Skeletal System Lecture Notes PDF

Summary

These lecture notes cover the skeletal system, including its functions, components, cartilage, tendons, ligaments, and bone classification. The document also details bone shapes like long, short, flat and irregular, as well as long bone structures.

Full Transcript

Chapter 6-Skeletal System
Functions
1. Support
2. Protect
3. Movement
4. Storage
5. Blood cell production

1
 Components of Skeletal System
Bone

Cartilage:
reduce friction and model for bone formation

Tendons:
attach bone to muscle

Ligaments:
attach bone to bone 2
 Background Information
Bones, cartilage, tendons, and ligaments are
connective tissues.

Proteoglycans:
- large polysaccharides attached to proteins
- part of ground substance
- store water

3
 Bone’s extracellular matrix is collagen and
minerals (flexible and able to bear weight)

Cartilage’s extracellular matrix is collagen and
proteoglycans (good shock absorber)

Tendons and ligaments’ extracellular matrix is
collagen (very tough)

4
 Classification of Bones

Based on shape:
long, short, flat, irregular

Type of bone tissue:
compact and spongy (cancellous)

5
 Bone Shapes
Long:
- Ex. Femur, tibia, fibula
Short:
– Ex. Carpals, tarsals,
phlanges
Flat:
– Ex. Ribs, sternum, skull
Irregular:
– Ex. Vertebrae and facial

6
 Long Bone Structures
Diaphysis:
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– shaft Articular cartilage
Epiphysis
– compact bone Epiphyseal plates
in juveniles
tissue (on outside)
Epiphysis: Spongy bone

– ends Compact bone

Medullary cavity (contains

– spongy bone tissue Diaphysis red marrow in juveniles
and
yellow marrow in adults)

Articular cartilage: Periosteum

Endosteum

- covers epiphyses
Young bone
- reduces friction (a)

7
 Epiphyseal plate:
– site of growth Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Articular cartilage
Epiphysis

– between diaphysis
and epiphysis Epiphyseal lines
in adults

Spongy bone

Compact bone

Medullary cavity: Medullary cavity (contains
red marrow in juveniles and
yellow marrow in adults)
Diaphysis

– center of diaphysis Periosteum

Endosteum

– red or yellow
marrow (b)
Adult bone
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Periosteum: Articular cartilage
Epiphysis
membrane around Epiphyseal plates
in juveniles
bone’s outer surface
Spongy bone

Compact bone
Endosteum: Medullary cavity (contains
Diaphysis red marrow in juveniles
membrane that lines and
yellow marrow in adults)

medullary cavity Periosteum

Endosteum

Young bone

(a)

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Articular cartilage

Epiphysis

Epiphyseal plates
in juveniles

Epiphyseal lines
in adults

Spongy bone

Compact bone

Medullary cavity (contains
Diaphysis red marrow in juveniles and Diaphysis
yellow marrow in adults)

Periosteum

Endosteum

Young bone

Adult bone

(a) (b)

Osteons
(haversian systems)

Endosteum
Inner
layer

Periosteum

Outer
layer

Compact bone

Central canals
Spongy bone
with trabeculae

Connecting vessels

Medullary
cavity
10
Adult bone
(c)
 Compact Bone Tissue
Location:
outer part of diaphysis (long
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bones) and thinner surfaces of
Osteons

other bones (haversian systems)

Endosteum
Inner
layer
Osteon: Periosteum

Outer

- structural unit of compact layer

Compact bone

bone Central canals

- includes lamella, lacunae, Spongy bone
with trabeculae

canaliculus, central canal, Connecting vessels

osteocytes Medullary
cavity

Adult bone

Lamella: (c)

rings of bone matrix
11
 Lacunae:
spaces between lamella

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Canaliculus:
- tiny canals Osteons
(haversian systems)

Endosteum
Inner

- transport nutrients and Periosteum
layer

remove waste Outer
layer

Compact bone

Central canals
Spongy bone

Central canal: with trabeculae

- center of osteon Medullary
Connecting vessels

cavity

- contains blood vessels (c)
Adult bone

12
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Osteon Osteon Lamellae on
Concentric rings surface of bone
of lamellae Lamellae
between osteons
Central canal
Periosteum
Blood vessel within
the periosteum
Blood vessels
connecting to
a central canal

