Bioelectricity& Excitable Tissue

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Transcript of Bioelectricity& Excitable Tissue

BIOELECTRICITY AND EXCITABLE TISSUE

THE ORIGIN OF BIOELECTRICITY AND HOW NERVES WORK

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THE RESTING CELL

HIGH POTASSIUMLOW SODIUMNA/K ATPASE PUMP RESTING POTENTIAL ABOUT 90

- 120 MVOSMOTICALLY BALANCED

(CONSTANT VOLUME)

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BIOELECTRICITY

THE ORIGIN OF THE MEMBRANE POTENTIAL

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MOBILITY OF IONS DEPENDS ON HYDRATED SIZE

IONS WITH SMALLER CRYSTAL RADIUS HAVE A HIGHER CHARGE DENSITY

THE HIGHER CHARGE DENSITY ATTRACTS MORE WATER OF HYDRATION

THUS THE SMALLER THE CRYSTAL RADIUS, THE LOWER THE MOBILITY IN WATER

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IONS MOVE WITH THEIR HYDRATION SHELLS

- +- +- +

- +

Hydration Shells

- +

- +

-

+

- +

- +- +

-

+

-

+

- +

- +-

+

-

+

- +

- +

- +

- +

- +

- +

- + -

+

- +

- +

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ELECTRONEUTRAL DIFFUSSION

HIGH SALT CONCEMTRATION

LOW SALT CONCEMTRATION

+

-

BARRIER SEPARATES THE TWO SOLUTIONS

+

-+

-

+

-+

-+

-

+

-

+

-www.freelivedoctor.com

ELECTRONEUTRAL DIFFUSSION

HIGH SALT CONCEMTRATION

LOW SALT CONCEMTRATION

+

-

BARRIER REMOVED

+

-

+

-

+

-+

-+

-+

-

+-

+ -

CHARGE SEPARATION = ELECTRICAL POTENTIALwww.freelivedoctor.com

ELECTRICAL POTENTIAL=CHARGE SEPARATION

In water, without a membrane hydrated Chloride is smaller than hydrated Sodium, therefore faster:

Cl-

Na+

The resulting separation of charge is called an ELECTRICAL POTENTIAL

+ -

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THE MEMBRANE POTENTIAL

MEMBRANE

ExtracellularFluid

IntracellularFluid

Na+

K+

Sodium channel is less open causing sodium to be slower

Potassium channel is more open causing potassium to be faster + - MEMRANE POTENTIAL

(ABOUT 90 -120 mv)www.freelivedoctor.com

THE ORIGIN OF BIOELECTRICITY

POTASSIUM CHANNELS ALLOW HIGH MOBILITY

SODIUM CHANNELS LESS OPENCHARGE SEPARATION OCCURS

UNTIL BOTH MOVE AT SAME SPEED STEADY STEADY IS ACHIEVED

WITH A CONSTANT MEMBRANE POTENTIAL

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THE RESTING CELL

HIGH POTASSIUMLOW SODIUMNA/K ATPASE PUMP RESTING POTENTIAL ABOUT 90

- 120 MVOSMOTICALLY BALANCED

(CONSTANT VOLUME)www.freelivedoctor.com

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ACTIVE TRANSPORT

ADP

ATP

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ACTIVE TRANSPORT REQUIRES AN INPUT OF ENERGY

USUALLY IN THE FORM OF ATPATPase IS INVOLVEDSOME ASYMMETRY IS

NECESSARYCAN PUMP UPHILL

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EXCITABLE TISSUES

NERVE AND MUSCLEVOLTAGE GATED CHANNELSDEPOLARIZATION LESS THAN

THRESHOLD IS GRADEDDEPOLARIZATION BEYOND

THRESHOLD LEADS TO ACTION POTENTIAL

ACTION POTENTIAL IS ALL OR NONE

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THE NERVE CELL

CELLBODY

DENDRITES

AXON

AXONHILLOCK

AXONTERMINALS

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EXCITABLE TISSUES:THE ACTION POTENTIAL

THE MEMBRANE USES VOLTAGE GATED CHANNELS TO SWITCH FROM A POTASSIUM DOMINATED TO A SODIUM DOMINATED POTENTIAL

IT THEN INACTIVATES AND RETURNS TO THE RESTING STATE

THE RESPONSE IS “ALL OR NONE”

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FOR EACH CONCENTRATION DIFFERENCE ACROSS THE MEMBRANE THERE IS AN ELECTRIC POTENTIAL DIFFERENCE WHICH WILL PRODUCE EQUILIBRIUM.

