B2 - Keeping Healthy

Question 1

What are infections caused by?

Answer 1

Microorganisms damaging body cells or producing poisons (toxins) that harm cells.

Question 2

What can infections be treated by?

Answer 2

Drugs called antimicrobials (e.g. antibiotics)

Question 3

True or False?

All antimicrobials kill microorganisms.

Answer 3

False - Many antimicrobials kill the microorganisms but some just block or slow down their action.

Question 4

Many antimicrobials kill the microorganisms but some just block or slow down their action.

What is this called? (HT)

Answer 4

Inhibition.

Question 5

What are 3 types of microorganisms that cause infections? Give examples of each and state how each type can be treated.

Answer 5

• Bacteria, e.g. bubonic plague, tuberculosis (TB) and cystitis. treated by antibiotics.
• Fungi, e.g. athlete’s foot, thrush and ringworm. Treated by anti-fungal medicine and antibiotics.
• Viruses, e.g. Asian bird flu, common cold, HIV, measles and smallpox. Very difficult to treat as antibiotics don’t work on viruses

Question 6

Where can microorganisms be found?

Answer 6

On any surface, in food and drink, in water and in the air we breathe.

Question 7

What three conditions are ideally needed for microorganisms to grow rapidly?

Answer 7

• Warmth
• Plenty of nutrients
• Lots of moisture

Question 8

Fill in the gaps.

Once in your body, harmful microorganisms reproduce very _______ - some populations can double as fast as every _______ minutes.

Answer 8

• rapidly

- 20

Question 9

Symptoms of an illness only show when there’s a significant amount of infection. How are the symptoms caused?

Answer 9

By microorganisms damaging infected cells, e.g. bursting the cells or producing harmful toxins.

Question 10

If microorganisms get into your body, what is activated?

Answer 10

The immune system

Question 11

When microorganisms get into your body and the immune system is activated, what type of blood cell plays a major role in the body’s response?

Answer 11

The white blood cell

Question 12

Two types of white blood cells are released when the body’s immune system is activated. What do the two types of white blood cells do?

Answer 12

One type of white blood cell engulfs and destroys the microorganisms, and the other makes antibodies.

Question 13

How does a white blood cell digest microorganisms?

Answer 13

When microorganisms invade the body, the white blood cells find them and engulf them. They then ingest the micro-organism and digest and destroy them.

Question 14

What are antigens?

Answer 14

Markers on the surface of the microorganism.

Question 15

What happens when white blood cell are producing antibodies?

Answer 15

The white blood cells become sensitised to the antigens on the surface of the microorganism and produces antibodies that lock onto the specific shape of the microorganism’s antigens. This causes the microorganisms to clump together, so that other white blood cells can digest them.

Question 16

Why do microorganisms have uniquely-shaped antigens on their surface?

Answer 16

Because different microorganisms cause different diseases.

Question 17

How does the process of producing antibodies help the body’s immune system?

Answer 17

Some white blood cells act as ‘memory cells’ once the infection has been destroyed, so that when those microorganisms enter the body again, the immune system knows how to fight it off. This is natural immunity.

Question 18

What happens when an individual is vaccinated?

Answer 18

A weakened/dead strain of the microorganism is injected into the system. White blood cells produce the antibodies to fight it off and the memory cells know how to fight that type of microorganism off when the real version enters the system.

Question 19

True or False?

Vaccinations are completely safe all the time.

Answer 19

False - Vaccinations are never completely safe and can produce minor side effects, such as rashes. Extreme side effects are rare, but the vaccination usually carries less risk than the disease.

Question 20

Why might some people be more affected by a vaccination than others?

Answer 20

Because of genetic variation.

Question 21

Why do some vaccines have to be redeveloped regularly?

Answer 21

Because microorganisms mutate (randomly genetically change) to produce new varieties/strains.

Question 22

True or False?

The more who say no to having a vaccination, the smaller the chance of a disease outbreak and a slower spread of disease.

Answer 22

False - The more who say no to having a vaccination, the more likely it is that there will be a disease epidemic/outbreak and the faster it will spread.

