B7 - Further Biology (Peak Performance)

Question 1

What sort of skeletal structure has an internal skeleton?

Answer 1

Vertebrates

Question 2

What does the internal skeleton of a vertebrate do? (3 things)

Answer 2

• Provides support
• Enables movement
• Protects internal organs

Question 3

What 4 things combine so that joints can move easily and carry out work?

Answer 3

• Bones
• Muscles
• Tendons
• Ligaments

Question 4

Define what bones are.

Answer 4

Bones are rigid tissues that make up the skeleton

Question 5

Define what muscle is.

Answer 5

Muscle is tissue that contracts and relaxes.

Question 6

Define what ligaments are.

Answer 6

Ligaments are tough, fibrous, elastic connective tissues that connect bones together in a joint.

Question 7

Define what tendons are.

Answer 7

Tendons are tough, fibrous, elastic connective tissues that connect muscle to bone or muscle to muscle.

Question 8

What do bones make up?

Answer 8

The skeleton.

Question 9

What are two actions that muscle tissue can perform?

Answer 9

Contracting and relaxing

Question 10

What can connect bones together in a joint?

Answer 10

Ligaments

Question 11

What can connect bone to muscle?

Answer 11

Tendons

Question 12

What can connect muscle to muscle?

Answer 12

Tendons?

Question 13

What is the difference between ligaments and tendons?

Answer 13

Ligaments connect bone to bone, whereas tendons can connect bone to muscle or muscle to muscle.

Question 14

How do muscles work?

Answer 14

In antagonistic pairs

Question 15

Complete:

Muscles can only move bones by _________.

Answer 15

Contracting

Question 16

Muscles can only move bones by contracting, which means what?

Answer 16

Getting shorter

Question 17

What is the meaning of muscles working in antagonistic pairs?

Answer 17

One muscle contracts while another muscle relaxes

Question 18

How do antagonistic pairs help to lift the lower arm?

Answer 18

The biceps contracts and the triceps relaxes

Question 19

a) How do antagonistic pairs help to lower the arm?

b) What would happen if the tendon (connecting the triceps to the bone) was cut?

Answer 19

a) The triceps contracts and the biceps relaxes

b) The triceps wouldn’t be able to contract and the arm would remain in the ‘up’ position

Question 20

What are joints covered by?

Answer 20

A smooth layer of cartilage

Question 21

What is cartilage?

Answer 21

A tough connective tissue that helps reduce wear and tear in a joint by preventing the bones rubbing together

Question 22

What is synovial fluid?

Answer 22

An oily fluid that enables the joint to move freely by reducing friction and cushioning the joint against bumps and knocks

Question 23

What are ligaments?

Answer 23

Tough and elastic to allow movement and hold the bones of the joint in position at the same time.

Question 24

In which occupations could you find practitioners that are specially trained to help you maintain and improve your health and fitness?

Answer 24

Doctors, registered nurses, fitness instructors, opticians

Question 25

What is the role of practitioners, such as doctors, registered nurses, fitness instructors and opticians?

Answer 25

They are specially trained people to help you maintain and improve your health and fitness

Question 26

What does a practitioner need to know about a patient before they can recommend treatment or an exercise programme?

Answer 26

They need to know the patient’s medical or lifestyle history, including:

• Current medication
• Alcohol consumption
• Tobacco consumption
• Family medical history
• Previous treatments

Question 27

Why would a practitioner need to know about a patient’s current medication before prescribing treatment/exercise programmes?

Answer 27

Different medicines can sometimes conflict with one another

Question 28

Why would a practitioner need to know about a patient’s alcohol consumption before prescribing treatment/exercise programmes?

Answer 28

Excessive alcohol intake can cause:

• Weight gain
• Damage to the liver and kidneys
• Interference with some medications

Question 29

Why would a practitioner need to know about a patient’s tobacco consumption before prescribing treatment/exercise programmes?

Answer 29

Smoking has been directly linked with:

• Lung cancer
• Heart disease
• High blood pressure

Question 30

Why would a practitioner need to know about a patient’s family medical history before prescribing treatment/exercise programmes?

