Syllabus Edition

First teaching 2014

Last exams 2024

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Defence Against Infectious Disease (DP IB Biology: SL)

Topic Questions

2 hours35 questions
1a
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1 mark

The following diagram shows part of the blood clotting cascade.

H3mK2WZ1_e-1a

Enzyme A acts on fibrinogen.

Identify enzyme A.

1b
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2 marks

Substance B is an insoluble protein formed by fibrinogen.

(i)

Identify substance B.

[1]

(ii)

State the purpose of substance B in the body.

[1]

1c
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1 mark

Blood clotting is essential for the healing of wounds, but can be life-threatening if it occurs in the coronary arteries.

Define the term 'coronary arteries'.

1d
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3 marks

A blood clot in the coronary arteries is called coronary thrombosis.

List three risk factors that will increase the chance of developing coronary thrombosis.

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2a
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1 mark

The diagram below shows the production and role of antibodies in the body.

2XZAB_g2_e-2a

Antibodies are produced by cell X.

Identify cell X.

2b
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1 mark

Antibodies are produced in response to the antigens present on pathogens.

Define the term 'antigen'.

2c
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1 mark

Antibodies aid the body in fighting pathogens in a number of different ways.

State one way in which they achieve this.

2d
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2 marks

Antibodies are short-lived, but memory cells remain to provide long term immunity against a second infection by the same type of pathogen.

Describe the secondary response of the memory cells during an infection by the same type of pathogen.

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3a
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1 mark

The diagram below shows the action of penicillin on the bacterial cell wall.

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Penicillin is an example of an antibiotic.

Define the term 'antibiotic'.

3b
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1 mark

Penicillin is an example of a commonly used antibiotic. It is produced naturally by a fungus (penicillium) to kill competing bacteria in their environment.

Based on the information in the diagram in part a), state the way in which penicillin kills bacteria.

3c
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2 marks

Other than the process stated at part b), list two processes in prokaryotic cells that antibiotics may target.

3d
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1 mark

Antibiotics are not effective against viruses since they lack the structure and mechanisms of prokaryotic cells. Certain viral diseases are treated with substances known as antivirals.

State the way in which an antiviral works.

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4a
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2 marks

Skin is the largest organ of the body and forms part of the primary defence against pathogens.

List two ways in which the skin defends the body against pathogens.

4b
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1 mark

Platelets are very important in maintaining the integrity of broken skin as a barrier.

Define the term 'platelet'.

4c
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1 mark

Platelets are essential in the process of blood clotting.

State the role of platelets in response to blood vessel damage.

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5a
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4 marks

One mark is available for clarity of communication throughout this question.

Human immunodeficiency virus (HIV) is mainly transmitted by the direct exchange of body fluids.

List four ways in which HIV can be transmitted between hosts.

5b
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4 marks

Once micro-organisms enter the body, white blood cells called phagocytes will provide the next line of defence.

Outline the way in which phagocytes provide defence against micro-organisms.

5c
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5 marks

An HIV infection will eventually progress into AIDS.

Outline the development of AIDS from an HIV infection.

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1a3 marks

Describe how mucous membranes form a primary defence against pathogens that cause infectious disease.

1b5 marks

When the skin is cut microorganisms may enter the body. One defence against this is blood clotting.

Outline the cascade of events that results in blood clotting.

1c1 mark

The table shows data on the number of deaths from coronary thrombosis in the UK.

Year Number of deaths from coronary thrombosis
2012 562
2014 554
2016 545
2018 538
2020 529

Predict the number of people who died in 2022 if the trend remained the same.

1d1 mark

Stopping smoking has shown to be associated with reducing the incidence of coronary thrombosis.

State one other change of lifestyle that may reduce the incidence of coronary thrombosis.

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2a2 marks

Outline the difference between antibodies and antigens.

2b2 marks

The human immunodeficiency virus (HIV) can cause an immune response in its host.

