Essentials of Human Anatomy & Physiology Skeletal System PDF

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This document is a chapter on the skeletal system from a textbook titled "Essentials of Human Anatomy & Physiology". It describes the parts of the skeletal system, its functions, classifications of bones, bone structure, and bone formation, and is intended for an undergraduate-level course.

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Essentials of Human Anatomy & Physiology
Thirteenth Edition

Chapter 5
The Skeletal System

Lecture Presentation by
Patty Bostwick-Taylor
Florence-Darlington Technical College

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The Skeletal System
Parts of the skeletal system
– Bones (skeleton)
– Joints
– Cartilages
– Ligaments
Two subdivisions of the skeleton

1. Axial skeleton
2. Appendicular skeleton

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Functions of the Bones
Support the body
Protection of soft organs
– Skull and vertebrae protect brain and spinal cord
– Rib cage protects thoracic cavity organs
Allow movement via attached muscles
Store minerals and fats
– Calcium and phosphorus
– Fat in the internal marrow cavity
Blood cell formation (hematopoiesis)

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Classification of Bones (1 of 6)
The adult skeleton has 206 bones
Two basic types of osseous (bone) tissue

1. Compact bone
▪ Dense, smooth, and homogeneous
2. Spongy bone
▪ Small needlelike pieces of bone
▪ Many open spaces

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Figure 5.1 Flat Bones Consist of a Layer of Spongy
Bone Sandwiched Between Two Thin Layers of
Compact Bone

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Classification of Bones (2 of 6)
Bones are classified on the basis of shape into four
groups
– Long
– Flat
– Short
– Irregular

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Figure 5.2 Classification of Bones on
the Basis of Shape

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Classification of Bones (3 of 6)
Long bones
– Typically longer than they are wide
– Shaft with enlarged ends
– Contain mostly compact bone; spongy bone at ends
– All of the bones of the limbs (except wrist, ankle, and
kneecap bones) are long bones
– Examples:
▪ Femur
▪ Humerus

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Figure 5.2a Classification of Bones on
the Basis of Shape

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Classification of Bones (4 of 6)
Flat bones
– Thin, flattened, and usually curved
– Two thin layers of compact bone sandwich a layer of
spongy bone between them
– Examples:
▪ Most bones of the skull
▪ Ribs
▪ Sternum

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Figure 5.2b Classification of Bones on
the Basis of Shape

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Classification of Bones (5 of 6)
Short bones
– Generally cube-shaped
– Contain mostly spongy bone with an outer layer of
compact bone
– Sesamoid bones are a type of short bone that form
within tendons (patella)
– Examples:
▪ Carpals (wrist bones)
▪ Tarsals (ankle bones)

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Figure 5.2c Classification of Bones on
the Basis of Shape

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Classification of Bones (6 of 6)
Irregular bones
– Irregular shape
– Do not fit into other bone classification categories
– Examples:
▪ Vertebrae
▪ Hip bones

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Figure 5.2d Classification of Bones on
the Basis of Shape

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Structure of Bone (1 of 10)
Long bone anatomy
– Diaphysis (shaft)
▪ Makes up most of bone’s length
▪ Composed of compact bone
– Periosteum
▪ Outside covering of the diaphysis
▪ Fibrous connective tissue membrane
▪ Perforating (Sharpey’s) fibers secure periosteum
to underlying bone

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Figure 5.3a The Structure of a Long
Bone (Humerus of Arm) (1 of 3)

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Figure 5.3c The Structure of a Long
Bone (Humerus of Arm)

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Structure of Bone (2 of 10)
Long bone anatomy
– Epiphysis (ends)
▪ Composed mostly of spongy bone enclosed by
thin layer of compact bone
– Articular cartilage
▪ Covers the external surface of the epiphyses
▪ Made of hyaline cartilage
▪ Decreases friction at joint surfaces

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Figure 5.3b The Structure of a Long
Bone (Humerus of Arm)

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Structure of Bone (3 of 10)
Long bone anatomy
– Epiphyseal line
▪ Remnant of the epiphyseal plate
▪ Seen in adult bones
– Epiphyseal plate
▪ Flat plate of hyaline cartilage seen in young, growing
bone
▪ Causes lengthwise growth of a long bone

