The document summarizes the key components and functions of the human immune system. It describes the innate and acquired immune systems, including skin barriers, stomach acids, phagocytes, B lymphocytes, T lymphocytes, antibodies, and memory cells. It also outlines the roles of lymph nodes, spleen, thymus, and bone marrow in housing and producing immune cells. Common infections like colds are caused by viruses while antibiotics can treat bacterial infections. Vaccines help prime the immune system to recognize pathogens.
2. Objective
The role of the skin
Roles of anti-bodies
Phagocytes
B-lymphocytes
T-lymphocytes
Role of vaccines
Bacterial and viral infections
3. The Immune System
The immune system is the body‟s natural defense against
disease-causing agents such as bacteria, viruses and parasites.
The immune system is made up of a complex and vital network
of cells and organs that protect the body from infection.
It plays an important role in identifying and eliminating
abnormal cells.
The Human Immune System is divided into two broad
groups :
Acquired Immune System
Always working to protect the body and does not require any
special preparation to stop infection.
Innate Immune System
Needs to be 'primed' before it can work to its full effectiveness
though, and is only really effective after it has seen a possible
infective agent before.
4. The Immune System
Innate Immunity Acquired Immunity
B-Cell Immunity T-Cell Immunity
Resistance of skin
Destruction of
organisms by the
acids in the stomach
Chemical
compounds in the
blood
Cells called
„Macrophages‟ that
ingest foreign
objects
Consist of B-cells
Produce Anti-
Bodies
Involved with
Primary and
Secondary
response
Consists of T-Cells
T-Cells are:
T helper cells
T killer cells
5. Structure and organs of the Immune System
The structures of the immune system, detailing the parts of
the body that play a role in immunity. These include:
– The lymphatics
– Lymph nodes
Lymphatic Organs and Structures
– Thymus
– Spleen
Lymph
– A fluid containing:
Water
Sugars
Salts
Waste
White Blood Cells
Protein
Lymph Vessels
– Carry lymph within the
lymphatic system
– Lymph capillaries are
the smallest of the
lymph vessels
7. Capillaries
Capillaries have thin walls which allow fluid in body
tissues to flow between the capillaries and tissues.
7
Fluid in the spaces
between tissues is called
interstitial fluid
Once the interstitial
fluid flows into the
lymph capillaries it is
called lymph
Lymphatic trunk
Right lymphatic duct or
thoracic duct
Right subclavian
vein (neck)
Lymphatic vessel
Lymphatic capillary
Interstitial fluid
Blood stream
Structure and organs of the Immune
System
8. Lymphatic Vessels
Pulmonary capillary
network
Blood flow
Systemic capillary
network
Lymphatic
capillaries
Lymph
node
Lymphatic
vessels
Lymph
flow
Lymph
node
Lymph
flow
Lymphatic
capillaries
Structure and organs of the Immune
System
9. Lymph Nodes
Specialized organs that produce lymphocytes.
Filter harmful substances from the tissues.
Contain macrophages that devour foreign substances.
Lymphocytes produce specialized proteins called antibodies that fight
disease.
Antigens also fight disease by stimulating an immune response in
other cells.
9
Structure and organs of the Immune
System
Lymph
Travels in only one direction.
Empties into the right thoracic duct and the lymphatic duct.
Lipids are transported from the small intestines to the blood stream
by the lymph vessels.
Location of major groups of lymph nodes:
- Tonsils -Mediastinum-Groin-Neck-Adenoids -Armpit
10. Spleen
Largest lymphatic organ located in upper left portion of the abdominal
cavity.
Filters foreign material from the blood.
Destroys old red blood cells
Activates lymphocytes
Structure and organs of the Immune
System
Thymus Gland
Soft gland with two lobes
Larger during infancy and childhood
Contains important cells called thymocytes
T cells (T lymphocytes provide immunity)
Thymosin aids with T cell movement
11.
12. Major Players
The major players in the immune system include:
– Macrophage
– T cells (helper, cytotoxic, memory)
– B cells (plasma, memory)
– Antibodies
White Blood Cells – Lymphocytes
The lymphocytes are of 2 types
• T lymphocytes
• B lymphocytes
Higher rank officials of the immune system and have a sophisticated
mode of action.
Their importance is highlighted by the fact, that an absence of
lymphocytes, which occurs in AIDS, leaves the body unprotected
from infections and finally leads to early death.