Answer 30

Some medical conditions can be genetic (inherited). It’s important to know if any particular conditions run in your family.

Question 31

Why would a practitioner need to know about a patient’s previous treatments before prescribing treatment/exercise programmes?

Answer 31

If you have recurring symptoms you might need a different diagnosis or to see a specialist

Question 32

What must a practitioner do before any diagnostic tests are carried out? Why must they do this?

Answer 32

Fully assess the patient to make sure that the treatment is effective and will not make the patient’s condition worse or cause another problem

Question 33

The risk of carrying out any tests must be assessed and balanced against what?

Answer 33

The chances of being able to cure or reduce the symptoms

Question 34

What are symptoms?

Answer 34

Visible or noticeable effects on the body which can be used to identify a problem

Question 35

What visible/noticeable signs can be used to identify a problem in a patient?

Answer 35

Symptoms

Question 36

Give 3 examples of treatment/method a practitioner could suggest to a patient to improve their health/fitness.

Answer 36

• Greater levels of fitness
• A period of recovery
• Rehabilitation, e.g. learning how to walk again after an accident

Question 37

Why might a patient’s fitness/training programme be modified before completion?

Answer 37

If:

• The patient is finding the programme too hard (the problem could continue or a new injury could continue or a new injury could occur)
• The patient is finding the programme too easy (the progress would be slow and the patient might not recover fast enough)

Question 38

How might a practitioner monitor progress during a patient’s training? (2 things)

Answer 38

• Measuring the pulse rate of the patient

- Measuring the aerobic fitness of the patient

Question 39

Fill in the gaps.

A patient who is increasing their aerobic fitness should ___a)___ their heart rate and have a ____b)_____ recovery rate. Resting blood pressure should also be ___c)___ reduced by a fitness programme.

Answer 39

a) lower
b) faster
c) reduced

Question 40

What are the benefits of regular contact between a patient and a practitioner? (2 things)

Answer 40

• The practitioner has the opportunity to become more familiar with the patient’s medical history and background
• The patient will feel more comfortable and reassured if they see the same practitioner each time

Question 41

Why would a patient and their practitioner stay in contact once treatment/training is complete?

Answer 41

For check-up where questions can be asked about progress and issues. Sometimes tests can be carried out, e.g. with pulse rate

Question 42

What measurement can be used as a fitness indicator?

Answer 42

BMI (body mass index)

Question 43

What does BMI stand for?

Answer 43

Body mass index

Question 44

What can BMI be used for?

Answer 44

A fitness indicator

Question 45

How can BMI be worked out?

Answer 45

Using the following equation:

BMI = body mass (in kg)/ height (in metres) squared

Question 46

How is BMI used as a fitness indicator?

Answer 46

A person’s BMI number can be compared with a chart

Question 47

True or False?

BMI measures body-fat levels

Answer 47

False - BMI doesn’t actually measure body-fat levels, to do this you need to use a simple meter.

Question 48

An excess of body fat would be an indicator of what?

Answer 48

Poor fitness

Question 49

Why might practitioners disagree about treatment or fitness programmes and their effects? (2 things)

Answer 49

• Due to their previous experiences with patients
• Due to their values such as BMI, for example, only being an indicator (i.e. not an absolutely exact measure) of fitness levels

Question 50

Why is it so essential that accurate records are kept during treatment or fitness training?

Answer 50

Because the records can be used to assess progress and determine trends

Question 51

It is important that accurate records are kept during treatment or fitness training.

What are the problems with inaccurate records? (HT)

Answer 51

Inaccurate records could slow down progress or even make a condition worse.

Question 52

What do progress records need to take into account? (HT)

Answer 52

The accuracy and repeatability of the recording techniques.

Question 53

If a person over-exerts themselves by doing excessive exercise, they can cause themselves what injuries? (3 things)

Answer 53

• Sprains
• Dislocations
• Torn ligaments or tendons

Question 54

Describe some symptoms of a sprain. (3 things)

Answer 54

• Swelling due to fluid building up at the site of the sprain
• Pain (the joint hurts and may throb)
• Redness and warmth caused by increased blood flow to the inured area

Question 55

a) What initialism is used to describe the treatment for a sprain?
b) What does each letter stand for?

