Topic 7

Question 1

What hormone(s) does the pituitary gland produce?

Answer 1

• Follicle-stimulating hormone (FSH)
• Luteinising hormone (LH)
• Anti-diuretic hormone (ADH)

Question 2

What hormone(s) does the thyroid gland produce?

Answer 2

thyroxine

Question 3

What hormone(s) does the adrenal gland produce?

Answer 3

adrenalin

Question 4

What hormone(s) does the pancreas produce?

Answer 4

insulin

Question 5

What hormone(s) does the ovaries produce?

Answer 5

oestrogen and progesterone

Question 6

What hormone(s) does the testes produce?

Answer 6

testosterone

Question 7

Where is the pituitary gland located?

Answer 7

in the brain

Question 8

where is the thyroid gland located?

Answer 8

in the neck (thyroid)

Question 9

where is the adrenal gland located?

Answer 9

just above the kidneys

Question 10

where is the pancreas located?

Answer 10

near the kidneys

Question 11

where are the ovaries located?

Answer 11

just below the hip

Question 12

where are the testes located?

Answer 12

just below the hip

Question 13

how does adrenalin affect heart rate?

Answer 13

• adrenalin increases heart rate because it increases pressure in the coronary arteries.
• increased pressure in the coronary arteries leads to increased heart rate because the more frequently the heart beats, the higher the blood pressure as more blood is being pumped through the arteries.
• additionally, adrenaline affects the relaxation and contraction of the muscles in the heart, this results in the heart contracting more frequently and therefore heart rate increases.

Question 14

how does adrenaline affect blood flow?

Answer 14

• adrenaline increases blood flow by increasing the pressure in the coronary artery which leads to increased heart rate. Therefore blood flow increases as the heart contracts to pump blood through the arteries.
• blood flow will increase as blood pressure and heart rate increase as all of the factors are linked and correlate.
• as the heart rate increases, more blood is pumped around the body more quickly, blood pressure increases resulting in the blood having to flow more quickly, however, exceedingly increased blood pressure decreases the blood flow due to the blood pressure making it more difficult for the blood to flow quickly and easily (efficiently.)

Question 15

how does adrenaline affect blood pressure?

Answer 15

• adrenaline increases blood pressure as adrenaline increases heart rate. The increased heart rate forces blood to flow more quickly through narrow arteries, resulting in increased blood pressure.
• adrenaline also narrows arteries which increases blood pressure as the blood has less area to flow through - much like when cholesterol prevents blood from flowing as quickly - increasing blood pressure.

Question 16

how does adrenaline affect blood sugar levels?

Answer 16

• as well as binding to specific receptors in the heart to increase heart rate, adrenaline binds to receptors in the liver which causes the liver to release glucose (by breaking down its glycogen stores as in homeostasis).
• the glucose is added to the blood and therefore blood sugar levels increase.
• adrenaline stimulates the liver to release glucose so that there is enough energy available for the “fight or flight” response which adrenaline prepares the body for.

Question 17

What mechanism controls thyroxine levels to maintain metabolic rate?

Answer 17

the negative feedback mechanism

Question 18

what happens when thyroxine levels are too high?

Answer 18

• the hypothalamus is stimulated to inhibit the release of the thyrotropin releasing hormone (TRH)
• reduced Thyrotropin releasing hormone (TRH) reduces the production of thyroid stimulating hormone (TSH) in the pituitary gland.
• reduced thyroid stimulating hormone (TSH) reduces the production of thyroxine in the thyroid gland.
• the thyroxine level decreases/reduces.
• the thyroxine levels return to normal.

Question 19

what happens when thyroxine levels are too low?

Answer 19

• the hypothalamus is stimulated to release thyrotropin releasing hormone (TRH)
• thyrotropin releasing hormone (TRH) stimulates the pituitary gland to release thyroid stimulating hormone (TSH)
• thyroid stimulating hormone (TSH) stimulates the thyroid gland to release thyroxine.
• the thyroxine level increases
• the thyroxine levels return to normal

Question 20

how many stages are there to the menstrual cycle?

Answer 20

there are 4 stages to the menstrual cycle

Question 21

what happens during the first stage of the menstrual cycle?

Answer 21

• during days 1-7 menstruation begins.
• the lining of the uterus breaks down and is released.
• FSH (follicle stimulating hormone) is released by the pituitary gland and causes a follicle (an egg and its surrounding cells) to mature in one of the ovaries.
• the FSH production stimulates oestrogen production.

