Skeletal System Part 1 PDF

Summary

This presentation introduces the skeletal system, covering different types of bones, their classifications, functions, and growth. It also includes diagrams, graphs and images for better understanding. The presentation contains multiple slides.

Full Transcript

Bones and
Skeletal
Tissues
Part 1
BY: Dr. Pamela Paynter-
Armour
 OBJECTIVES
Describe the Classification Bone

Discuss the Functions of the Skeletal System

Identify the four types of bones

Identify the various Bone Cells
 SKELETAL SYSTEM
Interconnected system of
bones, ligaments and
tendons

Provide support and
protection for body

Composed of 206 bones²
 SKELETAL CARTILAGES
Contain no blood vessels or nerves

Dense connective tissue girdle of perichondrium
contains blood vessels for nutrient delivery to
cartilage ¹
 SKELETAL CARTILAGES
1. Hyaline cartilages
 Provide support, flexibility, and resilience
 Most abundant type

2. Elastic cartilages
 Similar to hyaline cartilages, but contain elastic fibers

3. Fibrocartilages
 Collagen fibers—have great tensile strength ¹
 Epiglottis
Thyroid Larynx
Cartilage in Cartilages in cartilage
external ear nose Cricoid Trachea
Articular Lung
cartilage
Cartilage
of a joint
Cartilage in
Costal
Intervertebral
cartilage
disc

Respiratory tube cartilages
in neck and thorax
Pubic Bones of skeleton
symphysis
Axial skeleton
Meniscus (padlike
cartilage in Appendicular skeleton
knee joint)
Cartilages
Articular cartilage
of a joint Hyaline cartilages

Elastic cartilages
Fibrocartilages

Figure 6.1
 GROWTH OF CARTILAGE
Appositional
Cells secrete matrix against the external face of existing cartilage

Interstitial
Chondrocytes divide and secrete new matrix, expanding cartilage from
within

Calcification of cartilage occurs during
Normal bone growth
Old age ¹
 BONES OF THE SKELETON
Two main groups, by location

Axial skeleton (blue)

Appendicular skeleton (pink)
 DIVISIONS OF THE SKELETAL
SYSTEM
Skeletal system is
divided into two main
division
Axial – central skeleton that
protects and supports vital
organs

Appendicular – skeleton of the
extremities²
extremities

 AXIAL SKELETON
Composed of skull and
vertabrae

Mainly flat and irregular
bones

Serve to protect organs such
as brain, heart, and lungs

Also helps to support body
along central axis (backbone)
²
 PARTS OF THE AXIAL
SKELETON
Skull – protects brain

Vertebrae – protect
spinal chord ;also
serves to keep
skeleton upright

Ribs – protect lungs
and heart ; gives
intercostal muscles a
hard surface to move
against for breathing²
breathing
 Cartilage in Cartilages in
external ear nose
Articular
Cartilage
of a joint
Cartilage in
Costal
Intervertebral
cartilage
disc

Pubic
symphysis
Meniscus (padlike
cartilage in
knee joint)
Articular cartilage
of a joint
 CLASSIFICATION OF
BONES BY SHAPE
Long bones
Longer than they are wide

Short bones
Cube-shaped bones (in wrist and ankle)
Sesamoid bones (within tendons, e.g., patella) ¹
 CLASSIFICATION OF
BONES BY SHAPE
Flat bones
Thin, flat, slightly curved

Irregular bones
Complicated shapes
 LONG BONES
Found in the limbs

Each bone is made of a body
(diaphysis) and two extremities
(epiphyses)

Wall consists of dense tissue

Central canal called medullary
canal is filled with marrow ²
 SHORT BONES
Found in skeleton where
strength, compactness,
and limited movement are
desired

2 main examples
Tarsus
Carpus
 FLAT BONES
Used in spots where
protection or muscular
attachment is desired