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Figure 5.3a The Structure of a Long
Bone (Humerus of Arm) (2 of 3)

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Structure of Bone (4 of 10)
Long bone anatomy
– Endosteum
▪ Lines the inner surface of the shaft
▪ Made of connective tissue
– Medullary cavity
▪ Cavity inside the shaft
▪ Contains yellow marrow (mostly fat) in adults
▪ Contains red marrow for blood cell formation until
age 6 or 7

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Figure 5.3a The Structure of a Long
Bone (Humerus of Arm) (3 of 3)

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Structure of Bone (5 of 10)
Bone markings
– Sites of attachments for muscles, tendons, and
ligaments
– Passages for nerves and blood vessels
Categories of bone markings
– Projections or processes—grow out from the bone
surface
▪ All projections begin with “T”
– Depressions or cavities—indentations
▪ All depressions begin with “F” (except facet)

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Table 5.1 Bone Markings (1 of 3)

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Table 5.1 Bone Markings (2 of 3)

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Table 5.1 Bone Markings (3 of 3)

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Structure of Bone (6 of 10)
Microscopic anatomy of spongy bone
– Composed of small, needlelike pieces of bone called
trabeculae and open spaces
– Open spaces are filled by marrow, blood vessels, and
nerves

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Figure 5.4a Microscopic Structure of
Bone

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Structure of Bone (7 of 10)
Microscopic anatomy of compact bone
– Osteocytes
▪ Mature bone cells situated in bone matrix
– Lacunae
▪ Cavities in bone matrix that house osteocytes
– Lamellae
▪ Concentric circles of lacunae situated around the
central (Haversian) canal

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Structure of Bone (8 of 10)
Microscopic anatomy of compact bone
– Central (Haversian) canal
▪ Opening in the center of an osteon (Haversian
system)
▪ Runs lengthwise through bone
▪ Carries blood vessels and nerves
– Osteon (Haversian system)
▪ A unit of bone containing central canal and matrix
rings
▪ Structural and functional unit of compact bone

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Figure 5.4b Microscopic Structure of
Bone (1 of 2)

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Figure 5.4c Microscopic Structure of
Bone

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Structure of Bone (9 of 10)
Microscopic anatomy of compact bone
– Canaliculi
▪ Tiny canals
▪ Radiate from the central canal to lacunae
▪ Form a transport system connecting all bone
cells to a nutrient supply
– Perforating (Volkmann’s) canal
▪ Canal perpendicular to the central canal
▪ Carries blood vessels and nerves

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Figure 5.4b Microscopic Structure of
Bone (2 of 2)

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Structure of Bone (10 of 10)
Bone is relatively lightweight and resists tension and
other forces
Organic parts (collagen fibers) make bone flexible and
have great tensile strength (stretch without breaking)
Calcium salts deposited in the bone make bone hard
(resists compression)

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Bone Formation, Growth, and
Remodeling (1 of 6)
Bone formation and growth
– Ossification is the process of bone formation
– Occurs on hyaline cartilage models or fibrous
membranes
– Long bone growth involves two major phases

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Bone Formation, Growth, and
Remodeling (2 of 6)
Two major phases of ossification in long bones

1. In an embryo, osteoblasts (bone-forming cells) cover
the hyaline cartilage model with bone matrix
2. In a fetus, the enclosed cartilage is covered by bone;
the cartilage is digested away, opening up a medullary
cavity

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Figure 5.5 Stages of Long-Bone Formation in
an Embryo, Fetus, and Young Child

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Bone Formation, Growth, and
Remodeling (3 of 6)
By birth, most cartilage is converted to bone except for
two regions in a long bone

1. Articular cartilages
2. Epiphyseal plates

New cartilage is formed continuously on external face
of these two cartilages
Old cartilage is broken down and replaced by bony
matrix

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Figure 5.6ab Growth and Remodeling of
Long Bones

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Figure 5.6cd Growth and Remodeling of
Long Bones

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Bone Formation, Growth, and
Remodeling (4 of 6)
Appositional growth
– Bones grow in width
– Osteoblasts in the periosteum add bone matrix to the
outside of the diaphysis
– Osteoclasts in the endosteum remove bone from the
inner surface of the diaphysis
Bone growth is controlled by hormones, such as growth
hormone and sex hormones