Blood vessels
within a central
(Haversian) canal
Canaliculi
LM 400x Osteocytes in
lacunae
Canaliculi (b)
(a)
Lacunae Blood vessel
connecting to
a central canal
between osteons
a: © Trent Stephens
 Spongy Bone Tissue
Cancellous bone
Location: epiphyses of long bones and center of other bones
Trabeculae: interconnecting rods, spaces contain marrow
No osteons

14
 Bone Cells
Osteocytes:
maintain bone matrix

Osteoblasts:
build bone

Osteoclasts:
carve bone
15
 Bone Formation
Ossification:
process of bone formation (occurs in utero)

Osteoblast’s role:
- build bone
- after an osteoblast becomes surrounded by bone
matrix it becomes an osteocyte

16
 Ossification center:
where bone formation begins

Primary ossification center:
- where bone 1st begins to appear
- forms diaphyses

Secondary ossification center:
forms epiphyses

17
Intramembranous Ossification
Bone formation within connective tissue
membranes

Osteoblasts build bone

Ex. Skull bones

18
 Endochondral Ossification
Bone formation inside cartilage

Cartilage models are replaced by bone

Ex. All bones (except skull)

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Steps in Endochondral Ossification
1. Chondroblasts build a cartilage model, the
chrondroblasts become chondrocytes.
2. Cartilage model calcifies (hardens).
3. Osteoblasts invade calcified cartilage and a
primary ossification center forms diaphysis.
4. Secondary ossification centers form epiphysis.
5. Original cartilage model is almost completely
ossified and remaining cartilage is articular
cartilage.
21
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Femur

Patella

Epiphysis

Epiphyseal
plate
Diaphysis
(a)

Length of bone
increases.
Epiphyseal side

1 New cartilage is
Thickness of produced on
1 epiphyseal the epiphyseal side
plate remains of the plate as the
Chondrocytes 1
unchanged. chondrocytes divide
Epiphyseal divide and enlarge.
and form stacks
plate of cells.
2 2 Chondrocytes
mature and 2
Bone is
3 added to enlarge.
Calcified cartilage diaphysis. 3 Matrix is calcified,
is replaced by bone. and chondrocytes
die. 3
Bone of
4 The cartilage on
diaphysis
4 the diaphyseal side 4
of the plate is LM 400x
(b) replaced by bone.
Diaphyseal side
(c)
(a): © Ed Reschke/Peter Arnold, Inc./ Photolibrary.com; (c): © Bio-Photo Assocs/Photo Researchers, Inc.
23
 Bone Growth
Infancy and youth:
- long bones lengthen at epiphyseal plate
- long bones widen by adding more lamella

End of bone growth (in length):
epiphyseal plate is replaced by an epiphyseal line

24
Figure
6.2b
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26
 Bone Remodeling
What is it?
- removal of existing bone by osteoclasts and
deposition of new bone by osteoblasts
- occurs in all bones
- responsible for changes in bone shape, bone
repair, adjustment of bone to stress, and
calcium ion regulation

27
 Bone Repair
1. Broken bone causes bleeding and a blood clot
forms.
2. Callus forms which is a fibrous network between
2 fragments.
3. Cartilage model forms first then, osteoblasts enter
the callus and form cancellous bone this
continues for 4-6 weeks after injury.
4. Cancellous bone is slowly remodeled to form
compact and cancellous bone.

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Bone and Calcium Homeostasis
Bone is a major storage site for calcium
Movement of calcium in and out of bone helps
determine blood levels of calcium
Calcium moves into bone as osteoblasts build
new bone
Calcium move out of bone as osteoclasts break
down bone
Calcium homeostasis is maintained by
parathyroid hormone (PTH) and calcitonin
30
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Decreased Increased
1 5
blood Ca2+ blood Ca2+

Posterior aspect
of thyroid gland
Parathyroid 1 Decreased blood Ca2+ stimulates PTH
glands secretion from parathyroid glands.
Kidney
Thyroid gland 2 PTH stimulates osteoclasts to break down
bone and release Ca2+ into the blood.

