Chapter 08 Lecture Outline

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1 Chapter 08 Lecture Outline See separate PowerPoint slides for all figures and tables preinserted into PowerPoint without notes. Copyright McGraw-Hill Education. Permission required for reproduction or display. 1

2 Introduction Many organs are named for their relationships to nearby bones Understanding muscle movements also depends on knowledge of skeletal anatomy Positions, shapes, and processes of bones can serve as landmarks for clinicians 8-2

3 Overview of the Skeleton Skull Pectoral girdle Thoracic cage Pelvis Frontal bone Maxilla Mandible Clavicle Scapula Sternum Ribs Costal cartilages Vertebral column Hip bone Sacrum Coccyx Carpus Metacarpal bones Phalanges Patella Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Parietal bone Occipital bone Mandible Clavicle Scapula Humerus Ulna Radius Femur Fibula Tibia Axial skeleton is colored beige Forms central supporting axis of body Skull, vertebrae, sternum, ribs, sacrum, and hyoid Appendicular skeleton is colored green Pectoral girdle Upper extremity Pelvic girdle Lower extremity Tarsus Metatarsal bones Phalanges Figure (a) Anterior view (b) Posterior view

4 Bones of the Skeletal System Number of bones 206 in typical adult skeleton Varies with development of sesamoid bones Bones that form within tendons (e.g., patella) Varies with presence of sutural (wormian) bones in skull Extra bones that develop in skull suture lines 270 bones at birth, but number decreases with fusion 8-4

5 Anatomical Features of Bones Bone markings ridges, spines, bumps, depressions, canals, pores, slits, cavities, and articular surfaces Ways to study bones Articulated skeleton: held together by wire and rods, shows spatial relationships between bones Disarticulated bones: taken apart so their surface features can be studied in detail 8-5

6 Anatomical Features of Bones 8-6

7 Anatomical Features of Bones Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Lines Crest Sinuses Fovea Meatus Process Condyle Spine Foramen Alveolus Foramen Head Trochanters Crest Head Tubercle (a) Skull (lateral view) Line Tuberosity Process Spine Fossae Epicondyles Fossae Condyles (b) Scapula (posterior view) Figure 8.2 (c) Femur (posterior view) (d) Humerus (anterior view) 8-7

8 The Skull Expected Learning Outcomes Distinguish between cranial and facial bones. Name the bones of the skull and the anatomical features. Identify the cavities in the skull and in some of its individual bones. Name the principal sutures that join the bones of the skull. Describe some bones that are closely associated with the skull. Describe the development of the skull from infancy through childhood. 8-8

9 The Skull Skull most complex part of skeleton 22 bones joined together by sutures (immovable joints) Several cavities cranial cavity (brain case), orbits (eye sockets), nasal cavity, oral (buccal) cavity, middle- and inner-ear cavities, and paranasal sinuses 8-9

10 The Skull Foramina holes that allow passage for nerves and blood vessels Paranasal sinuses frontal, sphenoid, ethmoid, maxillary Lined by mucous membrane and are air-filled Act as chambers that add resonance to the voice; lighten the skull 8-10

11 The Skull Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Cranial cavity Frontal bone Ethmoid air cells Ethmoid bone Nasal conchae Vomer Superior Middle Inferior Orbit Zygomatic bone Maxilla Maxillary sinus Mandible Oral cavity Nasal cavity Figure

12 Cranial Bones Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Anterior cranial fossa Frontal lobe Temporal lobe Middle cranial fossa Cerebellum Posterior cranial fossa Posterior cranial fossa (a) Superior view Cranium (braincase) Middle cranial fossa Anterior cranial fossa Figure 8.9 (b) Lateral view Meninges (membranes) separate brain from bones Dura mater is thickest membrane Consists of two parts: calvaria (skullcap) and cranial base 8-12

13 Cranial Bones Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Anterior cranial fossa Frontal lobe Temporal lobe Middle cranial fossa Cerebellum Posterior cranial fossa Posterior cranial fossa Middle cranial fossa (a) Superior view Anterior cranial fossa Figure 8.9 (b) Lateral view Base is divided into three basins that comprise the cranial floor Anterior cranial fossa holds the frontal lobe of the brain Middle cranial fossa holds the temporal lobes of the brain Posterior cranial fossa contains the cerebellum 8 cranial bones: 1 frontal, 2 parietal, 2 temporal, 1 occipital, 1 sphenoid, 1 ethmoid 8-13

14 The Frontal Bone Forms forehead and part of the roof of the cranium Coronal suture posterior boundary of frontal bone Supraorbital margin ridge of bone deep to eyebrow Supraorbital foramen provides passage for nerve, artery, and vein Glabella smooth area above root of the nose Contains frontal sinus Figure

15 The Parietal Bones Form most of cranial roof and part of its lateral walls Figure 8.4a Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Anterior Frontal bone Coronal suture Parietal bone Bordered by four sutures Sagittal: between parietal bones Coronal: at anterior margin Lambdoid: at posterior margin Squamous: at lateral border Two temporal lines for attachment of the temporalis muscle Sagittal suture Sutural bone Parietal foramen Lambdoid suture Occipital bone Posterior Figure

