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hippocampal LFP and single unit recording: sequences - Coggle Diagram

- - - - occurs when moving and REM phase of sleep
      - 8-12 Hz, pair with animal moving
      - one theory: it serves as clock
      - has peaks and traps. but some labs flip LFP and some don't, so be careful when comparing
    - - during rest
  - - - larger density
      - slower: graded potential
    - - difficult to classify different neurons
    - - multi-site probes or electrodes can deduce the position of different neurons
    - - theta phase precession
        
        theta wave: a large population of cells fire occasionally form synchronous wavelike voltage oscillations
        
        Although the occasional action potentials of cells when rats were outside of the place fields occurred in phase with (at the peaks of) the theta waves, the bursts of more rapid spikes elicited when the rats reached the place fields were out of synchrony with the oscillation. As a rat approached the place field, the corresponding place cell would fire slightly in advance of the theta wave peak. As the rat moved closer and closer, each successive action potential occurred earlier and earlier within the wave cycle. At the center of the place field, when the cell would fire at its maximal rate, the firing had been advanced sufficiently to be anti-phase to the theta potential (at the bottom, rather than at the peak, of the theta waveform). Then, as the rat continued to move on past the place field and the cell firing slowed, the action potentials continued to occur progressively earlier relative to the theta wave, until they again became synchronous with the wave, aligned now with one wave peak earlier than before.