13. B- lymphocytes
The B lymphocytes are present in lymph nodes.
Upon finding the relevant antigens get activated and transform
themselves to plasma cells.
Plasma cells secrete large quantities of antibodies
corresponding to the antigen found by the B lymphocytes.
These antibodies circulate in blood and attach to all infecting
organisms and cells present in the body having the concerned
antigen.
T- lymphocytes
This helps them recognize all the tissues of one‟s own body.
Their response to an overwhelming infection, is in the form of
multiplication of the particular cell family concerned with
destruction of the particular foreign antigen.
They not only destroy the antibody coated cells but also stimulate
activation and formation of plasma cells by B lymphocytes.
The T lymphocytes are highly specialized and trained cells, which
intelligently tackle infections by recognizing and multiplication of a
specific lineage of cells, which perform higher immune functions.
14. Antibodies
Antibodies are
assembled out of
protein chains.
There are many
different chains that
the immune system
assembles in different
ways to make different
antibodies.
16. Antigens as Effectors
• Free antibodies can
bind to
antigens, which
“tags” the antigen for
the immune system
to attack and destroy.
17.
18. Role of antibodies
Antibodies released into the
blood stream will bind to the
antigens that they are specific
for.
Antibodies may disable some
microbes, or cause them to stick
together (agglutinate).
They “tag” microbes so that the
microbes are quickly recognized
by various white blood cells.
19. Role of Skin
Dead skin cells are
constantly sloughed
off, making it hard for
invading bacteria to
colonize.
Sweat and oils contain
anti-microbial
chemicals, including
some antibiotics.
20. Role of mucus and cilia
Mucus contains lysozymes,
enzymes that destroy
bacterial cell walls.
The normal flow of mucus
washes bacteria and viruses
off of mucus membranes.
Cilia in the respiratory tract
move mucus out of the lungs
to keep bacteria and viruses
out.
Nasal
mucosa
21. Role of phagocytes
Phagocytes are several types
of white blood cells (including
macrophages and neutrophils)
that seek and destroy
invaders. Some also destroy
damaged body cells.
Phagocytes are attracted by an
inflammatory response of
damaged cells.
22. The not-so-common cold
A “cold” is an infection
of the mucus
membranes of the
respiratory tract by a
rhinovirus.
Over 100 rhinoviruses
have been
identified, which is one
reason why we don‟t
become immune to “the
cold.”
23. Virus vs. Bacteria
Colds and influenza are
caused by viruses.
Viruses are which is a
non-living particle that
contains genetic
material, and hijacks
your cells to reproduce.
Viruses cannot be
“killed” with
antibiotics.
Rhinovirus
Influenza
virus
24. Virus vs. Bacteria
Bacteria are living
organisms that have a
metabolism, have
DNA, and can reproduce
on their own.
Bacteria can be killed
with antibiotics because
these substances target
key processes in
bacteria, such as
production of the
bacterial cell wall.
E. coli
Streptococcus
25. Helping the Immune System
Medical science has
created to systems for
augmenting the human
immune system:
– Antibiotics
– Vaccines
26. How antibiotics work
Antibiotics help destroy bacteria (but not viruses).
Antibiotics work in one of several ways:
– Slowing bacteria reproduction.
– Interfering with bacterial cell wall formation.
27. How vaccines work
Modern vaccines are created from killed bacteria or
viruses, or fragments of proteins from these
microbes.
The proteins are recognized as antigens by our
immune systems. This causes a mild immune
response. Memory T-cells and B-cells remain ready
to fight off the illness if it is encountered again.
28. AIDS
AIDS (Acquired Immune Deficiency Syndrome)
is caused by an infection by the HIV (Human
Immunodeficiency Virus), which attacks and
destroys T-helper cells. Because it attacks the
immune system directly, finding a vaccine has
been difficult.
Some drugs can slow down HIV
reproduction, but no cure exists yet. Prevention
is still the best “cure.”
29. AIDS
The HIV virus fools helper T-cells into
thinking its proteins are “self,” and so
is able to infect the cells that trigger
specific immunity.
The virus forces T-cells to
make more viruses, killing the
T-cells when the new viruses
burst out.
30. AIDS Prevention
HIV is a fragile virus that cannot live outside the
human body for more than a few minutes.
Preventing HIV spread comes down to preventing
exposure to body fluids of an infected person.
31. The End
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