16 The Temporal Bones Figure 8.4a Temporal bone: lateral wall and part of floor of cranial cavity Four parts: squamous, tympanic, mastoid, and petrous Squamous part Encircled by squamous suture Zygomatic process Mandibular fossa Tympanic part External auditory meatus Styloid process Mastoid part Mastoid process Mastoid notch Mastoid foramen Stylomastoid foramen 8-16

17 The Temporal Bones Figure 8.5b (Continued) Petrous part Part of cranial floor Separates middle from posterior cranial fossa Houses middle- and inner-ear cavities Receptors for hearing and balance Internal auditory meatus opening for CN VIII (vestibulocochlear nerve) Carotid canal Jugular foramen 8-17

18 The Temporal Bones Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Squamous suture Squamous part Mastoid part Mastoid notch Mastoid process Styloid process Zygomatic process Mandibular fossa External acoustic meatus Tympanic part (a) Lateral surface Squamous suture Squamous part Zygomatic process Petrous part Internal acoustic meatus Styloid process (b) Medial surface Mastoid process Figure

19 The Occipital Bone Rear and base of skull Foramen magnum opening for spinal cord Basilar part thick median plate Occipital condyles knobs resting on spinal column Condylar canal, posterior to occipital condyle (only present in some people) Hypoglossal canal transmits hypoglossal nerve (CN XII) External occipital protuberance for nuchal ligament Superior and inferior nuchal lines for neck muscle attachment Figure 8.5a 8-19

20 The Sphenoid Bone Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Lesser wing Greater wing Body Foramen ovale Lateral pterygoid plate Medial pterygoid plate (b) Posterior view Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Diploe (spongy bone) Crista galli Cribriform foramina Optic foramen Foramen rotundum Foramen ovale Foramen spinosum Internal acoustic meatus Jugular foramen Groove for venous sinus Hypoglossal canal Figure 8.11b (b) Superior view of cranial floor Figure 8.5b Dorsum sellae Superior orbital fissure Foramen rotundum Pterygoid processes Frontal bone Cribriform plate of ethmoid bone Sphenoid bone Sella turcica Temporal bone Petrous part of temporal bone Parietal bone Foramen magnum Occipital bone Body Greater wing Lesser wing Optic canal Anterior clinoid processes Superior orbital fissure Sella turcica 8-20

21 The Sphenoid Bone Figure 8.11a Foramen rotundum Foramen ovale Foramen lacerum Posterior nasal apertures or choanae Medial and lateral pterygoid plates Sphenoid sinus Figure 8.5b 8-21

22 The Sphenoid Bone Figure 8.4b 8-22

23 The Sphenoid Bone Figure 8.5a 8-23

24 The Ethmoid Bone Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Cribriform plate Cribriform foramina Orbital plate Ethmoidal cells Perpendicular plate Figure 8.12 Crista galli Superior nasal concha Middle nasal concha Located between eyes Contributes to medial wall of orbit, walls and roof of nasal cavity, and nasal septum Perpendicular plate forms superior two-thirds of nasal septum Cribriform plate forms roof of nasal cavity Crista galli: blade, attachment for dura Cribriform (olfactory) foramina Labyrinth forms lateral masses - Ethmoidal cells - Orbital plate 8-24

25 The Ethmoid Bone Figure

26 The Ethmoid Bone Figure 8.4b Superior and middle nasal conchae scroll-like plates that project into the nasal fossa Along with an inferior concha (a separate bone), these plates occupy most of the nasal cavity, create turbulence of airflow, and help humidify air 8-26

27 The Ethmoid Bone Figure

28 Facial Bones Facial bones (14) skull bones anterior to the cranial cavity (do not enclose brain) Support teeth Give shape to face Form part of orbital and nasal cavities Provide attachments for muscles of facial expression and mastication 2 maxillae 2 nasal bones 2 palatine bones 2 inferior nasal conchae 2 zygomatic bones 1 vomer 2 lacrimal bones 1 mandible 8-28

29 The Maxillae Largest facial bones Forms upper jaw and meets at median intermaxillary suture Alveolar processes: bony points between teeth Alveolus: sockets that hold teeth Cleft palate and cleft lip occur when the two maxillae fail to join at the suture Figure

30 The Maxillae Figure 8.5a 8-30

31 The Maxillae (Continued) Forms inferomedial wall of orbit Infraorbital foramen Inferior orbital fissure Forms most of the hard palate Forms roof of mouth and floor of nasal cavity Palate allows us to chew while breathing Palatine process Incisive foramen 8-31

32 The Maxillae Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Sphenoid sinus Frontal sinus Ethmoid sinus Maxillary sinus Figure 8.8 Figure 8.8 Maxillary sinus fills maxillae bone Larger in volume than frontal, sphenoid, and ethmoid sinuses 8-32

33 L-shaped bones Form posterior portion of the hard palate Part of lateral nasal cavity wall The Palatine Bones Part of the orbital floor Greater palatine foramina Figure

34 The Palatine Bones Figure 8.5a 8-34

35 The Zygomatic Bones Figure 8.4a Form angles of cheekbones and part of each lateral orbital wall Zygomaticofacial foramen Zygomatic arch is formed from temporal process of zygomatic bone and zygomatic process of temporal bone 8-35

36 The Lacrimal Bones Form part of medial wall of each orbit Smallest bone of skull Figure 8.4a Lacrimal fossa houses lacrimal sac Tears collect in sac and drain into nasal cavity 8-36