3 In the kidneys, PTH increases Ca2+
reabsorption from the urine. PTH also
3 stimulates active Vitamin D formation.
PTH Calcitonin
4 Vitamin D promotes Ca2+ absorption from
the small intestine into the blood.
2 6
Stimulates 5 Increased blood Ca2+ stimulates calcitonin
Vitamin D Inhibits
secretion from the thyroid gland.
osteoclasts osteoclasts
6 Calcitonin inhibits osteoclasts, which
Bone allows for enhanced osteoblast uptake of
Osteoclasts Ca2+ from the blood to deposit into bone.
promote Ca2+
uptake from Ca2+
4 bone.
Osteoblasts promote
Ca2+ deposition in bone.
Small intestine

Ca2+ Blood
 Hematopoietic Tissue
What is it?
tissue that makes blood cells

Red marrow:
location of blood forming cells

Yellow marrow:
mostly fat

32
 Location of hematopoietic tissue in newborns:
most bones (red marrow)

Location of hematopoietic tissue in adults:
- red is replaced with yellow marrow
- red marrow is mainly in epiphyses of femur
and humerus

33
 Bone Anatomy
Foramen:
- hole
- Ex. Foramen magnum

Fossa:
- depression
- Ex. Glenoid fossa
Process:
- projection
- Ex. Mastoid process 34
 Condyle:
- smooth, rounded end
- Ex. Occipital condyle
Meatus:
- canal-like passageway
- Ex. External auditory meatus
Tubercle:
- lump of bone
- Ex. Greater tubercle
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36
 Axial Skeleton
Mastoid process:
attached to neck muscles

External auditory meatus:
ear canal

Nasolacrimal canal:
- canal between nasal cavity and eye
- conducts tears
37
 Styloid process:
attachment site for tongue

Mandibular fossa:
depression where lower jaw and skull
meet

Glenoid fossa:
where humerus meets scapula

38
 Hard palate:
roof of mouth

Foramen magnum:
hole where spinal cord joins brainstem

39
 Zygomatic:
cheek bone

Mandible:
lower jaw

Maxilla:
upper jaw

40
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Incisive fossa
Maxilla

Palatine process of maxillary bone Hard
Horizontal plate of palatine bone palate
Inferior orbital fissure
Zygomatic bone

Sphenoid bone Vomer

Foramen ovale
Foramen spinosum Styloid process
Mandibular fossa
External auditory canal Carotid canal
Jugular foramen
Occipital condyle Mastoid process

Foramen magnum Temporal bone

Occipital bone

Nuchal lines

Inferior view 44
 Vertebral Column
7 cervical vertebra
12 thoracic vertebra
5 lumbar vertebra
1 sacrum
1 coccyx
Atlas:
- 1st vertebra
- holds head
Axis:
- 2nd vertebra
- rotates head
45
Functions of Vertebral Column
Support

Protect spinal cord

Movement

49
 Thoracic Cage
Protects vital organs
12 pair of ribs
Sternum:
breastbone
True ribs:
attach directly to sternum by cartilage
False ribs:
attach indirectly to sternum by cartilage
Floating ribs:
not attached to sternum 50
Pectoral Girdle
Scapula:
shoulder blade

Clavicle:
collar bone

52
Upper Limb Bones
Humerus:
upper limb
Ulna:
forearm
Radius:
forearm
Carpals:
wrist
Metacarpals:
hand 54
 Pelvic Girdle
Where lower limbs attach to body
Pelvis:
includes pelvic girdle and coccyx
Ischium:
inferior and posterior region
Ilium:
most superior region
Acetabulum:
hip socket (joint)
59
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Iliac crest
Ilium Articular surface
(area of
Iliac fossa articulation
with sacrum)

Pelvic brim Greater
Acetabulum sciatic notch
Greater Ischium
sciatic notch Pubis
Ischial spine
Ischial spine