Question 22

what happens during stage 2 of the menstrual cycle?

Answer 22

• oestrogen production is stimulated by FSH production and is released by the ovaries.
• the uterus lining (the endometrium) is repaired from day 4 to day 14 as oestrogen causes the endometrium to thicken and grow.
• the endometrium become a thick spongy layer of blood vessels in preparation for a fertilised egg to implant there.
• a high level, of oestrogen stimulates a surge in LH (luteinising hormone) production.

Question 23

what happens during stage 3 of the menstrual cycle?

Answer 23

• at day 14 LH is released by the pituitary gland and stimulates ovulation.
• the follicle ruptures and the egg is released from ovary, this is ovulation.
• LH stimulates the remains of the follicle to develop into a structure called the corpus luteum.
• the corpus luteum secretes progesterone.

Question 24

what happens during stage 4 of the menstrual cycle?

Answer 24

• progesterone is released by the corpus luteum following ovulation.
• progesterone maintains the endometrium and inhibits the production of LH and FSH.
• if fertilisation has not taken place then the corpus luteum fades away. as the corpus luteum secrets progesterone the progesterone level will decrease.
• when the levels of progesterone decrease and there is a low oestrogen level, the endometrium breaks down.
• the uterine lining detaches at around day 28,
• the low progesterone level allows FSH to increase so the menstrual cycle starts again.

Question 25

what is the endometrium?

Answer 25

the uterus lining

Question 26

what does FSH stand for?

Answer 26

Follicle stimulating hormone

Question 27

what does LH stand for?

Answer 27

luteinising hormone

Question 28

where is FSH released from?

Answer 28

the pituitary gland

Question 29

where is oestrogen released from?

Answer 29

the ovaries

Question 30

where is LH released from?

Answer 30

the pituitary gland

Question 31

where is progesterone released from?

Answer 31

the corpus luteum

Question 32

what is the function of FSH?

Answer 32

FSH stimulates oestrogen production and causes a follicle to mature in one of the ovaries. a follicle is an egg and it’s surrounding cells.

Question 33

what is the function of oestrogen?

Answer 33

oestrogen causes the lining of the uterus to thicken and grow. The uterus lining (the endometrium) thickens until day 14 when ovulation begins. Following ovulation oestrogen production decreases if the egg is not fertilised.

Question 34

what is the function of LH?

Answer 34

A high level of oestrogen stimulates an LH surge. The LH surge stimulates ovulation (at day 14).

Question 35

what is the function of progesterone?

Answer 35

• Progesterone is released after ovulation.
• Progesterone maintains the lining of uterus and inhibits the release of FSH and LH.
• The uterus lining (the endometrium) breaks down if there is a low oestrogen level and a low progesterone level.
• The low progesterone level allows FSH to increase and then the menstrual cycle begins again.
• If the egg is not fertilised then the level of progesterone will decrease, therefore the menstrual cycle begins again if the egg is not fertilised.

Question 36

why are men who have had their testes removed at Moore risk of developing brittle bones?

Answer 36

they are more at risk because testosterone leads to denser bones in males compared to females. As the testes are glands which produce testosterone, if the testes are removed then less testosterone will be produced so there is an increased risk of brittle bones.

Question 37

What are the methods of contraception?

Answer 37

• the diaphragm
• female condom
• the male condom
• IUD
• Combined pill
• mini pill
• combined patch

Question 38

what are the barrier methods of contraception?

Answer 38

• diaphragm
• female condom
• male condom

Question 39

what are the hormonal methods of contraception?

Answer 39

• IUD
• combined pill
• mini pill
• combined patch

Question 40

how does the diaphragm work as a method of contraception?

Answer 40

• inserted into the vagina before sexual intercourse
• it blocks the cervix
• it has to be used with a spermicide to be effective
• it stops the sperm from reaching the egg and the spermicide kills the sperm and the cap stops the sperm.
• it has to stay in the vagina for at least 6 hours after sex for prevention of pregnancy

Question 41

what are the advantages of the diaphragm as a method of contraception?

Answer 41

• doesn’t have to be used all the time
• no associated health risks
• can add extra spermicide
• suitable for unplanned sex
• reusable
• has no effect on periods
• fertility returns to normal afterwards

Question 42

what are the disadvantages of the diaphragm as a method of contraception?

