3) The Skeletal System.pdf

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Anatomy and Physiology
Unit 3 - Principles of Support and Movement

The Skeletal System
 Skeletal System
Introduction
The skeletal system
includes the bones of the
skeleton
The joints, cartilages,
ligaments, and other
connective tissues that
stabilize or interconnect
bones.
Individual bones are the
organs of the skeletal
system.
Bone contains very active,
living tissues.
 Bones
Main functions of
bones:
Serve as body
framework
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Protect organs
Serve as levers for
movement
Store fat, minerals, such
as, phosphorous calcium
salts (such as, calcium
phosphate salt).
Form blood cells
 Bones (continued)
Bone structure:
Long bone
Diaphysis – shaft
Epiphysis – end

2. Bone tissue
Compact – in shaft of
long bones; outside of
other bones
Spongy (cancellous) – in
end of long bones; center
of other bones
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 Bones (continued)
1. Bone marrow
Red – in spongy
bone
Yellow – in central
cavity of long bones

2. Bone membranes
– contain bone
forming cells
Periosteum –
covers bone
Endosteum – lines
marrow cavity
Bones (continued)
 Bones (continued)

Microstructure of bones:
Bones (continued)
Bones (continued)

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 Bones (continued)
Bone growth and repair
Bone cells
Osteoblasts – bone forming cells
Osteocytes – mature bone cells that
maintain bone
Osteoclasts – cells that break down
(resorb) bone; derived from monocytes
(types of white blood cells)
2. Formation of a long bone – begins in
center of shaft and continues at
epiphyseal plate
 Bones (continued)
Bone development and growth:
Intramembranous ossification: Bones develop between
sheets of fibrous connective tissue like the cranium (skull) and
clavicles (collarbones).
Endochondral ossification: Bone replaces cartilage as do
most bones of the skeleton.
 Bones (continued)
Bone Repair:
Hematoma: A mass of clotted blood.
Fibrocartilaginous callus: fibrocartilage fills
spaces between broken bones for about three
weeks

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 Bones (continued)
Bone Repair:
Bony callus: Fibrocartilage is replaced by bone
tissue and lasts for 3 to 4 months.
Remodeling: Old bone tissue is replaced by new
bone tissue.
 Bones (continued)
Bone markings
Projections – head, process, condyle,
crest, spine
Head – a rounded, knoblike end
separated from the rest of the bone by
slender region, the neck.
Process – a large projection of a bone,
such as the upper part of the ulna in the
forearm that creates the elbow.
Condyle – a rounded projection; a small
projection above a condyle in an
epicondyle.
 Bones (continued)

Projections: head, process, condyle
 Bones (continued)

Projections: head, condyle
 Bones (continued)

Spine – a sharp projection from the surface of a bone,
such as the spine of the scapula (shoulder blade).

The shoulder girdle and scapula. [A] Bones of the shoulder girdle, left
anterior view. [B] Left scapula, posterior view.
 Bones (continued)

Crest – a distinct border or ridge, often rough, such as
over the top of the hip bone.
 Bones (continued)
Depressions and holes – foramen,
sinus, fossa, meatus
Foramen – a hole that allows a vessel or
a nerve to pass through or between bones.
The plural is foramina.
Sinus – an air space found in some skull
bones.
Fossa – a depression on a bone surface.
The plural is fossae.
Meatus – a short channel or passageway,
such as the channel in the temporal bone
of the skull that leads to the inner ear.
 Bones (continued)

Depressions and holes – foramen, sinus,
fossa, meatus
 Bones (continued)

Sinus – an air space found in some skull bones.
 Classification of the Bones
The human
skeleton is
divided into
two major
parts:

Axial Skeleton

Appendicular
Skeleton
Classification of the Bones (continued)
 Bones of the Axial Skeleton
Framework of the skull:
Cranium – frontal, parietal, temporal, ethmoid,
sphenoid, occipital
Facial – mandible, maxilla, zygomatic, nasal, lacrimal,
vomer, palatine, inferior nasal conchae
Bones of the Axial Skeleton (continued)
Bones of the Axial Skeleton (continued)
 Bones of the Axial Skeleton (continued)
Other – ossicles (of ear), hyoid
Infant skull – fontanels (soft spots)

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 Bones of the Axial Skeleton (continued)
Framework of the
trunk:
1. Vertebral column
– divisions: cervical
7, thoracic 12,
lumbar 5, sacral 5,
coccygeal 4
Curves
Thoracic and
sacral – concave,
primary
Cervical and
 Bones of the Axial Skeleton (continued)
Thorax
Sternum –
manubrium, body,
xiphoid process
True – first seven
pairs
False – remaining
five pairs,
including two
floating ribs
 Bones of the Appendicular Skeleton
Upper division:
Shoulder girdle –
clavicle, scapula
Upper extremity
– humerus, ulna,
radius, carpals,
metacarpals,
phalanges
 Bones of the Appendicular Skeleton
Lower division:
Pelvic bones – os
coxae (hip bone):
ilium, ischium, pubis
Female pelvis lighter,
wider, more rounded
than male
2. Lower extremity –
femur, patella, tibia,
fibula, tarsals,
metatarsals,
phalanges
 Bones of the Appendicular Skeleton
Female pelvis lighter, wider, more rounded than
male
 Disorders of Bone For
Metabolic:
Reading
Osteoporosis – abnormal loss of bone tissue with
tendency to fracture
Osteopenia – reduction in bone density to below average
levels
Osteitis deformans – bones undergo periods of calcium
loss followed by periods of excessive deposition of calcium
salts

