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Transcript
THE PHYSIOLOGICAL APPROACH Lecture 3 Early history & Parallels with technology • Aristotle Early history & Parallels with technology • Aristotle • Galen Early history & Parallels with technology • Aristotle • Galen • Descartes Early history & Parallels with technology • • • • Aristotle Galen Descartes Mueller Early history & Parallels with technology • • • • Aristotle Galen Descartes Mueller Neurons & Electrical Signals • Johannes Mueller (1842): – Doctrine of specific nerve energies: perceptions depend on “nerve energies” reaching the brain and that the specific quality we experience depends on which nerves are stimulated The neuron Flow of information The neuron Recording electrical signals in neurons Recording electrical signals in neurons Recording electrical signals in neurons Recording electrical signals in neurons Recording electrical signals in neurons The resting membrane potential OUTSIDE INSIDE Na+ Na+ K+ Na+ Na+ K+ K+ Na+ K+ K+ K+ Na+ Na+ OUTSIDE K+ Na+ K+ Na+ Na+ Na+ The resting membrane potential OUTSIDE INSIDE Na+ Na+ Na+ K+ K+ K+ K+ Na+ Na+ K+ Na+ Na+ OUTSIDE K+ Na+ K+ K+ Na+ Na+ Na+ What accounts for activity states? • Electrostatic force • Chemical diffusion • Selectively permeable membranes Electrostatic force & Chemical diffusion Selectively permeable membranes The action potential: defined • Action potential: brief propagated changes in neuronal polarization that travel rapidly along the axon • Depolarization: decreased negativity inside the neuron • Threshold: a stimulus intensity just adequate to trigger an action potential • All-or-none property: changing stimulus intensity does not affect action potential size but does affect rate of firing The action potential OUTSIDE INSIDE Na+ Na+ K+ Na+ K+ Na+ K+ K+ Na+ K+ K+ Na+ K+ Resting membrane potential at potassium equilibrium (-70mV) The action potential OUTSIDE K+ Na+ Na+ + INSIDE + K+ + Na + K Na Na Na+Na+ + + K K+ Na+ K+ K +40 Sodium flows into the axon Depolarizes to -40 mV, or threshold Action potential results - 40 The action potential K+ OUTSIDE INSIDE K+ Na+ Na+ K+ K+ K+ Na+ K+ Na+ Na+ Na+ K+ Na+ channels inactivate (absolute refractory period) – completely unresponsive to a second stimulus Potassium flows out of the axon The action potential K+ OUTSIDE INSIDE K+ Na+ Na+ K+ + + K K K+ Na+ Na+ Na+ Na+ K+ Potassium continues to flows out of the axon (relative refractory period) The action potential OUTSIDE INSIDE Na+ Na+ K+ Na+ K+ Na+ K+ K+ Na+ K+ K+ K+ Resting membrane potential: back at potassium equilibrium (-70 mV) Na+ The synapse Chemical & electrical events at the synapse Presynaptic terminal Postsynaptic spine Excitatory & inhibitory input affect firing rate excitatory input inhibitory input Excitatory & inhibitory input affect firing rate excitatory input inhibitory input Excitatory & inhibitory input affect firing rate excitatory input inhibitory input Excitatory & inhibitory input affect firing rate excitatory input inhibitory input Basic Structure of the Brain Localization of function in the brain Localization of function in the brain Franz Joseph Gall (1796)