37 The Nasal Bones Form bridge of nose Support cartilages that shape lower portion of the nose Often fractured Figure

38 The Inferior Nasal Conchae Inferior nasal concha is largest of three conchae in the nasal cavity It is separate from the other conchae that are parts of the ethmoid bone Figure

39 The Vomer Inferior half of the nasal septum Inferior to perpendicular plate of ethmoid Supports cartilage that forms anterior part of nasal septum Figure 8.4b 8-39

40 Strongest bone of skull Only one to noticeably move Supports lower teeth Alveolar processes between teeth Provides attachments for muscles of expression and mastication Mental symphysis joint at midline Ossifies in early childhood Mental protuberance point of chin Mental foramen on anterolateral surface For nerves and vessels of chin The Mandible Mandibular foramen on medial surface For nerves and vessels of lower teeth Figure

41 The Mandible Figure 8.15 Major parts Body: supports teeth Ramus: articulates with cranium Angle where body meets ramus Features of ramus Condylar process with mandibular condyle that articulates with temporal bone forming TMJ (temporomandibular joint) Coronoid process for temporalis muscle Mandibular notch between processes 8-41

42 Bones Associated with the Skull Auditory ossicles Three in each middle-ear cavity Malleus, incus, and stapes Hyoid bone Slender U-shaped bone between chin and larynx Does not articulate with any other bone Suspended from styloid process of skull Body and greater and lesser horns (cornua) Fractured hyoid bone is evidence of strangulation Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Styloid process Stylohyoid muscle Hyoid Larynx Lesser horn Greater horn Figure 8.16 Body 8-42

43 The Skull in Infancy and Childhood Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Parietal bone Lambdoid suture Squamous suture Occipital bone Mastoid fontanel Temporal bone Frontal bone Anterior fontanel Sagittal suture Parietal bone Posterior fontanel (a) Lateral view Sphenoid bone Coronal suture Frontal bone Sphenoid fontanel Nasal bone Maxilla Zygomatic bone Mandible Fontanels spaces between unfused cranial bones Contain fibrous membrane Allow shifting of bones during birth and growth of brain Anterior, posterior, sphenoid (anterolateral), and mastoid (posterolateral) fontanels Two frontal bones fuse by age 6 (metopic suture) Skull approaches adult size by 8 or 9 years of age (b) Superior view Figure

44 The Vertebral Column and Thoracic Cage Expected Learning Outcomes Describe the general features of the vertebral column and those of a typical vertebra. Describe the structure of the intervertebral discs and their relationship to the vertebrae. Describe the special features of vertebrae in different regions of the vertebral column, and discuss the functional significance of the regional differences. Describe the anatomy of the sternum and ribs and how the ribs articulate with the thoracic vertebrae. 8-44

45 General Features of the Vertebral Column Functions of spine Supports skull and trunk and allows for their movement Protects spinal cord Absorbs stresses of movements Provides attachments for limbs, thoracic cage, and postural muscles Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Anterior view Atlas (C1) Axis (C2) C7 T1 Posterior view Cervical vertebrae Thoracic vertebrae 33 vertebrae with intervertebral discs between most of them Discs account for about one-quarter of spine s 71 cm length (on average) Discs compress a bit during the day due to pressure of body weight T12 L1 L5 S1 Lumbar vertebrae Sacrum S5 Coccyx Figure 8.18 Coccyx 8-45

46 General Features of the Five vertebral groups 7 cervical in the neck 12 thoracic in the chest 5 lumbar in lower back 5 fused sacral at base of spine 4 fused coccygeal Variations in number of vertebrae occur in 1 in 20 people Generally in the number of fused vertebrae in inferior part of spine Vertebral Column Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Anterior view Atlas (C1) Axis (C2) C7 T1 T12 L1 L5 S1 S5 Coccyx Posterior view Figure 8.18 Cervical vertebrae Thoracic vertebrae Lumbar vertebrae Sacrum Coccyx 8-46

47 General Features of the Vertebral Column Primary curvature: spine exhibits one continuous C- shaped curve at birth (convex) This persists as the curvature of the thoracic and pelvic spine With crawling and walking, secondary curvatures develop in cervical and lumbar areas (concave) Vertebral column is S-shaped beyond the age of 3 years Figure

48 General Features of the Vertebral Column Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. C1 C7 T1 Cervical curvature Thoracic curvature T12 L1 S-shaped vertebral column with four normal curvatures Cervical Thoracic Lumbar Pelvic Lumbar curvature L5 S1 Pelvic curvature Figure

49 Abnormal Spinal Curvatures Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Abnormalities result from disease, paralysis of trunk muscles, poor posture, pregnancy, or congenital defects Scoliosis abnormal lateral curvature Most common Usually in thoracic region (a) Scoliosis Key Normal Pathological (b) Kyphosis ( hunchback ) Figure 8.21 (c) Lordosis ( swayback ) Particularly of adolescent girls Developmental abnormality in which the body and arch fail to develop on one side of the vertebrae 8-49

50 Abnormal Spinal Curvatures Kyphosis (hunchback) exaggerated thoracic curvature Usually from osteoporosis, also osteomalacia or spinal tuberculosis, wrestling or weight lifting in young boys Lordosis (swayback) exaggerated lumbar curvature From pregnancy or obesity 8-50