Question 23

Why is it important to vaccinate as many people as possible? (HT)

Answer 23

Because it prevents a disease epidemic

Question 24

What will happen to a population of which more than 95% are vaccinated against a disease?

Answer 24

The unvaccinated will be protected as well, as the risk of contact with an infected person is small.

Question 25

What will happen to a population of which less that 95% are vaccinated against a disease?

Answer 25

There is a greater chance of contact with infected people and therefore the likelihood of a disease outbreak/epidemic is much higher.

Question 26

Over time, bacteria and fungi can become _________ to antimicrobials.

Answer 26

Resistant.

Question 27

When random mutations occur in genes of microorganisms, what can happen? (2 things) (HT)

Answer 27

• New strains develop

- These are less affected by antimicrobials, so they can reproduce and pass on their resistance.

Question 28

Complete the sentence.

As varieties of bacteria and fungi become resistant…

Answer 28

…there are fewer ways to defeat them.

Question 29

What two measures can be put in place to help prevent antimicrobial resistance?

Answer 29

• Doctors should only prescribe them when absolutely completely necessary
• Patients should always complete the course of medication prescribed to them.

Question 30

What are new drugs tested for before they can be used?

Answer 30

Safety and effectiveness

Question 31

What are some advantages of testing on human cells grown in a laboratory?

Answer 31

• Shows if the drugs are effective
• Shows if the drugs will damage cells
• No people or animals are harmed

Question 32

What are some disadvantages of testing on human cells grown in a laboratory?

Answer 32

• Doesn’t show the effects on the whole organism

- Some might say that growing human cells is wrong/unethical

Question 33

What are some advantages of testing on animals in a laboratory?

Answer 33

• Shows if the drugs are effective within whole body conditions
• Shows if drugs are safe for the whole body

Question 34

What are some disadvantages of testing on animals in a laboratory?

Answer 34

• Animals can suffer and die (unethical issues)

- Animals may react differently to humans

Question 35

Who are clinical trials carried out on?

Answer 35

• Healthy volunteers to test for safety

- People with the illness to test for safety and effectiveness

Question 36

What is a placebo?

Answer 36

A harmless drug

Question 37

What does using a placebo in a clinical trial mean?

Answer 37

The patient isn’t treated for the problem - you haven’t got any false reactions.

Question 38

What do clinical trials compare the effects of? (HT)

Answer 38

Old and new drugs

Question 39

What happens in a ‘blind trial’? (HT)

Answer 39

The patients do not know which drugs they are given but the doctor does. If the patient knows, they might give biased information.

Question 40

What happens in a ‘double blind’ trial? (HT)

Answer 40

Neither the patient or the doctor know which drugs is used.

Question 41

What can you say about the results obtained from a ‘double blind trial’? (HT)

Answer 41

Results should be very accurate, due to removing the bias.

Question 42

What happens in an ‘open-label trial’? (HT)

Answer 42

Both the doctor and the patient know that they are using a new treatment. This is used when the new treatment is very similar to the original, or when a drug is being compared to physical therapy.

Question 43

Why is a ‘long-term trial’ important? (HT)

Answer 43

These are important for ensuring that there are no harmful side effects and to make sure that the treatment continues to be effective.

Question 44

What type of microorganism can’t be treated with antibiotics?

Answer 44

Virus

Question 45

Why are microorganisms like MRSA often called ‘superbugs’?

Answer 45

They are resistant to antibiotics.

Question 46

Why is the heart called a ‘double pump’?

Answer 46

It pumps blood from its right side to the lungs and also pumps blood from its left side to the rest of the body

Question 47

The heart pumps blood to provide body cells with what?

Answer 47

Nutrients and oxygen

Question 48

The heart pumps blood to remove what from the body cells?

Answer 48

Waste products

Question 49

What is the heart made up of?

Answer 49

Muscle cells that need a blood supply from the coronary artery to function properly.

Question 50

What are the three main types of blood vessels?

Answer 50

Arteries, Veins, Capillaries

Question 51

What is the structure of an artery like?

Answer 51

An artery has a thick, elastic, muscular wall to cope with the high pressure in the vessel.