Answer 42

• not as effective as other types of contraception
• only provides limited protection against STIs
• cystitis can be a problem for some women
• latex and spermicide can cause irritations for some women and their partners

Question 43

how does the female condom work?

Answer 43

• it is worn inside the vagina

* it stops sperm getting into the uterus

Question 44

what are the advantages of using a female condom as a method of contraception?

Answer 44

• protects against STIs and pregnancies
• no medical side effects
• can be inserted up to 8 hours before sex
• protects both partners
• made from polyurethane so can be used for people allergic to latex

Question 45

what are the disadvantages of using a female condom as a method of contraception?

Answer 45

• aren’t reusable
• can split or tear if not used correctly
• not as widely available as other contraception

Question 46

how does the male condom work?

Answer 46

• worn over the penis

* stops sperm getting into the uterus

Question 47

what are the advantages of using a male condom as a method of contraception?

Answer 47

• protects against STIs and pregnancies
• no medical side effects
• protects both partners
• can be made of materials other than latex

Question 48

what are the disadvantages of using a male condom as a method of contraception?

Answer 48

• aren’t reusable
• can split or tear is not used correctly
• not reusable

Question 49

what does IUD stand for?

Answer 49

Intra uterine device

Question 50

how does IUD work as a method of contraception?

Answer 50

• releases copper to change fluids in the womb and fallopian tubes so stops sperm from surviving.
• can also stop fertilised eggs from implanting in the womb.

Question 51

What are the advantages of using IUD as a method of contraception?

Answer 51

• most women can use an IUD
• It works straight away once fitted
• It lasts for up to 10 years (or until removed)
• normal fertility returns to normal as soon as it is taken out
• it is not affected by other medicines
• can be used by breastfeeding mothers

Question 52

What are the disadvantages of using IUD as a method of contraception?

Answer 52

• periods may last longer, become heavier, or more painful
• Doesn’t protect against STIs
• can lead to pelvic infections if an STI is contracted while using it

Question 53

How does the combined pill work as a method of contraception?

Answer 53

• contains oestrogen and progesterone
• the progesterone stimulates the production of thick cervical mucus in the cervix so it is harder for sperm to reach eggs in the uterus
• the combination of both hormones thins the lining of the womb so there is less chance of a fertilised egg implanting or being able to grow.

Question 54

How does the mini pill work as a method of contraception?

Answer 54

• contains progesterone
• produces thick cervical mucus in the cervix so it’s harder for sperm to penetrate the uterus and reach eggs to fertilise them
• prevents ovulation

Question 55

what is the difference between IUD and IUS?

Answer 55

IUD is hormone free and IUS is hormonal

Question 56

How does the combined patch work as a method of contraception?

Answer 56

• delivers oestrogen and progesterone through the skin
• prevents ovulation
• progesterone produces thick cervical mucus in the cervix so it’s harder for sperm to reach eggs in the uterus
• combination of both hormones thins the lining of the uterus so there is less chance of a fertilised egg implanting or being able to grow
• works the same as the combined pill but in patch form.

Question 57

What does ART stand for?

Answer 57

Assisted Reproductive Technology

Question 58

What is ART?

Answer 58

• ART includes all fertility treatments which involve handling eggs or embryos outside of the body.
• The techniques involve treatments which deal with both the female’s eggs and the male’s sperm.
• It works by removing eggs from a woman’s body and mixing them with sperm to make zygotes. Finally, the zygotes are put back into the female’s body.
• procedures are usually used with fertility drugs to increase success rates

Question 59

What does IVF stand for?

Answer 59

In Vitro Fertilisation

Question 60

What is IVF?

Answer 60

When drugs, hormones and medicines are used for ART.

IVF is carried out using the female’s eggs and the male’s sperm and/or sperm from donors.

Question 61

describe the process of IVF.

Answer 61

• The woman’s natural menstrual cycle is suppressed with medication
• FSH and LH are used to stimulate the ovaries to produce more eggs than normal
• the eggs are monitored and hormones are used to help them mature
• the eggs are collected
• the eggs are out in contact with the sperm and left for a few days to fertilise
• one or two embryos are placed into the womb

Question 62

How are hormones used in IVF?

Answer 62

FSH and LH are used to stimulate egg production so that more than one egg can be collected for IVF

Question 63

What is clomifene therapy?

Answer 63

Clomifene therapy is a drug treatment to stimulate ovulation.

