Skeletal System Past Paper PDF

Summary

This document provides an overview of the skeletal system, including the axial and appendicular skeletons, types of bones, and bone markings. It also discusses bone classification, bone growth, and healing, along with the microscopic anatomy of compact bone and bone as a connective tissue. The document contains diagrams and illustrations.

Full Transcript

2023-09-26

Chapter 5

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 Provides an internal framework
 Protects organs
 Anchors skeletal muscles and allows for

movement

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Divided into two categories:

AXIAL SKELETON:
APPENDICULAR SKELETON:

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Figure 5.6c

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Functions:
Support
Protection
Movement
Storage
Blood Cell Formation

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Compact Bone:
Dense, looks smooth and homogenous
Spongy Bone:
small needlelike pieces of bone with lots of
open space

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Long Bones:
most bones in the limbs
Short bones:
bones of the wrist and ankles
sesamoid bones

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Flat Bones:
skull, ribs, sternum

Irregular Bones:
vertebrae, hip bones

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Classification of Bones on the
Basis of Shape

Figure 5.1

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 Various features according to purpose:
 Muscle attachments
 Tendon attachments
 Ligament attachments
 Blood vessel and nerve passages

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 PROJECTIONS OR PROCESSES
 Grow out from bone surface

 DEPRESSIONS OR CAVITIES
 Indentations in the bone

Generally, terms starting with:
T = projections
F = depressions

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 Diaphysis
 Long shaft of bone
 Compact bone
 Covered by periosteum

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Epiphyses:
ends of long bone
Articular Cartilage
surrounds exterior
surface

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Epiphyseal Plate:
growth plate

Epiphyseal Line:

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In Infants:
Shaft cavity is an area for red blood cell
production. Find Red Marrow here.

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In Adults:
Shaft cavity acts as a
storage area for adipose
tissue. Yellow Marrow
(medullary) cavity.
Red Marrow: found in
spongy bone cavities of
flat bones and epiphysis
of some long bones

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 MICROSCOPIC ANATOMY

An elaborate network of canals that keep the
bone cells well nourished (despite the
hardness) and thus heal well and quickly.
Contains passageways to carry nerves, blood
vessels, and a route for waste disposal

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 MATRIX:
 Non-living substances
 OSTEOCYTES:
 Mature bone cells
 Sitting in cavities (lacunae)
 Found within the Matrix

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 Osteon
 A unit of bone
 Central (Haversian)

canal

 Opening in the center of an

osteon

 Carries blood vessels and

nerves

 Haversian System:
 A central canal with
surrounding matrix rings

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Microscopic Anatomy of
Compact Bone
 Lacunae
 Cavities containing
mature bone cells
(osteocytes)
 Arranged in
concentric rings

 Lamellae
 Rings around the
central canal
 Sites of lacunae &
Matrix
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Canaliculi:
Tiny canals that radiate from the central canals to
form a transportation system connecting bone
cells to the nutrient supply.
Perforating Canals:
Communication route from outside the bone to
the interior
perpendicular to central canal
Carries blood vessels and nerves

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Microscopic Anatomy of Bone

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Muscle
Tendon
Epiphyseal
Spongy bone

Concentric lamellae

Haversian canal
Marrow cavity

Trabeculae of spongy bone
Endosteum

Bone marrow
Cortical bone

Inner circumferential lamella

Periosteum

Volkmann’s canal
Interstitial lamellae

Outer circumferential lamella

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 Formed from cartilage and bone
 Initially, the skeleton is primarily

made of hyaline cartilage.
 By young childhood most cartilage is
replaced by bone
 Cartilage remains in isolated areas

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 HYALINE CARTILAGE
 Glassy, transparent
 Smooth
 Flexible

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Long Bone Formation & Growth

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Types of Bone Cells
 Osteocytes
 Mature bone cells

 Osteoblasts
 Bone-forming cells

 Osteoclasts
 Bone-destroying cells
 Break down bone matrix for remodeling and
release of calcium

 Bone remodeling is a process by both
osteoblasts and osteoclasts
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 OSSIFICATION:
 Process of bone formation
 2 major phases
 Hyaline cartilage is covered by bone matrix (formation)
 Developed bone grows and widens (growth and

remodeling)

 Growth is controlled by hormones and completed

during adolescence.