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Bone Formation, Growth, and
Remodeling (5 of 6)
Bones are remodeled throughout life in response to
two factors
1. Calcium ion level in the blood determines when
bone matrix is to be broken down or formed
2. Pull of gravity and muscles on the skeleton
determines where bone matrix is to be broken
down or formed

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Bone Formation, Growth, and
Remodeling (6 of 6)
Calcium ion regulation
– Parathyroid hormone (PTH)
▪ Released when calcium ion levels in blood are low
▪ Activates osteoclasts (bone-destroying cells)
▪ Osteoclasts break down bone and release calcium
ions into the blood
– Hypercalcemia (high blood calcium levels) prompts
calcium storage to bones by osteoblasts

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Bone Fractures (1 of 3)
Fracture: break in a bone
Types of bone fractures
– Closed (simple) fracture is a break that does not
penetrate the skin
– Open (compound) fracture is a broken bone that
penetrates through the skin

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Bone Fractures (2 of 3)
Bone fractures are treated by reduction and
immobilization
– Closed reduction: bones are manually coaxed into
position by physician’s hands
– Open reduction: bones are secured with pins or
wires during surgery
Healing time is 6–8 weeks

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Table 5.2 Common Types of Fractures (1 of 3)

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Table 5.2 Common Types of Fractures (2 of 3)

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Table 5.2 Common Types of Fractures (3 of 3)

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Bone Fractures (3 of 3)
Repair of bone fractures involves four major events
– Hematoma (blood-filled swelling, or bruise) is formed
– Fibrocartilage callus forms
▪ Cartilage matrix, bony matrix, collagen fibers splint
the broken bone
– Bony callus replaces the fibrocartilage callus
▪ Osteoblasts and osteoclasts migrate in
– Bone remodeling occurs in response to mechanical
stresses

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Figure 5.7 Stages in the Healing of a
Bone Fracture

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Axial Skeleton
Forms the longitudinal axis of the body
Divided into three parts

1. Skull
2. Vertebral column
3. Bony thorax

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Figure 5.8a The Human Skeleton (1 of 2)

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Figure 5.8b The Human Skeleton (1 of 2)

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Skull (1 of 5)
Two sets of bones form the skull

1. Cranium bones enclose the brain
2. Facial bones
▪ Hold eyes in anterior position
▪ Allow facial muscles to express feelings
Bones are joined by sutures (immovable joints)
Only the mandible is attached by a freely movable joint

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Skull (2 of 5)
8 cranial bones protect the brain

1 Frontal bone
2 Occipital bone
3 Ethmoid bone
4 Sphenoid bone
5,6 Parietal bones (pair)
7,8 Temporal bones (pair)

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Skull (3 of 5)
14 facial bones

1, 2 Maxillae (pair)
3, 4 Palatine bones (pair)
5, 6 Lacrimal bones (pair)
7, 8 Zygomatic bones (pair)
9, 10 Nasal bones (pair)
11 Vomer bone
12, 13 Inferior nasal conchae (pair)
14 Mandible

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Figure 5.9 Human Skull, Lateral View

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Figure 5.10 Human Skull, Superior View
(Top of Cranium Removed)

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Figure 5.11 Human Skull, Inferior View
(Mandible Removed)

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Figure 5.12 Human Skull, Anterior and
Posterior Views

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Skull (4 of 5)
Paranasal sinuses
– Hollow portions of bones surrounding the nasal cavity
– Functions of paranasal sinuses
▪ Lighten the skull
▪ Amplify sounds made as we speak

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Figure 5.13a Paranasal Sinuses

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Figure 5.13b Paranasal Sinuses

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Skull (5 of 5)
Hyoid bone
– Closely related to mandible and temporal bones
– The only bone that does not articulate with another
bone
– Serves as a movable base for the tongue
– Aids in swallowing and speech

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Figure 5.14 Anatomical Location and
Structure of the Hyoid Bone