51 General Structure of Vertebra Body (centrum) Spongy bone (with red marrow) covered with a shell of compact bone Weight-bearing portion Rough surfaces enhance attachment of intervertebral discs Vertebral foramina Collectively form vertebral canal for spinal cord Vertebral arch Pedicle: pillar-like Lamina: plate-like Spinous process Projects from arch Bump that is visible under skin Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Spinous process Superior articular facet Transverse process Vertebral foramen Body Posterior Anterior Figure 8.22a Lamina Pedicle Vertebral arch 8-51

52 General Structure of Vertebra Transverse process Extends laterally from point where pedicel and lamina meet Superior articular processes Project upward from one vertebra and meets inferior articular processes from the vertebra above Facets Flat articular surfaces covered with hyaline cartilage Figure 8.23a 8-52

53 General Structure of Vertebra Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. L1 L2 L3 (b) Left lateral view Figure 8.23b Superior articular process of L1 Inferior vertebral notch of L1 Superior vertebral notch of L2 Spinous process Intervertebral disc Inferior articular process of L3 Intervertebral foramen Intervertebral foramen Opening between pedicles of two adjoining vertebrae Passageway for spinal nerves Inferior vertebral notch in the pedicle of the upper vertebra Superior vertebral notch in the pedicle of the lower vertebra 8-53

54 Intervertebral Discs Intervertebral discs (23) Pad consisting of: Nucleus pulposus inner gelatinous mass Anulus fibrosus outer ring of fibrocartilage Bind vertebrae together Support weight of the body Absorb shock Herniated disc ( ruptured or slipped disc) puts painful pressure on spinal nerve or spinal cord Figure 8.22b,c 8-54

55 Regional Characteristics of Vertebrae Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Superior views Lateral views Spinous process Lamina Superior articular facet Transverse foramen Transverse process (a) Cervical vertebrae Body Figure 8.25a Spinous process Inferior articular process Cervical vertebrae (C1-C7) are small and light Bifid or forked spinous processes in C2 to C6 Small body and large vertebral foramen Transverse foramen in each short transverse process Provides passage for vertebral artery and vertebral vein C1 = atlas; C2 = axis C7 = vertebra prominens prominent spinous process 8-55

56 Cervical Vertebrae Figure 8.24a Atlas (C1) Supports the head Has no body; consists of delicate ring around large vertebral foramen Lateral masses Superior articular facets articulate with occipital condyles forming atlanto occipital joint; allows nodding yes Inferior articular facets articulate with C2 Anterior and posterior arches Anterior and posterior tubercles 8-56

57 Cervical Vertebrae Figure 8.24b Axis (C2) Allows head rotation gesturing no Dens or odontoid process prominent knob on its anterosuperior side Fuses with axis by age 3 to 6 years Projects into vertebral foramen of the atlas Held in place by a transverse ligament Atlantoaxial joint: between atlas and axis 8-57

58 Atlas and Axis Articulation Axis of rotation Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Dens Atlas Transverse ligament Axis (c) Atlantoaxial joint Figure 8.24c 8-58

59 The Thoracic Vertebrae Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Spinous process Lamina Superior articular facet Transverse process Transverse costal facet (b) Thoracic vertebrae Superior costal facet Inferior costal facet Body Figure 8.25b Transverse costal facet Inferior articular facet Spinous process 12 thoracic vertebrae (T1 T12) Correspond to the 12 pairs of ribs attached to them Spinous processes pointed and angled sharply downward Have larger body than cervical, but smaller than lumbar Superior and inferior costal facets for attachment of ribs On body as small, smooth, slightly concave spots Transverse costal facets at end of each transverse process T1 T10 Provide second point of articulation for ribs

60 The Lumbar Vertebrae Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Spinous process Superior articular facet Superior articular process Transverse process Pedicle Body Spinous process (c) Lumbar vertebrae Figure 8.25c Inferior articular facet Five lumbar vertebrae (L1 L5) Thick, stout body Blunt, squarish spinous process Superior articular processes face medially Lumbar region resistant to twisting movements 8-60

61 Ala The Sacrum Sacrum bony plate that forms posterior wall of pelvic cavity Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Transverse lines Anterior sacral foramina Coccyx S1 S2 S3 S4 S5 Co1 Co2 Co3 Co4 (a) Anterior view Figure 8.26a Superior articular process Sacral promontory Five separate sacral vertebrae (S1 S5) begin fusing around age 16 and complete fusion by age 26 Anterior surface Smooth and concave Four transverse lines indicate regions of fusion Four pairs of large anterior sacral (pelvic) foramina Allow passage of nerves and arteries to pelvic organs Sacral promontory ridge jutting from front of S1 8-61

62 The Sacrum Figure 8.26b (Continued) Posterior surface very rough Median sacral crest fusion of spinous processes Lateral sacral crests fusion of transverse processes Posterior sacral foramina four pairs of openings for nerves to gluteal region and lower limbs Sacral canal runs vertically through sacrum and ends as sacral hiatus Contains spinal nerve roots Auricular surface is part of sacroiliac (SI) joint formed with hip bone Superior articular processes on S1; articulates with L5 Alae pair of large, wing-like extensions lateral to the superior articular processes 8-62