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 Initially Hyaline cartilage is covered and

replaced by bone

 Then Bone growth occurs as the child

increases in size and weight

 Bone remodeling may occur in conjunction

with bone growth

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 Occurs in length and width
 LENGTH:
 New cartilage is continuously formed on the
external face of the articular cartilage and end
facing surface of the epiphyseal plate
 Old cartilage is broken down and replaced with
bony matrix

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Long Bone Growth &
Remodeling

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 WIDTH:
 Osteoblasts found in periosteum add bone tissue
to external face of the diaphysis
 Osteoclasts concurrently degrade and remove
bone from the inner face of the wall (medullary
side)

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 Bones are dynamic and active even after

adolescence!

 Remodeling occurs in response to:
 Calcium levels in the blood
 Pull of gravity and muscles on the skeleton

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 TOO LOW:
 Glands stimulate release of hormone to release
stored calcium.
 TOO HIGH:
 Calcium is deposited into the bone matrix as hard
calcium salts.

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 Causes remodeling of the bone to account

for changes in need.

 Increase weight or muscle strength, need

stronger bones to match.

 Osteoblasts lay down new matrix at the site

and become osteocytes (mature bone cells)
thickening and thus strengthening the bone

 Without this stress bones will deteriorate and

weaken

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1) Hematoma forms

 Blood vessels

break leading
to a pocket of
blood
 Bones cells
without blood
supply die

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2) Fibrocartilage
Splint is formed
 New capillaries grow

and clotting occurs
 At same time,
connective tissue cells
form a mass of repair
tissue – “fibrocartilage
callus”
 Splints the broken area,
closing the gap

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3) Bony Callus is

formed





Osteoblasts and
osteoclasts continue
to the site
Replace the
fibrocartilage with
spongy bone “bony
callus”

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4) Bone Remodelling
occurs
 The formation of a

strong permanent
“patch” according to
the demands on the
area

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The Axial Skeleton (green)

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Frontal bone
Orbit
Parietal bone
Temporal bone
Mandible
Maxilla

Clavicle
Sternum
Humerus

True rib

Floating rib
False rib
Radius
Vertebral column
Sacrum
IIliac crest
Symphysis
pubis
Pubic
bone

Ulna

Coccyx
Ischium
Carpal bones
Metacarpal bones

Phalanges

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Femur

Patella

Tibia
Fibula
Talus
Metatarsal bones

Tarsal bones

Phalanges

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Parietal bone
Zygomatic bone

Occipital bone

Mandible

Atlas (C1)
Axis (C2)
Cervical vertebra

Clavicle
Acromion
Scapula

Thoracic vertebra

Humerus
Floating ribs (Pairs 11 & 12)

True rib
False rib

Lumbar vertebra

Ilium

Radius
Ulna

Sacrum

Carpal bones
Metacarpal bones
Coccyx

Phalanges

Femur

Tibia
Fibula
Talus
Calcaneus

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The Skull

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Parietal bone
Frontal bone
Lesser wing of sphenoid
bone
Nasal bone

Temporal bone

Zygomatic bone
Greater wing of sphenoid
bone

Maxilla

Nasal septum

Upper (maxillary) teeth

Lower (mandibular) teeth
Mental foramen

Mandible

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Sagittal suture
Parietal bone

Temporal bone

Lambdoid suture
Occipital bone
Mastoid process

Mandible

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The Vertebral Column

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Cervical vertebrae (C1-C7)

Thoracic vertebrae (T1T12)

Lumbar vertebrae (L1-L5)

Sacrum
Coccyx

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Atlas (C1)
Cervical region

Axis (C2)

Spinous processes

Thoracic region

Transverse processes
Lumbar region

Sacral region

Coccygeal region

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Cervical vertebrae (C1-C7)

Anterior tubercle of atlas
Anterior arch of atlas

Dens of axis

Body of axis

Superior articular surface
of lateral mass of atlas for
occipital condyle of skull

Transverse process of axis

Posterior tubercle of atlas
Spinous process of axis

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Thoracic vertebrae (T1-T12)

Lamina

Vertebral foramen

Transverse costal facet

Vertebral Body
Spinous process

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Sacral promontory

Anterior sacral foramina

Sacrococcygeal joint

Coccyx

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The Bony Thorax
 Forms a
cage to
protect
major
organs