Question 52

What is the function of an artery?

Answer 52

Arteries carry blood away from the heart towards the organs in the body.

Question 53

True or False?

Substances from the blood can pass through the walls of an artery.

Answer 53

False - Substances from the blood cannot pass through artery walls.

Question 54

What is the function of veins?

Answer 54

Veins carry blood from the organs back to the heart?

Question 55

Can substances pass through the walls of a vein?

Answer 55

No

Question 56

What is the structure of a vein like?

Answer 56

A vein has a thinner wall than an artery and has less elastic muscular fibre due to the lower pressure in the vessel.

Question 57

Why do veins have pocket valves along their length?

Answer 57

To keep blood flowing in the right direction.

Question 58

What are capillaries?

Answer 58

Very narrow vessels that carry blood between arteries and veins and through the organs of the body.

Question 59

a) Can substances pass through the walls of capilleries?

b) Why?

Answer 59

a) Yes.
b) Capillaries have walls made of a single layer of cells. It is here that substances are exchanged between blood and body cells.

Question 60

What is heart disease?

Answer 60

A structural or functional abnormality that can lead to a heart attack.

Question 61

What is a heart disease usually caused by?

Answer 61

Either lifestyle factors or genetic factors

Question 62

True or False?

Heart disease can sometimes be caused by infection.

Answer 62

False - Heart disease is not caused by infection.

Question 63

Why is heart disease more common in the UK than some non-industrialised countries?

Answer 63

As a result of lifestyle differences in their populations.

Question 64

When does a heart attack occur?

Answer 64

When fatty deposits build up in blood vessels supplying the heart. Blood flow is restricted and the muscle cells in the heart don’t get enough oxygen and nutrients.

Question 65

What are some lifestyle factors that can lead to heart disease? Why do they increase the risk of heart attack?

Answer 65

Poor diet, smoking, stress, misuse of drugs (such as ecstasy, cannabis), misuse of alcohol, can all affect blood pressure and heart rate (pulse rate) which increase the risk of a heart attack.

Question 66

What are 3 precautions someone could take against heart disease?

Answer 66

• Regular exercise (e.g. 20 minutes brisk walking every day)
• Not smoking
• Maintaining a healthy weight and reducing salt intake

Question 67

What can heart rate (pulse rate) and blood pressure be used to monitor?

Answer 67

The risk of heart disease.

Question 68

Blood pressure is given in two types of numbers. What are they?

Answer 68

• Higher number (obtained when the heart is contracting)

- Lower number (obtained when the heart is relaxing)

Question 69

What can high measurements of blood pressure and or heart rate (pulse rate) mean?

Answer 69

They can indicate a high risk of heart disease.

Question 70

The human body has an input and an output of water. Explain in what ways water is gained from (2 things) and lost through (3 things).

Answer 70

Water is input (gained) from:

• Food and drinks
• Respiration

Water is output (lost) through:

• Sweating
• Breathing
• Excretion of faeces and urine

Question 71

Why does your body have to balance the input and output of water?

Answer 71

To ensure that there’s enough water inside cells for cell activity to take place.

Question 72

What is the function of the kidneys?

Answer 72

They balance the water level in your body, and also help to balance waste and other chemicals in the blood.

Question 73

Both hormonal and nervous systems are involved in maintaining the stability of the internal environment of the body. What is this process called?

Answer 73

Homeostasis.

Question 74

How are the body’s water levels monitored?

Answer 74

• Receptor cells in the brain monitor the water level
• The brain then processes this information and coordinates the response to the effector organ
• The pituitary gland is an effector which produces the response
• This results in a hormone being released to affect the kidneys and the amount of water that’s released or retained in the blood.

Question 75

When the water level is too high in your body, how do the kidneys respond?

Answer 75

The kidneys reabsorb less water and a large amount of dilute urine is produced.

Question 76

When the water level is too low in your body, how do the kidneys respond?

Answer 76

The kidneys reabsorb more water and a small amount of concentrated urine is produced.

Question 77

The amount of water that needs to be reabsorbed into the blood plasma depends on what 3 factors?