63 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Superior articular process Horn Transverse process (b) Posterior view Figure 8.26b The Coccyx Coccyx Sacral canal Median sacral crest Auricular surface Lateral sacral crest Posterior sacral foramina Sacral hiatus Coccyx usually consists of four small vertebrae (Co1 Co4); sometimes five Fuse into single, triangular bone by age 20 to 30 Horns (cornua) on Co1 Serve as attachment points for ligaments that bind coccyx to sacrum Fractured during difficult childbirth or by hard fall Provides attachment for muscles of the pelvic floor 8-63

64 The Thoracic Cage Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Sternoclavicular joint Acromioclavicular joint Pectoral girdle: Clavicle Scapula True ribs (1 7) False ribs (8 12) Floating ribs (11 12) T1 12 T12 L1 Figure 8.27 Sternum: Suprasternal notch Clavicular notch Manubrium Angle Body Xiphoid process Costal cartilages Costal margin Thoracic cage consists of thoracic vertebrae, sternum, and ribs Encloses lungs and heart Also provides some protection of spleen, liver kidneys Provides attachment for pectoral girdle and upper limbs Broad base, narrower apex Rhythmically expanded by respiratory muscles to draw air into lungs Costal margin inferior border of thoracic cage formed by arc of lower ribs 8-64

65 The Sternum Sternum (breastbone) bony plate anterior to the heart Divided into three regions Manubrium Broad superior portion Suprasternal (jugular) notch Clavicular notches articulate with clavicle Body (gladiolus) Longest part of sternum Sternal angle point where body joins manubrium Ribs attach along scalloped lateral margins Xiphoid Inferior point of sternum Attachment for some abdominal muscles CPR (cardiopulmonary resuscitation) should avoid pressure against the xiphoid to avoid internal bleeding 8-65

66 The Ribs Sternoclavicular joint Acromioclavicular joint Pectoral girdle: Clavicle Scapula True ribs (1 7) False ribs (8 12) Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Floating ribs (11 12) T1 12 T12 L1 Figure 8.27 Sternum: Suprasternal notch Clavicular notch Manubrium Angle Body Xiphoid process Costal cartilages Costal margin 12 pairs of ribs - Posterior (proximal) ends attached to vertebral column - Most ribs anterior (distal) ends attached to sternum Costal cartilages (made of hyaline cartilage) attach rib to sternum 8-66

67 The Ribs Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Angle Costal groove (b) Ribs 2 10 Figure 8.28b Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Superior articular facet Shaft Tubercle Articular facet for transverse process Neck Head Superior Transverse costal facet for rib 6 Inferior Articular facets for vertebral bodies Head portion of rib that articulates with bodies of thoracic vertebrae Superior and inferior articular facets Neck narrow portion distal to the head Tubercle wider, rough area distal to the neck Articulates with transverse costal facet of vertebra Tubercle Superior costal facet for rib 6 T6 Neck Head Rib 6 (b) Superior view Figure 8.29b 8-67

68 The Ribs Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Angle Costal groove (b) Ribs 2 10 Shaft Tubercle Articular facet for transverse process Neck Figure 8.28b Head Superior Inferior Articular facets for vertebral bodies Angle lateral curve of rib Shaft long, gentle sloping, blade-like portion of rib Costal groove on inferior margin of shaft 8-68

69 The Ribs Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Rib 6 Vertebral body T5 Vertebral body T6 (a) Anterior view Inferior costal facet of T5 Superior articular facet of rib 6 Inferior articular facet of rib 6 Superior costal facet of T6 Superior articular facet Transverse costal facet for rib 6 Tubercle Superior costal facet for rib 6 T6 Neck Head Rib 6 Figure 8.29 (b) Superior view 8-69

70 The Ribs Figure 8.27 True ribs (ribs 1 7) Each is directly connected to sternum False ribs (ribs 8 12) Lack independent connections to sternum Floating ribs (ribs 11 12) Do not have cartilaginous connection to sternum or higher costal cartilages Do not have tubercles or attachments to transverse processes of vertebra 8-70

71 The Pectoral Girdle and Upper Limb Expected Learning Outcome Identify and describe the features of the clavicle, scapula, humerus, radius, ulna, and bones of the wrist and hand. 8-71

72 The Pectoral Girdle Pectoral girdle (shoulder girdle) supports the arm Consists of two bones on each side of the body Clavicle (collarbone) and scapula (shoulder blade) Clavicle articulates medially to the sternum and laterally to the scapula Sternoclavicular joint Acromioclavicular joint Scapula articulates with the clavicle and the humerus Glenohumeral joint: shoulder joint Easily dislocated due to loose attachment 8-72

73 The Clavicle Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Sternal end Acromial end Conoid tubercle (a) Superior view Conoid tubercle Sternal end (b) Inferior view Acromial end Figure 8.30 Clavicle S-shaped, somewhat flattened bone Sternal end hammer-like head Acromial end flattened Conoid tubercle rough bump near acromial end Braces shoulder, keeps arm away from midline Frequently fractured 8-73