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Sternoclavicular joint

Sternal angle

Manubrium

Clavicle
Costal cartilage
True ribs (Pairs 1-7)

Costochondral joint

Sternocostall joint

Body of sternum
False ribs (pairs 8-10)
Xiphoid process

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The Appendicular Skeleton

 Limbs (appendages)
 Pectoral girdle
 Pelvic girdle

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The Appendicular Skeleton
(gold)

Figure 5.6c

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 Clavicle
 Only bone that connects the arm to the core
 Articulates with the sternum and the scapula
(forms shoulder joint)
 Commonly fractured bone
 Scapula
 Triangular, Flat, strong, posterior
 Acromion process
 Coracoid process
 Glenoid cavity

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 Humerus
 Long bone in upper arm
 Trochlea and capitulum
 Radius
 Forearm lateral bone
 Connected to ulna
 Ulna
 Forearm medial bone
 Coronoid process and olecranon process

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Acromion

Clavicle

Spine of scapula
Scapula

Humerus

Radius
Ulna
Carpal
bones

Metacarpal
bones
Phalanges

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Clavicle

Coracoid process
Acromion

Head of humerus
Glenoid cavity

Humerus

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Coracoid process
Acromioclavicular joint
Acromion

Clavicle
Head of humerus
Spine of scapula
Humerus
Medial border

Glenoid
fossa

Lateral border

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Acromion

Suprascapular notch

Superior border

Coracoid process

Glenoid Fossa

Subscapular fossa

Lateral border
Medial border

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Coracoid process

Acromion

Superior angle
Glenoid fossa

Superior border of scapula

Supraspinous fossa

Spine of scapula

Medial border of scapula

Lateral border of
scapula

Inferior angle

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Greater tubercle
Head of humerus
Anatomical neck

Lesser tubercle
Surgical neck

Coronoid fossa

Radial fossa

Capitulum
Trochlea

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Humerus

Head of radius
Radius

Neck of radius

Coronoid process of ulna

Trochlea of humerus
Olecranon
Ulna

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Bones of the Upper Limb
 The hand
 Carpals –
wrist
 Metacarpals –
palm
 Phalanges –
fingers
Figure 5.22

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Distal phalanges

Middle phalanges

Proximal phalanges

Metacarpal bones

Hamate
Capitate
Trapezoid

Triquetral

Trapezium

Lunate

Scaphoid

Ulna
Radius

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Distal phalanges

Middle phalanges
Distal phalanx of thumb

Proximal phalanges
Metacarpal bones
Hamate
Triquetral

Trapezoid
Trapezium

Pisiform

Capitate

Lunate

Scaphoid

Ulna

Radius

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The Pelvis

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Sacroiliac joint

Iliac crest

Ilium

Sacrum

Coccyx
Ischium
Pubic
symphysis

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Sacroiliac joint

Iliac crest
Ilium

Coccyx

Femur

Obturator foramen
Pubic
symphysis

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Femur

Patella

Tibia

Fibula

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 FEMUR
 Largest, strongest and heaviest bone
 Greater and Lesser Trochanters
 Lateral and Medial Condyles
 Patellar surface
 PATELLA
 Knee cap
 Protects the joint

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 TIBIA
 Larger, medial bone of lower leg
 Medial and lateral condyles
 Medial malleolus
 FIBULA
 Smaller, lateral bone
 Joins with tibia proximally and distally
 Lateral malleolus

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Neck of femur

Head of femur

Diaphysis

Patellar surfaces

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Intercondylar eminence
Superior articular surface (lateral facet)
Superior articular surface (medial facet)

Oblique line
Tibial tuberosity
Lateral surface

Interosseous border
Anterior border
Medial surface
Medial border

Medial malleolus
Inferior articular surface

Articular facet of medial malleolus

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Bones of the Lower Limbs
 The foot
 Tarsus –
ankle
 Metatarsals –
sole
 Phalanges –
toes
Figure 5.25

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Fibula

Tibia

Calcaneus

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Talus
Navicular
Cuneiform bones
Proximal phalanges
Middle phalanges
Calcaneus
Cuboid
Matatarsal bones

