2 Lecture D2 Cell adaptations cell injury intro types.pdf

Full Transcript

Cellular adaptations and Cell Injury:
Introduction, Etiology and Types

Year/Level: D2 / Semester 1
Dr Mohammad Shahid Iqbal M.D
Assistant Professor of Pathology
1
Learning Outcomes

By the end of this lecture, the students must know
1. Cellular responses to stress and noxious stimuli
2. Cellular adaptations
3. Cell injury and its types

2
Cellular responses to stress and injurious stimuli

3
Cellular Adaptations

An increase, decrease or changes in stress on organ can result in
Cellular Adaptations
‘’Adaptations are reversible changes in the number, size, phenotype,
metabolic activity, or functions of cells in response to changes in
their environment.’’
Physiologic adaptations: usually represent responses of cells to
normal stimulation by hormones or endogenous chemical mediators.
Pathologic adaptations: are responses to stress that allow cells to
modulate their structure and function and thus escape injury.

4
Types of Cellular Adaptations

The types of cellular adaptation include:

1. Hypertrophy.

2. Hyperplasia.

3. Atrophy.

4. Metaplasia.

5
 1. Hypertrophy:
Refers to ↑ Cell Size.

Basic description: Hypertrophy is an
increase in the size of cells → resulting in
Hypertrophy
increase in the size of the organ or tissue. Increase in Size of Cells
 Characteristics of Hypertrophy
Increase in size of cells/ increase in organ size.
No new cells/ just bigger cells.
Mechanism: Increase in the synthesis of more structural proteins and
organelles, and genes activation.
Affects cells incapable of proliferation (e.g., cells in cardiac muscle, skeletal
muscle and nerve).
Hypertrophy and hyperplasia can also occur together (e.g., uterus in
pregnancy).
Can be physiologic or pathologic.
 Physiologic Hypertrophy

Physiologic hypertrophy caused by:
Increased functional demand (e.g., hypertrophy of skeletal muscles in
body builders).
Specific hormonal stimulation (e.g.,hypertrophy of uterus or breast
enlargement during pregnancy)
Pathological Hypertrophy
Pathologic hypertrophy caused by increased functional demand
Hypertrophy of cardiac muscle cells
Example: Left Ventricle Hypertrophy (LVH) following Systemic Hypertension
Normal and gravid uterus

C
 Hypertrophic
cardiomyopathy occurs if heart Enlargement of cardiac muscle in
muscle cells enlarge and cause response to valve disease
the walls of the ventricles
(usually the left ventricle) to
thicken.
 2. Hyperplasia:
Refers to ↑ Cell Number.

Basic description: Hyperplasia is an increase in
the number of cells → resulting in increase the
size of the organ or tissue.
Hyperplasia
It is usually caused by hormonal stimulation. Increase in Number of Cells

Mechanism of Hyperplasia
1. Growth Factor Driven → Proliferation of
mature cells.
2. Stem Cell Driven → increased output of
new cells from tissue stem cells
 Characteristics of Hyperplasia

A. Increase in number of cells in organ or tissue → increased mass of the
organ or tissue.
B. Involves the production of new cells from stem cells.
C. Affects cells capable of dividing and replication.
D. Hyperplasia and hypertrophy generally occur together (e.g., uterus in
pregnancy).
E. May be triggered by the same external stimuli
F. Can be physiologic or pathologic.
 Physiologic Hyperplasia

There are two types of physiologic hyperplasia are:
Hormonal hyperplasia: Proliferation of the glandular epithelium of the
female breast at puberty and during pregnancy, after estrogen stimulation.
Compensatory hyperplasia: Increases tissue mass after damage or partial
resection such as Hyperplasia of liver after partial hepatecotomy.
 Pathologic Hyperplasia
Pathologic hyperplasia commonly caused by an
excessive action of hormones and growth
factors acting on target cells
Hyperplasia of endometrium due to excess
estrogen.
Benign prostatic hyperplasia due to excess of
androgens.
Skin warts (papilloma virus) due to excess of
growth factors.
 3. Atrophy:
Refers to ↓ Cell Size and/or Cell No.