Answer 55

a) RICE

b) Rest, Ice, Compression, Elevation

Question 56

Describe each stage of the RICE treatment used for sprains.

Answer 56

R = Rest (The patient should rest and not move the injured part of the body)
I = Ice (Ice should be placed on the injury location for short periods, wrapped in suitable fabric to prevent ice burns, to reduce swelling and bleeding)
C = Compression (Gentle pressure should be applied with a bandage to reduce the build-up of the fluid that causes swelling)
E = Elevation (The injured body part should be raised to reduce blood pressure, which would then lead to less blood flow and swelling)

Question 57

Talk about the ‘R’ stage in the RICE treatment for sprains.

Answer 57

The patient should REST and not move the injured part of the body

Question 58

Talk about the ‘I’ stage in the RICE treatment for sprains.

Answer 58

ICE should be placed on the injury location for short periods, wrapped in suitable fabric to prevent ice burns, to reduce swelling and bleeding

Question 59

Talk about the ‘C’ stage in the RICE treatment for sprains.

Answer 59

Gentle pressure (COMPRESSION) should be applied with a bandage to reduce the build-up of the fluid that causes swelling

Question 60

Talk about the ‘E’ stage in the RICE treatment for sprains.

Answer 60

The injured body part should be ELEVATED to reduce blood pressure, which would then lead to less blood flow and swelling

Question 61

In the second stage of the RICE treatment for sprains, why is it important that ice is wrapped in suitable fabric?

Answer 61

To prevent ice burns that could make the patient’s suffering worse

Question 62

Why is ice important in the RICE treatment for sprains?

Answer 62

Because it reduces swelling and bleeding.

Question 63

True or False?

In the second stage of the RICE treatment for sprains, ice should be placed on the injury location for long periods of time.

Answer 63

False - Ice should be placed on the injury location for short periods of time.

Question 64

Why is the compression stage of the RICE treatment for sprains so important?

Answer 64

It reduces the build-up of fluid that causes swelling.

Question 65

In the fourth stage of the RICE treatment for sprains, the injured body part is raised/elevated to reduce blood pressure.

What does a reduced blood pressure lead to/help with?

Answer 65

Less blood flow and swelling

Question 66

What does a physiotherapist specialise in?

Answer 66

The treatment of skeletal-muscular injuries

Question 67

a) What do physiotherapists do?

b) How is this normally achieved?

Answer 67

a) They help their patients re-train or reuse a part of their body that isn’t properly functioning
b) With various exercises to strengthen muscles that have become weakened

Question 68

Describe the exercise programme a physiotherapist might recommend to a patient to treat an injured leg. (4 stages)

Answer 68

• Warm up the joint by riding a stationary exercise bicycle, then straighten and raise the leg
• Extend the leg while sitting (a weight may be worn on the ankle for this exercise)
• Raise the leg while lying on the stomach
• Exercise in a pool, for example, walk as fast as possible in chest-deep water, perform small flutter kicks while holding onto the side of the pool, and raise each leg to 90 degrees in chest-deep water while pressing the back against the side of the pool.

Question 69

What are the four components of blood?

Answer 69

• Red blood cells
• White blood cells
• Platelets
• Plasma

Question 70

What is the function of red blood cells?

Answer 70

• Carry oxygen

- Contain red pigment (haemoglobin) which binds oxygen

Question 71

What is the name of the red pigment within red blood cells?

Answer 71

Haemoglobin

Question 72

What is the purpose of haemoglobin?

Answer 72

To bind oxygen together

Question 73

What effect does haemoglobin have on the structure of red blood cells?

Answer 73

To make more room for the haemoglobin, red blood cells have no nucleus.

Question 74

Why do red blood cells contain no nucleus?