Answer 77

• The external temperature
• The amount of exercise taken
• The fluid intake

Question 78

When salt levels in your body increase, what does your body do?

Answer 78

The body removes any excess salt by producing dilute urine. This means you need to take in more fluids to maintain a balanced water level.

Question 79

Alcohol can lead to dehydration.

Why is this?

Answer 79

Because alcohol causes a large amount of dilute urine to be produced, which can adversely affect overall health, which can lead to dehydration.

Question 80

True or False?

Ecstasy causes a large amount of more concentrated urine to be produced.

Answer 80

False - Ecstasy causes a small amount of less dilute urine to be produced.

Question 81

The concentration of urine is controlled by what hormone? (HT)

Answer 81

Anti-diuretic hormone (ADH)

Question 82

How is ADH released into your blood? (HT)

Answer 82

Via. the pituitary gland.

Question 83

Is the body’s control of water balance an example of a negative or a positive feedback system? (HT)

Answer 83

A negative feedback system.

Question 84

What is a negative feedback system? (HT)

Answer 84

Where one system is the reverse to another in order to maintain a steady state.

Question 85

When your blood water level becomes too high, what happens?

Answer 85

• Receptors in the hypothalamus detect a decrease in salt concentration. No stimulus is sent to the pituitary gland.
• Less ADH is secreted into the blood
• Your kidneys become less permeable, so less water is reabsorbed.
• Your bladder fills with a large quantity of dilute urine.

Question 86

When your blood water level becomes too low, what happens?

Answer 86

• Receptors in the hypothalamus detect an increase in salt concentration. A stimulus is sent to the pituitary gland. Thirst is stimulated to encourage drinking.
• More ADH is secreted into the blood
• Your kidneys become more permeable, so water is reabsorbed.
• Your bladder fills with a small quantity of concentrated urine.

Question 87

What can affect the production of ADH?

Answer 87

Drugs like alcohol and ecstasy.

Question 88

How can alcohol affect the production of ADH?

Answer 88

Alcohol causes ADH to be suppressed, so more water leaves the body in the urine.

Question 89

How can ecstasy affect the production of ADH?

Answer 89

Ecstasy causes too much ADH to be produced, so too much water remains int he blood. Osmosis then causes the water to leave the blood, causing brain cells to swell and burst.

Question 90

Suggest some lifestyle factors that are likely to cause premature death.

Answer 90

• Alcohol
• Poor diet
• Smoking
• Stress
• Genetics
• Drug abuse

Question 91

Vaccines prevent disease. What is contained in a vaccine? Is it:

a) Antibiotics
b) A weakened or dead strain of the disease-causing microorganism
c) An active strain of the disease-causing microorganism
d) Antibodies

Answer 91

b) A weakened or dead strain of the disease-causing microorganism

Question 92

Why can vaccines never be completely safe?

Answer 92

There is always a small chance of side effects occuring

Question 93

Why do new vaccines have to be developed regularly for diseases such as flu?

Answer 93

The virus causing the disease mutates, producing a new strain that’s unaffected by the current vaccine.

Question 94

In a trial to test a new drug it was found that, in most cases, the test sample of patients who had been ill had shown a marked improvement in their condition after a course of treatment.

a) We can say this shows a
i - correlation?
ii - relationship?
between the treatment and its effect.

b) From the information above, the drug
i - definitely causes
ii - possibly does not cause
the outcome effect.

A second group of patients was given a placebo in place of the drug. No members of this group showed any improvement in their condition.

c) A placebo is a
i - similar drug
ii - harmless drug

d) Using all the information in this question, it can be said that it is highly likely that the drug
i - causes
ii - does not cause
the outcome effect.

Answer 94

a) i = correlation
b) ii = possibly does not cause
c) ii = harmless drug
d) i = causes

Question 95

In the winter, we urinate more because we don’t lose water in sweating. The blood water level gets very high. Explain how this is brought about it in the body.

Answer 95

Receptors in the hypothalamus cause less ADH production, so the kidneys reabsorb less water and larger amounts of urine are produced.