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Vertebral Column (Spine) (1 of 3)
Vertebral column provides axial support
– Extends from skull to the pelvis
26 vertebral bones are separated by intervertebral discs
– 7 cervical vertebrae are in the neck
– 12 thoracic vertebrae are in the chest region
– 5 lumbar vertebrae are associated with the lower back
– Sacrum (formed by fusion of 5 vertebrae)
– Coccyx (formed by fusion of 3–5 vertebrae)

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Figure 5.15 The Vertebral Column

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Vertebral Column (Spine) (2 of 3)
Primary curvatures
– Spinal curvatures of the thoracic and sacral regions
– Present from birth
– Form a C-shaped curvature in newborns
Secondary curvatures
– Spinal curvatures of the cervical and lumbar regions
– Develop after birth
– Form an S-shaped curvature in adults

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Figure 5.16 The C-Shaped Spine Typical of
a Newborn

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Vertebral Column (Spine) (3 of 3)
Common features of vertebrae
– Body (centrum)
– Vertebral arch
▪ Pedicle
▪ Lamina
– Vertebral foramen
– Transverse processes
– Spinous process
– Superior and inferior articular processes

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Figure 5.17 A Typical Vertebra, Superior
View

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Figure 5.18a Regional Characteristics of
Vertebrae

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Figure 5.18b Regional Characteristics
of Vertebrae

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Figure 5.18c Regional Characteristics of
Vertebrae

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Figure 5.18d Regional Characteristics
of Vertebrae

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Figure 5.19 Sacrum and Coccyx,
Posterior View

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Thoracic Cage
Bony thorax, or thoracic cage, protects organs of the
thoracic cavity
Consists of three parts

1. Sternum
2. Ribs
▪ True ribs (pairs 1–7)
▪ False ribs (pairs 8–12)
▪ Floating ribs (pairs 11–12)

3. Thoracic vertebrae

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Figure 5.20a The Bony Thorax (Thoracic
Cage)

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Figure 5.20b The Bony Thorax (Thoracic
Cage)

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Appendicular Skeleton
Composed of 126 bones
– Limbs (appendages)
– Pectoral girdle
– Pelvic girdle

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Figure 5.8a The Human Skeleton (2 of 2)

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Figure 5.8b The Human Skeleton (2 of 2)

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Bones of the Shoulder Girdle
Also called pectoral girdle
Composed of two bones that attach the upper limb to the
axial skeletal

1. Clavicle
2. Scapula
Light, poorly reinforced girdle
Allows the upper limb a exceptional flexibility

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Figure 5.21a Bones of the Shoulder
Girdle

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Figure 5.21b Bones of the Shoulder
Girdle

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Figure 5.21c Bones of the Shoulder
Girdle

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Figure 5.21d Bones of the Shoulder
Girdle

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Bones of the Upper Limbs (1 of 3)
Humerus
– Forms the arm
– Single bone
– Proximal end articulation
▪ Head articulates with the glenoid cavity of the
scapula
– Distal end articulation
▪ Trochlea and capitulum articulate with the bones of
the forearm

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Figure 5.22a Bones of the Right Arm
and Forearm

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Figure 5.22b Bones of the Right Arm
and Forearm

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Bones of the Upper Limbs (2 of 3)
The forearm has two bones

1. Ulna—medial bone in anatomical position
▪ Proximal end articulation
– Coronoid process and olecranon articulate with
the humerus

2. Radius—lateral bone in anatomical position
▪ Proximal end articulation
– Head articulates with the capitulum of the
humerus

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Figure 5.22c Bones of the Right Arm
and Forearm

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Bones of the Upper Limbs (3 of 3)
Hand
– Carpals—wrist bones
▪ 8 bones arranged in two rows of 4 bones in each
hand
– Metacarpals—palm bones
▪ 5 per hand
– Phalanges—fingers and thumb
▪ 14 phalanges in each hand
▪ In each finger, there are 3 bones
▪ In the thumb, there are only 2 bones

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Figure 5.23 Bones of the Right Hand,
Anterior View

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Bones of the Pelvic Girdle (1 of 3)
Formed by two coxal bones
Composed of three pairs of fused bones