74 The Scapula Scapula named for resemblance to a shovel Triangular plate that posteriorly overlies ribs 2 to 7 Three sides: superior, medial, and lateral borders Three angles: superior, inferior, and lateral angles Suprascapular notch conspicuous notch on superior border Provides passage for a nerve Spine transverse ridge on posterior surface Supraspinous fossa: indentation superior to the spine Infraspinous fossa: broad surface inferior to the spine 8-74

75 The Scapula Subscapular fossa concave, anterior surface of scapula Lateral angle of scapula has three main features Acromion: plate-like extension of the spine Forms apex of the shoulder Articulates with clavicle sole point of attachment of scapula and upper limb to the rest of the skeleton Coracoid process: shaped like a bent finger Provides attachment for tendons of biceps brachii and other arm muscles Glenoid cavity: shallow socket that articulates with the head of the humerus Helps form glenohumeral joint 8-75

76 The Scapula Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Suprascapular notch Superior border Superior angle Acromion Acromion Coracoid process Glenoid cavity Supraspinous fossa Spine Lateral angle Subscapular fossa Infraspinous fossa Lateral border Medial border Inferior angle (a) Anterior view (b) Posterior view Figure

77 The Upper Limb Upper limb is divided into four regions containing a total of 30 bones per limb Brachium (arm proper): extends from shoulder to elbow Contains only 1 bone humerus Antebrachium (forearm): extends from elbow to wrist Contains 2 bones radius and ulna Carpus (wrist) Contains 8 small bones arranged in two rows Manus (hand) 19 bones in two groups 5 metacarpals in palm 14 phalanges in fingers 8-77

78 The Humerus Proximal end Hemispherical head that articulates with the glenoid cavity of scapula Anatomical neck Greater and lesser tubercles and deltoid tuberosity Intertubercular sulcus holds biceps tendon Surgical neck Figure

79 The Humerus Distal end Rounded capitulum articulates with head of radius Trochlea articulates with ulna Lateral and medial epicondyles Lateral and medial supracondylar ridges Olecranon fossa holds olecranon process of ulna Coronoid fossa Radial fossa Figure

80 The Radius Olecranon Radial notch of ulna Head of radius Neck of radius Radial tuberosity Styloid process Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. (a) Anterior view Trochlear notch Coronoid process Ulnar tuberosity Ulna Radius Interosseous borders Interosseous membrane Ulnar notch of radius Head of ulna Styloid process Articular facets Figure 8.33 (b) Posterior view Olecranon Head of radius Neck of radius Styloid process Radius Head: disc-shaped, allows for rotation during pronation and supination Superior surface articulates with capitulum on humerus Side of disc spins on radial notch on ulna Neck Radial tuberosity for biceps muscle Styloid process can be palpated near thumb Ulnar notch accommodates head of ulna 8-80

81 The Ulna Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Olecranon Olecranon Trochlear notch Radial notch of ulna Head of radius Neck of radius Radial tuberosity Coronoid process Ulnar tuberosity Ulna Radius Interosseous borders Head of radius Neck of radius Ulna Trochlear notch articulates with trochlea of humerus Olecranon: bony point at back of elbow Coronoid process Radial notch holds head of radius Styloid process Styloid process (a) Anterior view Interosseous membrane Ulnar notch of radius Head of ulna Styloid process Articular facets Figure 8.33 (b) Posterior view Styloid process Interosseous membrane Ligament attaches radius to ulna along interosseous margin of each bone 8-81

82 The Carpal Bones Eight bones form wrist Allow movements of flexion, extension, abduction, and adduction Two rows (four bones each) Proximal row: scaphoid, lunate, triquetrum, and pisiform Pisiform is a sesamoid developed by age 9 to12 in tendon of flexor carpi ulnaris muscle Distal row: trapezium, trapezoid, capitate, and hamate 8-82

83 The Right Wrist and Hand Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Distal phalanx II Middle phalanx II Key to carpal bones Distal row Proximal row Proximal phalanx II Head IV III II Distal phalanx I Phalanges Body Base Head V I Proximal phalanx I Metacarpal bones Body Base First metacarpal Carpal bones Hamulus of hamate Hamate Pisiform Triquetrum Lunate Trapezoid Trapezium Capitate Scaphoid Carpal bones (a) Anterior view Figure 8.34a 8-83

84 The Metacarpal Bones and the Phalanges Metacarpals bones of the palm Metacarpal I proximal to base of thumb Metacarpal V proximal to base of little finger Proximal base, body, and distal head Phalanges bones of the fingers Thumb or pollex has two phalanges Proximal, distal phalanx Fingers have three phalanges Proximal, middle, distal phalanx 8-84

85 The Right Wrist and Hand Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Distal phalanx II Middle phalanx II Key to carpal bones Distal row Proximal row Proximal phalanx II Head IV III II Distal phalanx I Phalanges Body Base Head V I Proximal phalanx I Metacarpal bones Body Base First metacarpal Carpal bones Hamulus of hamate Hamate Pisiform Triquetrum Lunate Trapezoid Trapezium Capitate Scaphoid Carpal bones (a) Anterior view Figure 8.34a 8-85

86 The Pelvic Girdle and Lower Limb Expected Learning Outcomes Identify and describe the features of the pelvic girdle, femur, patella, tibia, fibula, and bones of the foot. Compare the anatomy of the male and female pelvic girdles and explain the functional significance of the differences. 8-86