Main locations are skull
and scapula ²
IRREGULAR BONES
Bones which don’t fit
into other categories
due to irregular shapes

Examples:
vertebrae;sphenoid;
hyoid ²
 FUNCTIONS OF BONES
Support
For the body and soft organs

Protection
For brain, spinal cord, and vital organs

Movement
Levers for muscle action
 FUNCTIONS OF BONES
Storage
Minerals (calcium and phosphorus) and growth
factors

Blood cell formation (hematopoiesis) in marrow cavities

Triglyceride (energy) storage in bone cavities ¹
 BONE MARKINGS
Bulges, depressions, and holes serve as

Sites of attachment for muscles, ligaments, and
tendons

Joint surfaces

Conduits for blood vessels and nerves
 BONE MARKINGS:
PROJECTIONS
Sites of muscle and ligament attachment
Tuberosity—rounded projection
Crest—narrow, prominent ridge
Trochanter—large, blunt, irregular surface
Line—narrow ridge of bone
Tubercle—small rounded projection
Epicondyle—raised area above a condyle
Spine—sharp, slender projection
Process—any bony prominence ¹
 BONE MARKINGS:
PROJECTIONS
Projections that help to form joints
Head
Bony expansion carried on a narrow neck
Facet
Smooth, nearly flat articular surface
Condyle
Rounded articular projection
Ramus
Armlike bar
Table 6.1
 BONE MARKINGS:
DEPRESSIONS AND
OPENINGS
Meatus Groove
Canal-like passageway Furrow
Sinus Fissure
Cavity within a bone Narrow, slitlike opening
Fossa Foramen
Shallow, basinlike Round or oval opening
depression through a bone ¹
 BONE TEXTURES
Compact bone Spongy (cancellous)
Dense outer layer bone
Honeycomb of
trabeculae ¹
 STRUCTURE OF A LONG
BONE
Diaphysis (shaft)

Compact bone collar surrounds medullary
(marrow) cavity

Medullary cavity in adults contains fat (yellow
marrow) ¹
 STRUCTURE OF A LONG
BONE
Epiphyses
Expanded ends

Spongy bone interior

Epiphyseal line (remnant of growth plate)

Articular (hyaline) cartilage on joint surfaces
 Articular
cartilage

Compact bone
Proximal
epiphysis Spongy bone
Epiphyseal
line
Periosteum
Compact bone
Medullary
cavity (lined (b)
by endosteum)
Diaphysis

Distal
epiphysis
(a)
 MEMBRANES OF BONE
Periosteum
Outer fibrous layer

Inner osteogenic layer
Osteoblasts (bone-forming cells)
Osteoclasts (bone-destroying cells)
Osteogenic cells (stem cells)

Nerve fibers, nutrient blood vessels, and lymphatic vessels
enter the bone via nutrient foramina
Secured to underlying bone by Sharpey’s fibers ¹
 MEMBRANES OF BONE
Endosteum

Delicate membrane on internal surfaces of
bone

Also contains osteoblasts and osteoclasts ¹
 Endosteum

Yellow
bone marrow

Compact bone
Periosteum
Perforating
(Sharpey’s) fibers

Nutrient
arteries
 STRUCTURE OF SHORT,
IRREGULAR, AND FLAT
BONES
Periosteum-covered compact bone on the outside

Endosteum-covered spongy bone within

Spongy bone called diploë in flat bones

Bone marrow between the trabeculae ¹
Spongy bone
(diploë)
Compact
bone

Trabeculae
 LOCATION OF
HEMATOPOIETIC TISSUE
(RED MARROW)
Red marrow cavities of adults
Trabecular cavities of the heads of the femur and
humerus
Trabecular cavities of the diploë of flat bones

Red marrow of newborn infants
Medullary cavities and all spaces in spongy bone ¹
 MICROSCOPIC ANATOMY OF
BONE
Cells of bones
Osteogenic (osteoprogenitor) cells
Stem cells in periosteum and endosteum that
give rise to osteoblasts