Question 64

How does clomifene therapy work?

Answer 64

• Clomifene is a drug which blocks the effect of oestrogen, this makes the body increase the amounts of the two hormones essential for ovulation: FSH and LH.
• FSH causes the eggs to mature in the ovaries and LH triggers the release of one or more mature eggs from the ovaries (ovulation)
• by knowing when the woman will be ovulating the couple can have intercourse during this time to increase the chance of becoming pregnant.

Question 65

What is the target organ for insulin?

Answer 65

The liver or a muscle

Question 66

When insulin is present which substance is formed from glucose in the target cells?

Answer 66

glycogen

Question 67

Why must blood glucose concentration be controlled?

Answer 67

To maintain a constant internal environment for the body’s enzymes to function correctly. Too little or too much glucose can damage organs, resulting in unconsciousness or death.

Question 68

What is the cause of type 1 diabetes?

Answer 68

the person’s insulin-producing cells have been destroyed, so they do not release insulin.

Question 69

Which parts of the body are involved in thermoregulation in the epidermis?

Answer 69

the sweat pore and hair

Question 70

Which parts of the body are involved in thermoregulation in the dermis?

Answer 70

• sweat gland
• blood vessels
• fat layer
• temperature receptors
• oil gland
• hair erector muscle

Question 71

what is the function of the blood vessel near the skin’s surface in thermoregulation?

Answer 71

it helps regulate body temperature by vasoconstriction and vasodilation

Question 72

what is the function of the hair erector muscle in thermoregulation?

Answer 72

it contracts to make hairs stand upright when the body is too cold and relaxes to make hairs lie flat when the body is too hot

Question 73

what is the function of the sweat pore in thermoregulation?

Answer 73

secretes sweat produced by the sweat gland on to the surface of the skin

Question 74

what is the function of the hair in thermoregulation?

Answer 74

controlled by the hair erector muscle. when upright traps an insulating layer of air on the skin surface to increase body temperature

Question 75

what is the function of the epidermis in thermoregulation?

Answer 75

provides a waterproof barrier on the skin surface

Question 76

what is the function of the dermis in thermoregulation?

Answer 76

provides flexibility and strength to the skin

Question 77

what is the function of the sweat gland in thermoregulation?

Answer 77

produces sweat to be secreted by the sweat pore. helps with thermoregulation when the body is too hot

Question 78

what is the function of the fat layer in thermoregulation?

Answer 78

insulates the body and gives an extra padding layer t the skin

Question 79

what is the function of the sensory cells in thermoregulation?

Answer 79

respond to stimuli and transmit information to the brain. provide information about the external temperature to the brain

Question 80

What is the name of the condition in which the body gets too cold? What does this lead to?

Answer 80

hypothermia, death

Question 81

What is the name of the condition in which the body gets too hot? What does this lead to?

Answer 81

heat stroke, death

Question 82

what are the structures in the urinary system?

Answer 82

• kidney
• renal artery
• renal vein
• ureter(s)
• bladder
• sphincter muscle
• urethra

Question 83

what is the function of the kidney?

Answer 83

filters the blood

Question 84

what is the function of the renal artery?

Answer 84

transports blood containing waste from the body to the kidney

Question 85

what is the function of the renal vein?

Answer 85

transports blood with waste removed to the body

Question 86

what is the function of the ureter(s)?

Answer 86

tube that connects each kidney to the bladder, urine flows down it

Question 87

what is the function of the bladder?

Answer 87

stores urine

Question 88

what is the function of the sphincter muscle?

Answer 88

controls the bladder opening and closing

Question 89

what is the function of the urethra?

Answer 89

tube that urine flows out of the body from

Question 90

where does the filtration of blood happen in the kidney?

Answer 90

in the cortex

Question 91

where does selective reabsorption happen in the kidney?

Answer 91

in the medulla

Question 92

what happens in the first stage of how blood is filtered in the nephron?

Answer 92

blood enters the Bowman’s capsule under high pressure. Blood is filtered by the kidney, this is called ultrafiltration. Red blood cells and protein molecules are too big to pass out of the blood.

Question 93

what does blood contain?

Answer 93

• urea
• water
• mineral ions
• glucose
• red blood cells
• proteins

Question 94

what happens in the second stage or how blood is filtered in the nephron?

Answer 94

the liquid filtrate passes down the proximal convoluted tubule in the loop of Henle

Question 95

what happens in the third stage of how blood is filtered in the nephron?