Basic description: Atrophy is a decrease
in size or in number of cells → lead to
decreased size of the organ or tissue.
It can be physiologic and pathologic.
Atrophy
Mechanism of Atrophy Decrease in Size or Number of
Cells
Atrophy results primarily from decreased
protein synthesis due to decreased
metabolic activity, and increased
proteolysis in cells.
Physiological Atrophy
Examples
Fetal Organs – like the thymus gland and
thyroglossal duct.
Loss of endocrine stimulation -
Endometrium, vaginal epithelium, and
breast atrophy after menopause when
lost the estrogen stimulation.
Senile atrophy: of Brain and Heart.
 Pathologic Atrophy
The common causes of pathologic atrophy are the following:

1. Decreased workload (Atrophy of disuse) – e.g., immobilization of a limb to
permit healing of a fracture.
2. Loss of innervation (Denervation atrophy) - lack of nerve stimulation in
peripheral muscles caused by injury to motor nerves.
3. Diminished blood supply (Ischemia atrophy) - e.g., atherosclerosis and
arterial occlusive disease.
4. Inadequate nutrition
5. Pressure atrophy– this occurs in areas surrounding the tumours.
 4. Metaplasia:
Replacement/change of Cell Type → by another
Cell Type.

Basic description: Metaplasia is a reversible change in
which one differentiated cell type (epithelial or
mesenchymal) is replaced by another cell type.
Metaplasia.
Causes: (Greek: Change.
Changes in environment. formation)
Change or replacement
Irritation of inflammation.
of cell type.
Nutrition.
Mechanism: Reprogramming of local tissue stem
cells or, alternatively, colonization by differentiated
cell populations from adjacent sites
 Types of Metaplasia
A. Epithelial Metaplasia
Squamous Metaplasia (Columnar → Squamous)
- Respiratory tract – due to smoking/ vitamin A
deficiency.
- Excretory duct of gland – due to stones.
Columnar Metaplasia (Squamous→ Columnar)
- Esophagus (Barrett's Esophagus) – Chronic acid
reflux. Note, Cancer may arise.
B. Mesenchymal (Connective Tissue) Metaplasia
Osseous metaplasia (Muscle → Bone)
- Myositis ossificans - occasionally occurs after bone
fracture.
 Examples of Metaplasia

Changes to
Site Stimuli Native Epithelium (Metaplastic
Epithelium)

Respiratory Tract Smoking Columnar Squamous

Excretory Ducts of
Salivary Glands, Calculi Columnar Squamous
Pancreas or bile ducts

Lower Esophagus Chronic acid reflux Squamous Columnar

Fracture Site Muscle Injury, truma Muscle Bone
Summary of Cellular Adaptations

Hyperplasia Hypertrophy Atrophy Metaplasia.
Increase in Increase in Decrease in Size or Change or replacement
Number of Cells Size of Cells Number of Cells of cell type.
Cell injury

Most forms of diseases begin with cell injury followed by consequent loss
of cellular function.
Cell injury is defined as the effect of a variety of stresses due to
etiologic agents a cell encounters resulting in changes in its internal
and external environment
The cellular response to stress may vary and depends upon following two
variables:
i) Host factors i.e. the type of cell and tissue involved.
ii) Factors pertaining to injurious agent i.e. extent and type of cell
injury.

22
ETIOLOGY OF CELL INJURY

1. Hypoxia and ischaemia
2. Physical agents
3. Chemical agents and drugs
4. Microbial agents
5. Immunologic agents
6. Nutritional derangements
7. Ageing
8. Psychogenic diseases
9. Iatrogenic factors
10. Idiopathic diseases
11. Genetic causes
23
ETIOLOGY OF CELL INJURY

HYPOXIA AND ISCHAEMIA
Cells essentially require oxygen to generate energy and perform
metabolic functions.
Deficiency of oxygen or hypoxia results in failure to carry out these
activities by the cells.
Hypoxia is the most common cause of cell injury.

24
Cell Injury : Types

Reversible cell injury

Irreversible cell injury

25
Cell injury: Types

Reversible cell injury is characterized by functional and structural
alterations in early stages or mild forms of injury, which are
correctable if the damaging stimulus is removed.

Within limits, the cell can repair the alterations seen in reversible
injury and if the injurious stimulus abates, may return to normalcy.

27
Irreversible injury and Cell Death

Persistent or excessive injury, however, causes cells to pass the rather
nebulous “point of no return” into irreversible injury and cell death.

Different injurious stimuli can induce cell death

Mainly 2 types of mechanisms or types of cell death

1. Necrosis

2. Apoptosis

28
 References

1. Robbins and Cotran Pathologic Basis of Disease; 10th ed. 2021
2. HarshMohan Textbook of Pathology. 7th edition.

33
 Thank You
Any questions?
[email protected]

34