Ischium
Pubic symphysis

Obturator foramen
Ischial tuberosity
(a) Lateral view (b) Medial view
63
Lower Limb Bones
Femur:
thigh
Patella:
knee cap
Tibia:
large lower leg
Fibula:
small lower leg
64
 Tarsals:
ankle

Metatarsals:
foot

Phalanges:
toes and fingers

65
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Head Head
Greater trochanter
Greater trochanter
Neck Neck

Lesser trochanter

Linea aspera

Body (shaft) of femur

Medial
epicondyle
Lateral epicondyle

Lateral epicondyle Intercondylar fossa
Lateral condyle
Medial
condyle
Patellar groove

(a) Anterior view Posterior view

(b) Anterior
surface

67
Anterior view
70
 Articulations
What are they?
where 2 bones come together (joint)
Synarthrosis:
- nonmovable joint
- Ex. skull
Amphiarthrosis:
- slightly movable joint
- Ex. Between vertebrae
Diarthrosis:
- freely movable joint
- Ex. knee, elbow, wrist 71
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Parietal
bone

Frontal
Squamous bone
suture
Coronal
suture

Occipital
bone

Lambdoid
suture

Mastoid (posterolateral)
fontanel
Sphenoidal
(anterolateral)
fontanel

Temporal bone
(a) Lateral view

Frontal bones
(not yet fused
into a single
bone)

Frontal
(anterior)
fontanel

Parietal
Sagittal
bone
suture

Occipital
(posterior)
fontanel
Occipital 72
bone
(b) Superior view
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Bone

Synovial membrane
Joint
Blood vessel Fibrous part of joint capsule
Nerve capsule

Bursa

Joint cavity (filled
with synovial fluid)
Articular
cartilage

Tendon
sheath

Tendon Outer layer
Bone Periosteum
Inner layer

73
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Class and Example Structures Joined Movement
of
Joint
Plane
Acromioclavicular Acromion process of Slight
scapul
Carpometacarpal a and clavicle
Carpals and metacarpals Multiple axes as
2–5 a group
Costovertebral Ribs and vertebrae Slight
Intercarpal Between carpal bones Slight
Intermetatarsal Between metatarsal bones Slight
Intertarsal Between tarsal bones Slight
Intervertebral Between articular processes Slight
of
Sacroiliac adjacentsacrum
Between vertebrae
and coxal Slight
bone
Plane (complex joint with several
planes and synchondroses)
Tarsometatarsal Tarsal bones and metatarsal Slight
bones

Saddle
Carpometacarpal Carpal and metacarpal Two axes
pollicis of thumb
Intercarpal Between carpal bones Slight
Sternoclavicular Manubrium of sternum Slight
and clavicle

Saddle

Hinge
Cubital (elbow) Humerus, ulna, and radius One axis
Knee Femur and tibia One axis
Interphalangeal Between phalanges One axis
Talocrural (ankle) Talus, tibia, and fibula Multiple axes;
one
predominates

Hinge

Pivot
Medial atlantoaxial Atlas and axis Rotation
Proximal radioulnar Radius and ulna Rotation
Distal radioulnar Radius and ulna Rotation

Pivot

Ball-and-Socket
Coxal (hip) Coxal bone and femur Multiple axes
Humeral (shoulder) Scapula and humerus Multiple axes

Ball-and-socket

Ellipsoid
Atlantooccipital Atlas and occipital Two axes
Metacarpopha- bone
Metacarpal bones Two axes
langeal and
(knuckles)
Metatarsopha- phalanges
Metatarsal bones Two axes
langeal (ball of
foot)
Radiocarpal (wrist)
and
phalanges
Radius and carpal Multiple axes 74
Temporomandibular bones
Mandible and temporal Multiple axes;
Ellipsoid bone one predominates
 Types of Movement
Flexion: bending
Extension: straightening
Abduction: movement away from midline
Adduction: movement toward the midline
Pronation: rotation of the forearm with palms
down
Supination: rotation of the forearm with palms up
Rotation: movement of a structure about the long
axis
75
Effects of Aging on the Skeletal
System and Joints
1. Decrease Collagen Production
2. Loss of Bone Density
3. Degenerative Changes

78
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79