2.6.1 Vaccines

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Vaccines are a method of providing active immunity by introducing antigens from a pathogen into the body. This triggers an immune response, leading to the production of memory cells. If the body encounters the same pathogen in the future, the immune system can mount a faster and stronger secondary response, preventing illness.

How Vaccines Work:

Composition:

Vaccines may contain:
Inactivated pathogens (killed microorganisms).
Attenuated pathogens (weakened microorganisms).
Toxoids, which are harmless forms of toxins produced by pathogens.
Antigen fragments from the pathogen's surface.

Immune Response:

The immune system recognises the antigens in the vaccine as foreign.
B lymphocytes produce specific antibodies and form memory B cells.
These memory cells persist in the body, enabling a rapid response if the pathogen is encountered again.

Factors Affecting the Success of Vaccination Programmes:

Cost:

The vaccine must be affordable, especially in low-income countries.

Side Effects:

Vaccines with severe side effects may discourage uptake.

Ease of Production, Storage, and Distribution:

Vaccines need to be produced on a large scale and remain stable during transport and storage.

Coverage:

A high percentage of the population must be vaccinated to achieve herd immunity.

Herd Immunity:

Definition:

Herd immunity occurs when a large proportion of the population is vaccinated, reducing the spread of a pathogen.

How It Works:

Vaccinated individuals protect those who are unvaccinated by preventing the pathogen from spreading.
This is particularly important for those who cannot be vaccinated, such as individuals with weakened immune systems.

Limitations of Vaccines:

Antigenic Variation:

Some pathogens, such as the influenza virus, frequently mutate, changing the structure of their antigens.
This reduces the effectiveness of existing vaccines, requiring new formulations for continued protection.

Insufficient Uptake:

If a significant portion of the population refuses vaccination, herd immunity may not be achieved, leading to outbreaks.

Pathogen Accessibility:

Some pathogens hide inside host cells or mutate to avoid detection by the immune system.

Example: Influenza Virus:

The influenza virus undergoes frequent mutations, leading to changes in its surface antigens.
Vaccines need to be updated regularly to match the new strains, which limits the duration of immunity.

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Tip for Exams:

Be able to explain how vaccines work and their role in active immunity.
Understand the concept of herd immunity and why high vaccination rates are essential.
Discuss the limitations of vaccination, including antigenic variation in pathogens like influenza.

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Summary:

Vaccines introduce antigens into the body, triggering an immune response and the production of memory cells.
The success of vaccination programmes depends on factors such as cost, side effects, and achieving herd immunity.
Limitations include antigenic variation and insufficient population coverage, which can reduce vaccine effectiveness.

Vaccines Simplified Revision Notes for A-Level AQA Biology

2.6.1 Vaccines

How Vaccines Work:

Factors Affecting the Success of Vaccination Programmes:

Herd Immunity:

Limitations of Vaccines:

Example: Influenza Virus:

Tip for Exams:

Summary:

500K+ Students Use These Powerful Tools to Master Vaccines For their A-Level Exams.

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