Distal phalanges

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JOINTS
 Articulations of bones
 Functions of joints
 Hold bones together
 Allow for mobility

 Classification of joints
 Functionally-amount of movement
 Structurally – type of connective tissue

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Functional Classification of Joints

 Synarthroses – immovable joints
 Amphiarthroses – slightly moveable
joints
 Diarthroses – freely moveable joints

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Structural Classification of Joints
 Fibrous joints
 Generally immovable

 Cartilaginous joints
 Immovable or slightly moveable

 Synovial joints
 Freely moveable

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 Found in the limb joints
 Allows for the most mobility
 All Have:
 Articular Cartilage
 Fibrous Articular Capsule
 Joint Cavity
 Reinforcing ligaments

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Structures Associated with the
Synovial Joint
 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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The Synovial Joint

Figure 5.28

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 PLANE JOINT
 Flat articular surfaces
 Gliding, no rotation
 Intercarpal joints

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 HINGE JOINT
 Cylindrical part of one
bone sits in “trough” of
other
 Movement in one plane
only
 Elbow, ankle

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 PIVOT JOINT
 Round end of bone fits

into sleeve or ring
 Radioulnar joint

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 CONDYLOID JOINT
 Oval shaped

articulating ends
 Allow side-to-side and
back-and-forth
movement
 Metacarpophalangeal
joints

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 SADDLE JOINTS
 Each surface has both

concave and convex
areas
 Two axis movement
 Thumb joints

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 BALL AND SOCKET

JOINTS

 Spherical head fits into

a round socket
 Multiaxial
 Shoulder and Hip

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 At birth, the skull bones are incomplete
 Bones are joined by fibrous membranes
– fontanelles
 Fontanelles are completely replaced
with bone within two years after birth

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BONE LABELING LIST
 Axial Skeleton:
 Cranium
 Frontal, parietal, temporal, occipital,

maxilla, mandible, sphenoid, zygomatic,
nasal bone, nasal septum, Ethmoid, Hyoid,
 Styloid process, Mastoid Process, External
Auditory meatus, Malleus, incus, stapes
 Sutures: coronal, sagittal, lambdoid
 Hard and soft palates
 Foramen Magnum

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 Axial Skeleton
 Vertebral column:
 cervical, thoracic, lumbar, sacrum, coccyx
 Atlas: articular surfaces for occipital condyle
 Axis: Body, Dens, Spinous Process
 All other: Body, Spinous process, Transverse
processes, Vertebral Foramen

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 Axial Skeleton:
 Sternum
 (manubrium, body, xiphoid, Sternal Angle,
Jugular Notch, Xiphisternal joint)
 Ribs
 (True, False, floating), Intercostal spaces,
Costal cartilage, costochondral joint,
sternocostal joint
 T1 – T12 attachment to ?

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BONE LABELING LIST
 Appendicular Skeleton:
 Upper Limbs:

 Clavicle: acromioclavicular joint,

sternoclavicular joint
 Scapula: Acromion, Coracoid process, Glenoid
fossa, Spine and borders
 Humerus: Head, neck, shaft/diaphysis,
Trochlea, Capitulum
 Radius: Head, neck, styloid process, radioulnar
joints
 Ulna: Head, neck, Olecrannon process,
Coronoid process, styloid process

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 Appendicular Skeleton:
 Upper Limbs:
 Carpals: 8 wrist bones
 Metacarpals: # 1 – 5, carpometacarpal

joints, metacarpophalangeal joints
 Phalanges: Digits 1-5, proximal, medial,
distal

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 Pelvic Girdle:
 Coxal Bone: Ilium, pubic bone, ischium
 Acetabulum, Symphysis Pubis, sacroiliac

joint, Ischial tuberosity, iliac crest

 Lower Limb
 Femur: head, neck, diaphysis, patellar surfaces
 patella

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 Lower Limb:
 Tibia: Intercondylar eminence, medial and lateral
condyle, medial malleolus, inferior articular
surface
 Fibula: Head, proximal and distal tibiofibular joint,

lateral malleolus

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 Lower Limb/Foot:
 Tarsus: Talus, calcaneus, cuboid, cuneiform bones,
navicular
 Metatarsals: 1- 5
 Phalanges: proximal, middle and distal,
metatarsophalangeal joints

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