Skeletal System PDF

Summary

These notes detail the structure, function, and components of the skeletal system. They explore types of bones, fracture types, bone growth mechanisms, and bone cells. It also provides a good overview of the skeletal system's major divisions, the axial and appendicular skeletons.

Full Transcript

CHAPTER 4
BONE AND SKELETAL SYSTEM
OBJECTIVES:

 Define functions of the skeletal system

 Recognize how to classify types of bones and their
structure

 Identify types of fractures: bone repair

 Identify the balance between exercise, nutrition,
hormones and bone tissue
SKELETAL SYSTEM

 Four components:

1. Bones

2. Cartilage

3. Tendons

4. Ligaments
FUNCTIONS OF THE SKELETAL SYSTEM

 Supports the body

 Protects internal organs

 Facilitates movement

 Stores and releases minerals and fats

 Produces blood cells
BONE CLASSIFICATION
 BONE –osseous tissue
- hard, dense
connective tissue
- consists of
extracellular bone matrix
and bone cells

1. Long bones
2. Short bones
3. Flat bones
4. Irregular bones
5. Sesamoid bones
GROSS ANATOMY OF THE BONE
 Bone Matrix - 35% organic + 65% inorganic material.
 Organic – collagen (flexible strength)

 Inorganic – hydroxyapatite (weight-bearing strength)
 Parts of a Long Bone
1. Diaphysis - the tubular shaft
that runs between the proximal
and distal ends of the bone.
 Medullary cavity - hollow
region in the diaphysis which
is filled with yellow marrow.

2. Epiphysis - wider section at
each end of the bone, filled
with spongy bone.
 Epiphyseal plate (growth
plate)
 Endosteum - delicate
membranous lining where
bone growth, repair, and
remodeling occur.
 Periosteum – fibrous membrane that covers the
outer surface of bone
- contains blood vessels, nerves, and
lymphatic vessels that nourish compact bone

 Two layers of compact bone and the interior
spongy bone work together to protect the internal
organs.
BONE MARKINGS
 Articulation - where two bone surfaces come
together

 Projection - an area of a bone that projects above
the surface of the bone

 Hole - an opening or groove in the bone that
allows blood vessels and nerves to enter the bone.
BONE CELLS
 Osteoblasts - bone cell responsible for forming
new bone and is found in the growing portions of
bone

 Osteocytes - primary cell of mature bone

 Osteogenic Cells - undifferentiated with high
mitotic activity and they are the only bone cells
that divide.

 Osteoclasts - responsible for bone resorption, or
breakdown
BONE TISSUES
 COMPACT BONE – denser, stronger type to withstand
compressive forces
- found under the periosteum and in the diaphysis of
long bones

 SPONGY BONE - contains trabeculae which forms along
lines of stress to provide strength and makes bones lighter,
contains red marrow (site of hematopoiesis).
 BONE ANATOMY
 Structure of a Long Bone
1. The diaphysis is the shaft of a
long bone, and the epiphyses are
distinct from the diaphysis and
house the epiphyseal plate.

2. The epiphyseal plate is the site
of lengthwise bone growth.

3. The medullary cavity is a space
within the diaphysis.

4. Red marrow is the site of blood
cell production, and yellow marrow
consists of fat.
 BONE ANATOMY
5. The periosteum covers the outer
surface of bone.
The outer layer contains blood
vessels and nerves.
The inner layer contains
osteoblasts, osteoclasts, and
osteochondral progenitor cells.
Perforating fibers hold the
periosteum, ligaments, and
tendons in place.

6. The endosteum lines cavities
inside bone and contains
osteoblasts, osteoclasts, and
osteochondral progenitor cells.
BONE GROWTH - LENGTH
 Epiphyseal plate -area of growth in a long bone
 On the epiphyseal side of the epiphyseal plate,
cartilage is formed.
 On the diaphyseal side, cartilage is ossified, and
the diaphysis grows in length.
 Four zones of cell in the epiphyseal plate:

1. Reserve zone

2. Proliferative zone

3. Zone of maturation and hypertrophy

4. Zone of calcified matrix
BONE GROWTH - DIAMETER
 Appositional growth - growth in diameter
continue even after longitudinal growth ceases
 Osteoclasts resorb old bone that lines the
medullary cavity
 Osteoblasts, via intramembranous ossification,
produce new bone tissue beneath the periosteum

 Modeling - erosion of old bone along the
medullary cavity and the deposition of new bone
beneath the periosteum.
BONE REMODELING
 Remodeling - resorption of old or damaged bone
takes place on the same surface where
osteoblasts lay new bone to replace that which is
resorbed.

 Even without injury or exercise, about 5 to 10
percent of the skeleton is remodeled annually
just by destroying old bone and renewing it with
fresh bone.
FRACTURE
 Fracture - broken bone

 Types of Fracture
1. Transverse -Occurs straight across the long axis
of the bone
2. Oblique -Occurs at an angle that is not 90
degrees
3. Spiral -Bone segments are pulled apart as a
result of a twisting motion
4. Comminuted -Several breaks result in many
small pieces between two large segments
FRACTURE
 Types of Fracture
5. Impacted -One fragment is driven into the
other, usually as a result of compression
6. Greenstick -A partial fracture in which only one
side of the bone is broken
7. Open (or compound) -A fracture in which at
least one end of the broken bone tears through
the skin; carries a high risk of infection
8. Closed (or simple) -A fracture in which the skin
remains intact
BONE REPAIR
SKELETAL SYSTEM
 Skeletal system -all the bones, cartilages, and
ligaments of the body that support and give
shape to the body and body structures.

 206 bones in adults

 Two major divisions:
1. Axial Skeleton
2. Appendicular Skeleton