Answer 95

ALL glucose is selectively reabsorbed. SOME water and mineral ions are selectively reabsorbed back into the blood in the loop of Henle

Question 96

what happens in the fourth stage of how the blood is filtered in the nephron?

Answer 96

from the distal convoluted tubule the filtrate flows into the collecting duct

Question 97

what happens in stage five of how blood is filtered in the nephron?

Answer 97

urine is formed in the collecting duct from water, mineral ions and urea

Question 98

what happens in stage six of how blood is filtered in the nephron?

Answer 98

urine flows out of the kidney via the renal pelvis into the ureter. the ureter connects the kidney to the bladder. Urine is stored in the bladder and leaves the body through the urethra during urination.

Question 99

what substances are too big to pass into the Bowman’s capsule to be filtered?

Answer 99

red blood cells and protein molecules

Question 100

what is inside the Bowman’s capsule? What is it made up of?

Answer 100

the glomerulus, it is made up of capillaries

Question 101

what structures in the nephron are in the renal cortex of the kidney?

Answer 101

the Bowman’s capsule, the distal convoluted tubule, and the collecting duct

Question 102

what structures in the nephron are in the renal medulla of the kidney?

Answer 102

the proximal convoluted tubule and the loop of Henle,

Question 103

What are the tiny filtering units in a kidney called?

Answer 103

nephrons (or Bowman’s capsule)

Question 104

what is the process when blood is squeezed under high pressure in osmoregulation called?

Answer 104

ultrafiltration

Question 105

during ultrafiltration what are examples of the molecules which leave the blood and enter the renal tubule?

Answer 105

water, glucose, mineral ions and urea

Question 106

what is the process by which some water, salt (mineral ions) and all of the glucose re-enters the blood in osmoregulation?

Answer 106

selective reabsorption

Question 107

what is the waste liquid in osmoregulation called?

Answer 107

urine

Question 108

what are the tubes called where urine leaves the kidneys?

Answer 108

the ureters

Question 109

where does urine collect?

Answer 109

the bladder

Question 110

where is glucose reabsorbed into the blood?

Answer 110

in the loop of Henle by diffusion and active transport (at low concentrations)

Question 111

where are water and mineral ions reabsorbed into the blood?

Answer 111

in the loop of Henle by osmosis (water) and by diffusion and active transport for mineral ions (at low concentrations)

Question 112

what is osmoregulation?

Answer 112

the regulation of the amount of water in the body

Question 113

by what process does glucose move from the liquid in a nephron into the blood?

Answer 113

diffusion

Question 114

for which substances is the concentration of the substance the same in the renal vein as it is in the renal artery (in osmoregulation)?

Answer 114

glucose and protein

Question 115

for which substances is the concentration of the substance lower in the renal vein than it is in the renal artery (in osmoregulation)?

Answer 115

water and sodium (mineral ions/salt)

Question 116

how would animal cells be affected if there was too much or too little water or mineral ions in the blood?

Answer 116

cells may take in too much or lose too much water due to osmosis. this may damage cells because water in cells allows all of the molecules in the cytoplasm to undergo chemical reactions. Water is also needed to maintain cell structure, without water animal cells would shrink and with too much water animal cells would undergo lysis (burst)

Question 117

what does ADH stand for?

Answer 117

Antidiuretic hormone

Question 118

what is ADH?

Answer 118

ADH is a hormone which alters the permeability of the collecting duct in the nephron as part of osmoregulation.

Question 119

where is ADH stored?

Answer 119

in the pituitary gland

Question 120

what is ADH released into the blood by?

Answer 120

the pituitary gland

Question 121

what is ADH’s target organ?

Answer 121

the kidney

Question 122

what happens if the body is dehydrated?

Answer 122

more ADH is released by the pituitary gland, the collecting duct becomes more permeable, more water is absorbed so less water passes into the urine and more water passes into the blood

Question 123

what happens if there is a lot of water in the blood?

Answer 123

Less ADH is released by the pituitary gland, the collecting duct becomes less permeable, less water is reabsorbed so more water passes into the urine and less water passes into the blood

Question 124

what happens to urine when salty foods are eaten?

Answer 124

• the sodium ions increase
• the level of ADH stored in the pituitary gland decreases, more ADH enters the blood
• the amount of water selectively reabsorbed into the blood increases
• the urine becomes more concentrated, decreased volume of urine produced
• dehydration is prevented

Question 125

what happens to urine when too much water is drunk?