1. Ilium
2. Ischium
3. Pubis
Pelvic girdle = two coxal bones, sacrum
Pelvis = two coxal bones, sacrum, coccyx

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Bones of the Pelvic Girdle (2 of 3)
The total weight of the upper body rests on the pelvis
Pelvis protects several organs
– Reproductive organs
– Urinary bladder
– Part of the large intestine

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Figure 5.24a The Bony Pelvis

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Figure 5.24b The Bony Pelvis

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Bones of the Pelvic Girdle (3 of 3)
The female’s pelvis
– Inlet is larger and more circular
– Shallower, on the whole, and the bones are lighter and
thinner
– Ilia flare more laterally
– Sacrum is shorter and less curved
– Ischial spines are shorter and farther apart; thus, the
outlet is larger
– Pubic arch is more rounded because the angle of the
pubic arch is greater

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Figure 5.24c The Bony Pelvis

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Bones of the Lower Limbs (1 of 4)
Femur—thigh bone
– The heaviest, strongest bone in the body
– Proximal end articulation
▪ Head articulates with the acetabulum of the coxal
(hip) bone
– Distal end articulation
▪ Lateral and medial condyles articulate with the tibia
in the lower leg

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Figure 5.25a Bones of the Right Thigh
and Leg

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Figure 5.25b Bones of the Right Thigh
and Leg

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Bones of the Lower Limbs (2 of 4)
The lower leg has two bones
1. Tibia—shinbone; larger and medially oriented
▪ Proximal end articulation
– Medial and lateral condyles articulate with the
femur to form the knee joint
▪ Distal end articulation
– Medial malleolus forms the inner part of the ankle
2. Fibula—thin and sticklike; lateral to the tibia
▪ Has no role in forming the knee joint
▪ Distal end articulation
– Lateral malleolus forms the outer part of the ankle
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Figure 5.25c Bones of the Right Thigh
and Leg

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Bones of the Lower Limbs (3 of 4)
Foot
– Tarsals—7 bones
▪ Two largest tarsals are the:
– Calcaneus (heel bone)
– Talus
– Metatarsals—5 bones form the sole of the foot
– Phalanges—14 bones form the toes

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Figure 5.26 Bones of the Right Foot,
Superior View

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Bones of the Lower Limbs (4 of 4)
Arches of the feet
– Bones of the foot are arranged to form three strong
arches
– Two longitudinal
– One transverse

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Figure 5.27 Arches of the Foot

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Joints (1 of 8)
Joints are articulations
– Occur where two or more bones meet
Functions of joints
– Hold bones together securely
– Allow for mobility
Two ways joints are classified
– Functionally
– Structurally

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Joints (2 of 8)
Functional joint classifications
– Synarthroses
▪ Immovable joints
– Amphiarthroses
▪ Slightly movable joints
– Diarthroses
▪ Freely movable joints

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Joints (3 of 8)
Structural joint classifications
– Fibrous joints
▪ Generally immovable
– Cartilaginous joints
▪ Immovable or slightly movable
– Synovial joints
▪ Freely movable

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Concept Link
To understand the structural classes of joints more clearly,
recall the properties of tissues that form the joints. Fibrous
connective tissue contains many collagen fibers for strength.
The three types of cartilage (hyaline, fibrocartilage, elastic)
provide structure with some degree of flexibility, and
fibrocartilage also has the ability to absorb compressive
shock (Chapter 3, pp. 92–93). Synovial membranes contain
areolar connective tissue and line the joint cavities of
synovial joints (Chapter 4, pp. 107, 109).

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Joints (4 of 8)
Fibrous joints
– Bones are united by fibrous tissue
– Types
▪ Sutures
– Immobile
▪ Syndesmoses
– Allow more movement than sutures but still immobile
– Found on the distal ends of tibia and fibula
▪ Gomphoses
– Immobile
– Found where the teeth meet the facial bones

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Figure 5.28a Types of Joints

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Figure 5.28b Types of Joints

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Joints (5 of 8)
Cartilaginous joints
– Bones are connected by fibrocartilage
– Types
▪ Synchrondrosis
– Immobile
– Found in epiphyseal plates of growing long bones
▪ Symphysis
– Slightly movable
– Found in the pubic symphysis, intervertebral joints

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Figure 5.28c Types of Joints