Describe and explain the effect of HIV on the immune system.

2c4 marks

Rhinoviruses that cause the common cold may be destroyed by phagocytosis when they enter a human body.

Describe how this occurs.

2d1 mark

Vaccinations often contain antigens. Scientists investigated whether having a fourth Covid-19 vaccination booster could increase antibody production by the immune system.

  •  They divided a large number of mice into five groups.
  • They injected the mice in each group with a different amount of COVID-19 antigens.
  • The scientists then measured mean antibody production in the mice.

 The graph below shows their results.

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Use the graph to describe the effect of COVID-19 antigens on mean antibody production.

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3a1 mark

Scientists investigated the presence of bacteria resistant to the antibiotic tetracycline in poultry and in the farmers who kept them. They looked for Escherichia coli (E.coli) resistant to tetracycline. The scientists took samples of faeces from the poultry birds and the farmers. Turkey farmers often used food containing tetracycline, whereas chicken farmers did not very often.

The bacteria were grown on nutrient agar containing tetracycline. Resistant bacteria grew and were visible as colonies on the agar plates.

The results are shown in the table below.

Sample taken from Percentage of samples from faeces containing E.coli resistant to tetracycline
Chickens 26
Chicken farmers 9
Turkeys 83
Turkey farmers 56

           

 Suggest a hypothesis the farmers were testing in this investigation.

3b2 marks

Describe the results of the scientists’ investigation described in part (a).

3c2 marks

Scientists investigated treatment of a human respiratory infection caused by a species of bacterium. This species of bacterium is often resistant to the antibiotics currently used for treatment. They investigated the use of a new antibiotic to treat the respiratory infection. The new antibiotic blocks DNA replication in bacterial cells.

The scientists tested the new antibiotic on mice with the same respiratory infection.  The antibiotics were given to the mice at a dose of 25 mg kg−1 per day.

Calculate how much antibiotic would be given to a 33 g mouse each day.

3d1 mark

The antibiotic tetracycline is used to treat human bacterial infections such as pneumonia and other respiratory tract infections.  This antibiotic is safe to use in humans as it does not inhibit or block processes such as DNA replication, ribosome function, transcription or translation.

Suggest why these processes are not inhibited in humans but can be in bacteria.

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4a2 marks

The diagram shows a human immunodeficiency virus (HIV).

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Suggest, with a reason, which labelled component of the virus is most likely to act as an antigen.

4b3 marks

HIV is described as a retrovirus. 

Describe what is meant by the term retrovirus.

4c1 mark

Antibiotics are not used to treat viral infections, such as HIV.

Explain why.

4d2 marks

Misuse of antibiotics can cause antibiotic resistance.

 Outline two ways to prevent antibiotic resistance.

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5a5 marks

One mark is available for clarity of communication throughout this question.

Howard Florey and Ernst Chain carried out experiments on mice and humans in the 1930s to test the effectiveness of penicillin.

Describe Florey and Chain’s experimental method for testing penicillin on mice.

5b3 marks

Florey and Chain’s experiments involved some risks.

Outline the risks involved in their experiments.

5c7 marks

Compare and contrast current drug testing protocols with Florey and Chain’s experiments.

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1a
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2 marks

Haemophilia B is a rare genetic disorder where the body produces very little or no factor IX, a protein that is responsible for a cascade of reactions resulting in the conversion of fibrinogen into fibrin.

Explain the effect of insufficient levels of factor IX on the process of blood clotting.

1b
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1 mark

A person suffering from haemophilia B will be more prone to excessive bruising.

Based on the information provided, suggest a reason for this.

1c
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2 marks

Haemophilia B cannot be cured but one form of treatment involves injecting patients with factor IX, which is derived either from donated blood or artificially produced using genetic engineering.

Explain the importance of determining the correct dosage of factor IX before injecting patients.

1d
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1 mark

In certain rare cases, the body may produce antibodies against factor IX that is injected during replacement therapy,

Suggest one effect these antibodies may have on the treatment.