Answer 125

• the water increases
• the level of ADH stored in the pituitary gland increases, less ADH enters the blood
• the amount of water selectively reabsorbed into the blood decreases
• the urine becomes more diluted, increased volume of urine produced

Question 126

how is urea made?

Answer 126

• protein enters the body in food
• the protein is digested by enzymes (proteases) into small molecules of amino acids
• the amino acids are absorbed into the blood stream in the small intestine during digestion
• excess amino acids are taken in the blood to the liver to be broken down
• the liver breaks down the amino acids in a process called deamination which produces urea which is a toxic waste product

Question 127

what are the enzymes which break down proteins?

Answer 127

proteases

Question 128

what is deamination?

Answer 128

when the liver breaks down excess amino acids to produce urea

Question 129

what are hormones?

Answer 129

hormones are chemicals released directly into the blood, which affect target cells. Hormones control ‘things’ in organs and cells that need constant regulation and adjustment.

Question 130

what glands make up the endocrine system?

Answer 130

endocrine glands

Question 131

what are endocrine glands?

Answer 131

where hormones are produced

Question 132

what are the target organs for the pituitary gland?

Answer 132

the ovaries, the kidney

Question 133

what are the endocrine glands that you need to know?

Answer 133

• the pituitary gland
• the thyroid gland
• the ovaries
• the testes
• the adrenal glands
• the pancreas

Question 134

what are the differences between neurones and hormones?

Answer 134

neurones: fast action, act for a short amount of time, act in a precise area.
hormones: slower action, act for a long amount of time, act in a more general way.

Question 135

why are neurone responses quick? why can’t hormones be used for these types of responses?

Answer 135

the information needs to be passed to the effectors really quickly, for example, pain signals or warnings from your eyes, hormones can’t be used for these types of responses because the hormones are too slow to carry the information quickly.

Question 136

what response does adrenalin prepare the body for?

Answer 136

fight-or-flight response

Question 137

describe the process in which adrenalin prepares the body for a fight-or-flight response.

Answer 137

• adrenalin binds to specific receptors in the heart which causes the heart muscle to contract more frequently and more forcefully so heart rate and blood pressure.
• this increases blood flow to the muscles so the cells receive more oxygen and glucose for increased respiration
• adrenalin binds to receptors in the liver to cause the liver to break down its glycogen stores to release glucose.
• this increases blood glucose level so there’s more glucose in the blood to be transported to cells.

overall, heart rate increases, blood pressure increases, blood flow increases, blood glucose levels increases, and respiration increases in cells for more energy in the fight-or-flight response.

Question 138

what system controls the levels of hormones in the blood?

Answer 138

the negative feedback system

Question 139

what can an underactive thyroid gland cause?

Answer 139

weight gain because less thyroxine means that the metabolic rate decreases, this results in less of the glucose which is taken into the body being broken down in respiration and so more is stored as fat.

Question 140

what is the menstrual cycle?

Answer 140

a monthly sequence of events in which the female body releases an egg and prepares the uterus in case the egg is fertilised.

Question 141

what is another name for the uterus?

Answer 141

the womb

Question 142

what is the womb also known as?

Answer 142

the uterus

Question 143

what happens if a fertilised egg implants in the uterus?

Answer 143

the woman becomes pregnant and the level of progesterone will remain high to maintain the lining of the uterus during pregnancy

Question 144

what are the main methods an infertile couple could resort to in order to become pregnant?

Answer 144

clomifene therapy and IVF

Question 145

how does IVF work?

Answer 145

eggs are collected from the female’s ovaries and they are fertilised in a lab using the male’s sperm. before egg collection FSH and LH are given to stimulate egg production. when the embryos have developed into balls of cells on or two of them are implanted into the uterus to improve the chance of pregnancy.

Question 146

how can oestrogen be used as a contraceptive?

Answer 146

oestrogen can be used to prevent the release of an egg. although oestrogen is naturally used to stimulate the release of eggs, if it is taken every day to maintain a high level of oestrogen then it inhibits the production of FSH and as a result egg development and egg production stop.

Question 147

how can progesterone be used as a contraceptive?

Answer 147

progesterone can be used to reduce fertility by stimulating the production of thick cervical mucus, preventing sperm from getting through the cervix and reaching an egg

Question 148

what is the entrance to the uterus also called?

