Pathology Lecture Notes PDF

Summary

These lecture notes provide an overview of pathology, covering historical concepts, disease mechanisms, and diagnostic techniques. They discuss the fundamental aspects of pathology, including etiology, pathogenesis, morphologic changes, and functional derangements.

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KAAF UNIVERSITY COLLEGE

SCHOOL OF NURSING

PATHOLOGY

credit: 2

Lecturer: Richmond Kwakye
 Historical concept of
pathology
The early days of Pathology - Descriptions and
Humoral Theory( body fluids)
In the early days of pathology, unsystematic,
general descriptions of the diseases are observed,
accompanied by their manifestations and numerous
theories related to the causes and development of
these observed diseases

Still deprived from any technological tools, the
physicians and thinkers of that time used
empiricism and the observation of a few dissections
to understand the disease process.
 HC.PATH.
The first records of the presence and
manifestation of diseases date back to
the 16th and 17th centuries BC,

Edwin Smith Papyrus, which depicts
skin ulcerations in patients in the Valley
of the Nile, still with no causal
relationship or clear development
mechanism
 HC. PATH.
It was only in the 4th century BC, during the heyday
of Greek civilization, that more detailed descriptions

the first theory of disease development, the
Humoral theory, suggested by Empedocles and
applied to Medicine by Hippocrates. thus
(imbalance of humor( fluids) resulted in
diseases

Moreover, Hippocrates was one of the first
physicians to make clear descriptions of the
inflammatory process and of tumors
 HC. PATH.
These detailed and objective reports
gave Cornelius Celsius the foundation
to publish, more than 400 years later,
his “De Re Medicina” presenting
the four phlogistic signs of
inflammation (heat, tumor,
redness and pain), complemented a
century later by Galen (loss of
function)
 HC. PATH
Another interesting description of
this stage attributed to Galen refers
to the “crab-shaped” aspect of tumor
growth,
a description that is the basis for the
term used to this day for malignant
neoplasms (cancer)
 The isolated descriptions of diseases
or their groups and the strengthening
of the humoral theory was the
foundation for everything that is
considered closest to
“Pathology” for that time, until
much of the Middle Ages
 HC. PATH
The first age of Pathology - Autopsies and
Macroscopy - Anatomical and organic bases of
diseases (physicians was Antonio Benivieni (1443
1502)
The second age of Pathology - Microscopy, tissues
and the Cellular Basis of Diseases

The third age of Pathology - Immunology and
Molecular Biology at the service of the study of
the physio-pathological and molecular bases of
disease
Pathology at the University of Sao Paulo (USP) Faculty
of Medicine,
 pathology
pathology : “patho”( disease) & “logy” (study).
Pathology: scientific study of changes in the structure
and function of the body in disease.
Diseases may, in turn, be defined as an abnormal
variation in structure or function of any part of the
body.
Pathology helps to understand disease in four
aspect:
Etiology
Pathogenesis
Morphologic changes
Functional derangement and clinical manifestation
 etiology
Etiology
Etiology: The cause of the disease.
Types:
primary etiology :
when the cause of the disease is known.

idiopathic :cause of the disease is unknown
Knowledge or discovery of the primary cause remains the
backbone on which a diagnosis can be made, a disease
understood, & a treatment developed.

There are two major classes of etiologic factors:
genetic and acquired (infectious, nutritional, chemical, physical,
etc).
 pathogenesis
Pathogenesis
Pathogenesis: the mechanism through
which the cause operates to produce
the pathological and clinical
manifestations.
The pathogenetic mechanisms could
take place in the latent or incubation
period. Pathogenesis leads to
morphologic changes.
 Morphologic changes
Morphologic changes
The morphologic changes refer to the
structural alterations in cells or tissues that
occur following the patho-genetic
mechanisms.

The structural changes in the organ can be
gross morphologic (seen with the naked
eye) or microscopic ( only be seen) under
the microscope.
 Morphologic
Both the gross & the microscopic
morphologic changes are specific to a
disease.
morphologic changes can be used by
the pathologist to identify (i.e. to
diagnose) the disease.
In addition, the morphologic changes
will lead to functional alteration & to the
clinical signs & symptoms of the disease
 Functional derangements and clinical significance

The morphologic changes in the organ
influence the normal function of the
organ. By doing so, they determine the
clinical features (symptoms and signs),
course, and prognosis of the disease.
 Pathology in summary
pathology studies:-
Etiology

Pathogenesis

Morphologic changes

Clinical features & Prognosis of all diseases.
 Disease?
abnormal variation in structure or
function of any part of the body. Or

A disturbance of the normal function
of an organ, a part or the whole of
the body.
 Causes?
Environmental factors
o Physical agents ( noise, radiation, extreme
of temperature)
o Chemicals ( cyanide, strong acid, drugs)
o Nutritional deficiencies & excesses
( interference with absorption and
transport, dietary excess leading to
obesity, HBP or heart diseases
 Environmental factors
o biological ( viruses, bacteria, fungi, protozoa)

o Immunological factors (Hypersensitivity
reaction
o eg. bronchial asthma can occur due to
exaggerated immune response to the
harmless pollen, Immunodeficiency,
Autoimmunity: eg. type 1 diabetes mellitus is
caused by autoimmune destruction of the beta
cells of the islets of Langerhans of the
pancreas.)
o Psychogenic factors ( mental stress)
 Causes?
genetic factors ( hereditary) or
a combination of the two.
 The Course of a disease
The 'Course of Disease' refers to the
progression and development of a
medical condition over time, including
factors influencing its trajectory, such as
etiological and risk factors, social responses,
and adaptations.