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2a
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2 marks

Lupus is an autoimmune disease in which the immune system will produce autoantibodies against the body's own tissue. This results in a variety of symptoms, including inflammation of the skin and organs to more serious ones such as organ failure and strokes.

Compare and contrast an autoimmune response to the immune response against a pathogen.

2b
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2 marks

The symptoms of lupus can get progressively worse over time.

Based on your knowledge of lymphocytes, suggest a reason for this.

2c
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2 marks

There are a variety of ways to treat lupus. One form of treatment involves administering immunosuppressive drugs which prevents the activation of lymphocytes.

Explain the impact that this form of treatment could have on a lupus patient.

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3a
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2 marks

T-cells are another type of white blood cell that can help the body fight against infections. Instead of producing antibodies, T-cells will bind to the surface of infected or defective cells and destroy them directly. This ability has been harnessed in a new type of cancer treatment known as chimeric antigen receptor (CAR) T cell therapy.

During CAR T cell therapy, normal T cells from the patients blood are modified to enable them to bind to cancer cells with the help of cell surface receptors. The following diagram shows the treatment process of CAR T cell therapy.

6-3-hard-q3a

Contrast the differences between a normal T cell (stage 1 of the diagram) and a CAR T cell (stage 3 of the diagram).

3b
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2 marks

Using the information in the diagram in part a), suggest how CAR T cell therapy facilitates in the treatment of certain cancers.

3c
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2 marks

Traditional forms of cancer treatment include chemotherapy during which toxic chemicals are inserted into the blood stream of a patient. These chemicals will circulate through the body and kill any fast-dividing cells, which often leads to uncomfortable side effects such as hair loss, nausea and skin rashes. The chemicals used during chemotherapy are broken down by the body and therefore have a short-lived effect, requiring patients to receive multiple treatments on a regular basis in order to be effective.

Based on the information provided and your knowledge of the immune system, suggest two advantages of CAR T cell therapy over chemotherapy.

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4a
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3 marks

B lymphocytes are a type of white blood cell. These lymphocytes produce antibodies in response to activation by the presence of an antigen on a pathogen.

The diagram below shows the appearance of a B lymphocyte before and after it has been activated.

6-3-hard-q-4a

Explain the changes that can be observed within the B lymphocyte when it is activated.

4b
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2 marks

Rituximab is a type of antibody that is used to treat certain B lymphocyte cancers (leukaemia). It binds to the cell surface protein CD20 found on B-lymphocytes. Once the antibody binds to the protein it triggers cell death in the cancerous B-lymphocyte. Patients are given rituximab through a drip into a vein on a regular basis for the duration of their cancer treatment.

Based on your knowledge of the immune system, explain why patients would need regular infusions with rituximab.

4c
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2 marks

When treating more aggressive forms of B lymphocyte cancer, rituximab is often combined with more traditional chemotherapies.

The graph below shows the results of a trial looking at the effects of several different treatments, alone and in combination, on B lymphocytes grown in the laboratory.

6-3-hard-q4c

Rituximab on its own killed 23% of the B lymphocytes while when combined with hydroxyurea it killed 82% of B-lymphocytes in the laboratory.

Calculate the percentage effectiveness of using rituximab in combination with hydroxyurea compared to rituximab on its own. Show your working and give your answer to three significant figures.

4d
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3 marks

A medical doctor concluded that drug combinations are a more effective cancer treatment for human patients than any of the drugs used alone.

Use the information from part c) to evaluate this conclusion.

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5a
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5 marks

One mark is available for clarity of communication throughout this question.

Phagocytes and lymphocytes play an important role in the immune system of the body.

Compare and contrast the role of phagocytes and lymphocytes in the immune system.

5b
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7 marks

Certain species of bacteria may develop resistance to antibiotics over time.

Outline the development of antibiotic resistance in a bacterial population.

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