Answer 74

To make more room for the haemoglobin

Question 75

a) What shape are red blood cells found in? (HT)

b) What is the meaning of this? (HT)

Answer 75

a) Bioncave shape

b) Increases the surface area for more efficient uptake of oxygen

Question 76

What 2 things are important within the structure of a red blood cell that helps more efficient oxygen uptake?

Answer 76

• The red blood cells have no nucleus to make room for more haemglobin, a red pigment that binds oxygen together
• The bioncave shape that increases the surface area for more efficient uptake of oxygen

Question 77

What is the function of white blood cells?

Answer 77

• Fight infection

- Defend the body against microorganisms

Question 78

What is the function of platelets?

Answer 78

Clotting at injury sites to prevent blood loss

Question 79

Why is the clotting of platelets at the site of an injury important?

Answer 79

It prevents blood loss and allows the wound to heal

Question 80

What is the function of plasma?

Answer 80

Liquid that transports the following around the body:

• Nutrients (e.g. glucose, mineral salts and amino acids)
• Hormones
• Antibodies
• Waste (e.g. carbon dioxide and urea)

Question 81

Give 3 examples of nutrients that plasma liquid could transport around the body.

Answer 81

• Glucose
• Mineral salts
• Amino acids

Question 82

Give 2 examples of waste that plasma liquid could transport around the body.

Answer 82

• Carbon dioxide

- Urea

Question 83

What are the functions of the four components of blood?

Answer 83

• Red blood cells = Carry oxygen and contain red pigment (haemoglobin) which binds oxygen
• White blood cells = Fight infections and defend the body against microorganisms
• Platelets = Clotting at injury sites to prevent blood loss
• Plasma = Liquid that transports nutrients (e.g. glucose, mineral salts and amino acids), hormones, antibodies, waste (e.g. carbon dioxide and urea) around the body

Question 84

What is most of the heart wall made of?

Answer 84

Muscle

Question 85

Which side of the heart is more muscular than the other? Why is this?

Answer 85

The left side is more muscular than the right because it pumps blood around the whole body (whereas the right side pumps blood only to the lungs)

Question 86

How many chambers of the heart are there?

Answer 86

4

Question 87

How many components are within blood?

Answer 87

4

Question 88

What are the four chambers of the heart?

Answer 88

• Two atria

- Two ventricles

Question 89

The heart contains two atria.

a) What is the structure of these two atria?
b) What is the function of these two atria?

Answer 89

a) The 2 smaller, less muscular upper chambers of the heart

b) Receive blood coming back to the heart from the beins

Question 90

The heart contains two ventricles.

a) What is the structure of these two ventricles?
b) What is the function of these two ventricles?

Answer 90

a) The 2 larger, more muscular lower chambers of the heart

b) Pump blood out of the heart.

Question 91

What does the heart muscle need a good supply of?

Answer 91

Blood

Question 92

Why does the heart need a good supply of blood?

Answer 92

Because the blood contains oxygen and glucose for respiration

Question 93

How is blood supplied to the heart?

Answer 93

Through the coronary artery

Question 94

Where can the coronary artery be found?

Answer 94

Branching from the aorta to the heart muscle.

Question 95

Explain the cardiac cycle. (4 stages)

Answer 95

• The heart muscles relax and blood flows into the atria through veins from the lungs and the rest of the body.
• The atria contract,squeezing blood into the ventricles.
• The ventricles contract and blood is forced out of the lower chambers, which carry the blood to the body and lungs.
• The heart muscles relax and the whole process starts again

Question 96

What part of the heart ensures that the blood flows in the right direction?

Answer 96

The valves

Question 97

What is the function of valves in the heart?

Answer 97

To ensure that the blood flows in the right direction (i.e. not backwards)

Question 98

What sort of circulatory system do humans have?

Answer 98

A double circulatory system.

Question 99

What does having a double circulatory system mean?

Answer 99

That blood returns to the heart twice on every circuit of the body.