87 The Pelvic Girdle Pelvic girdle a ring composed of three bones Two hip (coxal) bones, also called ossa coxae or innominate bones One sacrum (also part of vertebral column) Pelvis the pelvic girdle plus ligaments and muscles that line the pelvic cavity and form its floor Ilium Ischium Pubis Iliac crest Iliac fossa Body Ramus (a) Anterosuperior view Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Anterior superior iliac spine Anterior inferior iliac spine Spine Superior ramus Inferior ramus Body Pubic symphysis Figure 8.35a Base of sacrum Sacroiliac joint Pelvic surface of sacrum Pelvic inlet Coccyx Acetabulum Interpubic disc Obturator foramen 8-87

88 The Pelvic Girdle Sacroiliac joint joins coxal bone to vertebral column Auricular surface of ileum to auricular surface of sacrum Ilium Iliac crest Iliac fossa Spine Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Anterior superior iliac spine Anterior inferior iliac spine Base of sacrum Sacroiliac joint Pelvic surface of sacrum Pelvic inlet Coccyx Pubic symphysis the interpubic disc (of fibrocartilage) joins pubic bones anteriorly Ischium Body Ramus Superior ramus Pubis Inferior ramus Body Pubic symphysis (a) Anterosuperior view Figure 8.35a Acetabulum Interpubic disc Obturator foramen 8-88

89 Iliac crest Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. The Pelvic Girdle Ilium Iliac fossa Anterior superior iliac spine Anterior inferior iliac spine Spine Base of sacrum Sacroiliac joint Pelvic surface of sacrum Pelvic inlet Coccyx Ischium Body Ramus Acetabulum Interpubic disc Superior ramus Pubis Inferior ramus Body Pubic symphysis (a) Anterosuperior view Figure 8.35a Obturator foramen Figure 8.35b Greater (false) pelvis between flare of the hips Lesser (true) pelvis narrower and below Pelvic brim round margin that separates the two Pelvic inlet opening circumscribed by brim that infant s head must pass during birth Pelvic outlet lower margin of the lesser pelvis 8-89

90 Three distinct features of hip bone Iliac crest: superior crest of hip Acetabulum: hip socket Obturator foramen: large hole below acetabulum The Pelvic Girdle Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Ilium Ischium Pubis Inferior gluteal line Posterior gluteal line Posterior superior Iliac spine Posterior inferior Iliac spine Greater sciatic notch Acetabulum Each adult hip bone is Ischial spine Lesser sciatic notch formed by the fusion Body of ischium of three childhood Ischial tuberosity Ramus of ischium bones: ilium, (a) Lateral view ishchium, pubis Figure 8.36a Iliac crest Anterior gluteal line Anterior superior iliac spine Anterior r inferior iliac spine Body of ilium Superior ramus of pubis Body of pubis Inferior ramus of pubis Obturator foramen 8-90

91 The Pelvic Girdle Ilium Largest bone in hip Extends from iliac crest to center of the acetabulum Anterior and posterior superior spine Anterior and posterior inferior spines Greater sciatic notch and iliac fossa Ischium Inferioposterior portion of hip Heavy body with prominent spine Lesser sciatic notch Ischial tuberosity Ramus Pubis (pubic bone) Most anterior portion of the hip bone Body, superior, and inferior ramus 8-91

92 The Pelvic Girdle Figure 8.37 Male heavier and thicker Female wider and shallower, and adapted to the needs of pregnancy and childbirth, larger pelvic inlet and outlet for passage of infant s head 8-92

93 The Pelvic Girdle 8-93

94 The Lower Limb Lower limb divided into four regions containing 30 bones per limb Femoral region (thigh): extends from hip to knee region Contains femur and patella Crural region (leg proper): extends from knee to ankle Contains medial tibia and lateral fibula Tarsal region (tarsus): ankle the union of the crural region with the foot Tarsal bones are considered part of the foot Pedal region (pes): foot Composed of 7 tarsal bones, 5 metatarsals, and 14 phalanges in the toes 8-94

95 The Femur Greater trochanter Intertrochanteric line Lateral epicondyle Patellar surface Base of patella Apex of patella Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. (a) Anterior view Fovea capitis Head Neck Lesser trochanter Spiral line Shaft Medial supracondylar line Popliteal surface Medial epicondyle Medial condyle Figure 8.38 (b) Posterior view Greater trochanter Intertrochanteric crest Gluteal tuberosity Linea aspera Lateral supracondylar line Lateral epicondyle Lateral condyle Intercondylar fossa Articular facets Longest and strongest bone of the body Hemispherical head articulates with acetabulum of pelvis Fovea capitis: pit in head of femur for attachment of a ligament Greater and lesser trochanters for muscle attachment Intertrochanteric crest thick ridge on posterior surface that connects the trochanters Intertrochanteric line more delicate ridge on anterior surface that connects trochanters 8-95

96 The Femur Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Fovea capitis Greater trochanter Head Greater trochanter Intertrochanteric line Neck Lesser trochanter Spiral line Intertrochanteric crest Gluteal tuberosity Linea aspera ridge on posterior of the shaft Shaft Linea aspera Spiral (pectineal) line and gluteal tuberosity Medial and lateral condyles and epicondyles found distally Lateral epicondyle Patellar surface Base of patella Apex of patella Medial supracondylar line Popliteal surface Medial epicondyle Medial condyle Lateral supracondylar line Lateral epicondyle Lateral condyle Intercondylar fossa Articular facets Intercondylar fossa Patellar and popliteal surface (a) Anterior view Figure 8.38 (b) Posterior view 8-96