Osteoblasts
Bone-forming cells ¹
(a) Osteogenic cell (b) Osteoblast

Stem cell Matrix-synthesizing
cell responsible
for bone growth
 MICROSCOPIC ANATOMY OF
BONE
Cells of bone

Osteocytes
Mature bone cells

Osteoclasts
Cells that break down (resorb) bone matrix ¹
(c) Osteocyte (d) Osteoclast

Mature bone cell Bone-resorbing cell
that maintains the
bone matrix
 MICROSCOPIC ANATOMY OF
BONE: COMPACT BONE
Haversian system, or osteon—structural
unit
Lamellae
Weight-bearing
Column-like matrix tubes

Central (Haversian) canal
Contains blood vessels and nerves ¹
 Artery with
capillaries
Structures
in the Vein
central Nerve fiber
canal
Lamellae

Collagen
fibers
run in
different
directions

Twisting
force
 MICROSCOPIC ANATOMY OF
BONE: COMPACT BONE
Perforating (Volkmann’s) canals
At right angles to the central canal
Connects blood vessels and nerves of the
periosteum and central canal

Lacunae—small cavities that contain osteocytes

Canaliculi—hairlike canals that connect lacunae to
each other and the central canal ¹
 Compact Spongy bone
bone

Central Perforating
(Haversian) canal (Volkmann’s) canal
Endosteum lining bony canals
Osteon and covering trabeculae
(Haversian system)
Circumferential
lamellae

(a)
Perforating (Sharpey’s) fibers
Lamellae Periosteal blood vessel
Periosteum

Nerve
Vein
Artery Lamellae
Central Lacuna (with
Canaliculi
canal osteocyte)
Osteocyte Lacunae
in a lacuna
(b) (c) Interstitial lamellae
 MICROSCOPIC ANATOMY OF
BONE: SPONGY BONE
Trabeculae
Align along lines of stress
No osteons
Contain irregularly arranged lamellae, osteocytes, and
canaliculi
Capillaries in endosteum supply nutrients
 CHEMICAL COMPOSITION OF
BONE: ORGANIC
Osteogenic cells, osteoblasts, osteocytes,
osteoclasts

Osteoid—organic bone matrix secreted by
osteoblasts
Ground substance (proteoglycans, glycoproteins)
Collagen fibers
Provide tensile strength and flexibility ¹
 CHEMICAL COMPOSITION OF
BONE: INORGANIC
Hydroxyapatites (mineral salts)
65% of bone by mass

Mainly calcium phosphate crystals

Responsible for hardness and resistance to
compression ¹
 FACTORS WHICH CONTRIBUTE
TO BONE GROWTH
Nutrition

Exposure to sunlight

Hormonal Secretion

Physical Exercise ²
 NUTRITION
Mainly calcium
consumption

Increased blood calcium
triggers release of
calcitonin

Causes uptake of calcium
by osteoblasts (bone
builders) ²
 NUTRITION (CONTD)
Decrease in calcium
triggers release of
Parathyroid hormone

Triggers osteoclasts to
break down bone, releasing
calcium into blood²
 EXPOSURE TO SUNLIGHT
UV light on the skin causes Vitamin D
production

Promotes proper absorption of
calcium in the SI²
 HORMONAL SECRETION
Human growth hormone

Aka - Somatotropin

Hormones stimulate
activity in the epiphyseal
plate ²
 PHYSICAL ACTIVITY
Increase in physical
exertion on bone tissue
actually increases bone
density and strength ²
 REFERENCES
1. Meeking J. Bones and Skeletal Tissues. [PowerPoint Slides]. 2010.
2. Laurens County School. Introduction to the Skeletal System.
[PowerPoint Slides]. Available from:
https://www.lcboe.net/userfiles/103/Classes/675/The%20Skeletal
%20System%20(whole)2.ppt?id=443699