Bone tissue Osteoporosis
Disorders of Bone (continued)
 Disorders of Bone (continued) For
Reading
Osteomalacia – softening of bone tissue due to lack of
formation of calcium
Rickets – softening of bone (osteomalacia) in children,
usually caused by a deficiency of vitamin D

Rickets: Rickets occurs
when children have a
Bones growth and remodeling
deficiency of vitamin D.
 Disorders of Bone (continued) For
Reading
Tumors – abnormal growth or neoplasm
Osteosarcoma - malignant tumor of bone cells
Chondrosarcoma – malignant tumor arises in
cartilage

Infection:
Osteomyelitis – Inflammation of bone caused
by pyogenic (pus-producing) bacteria, especially
Staphylococcus aureus.
Tuberculosis – may spread to bones (eg. Wrist
and ankle; in spine is called Pott disease) caused
by the bacillus bacteria (Mycobacterium
tuberculosis).
 Disorders of Bone (continued)
Structural Disorders:
Curvature of the
spine
Kyphosis (hunchback)
– exaggeration of the
thoracic curve
Lordosis (swayback)
– excessive lumbar
curve
Scoliosis – lateral
curvature of the
vertebral column
 Disorders of Bone (continued) For
Reading
Cleft palate: It is a congenital deformity
in which there is an opening in the roof of
the mouth owing to faulty union of the
maxillary bones.

Flatfoot: It is a common disorder in
which the tendons and ligaments that
support the long arch of the foot are
weakened and the curve of the arch
flattens.
 Disorders of Bone (continued)
Fractures - to break a bones
Closed fracture: It is a simple fracture of the bone with no open
wound.
Open fracture: In which a broken bone protrudes through the
skin or an external wound leads to a broken bone.
Greenstick fracture: In which one side of the bone is broken
and the other is bent.
Impacted fracture: In which the broken ends of the bone are
jammed into each other.
 Disorders of Bone (continued)
Comminuted fracture: In which there is more than one
fracture line and the bone is splintered or crushed.
Spiral fracture: In which the bone has been twisted apart.
Transverse fracture: In which the fracture goes straight
across the bone.
Oblique fracture: In which the break occurs at an angle
across the bone.
 Disorders of Bone (continued)
Bone Repair:
 Skeletal changes in the Aging
Skeletal changes in the Aging
The aging process includes significant changes in
all connective tissue including bone.
There is a loss of calcium salts and a decrease in
the amount of protein formed in bone tissue.
Changes in the vertebral column with age lead to
a loss of height.
Approximately 1.2 cm (about 0.5 inches) are lost
each 20 years beginning at age 40, owing
primarily to a thinning of the intervertebral disks
(between the bodies of the vertebrae)
 Joints
(Articulations)
Joints (Articulations):
Joints can be classified on the basis of the amount of
movement they make possible.

Fibrous - immovable joints (synarthrosis)
The bones of immoveable joints are in close contact,
separated by a thin layer of fibrous tissue or cartilage, as in
suture.
No active movements are possible at these joints.

Cartilaginous - slightly moveable joints (amphiarthrosis)
The bones of slightly moveable joints are connected by disks
of fibrocartilage or by ligaments, as in the vertebrae.
Such a joint allows a limited amount of movement.
 Joints (Articulations) (continued)
Synovial - freely moveable joints (diarthrosis)
The bones of a freely moveable joint are covered with hyaline
cartilage and held together by a fibrous capsule.
The joint capsule consists of an outer layer of ligaments and an inner
lining of synovial membrane.
Freely moveable joints include several types: gliding, hinge, pivot,
condyloid, saddle, and ball-and-socket.

