Topic 7- Animal Coordination, Control And Homeostasis

Question 1

Hormones

Answer 1

Chemicals released directly into the blood affecting particular cells in target organs to control organs/cells need for constant adjustment.

Question 2

What system is involved in the secretion of hormones?

Answer 2

The endocrine system

Question 3

What glands produce hormones?

Answer 3

Endocrine glands

Question 4

Examples of endocrine glands

Answer 4

The pituitary gland
Thyroid gland
Adrenal glands
Ovaries
Testes
Pancreas

Question 5

Pituitary gland

Location and function

Answer 5

Located in brain
master gland
Produce many hormones regulating body conditions and acting on other glands to release hormones that bring about change.

Question 6

Thyroid gland

What does it produce?

Answer 6

THYROXINE (controlling metabolism, heart rate, temperature)

Question 7

Ovaries

What do they produce?

Answer 7

OESTROGEN (involved in menstrual cycle)

Question 8

Testes

What does it produce?

Answer 8

TESTOSTERONE (controls puberty and sperm production)

Question 9

Adrenal glands

What does it produce?

Answer 9

ADRENALINE (prepares body for ‘fight or flight’ response)

Question 10

pancreas

What does it produce?

Answer 10

INSULIN (regulates blood glucose levels)

Question 11

Difference between hormones and neurones

Answer 11

Neurones = fast while hormones = slow action
Neurones= short time while hormones= long lasting
Neurones act on precise area while hormones act in a general area

Question 12

Where are adrenal glands located?

Answer 12

Just above kidneys.

Question 13

How does adrenaline prepare your body for, ‘flight/fight’?

Answer 13

Binds to specific heart receptors, causing heart muscle to contract more frequently w more force so heart rate/blood pressure increase.
Increases blood flow to muscles (more oxygen/glucose for respiration)
Also binds to receptors in liver, causing liver to break down glycogen stores and release glucose, increasing blood glucose level

Question 14

What does your brain do when it detects a stressful situation

Answer 14

Sends nervous impulses to the adrenal glands which secrete adrenaline.

Question 15

How does the body uses negative feedback systems?

Answer 15

When it detects a substance level has gone above/below the normal level, it triggers a response to bring the level back to normal again.

Question 16

Metabolic rate

Answer 16

The speed at which chemical reactions in the body occur.

Question 17

What happens when your blood thyroxine level is lower than normal?

Answer 17

The hypothalamus is stimulated to release THYROTROPIN RELEASING HORMONE.

Question 18

What does thyrotropin releasing hormone do?

Answer 18

Stimulates the pituitary gland to produce thyroid stimulating hormone which stimulates the thyroid gland to release thyroxine so the thyroxine level rises back to normal.

Question 19

What happens when the blood thyroxine levels are higher than normal?

Answer 19

TRH production in the hypothalamus is inhibited .

Question 20

The menstrual cycle

Answer 20

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

Question 21

Stage 1 of menstrual cycle

Answer 21

Uterus lining breaks down and is released

Question 22

Uterus lining

Answer 22

Endometrium

Question 23

Stage 2 of menstrual cycle

Answer 23

Uterus lining is repaired (day 4 to 14)

Until becomes spongy layer of blood vessels ready for fertilised egg to implant there.

Question 24

Stage 3 of menstrual cycle

Answer 24

Egg develops and is released from ovary
Ovulation
Day 14

Question 25

Stage 4 of menstrual cycle

Answer 25

Lining is maintained until day 28 (w no fertilised egg)
Spongy lining breaks down again
Whole cycle repeats

Question 26

4 hormones controlling menstrual cycle

Answer 26

FSH (follicle stimulating hormone)
Oestrogen
LH (luteinising hormone)
Progesterone

Question 27

Where’s follicle stimulating hormone produced ?

Function?

Answer 27

Pituitary gland

Causes a follicle to mature in ovaries and stimulates oestrogen production.

Question 28

Follicle

Answer 28

An egg and its surrounding cells

Question 29

Where’s oestrogen released?

Function?

Answer 29

Released by ovaries
Causes uterus lining to thicken / grow
Stimulates LH surge

Question 30

Where’s luteinising hormone released?

Function?

Answer 30

Pituitary gland
Stimulates ovulation at day 14 so follicle ruptures and egg is released.
Stimulates remains of follicle to be a corpus luteum (secretes progesterone)

Question 31

Where’s progesterone released?

Answer 31

Corpus Luteum (after ovulation )
Maintains uterus lining/ inhibits release of FSH and LH
Fall in progesterone levels = endometrium breakdown = FSH increase

Question 32

What will happen to progesterone levels if a fertilised egg implants in the uterus?

