathing): – affect width and depth of thoracic cage – changing its volume 67 Ribs • Ribs (costae): – are 12 pairs of long, curved, flat bones – extending from the thoracic vertebrae • Ribs are divided into 3 types: 1. 7 pairs of true ribs: • Separate cartilage to attach to sternum 2. 3 pairs of false ribs: • Common shared cartilage to attach to sternum 3. 2 pairs of floating ribs: - no cartilage, no attachment to sternum68 KEY CONCEPT • The axial skeleton: – protects the brain, spinal cord, and visceral organs of the chest • Vertebrae: – conduct body weight to the lower limbs • Lower vertebrae are larger and stronger: – because they bear more weight 69 How could you distinguish between true ribs and false ribs? A. True ribs attach directly to the sternum by their own costal cartilage. B. True ribs are entirely bony. C. False ribs are not part of the thoracic cage. D. True ribs are attached only to the sternum. 70 Improper administration of cardiopulmonary resuscitation (CPR) can result in a fracture of which bone(s)? A. B. C. D. cervical vertebra and ribs thoracic vertebra and ribs sternum and thoracic vertebra sternum and ribs 71 What are the main differences between vertebrosternal and vertebrochondral ribs? A. Vertebrosternal ribs attach to the sternum. B. Vertebrochondral ribs attach to costal cartilage. C. Vertebrosternal ribs increase in curvature and length from 1 - 7. D. All of the above are true. 72