Question 100

Explain how a double circulatory system works. (3 stages)

Answer 100

• Deoxygenated blood that has travelled around the body enters the heart via. the right atrium
• It’s pumped from the heart into the lungs, where haemoglobin binds to the oxygen, becoming oxyhaemoglobin
• The oxygenated blood returns to the heart via the left atrium and is then pumped to the rest of the body.

Question 101

What are the tough, fibrous tissues that connect bone to muscle?

Answer 101

Tendons

Question 102

What are the pair of muscles that work opposite to each other called?

Answer 102

Antagonistic pairs

Question 103

Name the main artery carrying blood from the heart to the rest of the body (not to the lungs)

Answer 103

Aorta

Question 104

What are the 3 types of blood vessel?

Answer 104

• Arteries
• Veins
• Capillaries

Question 105

What is the function of arteries?

Answer 105

To carry blood away from the heart towards the organs

Question 106

What is the structure of an artery like?

Answer 106

Thick, elastic, and muscular walls that do not let substances pass through. The tube is smaller in diameter than that of a vein

Question 107

Why is the structure of an artery the way it is?

Answer 107

To cope with high blood pressure

Question 108

What makes the structure of an artery suitable for coping with high blood pressure?

Answer 108

Thick, elastic walls that substances cannot pass through

Question 109

What is the function of veins?

Answer 109

To carry blood from organs in the body back to the heart

Question 110

What is the structure of a vein like?

Answer 110

Thinner, less elastic walls and contain valves to prevent the blood flowing backwards. Substances cannot pass through vein walls, and the inner tube of a vein is larger in diameter than that of an artery.

Question 111

Why do veins contain valves?

Answer 111

To prevent the blood flowing the wrong way (backwards)

Question 112

True or False?

Arteries contain larger inner tubes (in diameter) than that of veins?

Answer 112

False - The walls of arteries are much thicker in muscle so the inner tube has a smaller diameter than that of a vein.

Question 113

What is the function of capilleries?

Answer 113

Connecting arteries and veins together

Question 114

What is the structure of a capillery like?

Answer 114

Narrow, thin walls that is only one cell thick.

Question 115

Why is the structure of capillaries the way it is?

Answer 115

Because the exchange of substances between cells and the blood takes place here, so the walls need to be as narrow and thin as they are

Question 116

Describe the three types of blood vessel.

Answer 116

• Arteries carry blood away from the heart towards the organs. They have thick elastic walls to cope with high blood pressure and substances can’t pass through artery walls
• Veins carry blood from the organs back to the heart. They have thinner, less elastic walls and contain valves to prevent the blood flowing the wrong way and substances can’t pass through vein walls
• Capillaries connect arteries and veins and they have a narrow, thin wall that is only one cell thick. The exchange of substances between cells and the blood takes place here.

Question 117

What does the plasma of arterial blood contain? (HT)

Answer 117

The dissolved products from digestion

Question 118

Around the body are networks of capilleries. What are these called? (HT)

Answer 118

Capillary beds

Question 119

The blood flow in capillary beds is very slow. As a result, what does plasma do? (HT)

Answer 119

The plasma leaves and becomes tissue fluid

Question 120

True or False?

The blood flow in capillary beds is very fast. (HT)

Answer 120

False - The blood flow in capillary beds is very slow.

Question 121

What does tissue fluid enable nutrients (such as glucose needed for respiration, oxygen, and hormones) required by cells to do? (HT)

Answer 121

Diffuse into tissue cells

Question 122

What are the functions of tissue fluid? (2 things) (HT)

Answer 122

• Enables nutrients required by cells (such as glucose needed for respiration, oxygen, and hormones) to diffuse into the tissue cells
• Collects and carries away some cellular waste products, such as carbon dioxide and urea

Question 123

What does tissue fluid collect and carry away? (HT)

Answer 123

Cellular waste products, such as carbon dioxide and urea

Question 124

a) Where does most of the tissue fluid return to? (HT)

b) What happens once it reaches this place? (HT)

Answer 124

a) Capillary bed

b) It becomes plasma and continues its journey through the body, this time in the veins

Question 125

What does energy loss and energy gain from your body need to be?