AT EQUILIBRIUM NO NET ION FLOW OCCURS

EQUILIBRIUM POTENTIALS FOR IONS

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THE EQUILIBRIUM MEMBRANE POTENTIAL FOR POTASSIUM IS -90 mV

+ -CONCENTRATION

POTENTIALK+ K+

INwww.freelivedoctor.com

THE EQUILIBRIUM MEMBRANE POTENTIAL FOR SODIUM IS + 60 mV

Na+Na+

+-CONCENTRATION

POTENTIAL

INOUT

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THE RESTING POTENTIAL IS NEAR THE POTASSIUM EQUILIBRIUM POTENTIAL

AT REST THE POTASSIUM CHANNELS ARE MORE OPEN AND THE POTASSIUM IONS MAKE THE INSIDE OF THE CELL NEGATIVE

THE SODIUM CHANNELS ARE MORE CLOSED AND THE SODIUM MOVES SLOWER

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EVENTS DURING EXCITATION

DEPOLARIZATION EXCEEDS THRESHOLDSODIUM CHANNELS OPENMEMBRANE POTENTIAL SHIFTS FROM

POTASSIUM CONTROLLED (-90 MV) TO SODIUM CONTROLLED (+60 MV)

AS MEMBRANE POTENTIAL REACHES THE SODIUM POTENTIAL, THE SODIUM CHANNELS CLOSE AND ARE INACTIVATED

POTASSIUM CHANNELS OPEN TO

REPOLARIZE THE MEMBRANE www.freelivedoctor.com

OPENING THE SODIUM CHANNELS ALLOWS SODIUM TO RUSH IN

THE MEMBRANE DEPOLARIZES AND THEN THE MEMBRANE POTENTIAL APPROACHES THE SODIUM EQUILIBRIUM POTENTIAL

THIS RADICAL CHANGE IN MEMBRANE POTENTIAL CAUSES THE SODIUM CHANNELS TO CLOSE (INACTIVATION) AND THE POTASSIUM CHANNELS TO OPEN REPOLARIZING THE MEMBRANE

THERE IS A SLIGHT OVERSHOOT (HYPERPOLARIZATION) DUE TO THE POTASSIUM CHANNELS BEING MORE OPEN

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GRADED VS ALL OR NONE

A RECEPTOR’S RESPONSE TO A STIMULUS IS GRADED

IF THRESHOLD IS EXCEEDED, THE ACTION POTENTIAL RESULTING IS ALL OR NONE

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PROPAGATION OF THE ACTION POTENTIAL

+++++

--------

---------------------

+++++++++++++AXON MEMBRANE

INSIDE

OUTSIDEACTION POTENTIAL

DEPOLARIZINGCURRENT

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PROPAGATION OF THE ACTION POTENTIAL

+++++

--------

---------------------

+++++++++++++AXON MEMBRANE

INSIDE

OUTSIDEACTION POTENTIAL

DEPOLARIZINGCURRENT

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PROPAGATION OF THE ACTION POTENTIAL

--+++

++------

+++------------------

---++++++++++AXON MEMBRANE

INSIDE

OUTSIDEACTION POTENTIAL

DEPOLARIZINGCURRENT

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PROPAGATION OF THE ACTION POTENTIAL