The course of a disease in the absence of
any intervention is called the natural
history of the disease. The different
stages in the natural history of disease
include:
 Natural history of disease
STAGES
Exposure
Latency
Biological onset( disease initiation process,
asymptomatic)
Incubation(no clinical signs)
Clinical onset
Permanent damage
Death
 The course flow chart
Exposure Biological onset Clinical onset
Permanent damage Death

NB: the latent period is the time interval
between when an individual or host is
infected by a pathogen and when that
individual becomes infectious.
An incubation period is the span of time
between exposure to an infectious
disease/agent and the start of
symptoms
 Outcome and consequences of
disease
Following clinical onset, disease may
follow any of the following trends:
a) Resolution can occur leaving no
sequelae,
b) The disease can settle down, but
sequelae are left, or
c) It may result in death.
 Diagnostic techniques used in
pathology
The pathologist uses the following
techniques to the diagnose diseases:
a. Histopathology (studies tissues
under the microscope using biopsy)
b. Cytopathology (the study of cells
from various body sites to determine
the cause or nature of disease.
c. Hematopathology
 Techniques
d. Immunohistochemistry (detect a
specific antigen in the tissue in order
to identify the type of disease)
Microbiological examination
f. Biochemical examination
g. Cytogenetics
h. Molecular techniques
i. Autopsy
Cell Injury, Adaptation and Cell
Death
Cell Injury, Adaptation and Cell
Death
Cell injury underlies all diseases.
When a cell is exposed to an injurious
agent:
1. The cell may adapt/adjust to the
situation or
2. They cell may acquire a reversible
injury or
3. The cell may obtain an irreversible
injury & may die.
The cell may die via one of two ways:
 Which of these outcomes occur
depends on both the injurious agent &
on cellular factors.
In other words, the result depends on
the type, severity, & duration of the
injury & on the type of the cell.

NB: causes of cell injury is same as
discussed for causes of disease
 Cellular adaptation
Cellular adaptations refer to the changes
cells make in response to various stimuli
or changes in their local environment.
This can involve changing the number of
cells or their morphological
appearance.
It can be physiological, which occurs in
normal tissues or organs, or pathological,
i.e., in disease states.
 Cellular adaptation types
Hypertrophy:
Hypertrophy is increase in the size of cells.
Increased workload leads to increased protein
synthesis & increased size & number of
intracellular organelles which, in turn, leads to
increased cell size.

The increased cell size leads to increased
size of the organ. Examples: the
enlargement of the left ventricle in
hypertensive heart disease & the increase in
skeletal muscle during sternous exercise.
Hypertrophy:
 Hyperplasia

Hyperplasia
Hyperplasia is an increase in the
number of cells. It can lead to an
increase in the size of the organ. It is
usually caused by hormonal stimulation.
It can be physiological as in enlargement
of the breast during pregnancy or
it can pathological as in endometrial
hyperplasia.
Hyperplasia
 Atrophy
Atrophy is a decrease in the size of a cell.
This can lead to decreased size of the
organ.
Atrophy can be caused by:
1. Disuse
2. Undernutrition
3. Decreased endocrine stimulation
4. Denervation
5. Old age
 Atrophy

Muscle atrophy
 Metaplasia
Metaplasia is the replacement of one
differentiated tissue by another
differentiated tissue.
Types:
1. Squamous metaplasia: This is
replacement of another type of epithelium
by squamous epithelium. For example, the
columnar epithelium of the bronchus can
be replaced by squamous epithelium in
cigarette smokers
 Metaplasia
2. Osseous metaplasia: This
replacement of a connective tissue
by bone, for example at sites of
injury.
 Cell death
Cells can die via one of the following
two ways:
1. Necrosis
2. Apoptosis
 Necrosis and apoptosis
NECROSIS
In necrosis, excess fluid enters the cell, swells
it, & ruptures its membrane which kills it.
After the cell has died, intracellular
degradative reactions occur within a living
organism.

Necrosis does not occur in dead organisms. In
dead organisms, autolysis & heterolysis take
place.
 Necrosis mechanism
Necrosis occurs by the following
mechanisms:
A. Hypoxia(decreased ox. supply,
causes?)
B. Free radical-induced cell injury
C. Cell membrane damage
 Necrosis and apoptosis
Apoptosis
Apoptosis is the death of single cells within clusters of
other cells. (Note that necrosis causes the death of clusters
of cells.)

In apoptosis, the cell shows shrinkage

This is followed by fragmentation of the cells. These
fragments are called apoptotic bodies.

Apoptosis usually occurs as a physiologic process for
removal of cells during embryogenesis, menstruation, etc.
It can also be seen in pathological conditions caused by
mild injurious agents.
Necrosis and apoptosis
 ASSIGNMENT
Briefly explain the ff
NECROSIS MECHANISMS
TPYES OF NECROSIS

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Submission date: 20th October, 2024

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