Answer 125

Balanced

Question 126

Why does energy loss and energy gain from your body need to be balanced?

Answer 126

So that your body temperature remains constant

Question 127

What does the temperature of your body’s extremities tend to be cooler than?

Answer 127

Your core body temperature

Question 128

Where is energy transferred from and to when it reaches the cooler parts of your body?

Answer 128

From the blood to the tissues

Question 129

What things does controlling body temperature require? (4 things)

Answer 129

• Temperature receptors in the skin to detect the external temperature
• Temperature receptors in the brain to measure the temperature of the blood
• The brain, which acts as a processing centre to receive information from the temperature receptors and respond by triggering the effectors
• Effectors (sweat glands and muscles) to carry out the automatic response

Question 130

Why are temperature receptors in the skin important in order to control body temperature?

Answer 130

To detect the external temperature

Question 131

Why are temperature receptors in the brain important in order to control body temperature?

Answer 131

To measure the temperature of the blood

Question 132

Why is the brain important in order to control body temperature?

Answer 132

It acts as a processing centre to receive information from the temperature receptors and respond by triggering the effectors

Question 133

Why are effectors important in order to control body temperature?

Answer 133

To carry out the automatic response

Question 134

What sort of effectors are used in order for the body temperature to be controlled?

Answer 134

Sweat glands and muscles

Question 135

What needs to happen if your body temperature is too high?

Answer 135

Heat needs to be transferred from the body out into the environment

Question 136

How does the body control body temperature when the body is too hot?

Answer 136

Heat is transferred to the environment through sweating, since evaporation from the skin requires heat energy from the body.

Question 137

What happens if your body temperature is too low?

Answer 137

Your body starts to shiver

Question 138

Why does the body start to shiver as a response to the body temperature being too low?

Answer 138

The rapid contraction and release of muscles require energy from increased respiration, and heat is released as a by-product, warming surrounding tissue.

Question 139

Blood temperature is monitored by a centre in your brain called the what? (HT)

Answer 139

Hypothalamus

Question 140

What is the purpose of the hypothalamus? (HT)

Answer 140

To monitor blood temperature

Question 141

Where can the hypothalamus be found? (HT)

Answer 141

In a centre in the brain

Question 142

In hot conditions, what happens to blood vessels in the skin? (HT)

Answer 142

They dilate

Question 143

Why do the blood vessels in the skin dilate in hot conditions? (HT)

Answer 143

Because it allows more blood to flow through the skin capillaries. Therefore, more heat is lost from the surface of the skin by radiation (vasodilation)

Question 144

What is meant by the term vasodilation? (HT)

Answer 144

When the blood vessels in the skin dilate in hot conditions (allowing more blood to flow through the skin capillaries and more heat is lost from the surface of the skin through radiation)

Question 145

In cold conditions, what happens to the blood vessels in the skin? (HT)

Answer 145

They constrict

Question 146

Why do the blood vessels in the skin constrict in cold conditions? (HT)

Answer 146

It reduces the amount of blood that flows through the skin capillaries. This means that less heat is lost from the surface of the skin by radiation (vasoconstriction)

Question 147

What is meant by the term vasoconstriction? (HT)

Answer 147

When the blood vessels in the skin constrict in cold conditions (reducing the amount of blood that flows through the skin capillaries and less heat is lost from the surface of the skin through radiation)

Question 148

What is the difference between vasodilation and vasoconstriction? (HT)

Answer 148

Vasodilation is the response when the body is going through hot conditions, whereas vasoconstriction is the response when the body is going through cold conditions.

Question 149

What are the responses of vasodilation and vasoconstriction examples of? (HT)

Answer 149

Effectors working antagonistically

Question 150

Why does the fact that vasodilation and vasoconstriction are an antagonistic pair important? (HT)

Answer 150

To restrict or increase blood flow near the skin surface, allowing a very controlled response.

Question 151

Why is a controlled response important with vasodilation and vasoconstriction? (HT)

Answer 151

It allows a gradual increase (or decrease) in blood flow, depending on the strength of the stimulus. This means that the body temperature doesn’t get too high or low.

