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Opportunity to Participate

Opportunity to Participate. EEG studies of vision/hearing/decision making – takes about 2 hours Sign up at www.tatalab.ca Keep checking back there for more time slots Two extra points added to your final grade!. Functional Imaging.

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Opportunity to Participate

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  1. Opportunity to Participate • EEG studies of vision/hearing/decision making – takes about 2 hours • Sign up at www.tatalab.ca • Keep checking back there for more time slots • Two extra points added to your final grade!

  2. Functional Imaging • blood flow overshoots baseline after a brain region is activated • More oxygenated blood in that region increases MR signal from that region

  3. Experimental Design in fMRI • A voxel in tissue that responds to the task shows signal change that matches the timecourse of the stimulus Signal Active Rest Active Rest 60 sec 60 sec 60 sec 60 sec

  4. Experimental Design in fMRI • A real example of fMRI block design done well: • alternate moving, blank and stationary visual input Moving Blank Stationary Blank 40 sec 40 sec 40 sec 40 sec

  5. Experimental Design in fMRI • Voxels in Primary cortex tracked all stimuli

  6. Experimental Design in fMRI • Voxels in area MT tracked only the onset of motion

  7. Experimental Design in fMRI • Voxels in area MT tracked only the onset of motion • How did they know to look in area MT?

  8. PET: another way to measure blood Oxygenation • Positron Emission Tomography (PET) • Injects a radioisotope of oxygen • PET scanner detects the concentration of this isotope as it decays

  9. Advantages of fMRI • Advantages of MRI: • Most hospitals have MRI scanners that can be used for fMRI (PET is rare) • Better spatial resolution in fMRI than PET • Structural MRI is usually needed anyway • No radioactivity in MRI • Better temporal resolution in MRI

  10. Advantages of PET • Advantages of PET: • Quiet • A number of different molecules can be labeled and imaged in the body

  11. Limitations of fMRI • All techniques have constraints and limitations • A good scientist is careful to interpret data within those constraints

  12. Limitations of fMRI • Limitations of MRI and PET: • BOLD signal change does not necessarily mean a region was specifically engaged in a cognitive operation • Poor temporal resolution - depends on slow changes in blood flow • expensive

  13. Electrophysiology

  14. Neurons are Electrical • Remember that Neurons have electrically charged membranes • they also rapidly discharge and recharge those membranes (graded potentials and action potentials) • Review relevant textbook sections if this isn’t familiar to you

  15. Neurons are Electrical • Importantly, we think the electrical signals are fundamental to brain function, so it makes sense that we should try to directly measure these signals • but how?

  16. Intracranial and “single” Unit • Single or multiple electrodes are inserted into the brain • “chronic” implant may be left in place for long periods

  17. Intracranial and “single” Unit • Single electrodes may pick up action potentials from a single cell • An electrode may pick up thecombined activity from several nearby cells • spike-sorting attempts to isolate individual cells

  18. Intracranial and “single” Unit • Simultaneous recording from many electrodes allows recording of multiple cells

  19. Intracranial and “single” Unit • Output of unit recordings is often depicted as a “spike train” and measured in spikes/second Stimulus on Spikes

  20. Intracranial and “single” Unit • Output of unit recordings is often depicted as a “spike train” and measured in spikes/second • Spike rate is almost never zero, even without sensory input • in visual cortex this gives rise to “cortical grey” Stimulus on Spikes

  21. Intracranial and “single” Unit • By carefully associating changes in spike rate with sensory stimuli or cognitive task, one can map the functional circuitry of one or more brain regions

  22. Subdural Grid • Intracranial electrodes typically cannot be used in human studies

  23. Subdural Grid • Intracranial electrodes typically cannot be used in human studies • It is possible to record from the cortical surface Subdural grid on surface of Human cortex

  24. Electroencephalography and the Event-Related Potential • Could you measure these electric fields without inserting electrodes through the skull?

  25. Electroencephalography and the Event-Related Potential • 1929 – first measurement of brain electrical activity from scalp electrodes (Berger, 1929)

  26. Electroencephalography and the Event-Related Potential Voltage Time • Place an electrode on the scalp and another one somewhere else on the body • Amplify the signal to record the voltage difference across these electrodes • Keep a running measurement of how that voltage changes over time • This is the human EEG

  27. Electroencephalography and the Event-Related Potential • 1929 – first measurement of brain electrical activity from scalp electrodes (Berger, 1929) • Believed to be artifactual and/or of no significance • Currently Google Scholar search for “human EEG” returns “about 383,000” hits • That’s about 13 papers per day

  28. Electroencephalography • pyramidal cells span layers of cortex and have parallel cell bodies • their combined extracellular field is small but measurable at the scalp!

  29. Electroencephalography • The field generated by a patch of cortex can be modeled as a single equivalent dipolar current source with some orientation (assumed to be perpendicular to cortical surface) Duracell

  30. Electroencephalography • Electrical potential is usually measured at many sites on the head surface • More is sometimes better

  31. Electroencephalography • EEG changes with various states and in response to stimuli

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