Answer 148

the cervix

Question 149

what is the cervix?

Answer 149

the entrance to the uterus

Question 150

which types of contraceptives are more effective when used correctly?

Answer 150

hormonal contraceptives

Question 151

what is homeostasis?

Answer 151

maintaining a constant internal environment

Question 152

what does MACIE stand for?

Answer 152

maintaining a constant internal environment.

Question 153

why does the body have to have a constant internal environment?

Answer 153

to keep cells in the correct conditions in order to function properly, this includes the correct conditions for enzyme action. it can damage organs and result in unconsciousness or death if the body’s conditions vary too much from normal levels.

Question 154

what are the main processes in homeostasis?

Answer 154

• blood glucose regulation
• thermoregulation
• osmoregulation

Question 155

what can the negative feedback mechanism be used for?

Answer 155

homeostasis (blood glucose regulation, thermoregulation and osmoregulation) and controlling the levels of hormones in the blood.

Question 156

what is an example of when homeostasis doesn’t work?

Answer 156

diabetes

Question 157

what is type 1 diabetes?

Answer 157

a condition when the pancreas produces little to no insulin

Question 158

how can a person with type 1 diabetes be treated?

Answer 158

with insulin therapy: this usually involves injecting insulin into the blood and is often done at mealtimes so the glucose is removed from the blood quickly once the food has digested.

Question 159

where is insulin normally injected in people with type 1 diabetes?

Answer 159

in the subcutaneous tissue - the fatty tissue just underneath the skin

Question 160

what does the amount of insulin someone with type 1 diabetes needs to inject depend on?

Answer 160

the person’s diet and how active they are

Question 161

what do people with type 1 diabetes need to consider apart from insulin therapy?

Answer 161

• limiting their intake of foods rich in simply carbohydrates (sugars) which cause the blood glucose level to rise rapidly.
• taking regular exercise which helps to remove excess glucose from the blood

Question 162

what are the dangers of injecting too much insulin in insulin therapy?

Answer 162

it could result in a dangerously low blood glucose level

Question 163

what is type 2 diabetes?

Answer 163

a condition when the pancreas doesn’t produce enough insulin or when a person becomes resistant to insulin (their body’s cells don’t respond properly to the hormone)

Question 164

which type of diabetes correlates with obesity?

Answer 164

type 2

Question 165

when are people classed as obese?

Answer 165

when they have a BMI over 30

Question 166

what does BMI stand for?

Answer 166

Body Mass Index

Question 167

How is BMI worked out?

Answer 167

mass (kg)
—————
height² (m)

Question 168

what is associated with an increased risk of type 2 diabetes?

Answer 168

a lot of fat being stored around the abdomen (tummy area)

Question 169

how can you get an indication about how fat is stored in someone’s body?

Answer 169

calculate their waist-to-hip ratio

Question 170

how do you calculate waist-to-hip ratio?

Answer 170

waist circumference (cm)
———————————
hip circumference (cm)

Question 171

a waist-to-hip ratio above what is associated with an increased risk of type 2 diabetes in men? why?

Answer 171

1.0, because it indicates that a lot of fat is being stored around the abdomen

Question 172

a waist-to-hip ratio above what is associated with an increased risk of type 2 diabetes in women? why?

Answer 172

0.85, because it indicates that a lot of fat is being stored around the abdomen.

Question 173

how can type 2 diabetes be controlled?

Answer 173

by eating a healthy diet, getting regular exercise and losing weight if needed. some people with type 2 diabetes also have medication or insulin injections.

Question 174

what is the optimum temperature for enzymes in the body?

Answer 174

37°C

Question 175

what happens to enzymes when above their optimum temperature?

Answer 175

they begin to denature and so they can’t work at all and enzyme activity stops

Question 176

what happens to enzymes below their optimum temperature?

Answer 176

enzyme activity decreases

Question 177

what happens when the body temperature changes?

Answer 177

the thermoregulatory centre reverts the body temperature back to 37°C

Question 178

where is the thermoregulatory centre?

Answer 178

in the hypothalamus

Question 179

how does the thermoregulatory centre work?

Answer 179

it contains receptors that are sensitive to blood temperature in the brain and it receives impulses from nerve endings in the skin which provide information about the external temperature. these nerve endings are in the dermis and epidermis.

Question 180

how does thermoregulation work when you are too hot?

