Bone DTH24.pptx

Transcript

Bone

Julie Watson
GDC learning outcomes
1.1.5
1.1.6
1.17

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Bones work with muscles and joints to hold our
body together and support freedom of
movement.
This is called the musculoskeletal system.
Learning Outcomes
By the end of this session students should be able to:

Describe the composition and development of bone
Identify the different types of bones and where they are
found
Be aware of the general function of the bone types in
the body.
Describe the process of bone healing and the factors
that influence healing
Recognise some common bone diseases patients may
present with.

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Why learn about bone?

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Types of Bone

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The five different types of bones in the body
Long bones
Consist of a long shaft or diaphysis
and two articular surfaces , with
central bone marrow cavity

E.g. limb bones such as tibia or
femur
Short bones
Cube shaped bones
E.g. wrist and ankle bones

Flat bones
Thin and often curved
E.g. skull bones such as
occipital bone or parietal bone
Irregular bones
Irregular and complicated
shapes
E.g. bones of spine

Sesamoid bones
Embedded in tendons
E.g. the patella
Functions of Bone

Protection Shape Movement

Blood Mineral
Sound
production storage
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 Development of Bone
Begins before birth and is
complete at approximately 25
years of age

2 main types:
Intramembranous ossification
Endochondral ossification

https://
www.britannica.com/science/bone-formation
https://
www.nature.com/articles/s41580-020-00279-w
https://www.intechopen.com/chapters/64747
https://www.ncbi.nlm.nih.gov/books/NBK539718/
Bone Structure: Cells present

Osteoblasts

Bone forming cells

Single nucleus

Immature bone cells

Become trapped and isolated in lacunae as bone
develops
Osteocytes

Originate from
osteoblasts that have
become trapped in
lacunae
Mature bone cells

Many processes
Osteoclasts

Bone resorption cells
Large and multi-nucleated
Can engulf like macrophages
Maintain the optimum shape
of bone
Activity takes place at the bone
surface
A fine balance of osteoblast
and osteoclast activity
maintains normal bone
 Bone is one of the hardest tissues in the
Composition of Bone body when fully developed
(dental enamel is the hardest)

Fully developed bone consists of:

40-
50% 20% An organic compound - any
Inorga member of a large class of chemical
Water compounds whose molecules contain
nic carbon

Inorganic material - inorganic
30-40% compounds are considered to be of a
Organic mineral, not biological, origin
 Bone is made up of osteocyte
cells, collagen fibres and an
intracellular matrix containing
inorganic salts such as calcium
and phosphate

It is strong and rigid, suited to
supporting and protecting some
of the more delicate body
structures

It is a vascular tissue with a
large capacity for growth in the
first two decades of life and
regeneration throughout life
 Bone Structure: Matrix
INORGANIC:

Crystalline mineral salts &
calcium

Hydroxyapatite crystals

Initial matrix is non
mineralised osteoid
Alkaline phosphatase
promotes crystal growth
centres

ORGANIC:
Mainly collagen
Bone Structure

The structural and
functional unit of bone is
the osteon or Haversian
system

Each Haversian system or
osteon has a central
Haversian canal which
runs longitudinally
throughout the system,
carrying blood vessels,
lymph and nerves
Types of Bone Tissue

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Compact bone
Appears solid macroscopically
Contains large numbers of Haversian
systems microscopically

Cancellous or
spongy bone:
Appears spongy macroscopically
Contains red bone marrow
The Structure of Compact Bone
The strongest form of
bone tissue
Very few spaces
Forms tough outer layer
of each bone, and adds
support and protection to
the skeletal system
Approximately 80% of our
skeleton is compact bone
 The structure of compact bone
Surrounding the canal are
concentric rings of flat
bone known as lamellae
which make up osteons
The structure of compact bone
Between the lamellae are
spaces known as lacunae
which contain lymph and
osteocytes

Canaliculi link the
lacunae with the lymph
vessels allowing
osteocytes to obtain
nourishment
The Structure of Cancellous or
Spongy Bone
Much lighter type of bone
Branching bars and plates of
bone tissue
Makes up the inside of short,
flat and irregular bones and the
epiphyses of long bones
Does not contain osteons
Lamellae arranged in irregular
lattice of thin columns or
trabecular, surrounding red
bone marrow
Bone Structure: Periosteum

The surface of bone is
surrounded by this vascular
fibrous membrane

Functions:
Provides nourishment by
facilitating the passage of
blood vessels to the bone
Gives attachment to muscle
tendons
Assists in bone formation and
repair
Stages of Bone Healing

https://www.youtube.com/watch?v=N391iuWbM0s
https://www.youtube.com/watch?v=ktWiW6yssbU
Stages of Bone Healing
Formation of a fibro
cartilaginous primary callus
during the first months after
injury
The dead bone is resorbed,
and spongy bone appears
The size of the callus is
affected by the immobility
of the fracture site; the
smaller the amount of
movement, the smaller the
callus
Stages of Bone Healing

Spongy bone is
gradually replaced by
lamellar bone

The fracture is united by
this bony secondary
callus
 Stages of Bone Healing

The final phase is
remodeling

The shape of the bone is
gradually returned to
normal

This may take several
years
Factors that can delay healing

Infection
Tissue fragments
between the ends of bone
Deficient blood supply -
delays in bone formation
of granulation tissue
Old age - healing
becomes slower
Medications e.g., steroids
The host response
Factors that can improve healing
Limited
movement/resting of the
broken bone
Medication ? Pain relief,
you don’t heal when in
pain!
Nutrition
Appropriate movement
under guidance
Age (younger the better)
 Acromegaly – overgrowth

Bone Conditions of bones in the face, hands
and feet
Fibrous dysplasia –
abnormal growth or
Some conditions of swelling of bone
bone include: Rickets – a child’s growing
bones fail to develop due
to a lack of vitamin D
Fractures – broken bones of Multiple myeloma – cancer
various types of the plasma cells in bone
Osteoporosis – loss of bone marrow
density and strength *Bone cancer – primary
*Osteomyelitis –­infection bone cancers include
of the bone osteosarcomas and
chondrosarcomas.
Osteitis –­bone However, most cancers
inflammation, for example, found in bone have spread
Paget’s disease of the bone from other organs such as
the breast, prostate, lung
or kidney.
Osteomyelitis - Infection of bones, a serious condition
common in long bones of the arms and legs but can be present in the
mouth.

Microbes such as Staphylococcus
Aurous
gain access to bone and spread
infection
which may become chronic.

This happens when the bone is
exposed and becomes
infected.
Bone tumours are commonly linked
to other pathology
Cancerous pathology of bones are
frequently metastases(transfer of
malignant cell from one part of the
body to another) of primary
carcinomas of breast, lungs and
prostate gland.

Look carefully at the radiolucent
area, shown by the arrows
Recommended reading for Bone
and Cartilage
https://cartilage.org/patient/about-cartilage/what-is-cartilage/
https://www.histology.leeds.ac.uk/bone/cartilage.php
https://www.histology.leeds.ac.uk/bone/bone.php
Ross and Wilson Anatomy and Physiology text book
Cartilage and Bone chapters

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