Question 152

What can lead to sugar being found in the blood?

Answer 152

Through the digestion of carbohydrates after a meal

Question 153

What organ in the body deals with the rising of blood sugar levels?

Answer 153

The pancreas

Question 154

How does the pancreas deal with rising blood sugar levels?

Answer 154

It releases a hormone called insulin which makes cells remove sugar from the blood

Question 155

What is the function of insulin?

Answer 155

It makes cells remove sugar from blood

Question 156

In what circumstance would the pancreas need to release insulin?

Answer 156

Rising of blood sugar levels

Question 157

What do cells use sugar for?

Answer 157

Functions such as respiration

Question 158

What might happen if the hormone release (of insulin from the pancreas) for whatever reason goes wrong?

Answer 158

Lead to diabetes

Question 159

What causes diabetes?

Answer 159

If, for whatever reason, the release of the insulin hormone by the pancreas (because of high sugar levels in the blood) goes wrong

Question 160

What are the two types of diabetes?

Answer 160

• Type 1 (occurs when the pancreas stops producing enough insulin. This type is often genetic. It can be controlled by insulin injections and diet.)
• Type 2 (occurs when the body stops responding to its own insulin, or doesn’t make enough of the hormone. This type is often caused by old age, or as a result of a poor diet or obesity, and is sometimes referred to as late-onset diabetes. It can be controlled by diet and exercise.)

Question 161

Which of the two types of diabetes is genetic?

Answer 161

Type 1

Question 162

How can type 1 diabetes be controlled?

Answer 162

By insulin injections and diet control

Question 163

How might type 2 diabetes be caused?

Answer 163

Through old age or as a result of poor diet/obesity

Question 164

What is type 2 diabetes often referred to?

Answer 164

Late-onset diabetes

Question 165

How can type 2 diabetes be controlled?

Answer 165

By diet and exercise

Question 166

What is the name for sugars found in processed foods?

Answer 166

Simple carbohydrates.

Question 167

Where can simple carbohydrates be found?

Answer 167

In processed foods.

Question 168

What is the name for sugars found in other foods, such as fruit?

Answer 168

Complex carbohydrates

Question 169

Where can complex carbohydrates be found?

Answer 169

In foods such as fruit

Question 170

True or False?

Simple carbohydrates release sugar quickly into the bloodstream.

Answer 170

True.

Question 171

What is caused as a result of simple carbohydrates releasing sugar quickly into the bloodstream?

Answer 171

A rapid rise in blood sugar level

Question 172

a) How quickly do complex carbohydrates release sugars into the bloodstream?
b) Why is this?

Answer 172

a) Relatively slowly

b) So that they’re more likely to help maintain a constant sugar level

Question 173

a) What can soluble fibre do?

b) Why is this important?

Answer 173

a) Release sugar slowly from digestion in the intestine

b) This can help to prevent blood sugar levels becoming too high

Question 174

Where can soluble fibres be found?

Answer 174

In fruits, oats and beans

Question 175

What can an unhealthy diet cause as well as diabetes?

Answer 175

Heart disease and some cancers, e.g. of the bowels.

Question 176

a) What can help to maintain fitness and a healthy body mass?
b) Why is this?

Answer 176

a) Regular exercise

b) Because it helps to use up sugar rather than store it

Question 177

What is obesity shown to link to?

Answer 177

Dietary patterns

Question 178

Why are complex carbohydrates more likely to maintain body sugar levels than simple carbohydrates?

Answer 178

Complex carbohydrates release sugar slowly, whereas simple carbohydrates release sugar rapidly.

Question 179

In the organs, capillary beds allow exchange of substances between the cells and the blood.

Describe how this exchange occurs, giving two examples of substances that pass between the cells and blood. (HT)

Answer 179

Substances like glucose and oxygen diffuse out of the blood into the tissue fluid surrounding the cells and then into the cells for use. Sustances like urea and carbon dioxide diffuse out of the cells into the tissue fluid and then into the blood for removal.