1. Advanced EEG Interpretation��Pitfalls and Caveats Michael Duchowny, M.D.
Director, Comprehensive Epilepsy Program
Miami Childrens Hospital
Professor of Neurology
Miller School of Medicine
University of Miami
michael.duchowny@mch.com
2. Localization of Seizure Foci�Dipole Model Sink-source model of current flow from the neuron through extracellular space.
Field potential measures the net sum of the individual sources and sinks of a large population of neurons.
Dipole layer cortical layer creates a layer with superficial sinks and deep sources.
5. Localization of Seizure Foci�Volume Conduction Volume conduction represents passive (energy-independent) spread of current from a generator through the surrounding media.
Conduction is virtually instantaneous- spikes at different electrodes are recorded instantaneously.
Discharges attenuate with distance but preserve polarity and morphology
6. Localization of Seizure Foci�Cortico-cortical Propagation Cortico-cortical propagation is an active (energy-dependent) process.
Propagated potentials do not attenuate, but are comparatively slower, leading to measurable time differences.
Propagated spikes may differ in morphology and polarity from primary spikes.
7. Recording Techniques�Scalp Electrodes Perimeter electrodes- necessary to determine maximal voltage.
Sensitivity- determined by the depth, extent and orientation of the generator.
Specificity- determined by the surface anatomy ( e.g. skull configuration) and number of electrodes.
8. Recording Techniques�Montage Design
NO PERFECT MONTAGE!
Reference contamination- reference located within the spike field.
Reference-active electrode distance- may lead to attenuation.
Linked-ear reference
Average reference
9. Recording Techniques�Source Derivation Montage Compares activity at each electrode to the average of neighboring electrodes.
Mathematically cancels currents from remote generators flowing tangentially.
Narrows the bell-shaped distribution curve, and thus highlights discrete foci.
10. Recording Techniques�Subtraction Montage Simple montage specifically designed to identify asynchrony of two apparently synchronous spikes of equal amplitude.
Referential derivation- reveals polarity, voltage and morphology of the discharges.
Subtraction derivation- compares the regions to identify asynchrony.
11. Reference Selection No ideal reference- even distant electrodes should never be assumed to be inactive
Non-cephalic options
neck-chest electrode
ring electrode around the neck
Digital EEG with off-line formatting capability- decidedly advantageous
Intracranial EEG recording- subgaleal electrode placed at a distance serves as an adequate reference
12. Interpretation of Patterns�Spikes WHAT TO MEASURE?
Initial or most prominent deflection?
Peak-to-peak or peak-to-baseline measurement?
Morphologic diversity- which spikes are significant?
13. Interpretation of Patterns�Ictal Discharges Artifacts
Arousal activity
Damaged cortex
Anticonvulsant withdrawal
Intra-ictal activation
14. Interpretation of Patterns�Background Abnormalities Focal background slowing, may be more widespread, bilateral, or project to non-epileptogenic regions.
Fast activity- Focal attenuation often correlates with the seizure focus.