--------

+++++

++++++-------

-----------++++AXON MEMBRANE

INSIDE

OUTSIDEACTION POTENTIAL

DEPOLARIZINGCURRENTwww.freelivedoctor.com

SALTATORY CONDUCTION

+++++

--------

--------

+++++AXON MEMBRANE

INSIDE

OUTSIDEACTION POTENTIAL

DEPOLARIZINGCURRENT

MYELINNODE OFRANVIER

NODE OFRANVIER

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NORMALLY A NERVE IS EXCITED BY A SYNAPSE OR BY A RECEPTOR

MANY NERVES SYNAPSE ON ANY GIVEN NERVE

RECEPTORS HAVE GENERATOR POTENTIALS WHICH ARE GRADED

IN EITHER CASE WHEN THE NERVE IS DEPOLARIZED BEYOND THRESHOLD IT FIRE AN ALL-OR-NONE ACTION POTENTIAL AT THE FIRST NODE OF RANVIER

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THE SYNAPSE

JUNCTION BETWEEN TWO NEURONSCHEMICAL TRANSMITTERMAY BE 100,000 ON A SINGLE CNS

NEURONSPATIAL AND TEMPORAL

SUMMATIONCAN BE EXCITATORY OR INHIBITORY

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THE SYNAPSE

SYNAPTICVESSICLES

•••

•••

••• •••

•••

•••

•••

•••

•••

INCOMINGACTION POTENTIAL

CALCIUM CHANNEL

IONCHANNEL

RECEPTOR

ENZYMEwww.freelivedoctor.com

THE SYNAPSE

SYNAPTICVESSICLES

•••

•••

••• •••

•••

•••

•••

•••

•••

INCOMINGACTION POTENTIAL

CALCIUM CHANNEL

IONCHANNEL

RECEPTOR

ENZYMEwww.freelivedoctor.com

THE SYNAPSE

SYNAPTICVESSICLES

•••

•••

••• •••

•••

•••

•••

•••

•••

INCOMINGACTION POTENTIAL

CALCIUM CHANNEL

IONCHANNEL

RECEPTOR

ENZYMEwww.freelivedoctor.com

THE SYNAPSE

SYNAPTICVESSICLES

•••

•••

•••

•••

•••

•••

•••

•••

•••

CALCIUM CHANNEL

IONCHANNEL

RECEPTOR

ENZYMEwww.freelivedoctor.com

THE SYNAPSE

SYNAPTICVESSICLES

•••

••• •••

•••

•••

•••

•••

•••

•••

CALCIUM CHANNEL

IONCHANNEL

RECEPTOR

ENZYME

•••

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THE SYNAPSE

SYNAPTICVESSICLES

•••

•••

••• •••

•••

•••

•••

•••

•••

CALCIUM CHANNEL

IONCHANNEL

RECEPTOR

ENZYMEwww.freelivedoctor.com

THE SYNAPSE

SYNAPTICVESSICLES

•••

••• ••• •••

•••

•••

•••

•••

•••

CALCIUM CHANNEL

IONCHANNEL

RECEPTOR

ENZYMEwww.freelivedoctor.com

POSTSYNAPTIC POTENTIALS

RESTINGPOTENTIAL

IPSP EPSP

TIMEwww.freelivedoctor.com

TEMPORAL SUMMATION

TIME

TOO FAR APART IN TIME:NO SUMMATION

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TEMPORAL SUMMATION

TIME

CLOSER IN TIME: SUMMATION BUT BELOW THRESHOLD

THRESHOLD

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TEMPORAL SUMMATION

TIME

STILL CLOSER IN TIME: ABOVETHRESHOLD

THRESHOLD

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SPATIAL SUMMATION

TIME

SIMULTANEOUSINPUT FROM TWOSYNAPSES: ABOVETHRESHOLD

THRESHOLD

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EPSP-IPSP CANCELLATION

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NEURO TRANSMITTERS

ACETYL CHOLINEDOPAMINENOREPINEPHRIN

EEPINEPHRINESEROTONIN

HISTAMINEGLYCINEGLUTAMINEGAMMA-

AMINOBUTYRIC ACID (GABA)

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