97 Greater trochanter Intertrochanteric line Lateral epicondyle Patellar surface Base of patella Apex of patella The Patella Patella triangular sesamoid bone embedded Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. (a) Anterior view Fovea capitis Head Neck Lesser trochanter Spiral line Shaft Medial supracondylar line Popliteal surface Medial epicondyle Medial condyle Figure 8.38 (b) Posterior view Greater trochanter Intertrochanteric crest Gluteal tuberosity Linea aspera Lateral supracondylar line Lateral epicondyle Lateral condyle Intercondylar fossa Articular facets in tendon of knee Cartilaginous at birth Ossifies at age 3 to 6 years Base broad, superior portion Apex pointed, inferior portion Articular facets shallow, posterior portion Quadriceps tendon extends from front of thigh to patella Continues as the patellar ligament from patella to tibia 8-97

98 Tibia Tibia thick, medial, leg bone Only weight-bearing bone of the crural region Medial and lateral condyles Flat surfaces that articulate with condyles of femur Intercondylar eminence ridge separating condyles Tibial tuberosity attachment of patellar ligament, a continuation of quadriceps tendon Anterior border sharp, angular Medial malleolus bony knob on inside of ankle Figure

99 The Fibula Fibula slender, lateral strut that helps stabilize ankle Does not bear any body weight Head proximal end Apex point of the head Lateral malleolus distal expansion, bony knob on lateral side of ankle Joined to tibia by interosseous membrane Figure

100 The Ankle and Foot Tarsal bones in ankle Differ from carpal bones due to load-bearing role of the ankle Calcaneus largest tarsal bone Forms heel Distal phalanx I Proximal phalanx I Metatarsal Medial cuneiform Intermediate cuneiform Lateral cuneiform Navicular Talus Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Trochlear surface of talus I II III IV (a) Superior (dorsal) view Figure 8.40a V Distal phalanx V Middle phalanx V Proximal phalanx V Cuboid Calcaneus Tuberosity of calcaneus Key to tarsal bones Distal group Proximal group Distal portion is point of attachment for calcaneal (Achilles) tendon Talus is most superior tarsal bone Forms ankle joint with tibia and fibula Sits upon calcaneus and articulates with navicular Proximal row of tarsal bones Talus, calcaneus, navicular Distal row of tarsal bones Medial, intermediate, lateral cuneiforms and cuboid 8-100

101 The Ankle and Foot Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. The rest of the foot bones resemble the hand bones in name and arrangement Distal phalanx I Proximal phalanx I Metatarsal Medial cuneiform Intermediate cuneiform Lateral cuneiform Navicular I II III IV V Distal phalanx V Middle phalanx V Proximal phalanx V Cuboid Metatarsals Metatarsal I is proximal to the great toe (hallux) Metatarsal V is proximal to the little toe Proximal base, intermediate shaft, and distal head Talus Trochlear surface of talus Calcaneus Tuberosity of calcaneus (a) Superior (dorsal) view Figure 8.40a Key to tarsal bones Distal group Proximal group Phalanges Two in great toe Proximal and distal phalanx Three in all other toes Proximal, middle, distal phalanx 8-101

102 The Ankle and Foot Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Future thumb Thumb Elbow Future great toe Knee Great toe (a) Seven weeks (b) Eight weeks Rotation of upper and lower limbs in opposite directions Starts seventh week of embryonic development Largest digit medial in foot and lateral in hand Each limb rotates about 90 in opposite directions Figure 8.41 Rotation also explains why elbow flexes posteriorly and knee flexes anteriorly 8-102

103 The Ankle and Foot Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. (a) Inferior (plantar) view Medial longitudinal arch Transverse arch Lateral longitudinal arch Figure 8.42a Sole of foot is not flat on ground Three springy arches absorb stress Medial longitudinal arch From heel to hallux Formed from the calcaneus, talus, navicular, cuneiforms, and metatarsals I and III Lateral longitudinal arch From heel to little toe Includes calcaneus, cuboid, and metatarsals IV and V 8-103

104 The Ankle and Foot Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Medial longitudinal arch Transverse arch Lateral longitudinal arch Transverse arch Across middle of foot Includes the cuboid, cuneiforms, and proximal heads of metatarsals Arches held together by short, strong ligaments Pes planus (flat feet) excessive weight, repetitious stress, or congenital weakness Figure 8.42a (a) Inferior (plantar) view 8-104

105 Skeletal Adaptations for Bipedalism Humans are only animals habitually bipedal 3.6-million-year-old human footprints indicate upright walking Adaptations Strong, springy foot arches Great toe not opposable Femurs angle inward so knees are closer together erect posture requires less muscular effort Viscera supported in bowl-shaped pelvis Insertions of gluteal muscles differ from other primates 8-105

106 Skeletal Adaptations for Bipedalism Figure 8.43a,b 8-106

107 Skeletal Adaptations for Bipedalism Figure 8.43c,d,e 8-107

108 Skeletal Adaptations for Bipedalism Figure 8.43f 8-108

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