Transcript Training
APPENDICULAR
SKELETON
CHAPTER 8
(9/30/08)
THE PECTORAL GIRDLE
Pectoral or Shoulder Girdle
Consists of two bones, the anteriorly
positioned clavicle and the posteriorly
positioned scapula
Pectoral girdle is a loosely attached, held
in place largely by musculature attached
to the thorax and the vertebral column
Only direct ligament attachment exists at
the sternoclavicular joint
Frees girdle to move over the thorax as
the need arises
Pectoral Girdle
Flexible and Mobile
Pectoral girdle is very light to allow the
upper limb flexibility and mobility not
allowed anywhere else in body
This is possible because only the sternal
end of clavicle is attached to axial skeleton
thus allowing the scapula to move across
thorax and the arm with it
The socket of the shoulder joint is shallow
and poorly reinforced
Although this arrangement does not
restrict movement it is less stable
Clavicles
Clavicles are double curved bones extending along the
superior thorax
Attached on the sternal end to sternum and the
acromial to the scapula
Attachment site or muscles of the thorax and shoulder
Position scapula away from thorax
Right Scapula
Anterior Aspect
Bone markings
are related to
– Joint structures
– Muscle
attachments
– Nerve and blood
vessels
Right Scapula
Posterior Aspect
Bone markings
are related to
– Joint structures
– Muscle
attachments
– Nerve and blood
vessels
Right Scapula
Lateral Aspect
Schematic
representation of
its orientation
THE UPPER LIMB
SECTION V
The Upper Limb
Arm
– Humerus
Forearm
– Ulna
– Radius
Hand
Wrist (8 carpal bones)
Palm (5 metacarpal bones)
Fingers (14 phalanges)
The Humerus
Radius
and Ulna
Ulna is
involved in
elbow flexion
Radius is
involved with
supination
and
pronation
Elbow
Joint
Olecranon
process pivots
around the
Trochlea to
allow for
elbow flexion
and extension
Elbow
Joint
Olecranon
process and
coronoid
process grips
the trochlea
of the
humerus
Elbow
Joint
Olecranon
process of
ulna fits into
the olecranon
fossa of
humerus to
limit
extension
Wrist
Joint
Scaphoid and
lunate bones
articulate
with the
radius
Wrist
Joint
Palpation to
locate the
distal styloid
processes of
the radius
and ulna
Colles’
Fracture
An impact
fracture
caused by
falling on an
outstretched
hand
Note
characteristic
bending of
tissue
Carpals,
Metacarpals,
& Phalanges
Carpal Bones
The carpal bones appear in two irregular
rows (proximal arch and distal row)
Mnemonic; proximal row - lateral to medial
Sally Left The Party To Take Carmen Home
Scaphoid is the most frequently fractured
carpal bone often resulting from falling on
an outstretched hand
Carpals,
Metacarpals,
& Phalanges
THE PELVIC GIRDLE
SECTION VI
The Pelvic (Hip) Girdle
Attaches the lower limbs to axial skeleton
Transfers the weight of the torso, head,
and upper extremities to lower limbs
Supports the visceral organs of the pelvis
Secured by strong ligaments and deep
sockets the joint is reinforced for stability
Less range of motion in all planes of
movement
Female pelvic structure to facilitate
childbearing
Pelvis
Pelvis
Pelvic girdle is formed by a pair of coxal
bones, each called an os coxae
Each os coxae unites anteriorly at the
pubic symphysis and with the sacrum
posteriorly
Each coxa is formed by the ilium, ischium
and pubic which were separate during
childhood but fused in adulthood
Collectively the os coxae, sacrum and
coccyx is called the pelvis
Os Coxa
Ilium
– Superior
Ishium
– Posterior
Pubis
– Anterior
Os Coxa
Ilium
– Superior
Ishium
– Posterior
Pubis
– Anterior
Ischium
Sacrospinous
ligament
anchors the
coccyx to the
sacrum
Sacrotuberous
ligament runs
from sacrum
to each ishial
tuberosity
False Pelvis
The false pelvis
lies superior to
the pelvic brim
The area is
bounded by the
alae of the iliac
bones
Actually part of
the abdomen
and contains
abdominal
organs
True Pelvis
The true pelvis
lies inferior to
the pelvic brim
It forms a deep
bowl that
contains the
pelvic organs
Pelvic Structure and Childbearing
The female pelvis reflects modifications
for child bearing
It tends to be wider, shallower, lighter,
and rounder than the male
Pelvic modifications accommodate the
growing fetus as well as providing a birth
canal wide enough to allow the infants
head to exit at birth
Pelvic inlet and outlet are critical to
delivery
Male and Female Pelvic Structures
Male and Female Pelvic Structures
Male and Female Pelvic Structures
THE LOWER LIMB
SECTION VII
The Lower Limb
Thigh
– Femur
Leg
– Tibia
– Fibula
Foot (7 Tarsal bones)
Instep (5 Metatarsal bones)
Toes (14 Phalanges)
Bones of
Right Foot
Right Foot - Medial View
Right Foot - Lateral View
Arches of the Foot
DEVELOPMENTAL ASPECT
OF THE SKELETON
SECTION VIII
The Appendicular Skeleton
Throughout Life
Long Bone Ratio
The Fetal Skull