1 - excitable membranes lecture

Question 1

what are excitable membranes?

Answer 1

membranes that allow action potentials to occur eg. nerves, skeletal/cardiac muscle etc

Question 2

what is the resting potential usually inside a cell with respect to the outside?

Answer 2

negative

Question 3

what does a resting cell membrane have a high permeability to?

Answer 3

K+ — K+ crosses much more easily than Na+

Question 4

what does the direction of diffusion of uncharged substances depend only on?

Answer 4

conc gradient — move down conc grads

Question 5

what does the direction of diffusion of charged substances depend on?

Answer 5

• conc grad
• electrical gradient

Question 6

how to +ve and -ve ions move according to electrical gradient?

Answer 6

• +ve ions move from +ve to -ve
• -ve ions move from -ve to +ve

Question 7

what is resting potential established by?

Answer 7

K+ conc grad

Question 8

when is equilibrium reached?

Answer 8

when the force produced by the conc grad is equal to the force produced by the electrical gradient

Question 9

why is the membrane potential actually less -ve than the number given by the nernst equation?

Answer 9

Na+ can also cross the membrane

Question 10

what could cause the RP to become less -ve in the cell and why?

Answer 10

kidney failure or tissue damage — K+ released from cells

Question 11

what does ‘all or none’ mean when referring to action potentials?

Answer 11

• APs are all or none
• small (subthreshold) stimulus — no AP
• larger stimulus — AP of a fixed size
• the body codes stimulus intensity by changes of frequency not size of APs

Question 12

larger stimulus = higher ___ of AP

Answer 12

frequency

bigger stimulus = bigger electrical charge in the nerve

Question 13

what underlies the upstroke of the AP?

Answer 13

Na influx

Question 14

how do local anaesthetics work?

Answer 14

inhibit Na channels — blocks nerve AP — blocks pain fibres

Question 15

why does depolarising the cell membrane initiate the AP?

Answer 15

makes the Na+ channels open

Question 16

descirbe the positive feedback of Na and depolarisation?

Answer 16

larger depolarisation makes Na+ channels open — Na+ influx —more depolarisation — more Na channels open — more na enters etc

Question 17

what stops +ve feedback and allows repolarisation to RP?

Answer 17

• inactivation of Na channel
• activation of K channel

Question 18

what does a simple Na channel look like?

Answer 18

Question 19

what is the h gate like at rest? how is it affected by the MP?

Answer 19

it is open — when MP becomes less -ve it closes — stops Na+ entry
- close more slowly than m gate opening

Question 20

describe the time course of permeability changes during AP

Answer 20

Question 21

what is the absolute refractory period?

Answer 21

• no stimulus can provide a big enough AP
• cannot produce an AP
• because Na channels are inactivated

Question 22

absolute vs relative refrac period

Answer 22

Question 23

what does the refractory period result from?

Answer 23

• inactivation of Na channel
• activation of K channel

Question 24

why is conduction velocity lower in multiple sclerosis?

Answer 24

myelin loss

Question 25

descirbe the differences between mammalian (human) nerve fibre types

Answer 25

Question 26

Aa fibre function

Answer 26

motor proprioception

Question 27

AB fibre function

Answer 27

touch pressure

Question 28

Ay fibre function

Answer 28

muscle spindles

Question 29

Ad fibre function

Answer 29

pain, temperature

Question 30

C fibre function

Answer 30

pain

Question 31

what is the link between fibre diameter and sensitivity to local anaesthetics?

Answer 31

larger diameter = decreased sensitivity to local anaestehtics

Question 32

what is the link between large fibre diameter and conduction velocity?

Answer 32

larger diameter = faster conduction velocity