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Figure 5.28d Types of Joints

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Figure 5.28e Types of Joints

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Joints (6 of 8)
Synovial joints
– Articulating bones are separated by a joint cavity
– Synovial fluid is found in the joint cavity
– Four distinguishing features of synovial joints

1. Articular cartilage
2. Articular capsule
3. Joint cavity
4. Reinforcing ligaments

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Figure 5.28f Types of Joints

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Figure 5.28g Types of Joints

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Figure 5.28h Types of Joints

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Joints (7 of 8)
Synovial joints
– Bursae—flattened fibrous sacs
▪ Lined with synovial membranes
▪ Filled with synovial fluid
▪ Not actually part of the joint
– Tendon sheath
▪ Elongated bursa that wraps around a tendon

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Table 5.3 Summary of Joint Classes
Structural class Structural Types Mobility
characteristics
Fibrous Bone ends/parts Suture (short fibers) Immobile (synarthrosis)
united by collagenic Syndesmosis (longer fibers) Slightly mobile
fibers Gomphosis (periodontal (amphiarthrosis) and immobile
ligament) Immobile
Cartilaginous Bone ends/parts Synchondrosis (hyaline Immobile
united by cartilage cartilage) Symphysis Slightly movable
(fibrocartilage)
Synovial Bone ends/parts Plane Freely movable (diarthrosis;
covered with Hinge movements depend on design
articular cartilage Pivot of joint)
and enclosed within Condylar
an articular capsule Saddle
lined with synovial Ball and
Membrane socket

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Joints (8 of 8)
Types of synovial joints based on shape
– Plane joint
– Hinge joint
– Pivot joint
– Condylar joint
– Saddle joint
– Ball-and-socket joint

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Figure 5.29 General Structure of a
Synovial Joint

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Figure 5.30a Types of Synovial Joints

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Figure 5.30b Types of Synovial Joints

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Figure 5.30c Types of Synovial Joints

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Figure 5.30d Types of Synovial Joints

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Figure 5.30e Types of Synovial Joints

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Figure 5.30f Types of Synovial Joints

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Developmental Aspects of the
Skeleton (1 of 6)
Birth to adulthood
– First “long bones” of a fetus are hyaline cartilage
– Earliest “flat bones” of the fetal skull are fibrous
membranes
– As fetus grows, all bone models are converted to bone

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Figure 5.31 Ossification Centers in the Skeleton of a
12-Week-Old Fetus Are Indicated by the Darker
Areas

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Developmental Aspects of the
Skeleton (2 of 6)
Fetal skull
– Fontanels are fibrous membranes connecting the
cranial bones
▪ Known as “soft spots”
▪ Allow skull compression during birth
▪ Allow the brain to grow during later pregnancy and
infancy
▪ Usually ossify by 2 years of age

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Figure 5.32a The Fetal Skull

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Figure 5.32b The Fetal Skull

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Developmental Aspects of the
Skeleton (3 of 6)
Growth of cranium after birth is related to brain growth
– Increase in size of the facial skeleton follows tooth
development and enlargement of the respiratory
passageways

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Developmental Aspects of the
Skeleton (4 of 6)
Size of cranium in relationship to body
– 2 years old—skull is three-fourths the size of adult
skull
– 8 or 9 years old—skull is near adult in size and
proportion
– Between ages 6 and 11, the face grows out from the
skull

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Developmental Aspects of the
Skeleton (5 of 6)
Skeletal changes
– At birth, the head and trunk are proportionately much
longer than the lower limbs
– During puberty:
▪ Female pelvis broadens
▪ Entire male skeleton becomes more robust
– By the end of adolescence:
▪ Epiphyseal plates become fully ossified

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Developmental Aspects of the
Skeleton (6 of 6)
Older adults
– Osteoporosis
▪ Bone-thinning disease afflicting:
– 50 percent of women over age 65
– 20 percent of men over age 70
▪ Disease makes bones fragile, and bones can
easily fracture
▪ Vertebral collapse results in kyphosis (also known
as “dowager’s hump”)
▪ Estrogen aids in health and normal density of a
female skeleton
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Figure 5.34 Osteoporosis

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Copyright

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