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3.5 the immune system 3eh

Welcome- 3EH
  • Enter the room quietly
  • Take your seat
  • Get you book, notebook, and a pen
  • Wait quietly for the instructions in the next dia.
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Slide 1: Slide
BiologieMiddelbare schoolhavo, vwoLeerjaar 2

This lesson contains 38 slide, with interactive quiz, text slide and 2 video.

time-iconLesson duration is: 45 min

Items in this lesson

Welcome- 3EH
  • Enter the room quietly
  • Take your seat
  • Get you book, notebook, and a pen
  • Wait quietly for the instructions in the next dia.

Slide 1 - Slide

To do - 7 min (ZS)
Complete ex. 10 - HOW IT FITS TOGETHER — The living world


timer
7:00

Slide 2 - Slide

serpmedia.org

Slide 3 - Link

The assignment - in pairs
  • During the next assignment you will be working in pairs.
  • You may discuss the text and the questions with each other (While whispering). 
  • To complete the assignment you have 15 min. 
  • Read the comics  “On Guard—Germs vs. the Immune System” 
  • Answer the questions in your notebook

Slide 4 - Slide

Answer the questions in your notebook

Slide 5 - Slide

Answers 
1. Examples of specialization by human cells in the comic could include: nerve cells, macrophage, neutrophils, dendritic cells, skin cells, red blood cells, fibroblast, and lymphocytes
2. Macrophages identify germs by checking cell membranes for molecules that germs would have.
 

Slide 6 - Slide

Answers 
3. The macroscopic signs of inflammation are redness, heat, swelling, and pain. White blood cells like macrophages help trigger inflammation with chemical signals. When epithelial cells that make up blood vessels get those signals, they change their shape, widening the vessels to allow more

Slide 7 - Slide

Answers 
4. Pus is made mostly of dead neutrophils.
5. Cells communicate using chemical signals. (Nerve cells also pass electrical signals along their membrane, so that would be an acceptable student answer; but although this comic doesn’t go into detail, even a nerve cell uses a chemical signal to tell the next nerve cell to initial its electrical signal.)

Slide 8 - Slide

Slide 9 - Slide

Answers 
7. Antibody molecules attach to germ surfaces. Antibodies can then interfere with germs’ functioning, make germs stick together, and encourage white blood cells to eat the germs faster.
8. The immune system takes molecules from the germs themselves (antigen), and chooses a lymphocyte that makes exactly the right antibody to attack that antigen. (An antigen-presenting white blood cell like a dendritic cell helps show antigen to lymphocytes.)

Slide 10 - Slide

Answers 
9. It is important for the immune system to keep a lookout in all those places because the areas where macrophages are concentrated are exactly the places where stuff from outside the body (including stuff passing through the digestive system) is most likely to get into the body. These surfaces are where germs are most likely to attack

Slide 11 - Slide

Today Goals 
  • Can describe how antibodies protect against infection.
  • Can describe how immunity is created.
  • Can describe what happens in the event of an allergic reaction.

Slide 12 - Slide

Foreign bodies
Substances that do not belong in our body : exogenous/foreign bodies
  • Poisons
  • Pathogens: bacteria, viruses, parasites
  • Blood/organs from a donor

Slide 13 - Slide

Immune reaction
Pathogens entering your body = Infection
White blood cells will fight the pathogens:
  • Encapsulating (= eating) them 
  • Making antibodies

Slide 14 - Slide

Lines of defence

Slide 15 - Slide

Line 1: Barriers


Keeping pathogens out






Mechanical: Physical blockages preventing pathogens from entering the body
Chemical: Attacking pathogens by means of antimicrobial molecules
  • skin
  • mucosal membranes
  • stomach acid
  • antibacterial proteins

Slide 16 - Slide

Line 2: Phagocytes


Phagocytes are able to perform phagocytosis and to present parts of the pathogen to the adaptive immune system




Slide 17 - Slide

Antigens


  • Small parts coming from a pathogen
  • Presented by phagocytes (dendritic cells) to lymphocytes
  • Foreign vs self
  • Dendritic cells present them on their surface after disassembly



Slide 18 - Slide

From 'naive' to 'active'


A non-active / sleeping lymphocyte is called naive
Antigen presentation and antigen recognition makes a lymphocyte active

antigen recognition
naive T-lymphocyte
active T-lymphocyte

Slide 19 - Slide

This lesson
1. Repetition Basics 5 part one
2. Information about vaccination
3. Exercise
4. Homework

Slide 20 - Slide

Learning objectives
3.5.8 You can describe how antibodies protect against infection.
3.5.9 You can describe how immunity is created.
3.5.10 You can describe what happens in the event of an allergic reaction.

Slide 21 - Slide

Immunity

Slide 22 - Mind map

What do you call the micro-organism causing the disease?
A
Antibody
B
Antigen
C
Infection
D
Pathogen

Slide 23 - Quiz

An antibody is used to fight antigens and thus kill the pathogen
A
Correct
B
Incorrect

Slide 24 - Quiz

What is phagocytosis?

Slide 25 - Open question

Immunity

Slide 26 - Mind map

Learning objectives
3.5.8 You can describe how antibodies protect against infection.
3.5.9 You can describe how immunity is created.
3.5.10 You can describe what happens in the event of an allergic reaction.

Slide 27 - Slide

Slide 28 - Video

Think - Share - Compare
1. what is vaccination?
2. Did you get all your vaccinations as a child?
3. What is your opinion about vaccinating?

Slide 29 - Slide

Slide 30 - Video

Immunity I
A pathogen is a micro-organism causing a disease.

The foreign body (protein on the outside of a micro-organism) is called an antigen.

In order to kill a pathogen, antibodies are produced by white blood cells (memory cells). 
Every antigen is unique and only one antibody will match.

Slide 31 - Slide

Slide 32 - Slide

immunity II
immune is not getting sick because white blood cells can make antibodies almost immediately for a pathogen you have previously been infected with.

Immunity can be obtained naturally (after contracting the disease) or artificially  (via vaccination.

Immunity can be obtained actively  (via giving someone antibodies) or passively (the body producing the antibodies).

Slide 33 - Slide

Natural, active immunity
Artificial, active immunity
Natural, passive immunity
artificial, passive immunity
Antibodies made after exposure to an infection
Antibodies transmitted from mother to baby
Antibodies made after getting a vaccination
Antibodies acquired from an immune serum medicine

Slide 34 - Drag question

Note!

Slide 35 - Slide

Immunity III
Immunity coverage is the percentage of people who have to be vaccinated if the population as a whole is to be protected against a disease.

Slide 36 - Slide

Portfolio
  1. Create a summary (you may use the summary exercise from the book)
  2. Write down 2 questions to test your knowledge about vaccination
  3. Put the note about the types of immunity in your portfolio including examples
  4. send your portfolio to me (Marjolein Coppens) via teams
If you are done, start questioining each other with the exam questions from your portfolio.

Slide 37 - Slide

Vaccination

Slide 38 - Mind map

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