Microbiology Lecture Notes 2024-2025 PDF

Summary

These lecture notes cover microbial pathogenesis and normal flora, including the concept of normal flora in different parts of the body, and the factors that determine if a person gets infected or not. It includes types of symbiosis and the impact on the human body.

Full Transcript

Ninevah University
Medicine College
Microbiology Department
2024 - 2025

Dr. Saba Abdul Salam Hamid Al-Sultan
[email protected]
2. Microbial Pathogenesis and normal
flora
The lecture overview about
1. Microbial Pathogenesis (Principles of Pathogenesis Why Do People Get Infectious
Diseases?)
2. Normal flora
Concept of Normal Flora, of the Skin, Respiratory Tract, Intestinal Tract,and
Genitourinary Tract

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Pathogen
The term Pathogen refers to those microbes capable of causing
disease, especially if they cause disease in immunocompetent
(Healthy) people.
The term Opportunistic pathogen refers to microbes that
are capable of causing disease only in immunocompromised people.
Virulence is a measure of a microbe's ability to cause
disease (i.e., a highly virulent microbe requires fewer organisms
to cause disease than a less virulent one).
The ID50 is the number of organisms required to cause disease
in 50% of the population.
The 50% lethal dose (LD50) is the number of organisms needed
to kill half the hosts

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The infectious dose of an organism required to cause disease
varies greatly among the pathogenic bacteria. For example,
Shigella and Salmonella both cause diarrhea by infecting the
gastrointestinal tract, but the infectious dose of Shigella is
less than 100 organisms, whereas the infectious dose of
Salmonella is on the order of 100,000 organisms.
The infectious dose of bacteria depends primarily on their
virulence factors e.g.:
Pili allow them to adhere well to mucous membranes,
Exotoxins or Endotoxins,
Capsule to protect them from phagocytosis, and
whether they can survive various nonspecific host defenses
such as acid in the stomach).

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 Whether a person gets an infectious disease or not

is determined by the balance between the number and
virulence of the microbes and the competency of that
person's host defenses.

Many infections are asymptomatic or inapparent

because our host defenses have eliminated the
microorganism before it could multiply to sufficient
numbers to cause the symptoms of disease
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 The term infection: has two meanings:
(1) the presence of microbes in the body and
(2) the symptoms of disease.

Important Note: The presence of microbes in the body does
not always result in symptoms of the disease.

Bacteria cause the symptoms of disease by two main
mechanisms:
(1): production of toxins (both exotoxins and endotoxins) and
(2): induction of inflammation.
Most bacterial infections are communicable (i.e., capable of
spreading from person to person), but some are not communicable (
e.g., botulism and Legionella pneumonia).

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 Three epidemiologic terms are often used to describe
infections:

Endemic
infections are those that occur at a persistent,
usually low level in a certain geographic area,
Epidemics are those infections that occur at a much
higher rate than usual, and
Pandemics are those infections that spread rapidly
over large areas of the globe.

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Determinants of Bacterial Pathogenesis
Transmission

The modes of transmission of microbes include both human-to human and nonhuman-
to-human processes. Non-human sources include animals, soil, water, and food.

Human-to-human transmission can occur either by direct contact or indirectly via a
vector such as an insect(ticks or mosquitoes). Animal-to-human transmission can also occur
either by direct contact with the animal or indirectly via a vector.

The main "portals of entry" into the body are
the respiratory tract,
gastrointestinal tract,
skin, and
genital tract.
Human diseases for which animals are the reservoir are called zoonoses.

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Adherence to Cell Surfaces
(1) Pili are the main mechanism by which bacteria adhere
to human cells, that mediate attachment to specific
receptors on cells.
(2) Glycocalyx is a polysaccharide "slime layer" secreted
by some strains of bacteria that mediates strong
adherence to certain structures such as heart valves,
prosthetic implants, and catheters.

Invasion, Inflammation, & intracellular Survival
The invasion of tissue is enhanced by enzymes secreted
by bacteria. For example,
(1): Hyaluronidase produced by Streptococcus pyogenes
degrades hyaluronic acid in the subcutaneous tissue,
allowing the organism to spread rapidly. P:9
(2): IgA protease degrades secretory IgA
(3): The capsule surrounding bacteria is antiphagocytic Mutant strains of
many pathogens that do not produce capsules are nonpathogenic.
(3): Inflammation is an important host defense induced by the presence of
bacteria in the body. There are two types of inflammation,
Pyogenic inflammation, the host defense against pyogenic (pus-
producing) bacteria such as S.pyogenes.
Granulomatous inflammation, the host defense against intracellular,
granuloma-producing bacteria, such as Mycobacterium tuberculosis.
(4) Intracellular survival (i.e., bacteria that can live within cells are
protected from attack by macrophages and neutrophils). Note that many
of these bacteria (e.g., M tuberculosis)

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(5): Toxins:
Exotoxins are polypeptides secreted by certain bacteria that alter
specific cell functions resulting in the symptoms of disease. They
are produced by both gram-positive and gram-negative bacteria,
Exotoxins are antigenic and induce antibodies called
antitoxins. Exotoxins can be modified to form toxoids, which are
antigenic but not toxic. Toxoids, such as tetanus toxoid, are used to
immunize against disease.

Endotoxins
are lipopolysaccharides (LPS) located in the outer membrane only of
gram-negative bacteria,
poorly antigenic, do not induce antitoxins, and does not form
toxoids·
which ' causes the symptoms of septic shock, such as fever and
hypotension.