Answer 180

• the erector muscles relax so the hairs on the skin lie flat so there is not an insulating layer of air
• lots of sweat (containing water and salt) is produced pub the sweat glands in the dermis. Sweat is released onto the skin and when the sweat evaporates energy is transferred from the skin to the environment, cooling the body down.
• the blood vessels near the surface of the skin dilate, resulting in more blood flow near the skin surface so more energy is transferred to the surroundings. This is vasodilation.

Question 181

how does thermoregulation work when you are too cold?

Answer 181

• the erector muscles contract and the hairs stand upright on the skin to form an insulating layer of air
• little sweat is produced
• blood vessels near the surface of the skin constrict, resulting in less blood flow near the skin surface so less energy is transferred to the surroundings. this is vasoconstriction
• shivering is your muscles contracting automatically, increasing the rate of respiration, this transfers energy to warm the body.

Question 182

what structures in the skin used for thermoregulation are in the epidermis?

Answer 182

the sweat pore and hair

Question 183

what structures in the skin used for thermoregulation are in the dermis?

Answer 183

sweat gland, blood vessels, fat layer, temperature receptors, oil gland and hair erector muscle

Question 184

how can the body gain heat apart from processes involved in thermoregulation?

Answer 184

exercise generates heat because muscles need to respire to contract more and wearing more clothes insulates the body

Question 185

how can the body lose heat apart from by processes involved in thermoregulation?

Answer 185

wearing fewer clothes allows heat loss

Question 186

why is osmoregulation important?

Answer 186

to keep cells functioning properly, containing the correct amounts of water

Question 187

what happens to cells if the blood contains too much water?

Answer 187

if the concentration of water in the blood is too high then water will move into the body’s cells by osmosis (from an area of higher water potential to an area of lower water potential). if too much water moves into the cells the cells will undergo lysis (burst), animal cells burst when they contain too much water because they don’t have a rigid cell wall (unlike plant cells)

Question 188

what happens to cells if the blood contains too little water?

Answer 188

if the concentration of water in the blood is too low then water will move out of the cells into the blood by osmosis (from an area of higher water potential to an area of lower water potential), when the water starts move from the cells the cells will shrink.

Question 189

what are the three main roles of the kidneys in the urinary system?

Answer 189

• removal of urea from the blood
• adjustment of ion levels in the blood
• adjustment of water content of the blood

Question 190

how are the structures of the nephron in animals living in drought conditions different to that of humans?

Answer 190

they have a longer Loop of Henle to absorb more water

Question 191

what concentration of salts and glucose does dialysis fluid have?

Answer 191

the same concentration of salts and glucose as blood plasma so glucose and salts are removed from the patient’s blood in dialysis

Question 192

if the thyroid is overactive what physically happens to it?

Answer 192

becomes enlarged and increases in size to form a goiter (like a large lump in the neck where the thyroid is)

Question 193

if the thyroid gland is underactive what physically happens to it?

Answer 193

it decreases in size

Question 194

what are some issues to be considered with surrogacy as an infertility treatment?

Answer 194

• difficultly making mother and baby bond
• baby is not genetically linked to one or both of the parents
• it is difficult to find a surrogate mother
• the surrogate mother may not wish to give up the baby
• health issues / genetic disorders

Question 195

what is one of testosterone’s target organs?

Answer 195

the bones

Question 196

what are the target organs for insulin?

Answer 196

the liver and muscles

Question 197

why would using some sort of blood glucose monitor help someone with type 1 diabetes?

Answer 197

• it would help them determine the exact dose of insulin needed
• the monitor would track the long-term effects of diabetes
• the data would allow patients to understand their condition better
• the data would be useful to health professionals

Question 198

approximately how long do kidney transplant patients have to wait for a kidney for the transplant?

Answer 198

approximately 2 to 3 years

Question 199

what does the patient need to do after a kidney transplant?

Answer 199

they must take immunosuppressants for the rest of their life to stop the immune system from attacking the kidney and rejecting it.

also lifestyle changes: no smoking, regular exercise, reducing alcohol intake, not taking drugs, having a healthy diet (avoiding foods with a high level of salt which could increase blood pressure) and avoiding foods with a high risk of food poisoning because the immune system will be weaker due to the immunosuppressants

Question 200

how long does a transplanted kidney last for?

Answer 200

on average:
95% last 1 year
85%-90% last 5 years
75% last 10 years