Structure of a synovial joint. [A] Anterior view of the hip joint showing ligaments that
reinforce and stabilize the joint. [B] Frontal section through right hip joint showing protective
structures.
Joints (Articulations) (continued)
More about synovial joints:
Structure of synovial joints
Joint cavity – contains
synovial fluid
Ligaments – hold joint
together
Joint capsule – strengthens
and protects joint
Articular cartilage – covers
ends of bones
Bursae – fluid-filled sacs near
joints; cushions and protect
joints and surrounding tissue
 Joints (Articulations) (continued)
Knee joint
 Joints (Articulations) (continued)
Types of synovial joints:
Freely moveable joints include several types:
Gliding joint: Bone surfaces slide over
one another.
Joints in the wrist and ankles
Hinge joint: Allows movement in one
direction, changing the angle of the
bones at the joint.
Elbow joint; joint between phalanges of
fingers and toes.
 Joints (Articulations) (continued)
Pivot joint: Allows rotation around the
length of the bone.
Joints between the first and second cervical
vertebrae; joint at proximal ends of the
radius and ulna.
Condyloid joint: Allows movement in two
directions.
Joint between the metacarpal and the first
phalanx of the finger (knuckle).
Joint between the occipital bone of the skull
and the first cervical vertebra (atlas).
 Joints (Articulations) (continued)
Saddle joint: Like a condyloid joint, but
with deeper articulating surfaces.
Joint between the wrist and the metacarpal
bone of the thumb.
Ball-and-socket joint: Allows movement
in many directions around a central point.
Gives the greatest freedom of movement.
Shoulder joint and hip joint.
 Movement at synovial joints
Movement at synovial joints:
The following terms are used to describe various movements of synovial
joints.
 Movement at synovial joints (continued)
Angular Motions:
Flexion - bending a joint so that
the angle between its parts is
decreased and the parts come
closer together, e.g. bending the
leg at the knee.
Extension - straightening a joint
so that the angle between its
parts is increased and the parts
move farther apart, e.g.
straightening the leg at the knee.
Hyperextension - excessive
extension of the parts at a joint,
beyond the anatomical position,
e.g. bending the head back
beyond the upright position.
 Movement at synovial joints (continued)
Abduction - moving a part
away from the midline, e.g.
lifting the arm horizontally
to form a right angle with
the side of the body.

Adduction - moving a part
toward the midline, e.g.
returning the arm from the
horizontal position to the
side of the body.
 Movement at synovial joints (continued)
Circular Motions:
Circumduction - moving a
part so that its end follows
a circular path, e.g. moving
the finger in a circular
motion without moving the
hand or moving arm in a
loop.

Rotation - moving a part
around an axis, e.g.
twisting the head from side
to side.
 Movement at synovial joints (continued)
Special movements
at forearm:
Pronation - turning
the hand so the palm
is downward.

Supination - turning
the hand so the palm
is upward.
 Movement at synovial joints (continued)
Special movements at
ankle:
Inversion - turning the
foot so the sole is inward.
Eversion - turning the
foot so the sole is
outward.
Dorsiflexion - flexing
the foot at the ankle, e.g.
bending the foot upward.
Plantar flexion -
extending the foot at the
ankle, e.g. bending the
foot down downward.
 Disorders of Joints For
Reading
Disorders of joints:
Dislocation – derangement
of the parts of the joints.
Mostly ball-and-socket and
shoulder joints are
dislocated in the body.
Sprain – Wrenching (to pull
or twist) of a joint with
rupture or tearing of the
ligaments.
Herniated disk – central
portion of intervertebral disk
projects through outer
cartilage.
 Disorders of Joints (continued) For
Reading
Arthritis:
The most common type of joint disorder is
termed arthritis, which means
“inflammation of the joints.”
The term arthritis refers to many different
diseases, most of which are characterized
by inflammation of one or more joints.
Inflammation, pain, and stiffness may also
be present in adjacent parts of the body,
such as the muscles near the joint.
 Disorders of Joints (continued) For
Osteoarthritis: Reading
It is a degenerative joint disease (DJD) that usually occurs in elderly persons
(aging) as a result of normal wear and tear. Other factors such as obesity and
trauma (injury or wound).
Osteoarthritis occurs mostly in joints used in weight bearing, such as the hips,
knees, and spinal column.
It involves degeneration of the joint cartilage, with growth of new bone at the
edges of the joint.
Injured joints can be examined from outside and even repaired surgically with a
lighted instrument known as an arthroscope, a type of endoscope.
 Disorders of Joints (continued) For
Reading
Rheumatoid arthritis: is a crippling
condition (unable to walk or move properly)
characterized by swelling of the joints of the
hands, the feet, and other parts of the body
as a result of inflammation and overgrowth
of the synovial membranes and other joint
tissues.
The articular cartilage is gradually
destroyed, and the joint cavity develops
adhesions (that is, the surfaces tend to stick
together) so that the joints stiffness and
ultimately become useless.
 Disorders of Joints (continued) For
Reading
Septic (infectious) arthritis: It is arises
when bacteria spread to involve joint tissue,
usually by way of the blood stream.
A variety of organisms is commonly involved,
Streptococcus, Staphylococcus, and Neisseria.
The joints and the bones may attack by
tuberculosis organism, and the result may be
gradual destruction of parts of the bone near
the joint.
Tuberculosis of the spine is called Pott’s
disease.
 Disorders of Joints (continued) For
Reading
Gouty arthritis: It is kind of arthritis caused
by a disturbance of metabolism, which is
production of uric acid excreted in urine.
The cause is overproduction of uric acid or less
excretion.
The accumulated uric acid forms crystals, which
are deposited as masses about the joints and
other parts of the body.
As a result, the joints become inflamed and
extremely painful.
Backache, dislocation and sprain and strain
are common complaint of joints.