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Typical stages of an Infectious Disease
There are often four discrete stages.
( After the1): The incubation period is the time between the
moment the person is exposed to the microbe (or toxin) and the
appearance of symptoms.
(2): The prodrome period is the time during which nonspecific symptoms
occur.
(3):The specific period is the time during which the characteristic
features of the disease occur.
(4):The recovery period is the time during which symptoms resolve and
health is restored.
the recovery period, some people become chronic carriers of the
organism and in others, latent infections develop.
Some people have subclinical infections during which they
remain asymptomatic. The presence of antibodies reveals that a prior
infection has occurred.

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CONCEPT OF NORMAL FLORA
Normal flora is the term used to describe the various bacteria
and fungi that are permanent residents of certain body sites,
especially the skin, oropharynx, colon, and vagina.
Viruses and parasites (protozoa and helminths), which are the
other major groups of microorganisms, are usually not
considered members of the normal flora, although they can be
present in asymptomatic individuals.
The normal flora organisms are often referred to as
commensals.
Commensals are organisms that derive benefit from another
host but do not damage that host.

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Normal Flora Definition
(microbiota, indigenous microbial population, microflora, microbial flora )

Normal flora is the mixture of microorganisms (bacteria and fungi)
that are regularly found at any anatomical site of the human body:

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Types of Symbiosis

Symbiosis = "intimate living together" between
different species

Commensalism
One benefits, one (host) is not obviously
affected either positively or negatively
Parasitism
One benefits, the other (host) is
(potentially) harmed
Mutualism
Both benefit from the association

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 Type of Normal flora
Commensals
Microorganisms that have natural relationship with the host.
Found in low number and has no benefit or harm.
Mainly associated with the GIT.

Residents
Consist of relatively fixed types of microorganisms.
Regularly found in a given area at invariable period.
If disturbed promptly reestablish itself.

Transients
Consist of nonpathogenic or potential pathogenic microorganisms that inhabit
the skin or mucous membrane for hours or days, excluded by host defense or
competition from residents’ flora.

Carrier flora
Potentially pathogenic that are carried by the individual without causing disease.
However, it is the source of infection to other susceptible ( non immune ) individual. ,
eg. Streptococcus pneumoniae, Neisseria meningetidis in throat of healthy
individual
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 Resident flora Reflects
age of person

Resident flora Reflects
Normal flora nutrition of person
Normal Flora Resident flora
Acquired rapidly during &
after birth Resident flora Reflects
sex of person
Normal Flora Resident flora
Changes continuously Resident flora Reflects
through out life.
environment of person

Resident flora Reflects
genetics of person
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There are 2 groups of pathogens that are known to cause
diseases. They are strict and opportunistic pathogens.
strict pathogens: are organisms always associated with
human disease. A few infections are caused by these
pathogens. A few examples of strict pathogens include:-
❖ Neisseria gonorrhea (gonorrhea)
❖Francisella tularensis (tularemia)
❖Mycobacterium tuberculosis (tuberculosis)
❖Plasmodium spp. (malaria)
❖Rabies virus (rabies).
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opportunistic pathogens: are organisms that are typically
members of the patient’s normal microbial flora. Most human
infections are caused by these pathogens. If a patient’s immune
system is defective, that patient is more susceptible to disease
caused by opportunistic pathogens. A few examples of
opportunistic pathogens include :-
❖Staphylococcus aureus
❖Escherichia coli
❖Candida albicans

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Normal flora of the
Upper Respiratory Tract (URT) and Lower
Respiratory Tract (LRT)

Although many microorganisms enter the URT & LRT through
the air, most of them are removed by the mucous and cilia lining
of the respiratory tract.
Furthermore, mucous also consists of lysozyme that kills many
microorganisms of the mucous.
Some microorganisms that can attach to the mucous membrane
form the resident flora of the URT.

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Normal flora of the mouth:

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Normal flora of the Gastrointestinal
Tract (GIT):

Gastrointestinal tract (GIT)
consists of the esophagus, stomach,
small intestine (duodenum, jejunum,
and ileum), and large intestine.
Since different regions of GIT
differ in their environmental,
physical, and chemical properties,
the amount and type of normal
flora are different in these
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Normal flora of the stomach:

The Stomach receives many microorganisms from the mouth along
with the food.
However, the bacterial activity of HCl in the stomach kills most of
them. Only a few organisms can tolerate this low pH in the stomach
and form the resident flora there.
Common normal resident flora of the stomach includes
Lactobacillus,
Candida albicans,
Helicobacter pylori. But Helicobacter pylori is pathogenic.
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Normal flora of GI tract: SMALL INTESTINE streptococci,
lactobacilli, enterococci, enterics, anaerobic
rods and cocci

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Normal flora of GI tract: LARGE INTESTINE Bacteroids, clostridia, bifidobacteria, lactic
acid bacteria, enterococci, enterics

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Normal flora of the genito-urinary tract:

In a healthy person, kidneys, urinary bladder, and ureters are
free of microorganisms.
However, the anterior urethra of both males and females contain
a small number of the same types of organisms found in the skin
and perineum.
These organisms regularly appear in normal voided urine in the
numbers of 102-104/ml.
After menopause, lactobacilli diminish, and a mixed flora returns
to the vagina.
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Dr. Saba Al-Sultan

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