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NERVOUS TISSUE. POLARIZED NEURON Intracellular Environment More Negative -70mV Sodium Potassium Facilitated Exchange Pump Activated Ionic Gates Closed.

Published byFrank Sullivan Modified over 9 years ago

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Presentation on theme: "NERVOUS TISSUE. POLARIZED NEURON Intracellular Environment More Negative -70mV Sodium Potassium Facilitated Exchange Pump Activated Ionic Gates Closed."— Presentation transcript:

1 NERVOUS TISSUE

2 POLARIZED NEURON Intracellular Environment More Negative -70mV Sodium Potassium Facilitated Exchange Pump Activated Ionic Gates Closed Potassium Greater Concentration Inside Sodium Greater Concentration Outside Chloride Greater Concentration Outside

3 DEPOLARIZED NEURON Intracellular Environment Less Negative +30mV Sodium Potassium Facilitated Exchange Pump Deactivated Na+ Gates Open Na+ Ionic Influx Exocytosis of Neurotransmitter

4 FACILITATED TOWARD EXCITATION Intracellular Environment Less Negative -69mV Sodium Potassium Facilitated Exchange Pump Deactivated Na+ Gates Open Na+ Ionic Influx

5 EXCITATORY POST SYNAPTIC POTENTIAL EPSP Intracellular Environment Less Negative -65mV Sodium Potassium Facilitated Exchange Pump Deactivated Na+ Gates Open Na+ Ionic Influx

6 REPOLARIZING NEURON Intracellular Environment Approaches Zero 0mV Sodium Potassium Facilitated Exchange Pump Still Deactivated K+ Gates Open K+ Ionic Out flux Refractory Period

7 INHIBITORY POST SYNAPTIC POTENTIAL IPSP Intracellular Environment More Negative -71mV Sodium Potassium Facilitated Exchange Pump Activated Cl- Gates Open Cl- Ionic Influx

8 SPATIAL SUMMATION Several Presynaptic Neurons Release Simultaneously Post Synaptic Integration Post Synaptic Qualitative Analysis Post Synaptic Quantitative Analysis Post Synaptic Summation

9 TEMPORAL SUMMATION Presynaptic Neuron Releases One Synaptic End Bulb Temporally Post Synaptic Neuron Integration Post Synaptic Qualitative Analysis Post Synaptic Quantative Analysis Post Synaptic Summation

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