Answer 32

Progesterone levels will stay high to maintain endometrium during pregnancy

Question 33

Infertile

Answer 33

Unable to reproduce naturally

Question 34

2 ways in which an infertile couple can become pregnant

Answer 34

Clomifene therapy

IVF (in vitro fertilisation)

Question 35

Clomifene therapy

Answer 35

Drug causing more FSH/ LH release, stimulating egg maturation/ovulation.

Question 36

IVF

Answer 36

Collecting eggs and lab fertilising them w sperm, growing into embryos.
Transferred to uterus to improve pregnancy chance. FSH/LH given before to stimulate egg production.
Example of assisted reproductive technology

Question 37

Assisted reproductive technology

Answer 37

Fertility treatment involving egg fertilisation outside of body.

Question 38

Contraceptives

Answer 38

Hormones (eg, progesterone/ oestrogen) to prevent egg release, minipill, injection, patch or barrier methods (condoms/diaphragms )

Question 39

How does oestrogen contraceptive work?

Answer 39

Keeps levels high to inhibit FSH production so egg development/production stops

Question 40

How does progesterone hormone work?

Answer 40

Stimulates thick cervical mucus production, preventing sperm getting through uterus entrance.

Question 41

What does the combined pill and patch contain?

Answer 41

Oestrogen and progesterone

Question 42

What does the mini pill/ injection contain?

Answer 42

Progesterone

Question 43

Pros of hormonal contraceptive methods

Answer 43

More effective at preventing pregnancy.

Don’t have to worry about contraception each time before sex.

Question 44

Cons of hormonal contraceptive methods

Answer 44

Can have bad side effects (headaches, acne and mood changes)

Don’t protect against STI’s

Question 45

Homeostasis

Answer 45

Maintaining a constant internal environment. Meaning the body needs to respond to both internal/external changes whilst balancing inputs with outputs.

Question 46

Why is homeostasis important?

Answer 46

Cells need the right conditions in order to function properly, including enzyme action.
Is dangerous if conditions vary too much from normal.

Question 47

Examples of homeostasis

Answer 47

Osmoregulation
Thermoregulation
Blood glucose regulation

Question 48

Osmoregulation

Answer 48

Regulation of water content

Balancing water input w water output.

Question 49

Thermoregulation

Answer 49

Process your body uses to keep its internal temperature steady.

Question 50

Blood glucose regulation

Answer 50

So amount of glucose in blood doesn’t get too high/low.

Question 51

Negative feedback systems in homeostasis

Answer 51

If condition changes away from normal level, response triggered to counteract change.

Question 52

What controls blood glucose concentration

Answer 52

Insulin/glucagon

Question 53

What puts glucose into the blood, from where?

Answer 53

Carbohydrates

From small intestine

Question 54

What removes glucose from the blood?

Answer 54

Metabolism of cells

Vigorous exercise

Question 55

Where’s excess glucose stored?

Answer 55

As glycogen in liver/muscles.

When stores are full, stored as lipid in tissues.

Question 56

What monitors changes changes in blood glucose ?

Answer 56

Pancreas

Using insulin/glucagon

Question 57

What happens when blood glucose concentration is too high?

Answer 57

Insulin is added from pancreas

Insulin pushes blood into liver to turn into glycogen for muscles/liver

Question 58

What happens when blood glucose concentration is too low?

Answer 58

Glucagon is secreted from pancreas

Makes live turn glycogen to glucose

Question 59

Type 1 diabetes

Answer 59

Condition where the pancreas produces too little/no insulin, resulting in a person’s blood glucose rising to a level that can kill them.

Question 60

How are type 1 diabetics treated?

Answer 60

Using insulin therapy (injecting insulin in blood)

After meals so glucose is reduced quick after meal digestion.

Question 61

Where is insulin usually injected?

Answer 61

Into subcutaneous tissue (fatty tissue under skin)

Question 62

What does the amount of insulin injected depend on?

Answer 62

A person’s diet/activity

Question 63

What do type 1 diabetics have to do

Answer 63

Limit simple carbohydrates intake

Take regular exercise

Question 64

Type 2 diabetes

Answer 64

Condition where pancreas doesn’t produce enough insulin or when a person becomes resistant to insulin, causing blood glucose levels to rise.

Question 65

BMI

Answer 65

weight(kg)/ height (m) squared

Obesity correlates w diabetes

Question 66

Waist to hip ratio

Answer 66

Waist circumference (cm)/hip circumference (cm)

Question 67

Male / female abdominal obesity measures

Answer 67

Above 1 for men and 0.85 for women

Question 68

What can type 2 diabetes be controlled by?

Answer 68

Healthy diet
Regular exercise
Weight loss
Medication
Insulin shots

Question 69

What temp do enzymes in the human body work best at?

Answer 69

37 °C
Below, enzyme activity slows down
Above, enzymes start to denature so they can’t work

Question 70

Where’s the thermoregulatory centre?

Answer 70

hypothalamus

Question 71

How does the thermoregulatory centre work?

Answer 71

Contains receptors sensitive to blood temperature in brain

Receives impulses from skin receptors in the epidermis/ dermis, providing info on the external temperature

Question 72

Where are skin receptors?

Answer 72

In the epidermis (outer-layer of skin)

Dermis (deeper layer of skin just below epidermis)

Question 73

What happens when you are too hot?
Erector muscles?
Sweat glands?
Blood vessels?

Answer 73

Erector muscles RELAX (hairs lie flat)
Sweat forms in sweat glands released onto surface of skin through epidermis pores, evaporates to transfer energy from skin to environment.
Blood vessels near skin dilate (vasodilation) to allow more blood to flow near surface to transfer energy to surroundings.

Question 74

Sweat

Answer 74

Water and salts

Question 75

What happens when you are too cold?

Answer 75

Erector muscles CONTRACT (hairs stand up to trap insulating layer of air near skin surface)
V little sweat is produced.
Skin blood vessels constrict (vasoconstriction) so less blood flows near surface to transfer heat.
You also shiver (automatic muscle contractions) to increase respiration rate to transfer more energy to warm body

Question 76

What will happen if there’s a too high concentration of water in the blood?

Answer 76

Water will move into the body cells via osmosis, too much will cause them to burst.

Question 77

What happens if water concentration in the blood is too low?

Answer 77

The water will move out of the cells into the blood via osmosis, causing the cell to shrink.

Question 78

What organ helps to regulate water content?

Answer 78

The kidneys regulate how much water is reabsorbed/lost through urine.

Question 79

Why do animal cells burst when they contain too much water?

Answer 79

They don’t have a rigid cell wall, unlike plant cells which become turgid instead.

Question 80

What are the three main roles of kidneys?

Answer 80

Removal of urea from blood
Ion level adjustment in blood
Water content adjustment in blood

Question 81

What’s urea?

Answer 81

Excess amino acids broken down in the liver

Question 82

How do kidneys carry out their functions?

Answer 82

By filtering out things from the blood in high pressure and then reabsorbing useful things.
End product = urine

Question 83

What does the urinary system consist of?

Answer 83

Renal artery/vein
Right/left kidney
Ureter
Bladder
Urethra

Question 84

Nephron

Answer 84

Filtration units in kidneys

Question 85

What happens in each nephron while they filter things out of the blood?

Answer 85

Liquid blood is forced out of glomerulus into Bowman’s capsule at high pressure (ultrafiltration).
Bigger molecules/blood cells can’t pass through membranes so aren’t forced out.

Question 86

Liquid part of blood

Answer 86

Water, urea, ions and glucose

Question 87

Ultrafiltration

Answer 87

Liquid blood being forced out of glomerulus into Bowman’s capsule at high pressure while bigger molecules can’t pass through.

Question 88

What happens during reabsorption at the nephron?

Answer 88

Glucose is selectively reabsorbed back into blood against gradient.
Sufficient ions are reabsorbed
Sufficient water is reabsorbed according to ADH hormone

Question 89

What controls reabsorption of water?

Where does this occur?

Answer 89

ADH hormone

In the henle

Question 90

Why do animals in droughts have longer loops of henle?

Answer 90

To reabsorb more water

Question 91

What happens to whatever isn’t reabsorbed?

Answer 91

It continues out of the nephron via the collecting duct, passes into ureter and down to bladder as urine released through urethra

Question 92

What controls water reabsorbed in the kidney nephrons ?

Answer 92

Anti-diuretic hormone (ADH)

Question 93

What releases ADH into the blood?

Answer 93

The pituitary gland

Question 94

How does ADH work ?

Answer 94

Makes collecting ducts of nephrons more permeable so more water reabsorbs into blood.
Stops dehydration
Body

Question 95

Negative feedback system of water content regulation

Answer 95

Water LOSS > brain detection> pituitary gland makes more ADH>ADH means kidney reabsorbs more water.
Water GAIN > brain detection> pituitary gland releases less ADH> less water reabsorbs

Question 96

Function of a dialysis machine

Answer 96

Filters blood, keeping substances at right concentration/removing waste

Question 97

Why aren’t the salts/glucose removed from the blood during dialysis?

Answer 97

Dialysis fluid is the same concentration of salts and glucose as blood plasma.

Question 98

Characteristic of dialysis barrier

Answer 98

Permeable to ions/waste substances but not larger molecules such as proteins.

Question 99

Only cure for kidney disease

Answer 99

A kidney transplant

Question 100

What precautions are taken to prevent rejection to a liver transplant?

Answer 100

Only donors w similar tissue type are chosen.

Patient is treated w drugs to suppress immune system (so won’t attack kidney)