Beyond the Basics in EEG Interpretation: Throughout the Life Stages Steve S. Chung, MD, FAAN Chairman, Neuroscience Institute Director, Epilepsy Program Banner University Medical Center University of Arizona Phoenix, AZ
Topics To Be Covered Review of benign variants of EEG How to recognize benign vs. abnormal Pitfalls in adult EEG interpretation Review of EEG in neonates Normal patterns and developmental markers in neonates Pitfalls in neonate EEG interpretation
Benign Variants Rhythmic Midtemporal Discharges Subclinical Rhythmic Theta Discharges in Adults Temporal Slowing in Elderly Posterior Slow Waves of Youth Midline Theta Rhythm Frontal Arousal Rhythm Fourteen- and Six-Hertz Positive Bursts Small Sharp Spikes Six-Hertz Spike and Wave (Phantom S & W) Wicket Spikes
Rhythmic Mid-temporal Discharges Psychomotor variant Rhythmic 4-7 Hz theta waves (monomorphic) During drowsiness or stage 2 sleep (disappears with alerting) Commonly unilateral, usually shifting sides Duration: 1-10 seconds (can be minutes) 0.35% to 2% of normal adolescents and adults Different from seizure due to: Lack of evolution of frequency, amplitude, morphology No clinical events
SREDA: Subclinical Rhythmic Theta Discharges in Adults Rarely seen in patients over age 50 Rhythmic, sharply contoured 5-7 Hz, at 40-100 V Wide-spread, bilateral more commonly Maximal at parietal and posterior temporal regions or over the vertex Average duration of 40 to 80 seconds Usually during wakefulness but also in sleep Different from seizures due to: No clinical events No organized progression No post-event slowing
Temporal Slowing in Elderly Bitemporal but more frequently over the left hemisphere Slowing of theta range (delta slowing is abnormal) Intermittent May persist after eye opening About 35% after age 50 No clear relationship with vascular disease
Posterior Slow Waves of Youth Most often seen between age 8-14 About 15% of age 15-30 Intermixed with posterior background but does not distort it Diminishes with eye opening and disappears during sleep Can be slightly asymmetrical
Posterior Slow Waves of Youth
Midline Theta Rhythm Sinusoidal, archiform, or sharply contoured 4-7 Hz Focally over midline anterior (max at Fz or Cz) During wakefulness, drowsiness, or after arousal Not usually seen over the temporal region Wax and wane for several seconds Very rare (0.01%)
Midline Theta Slowing
Frontal Arousal Rhythm In adults: monophasic 7-10 Hz waves for several seconds with spindle-like morphology In younger children: 4-5 sinusoidal pattern can be seen In older children: faster May evolve from beta activity May last longer than 10 seconds (shorter in adults)
Fourteen- and Six-per-Second Positive Bursts First appears at age 3 and maximally expressed at age 12 to 15 Benign variants during drowsiness and light sleep Positive phase over the occipital or posterior temporal area (surface positive polarity) Duration is less than 1 second Usually occur independently on the two sides (asynchronous), or sometimes unilateral 6 Hz (6-8 Hz) and/or 14 Hz (12-16 Hz)
14 Hz 14 Hz 6 Hz
14 Hz
Small Sharp Spikes Benign epileptiform transients of sleep (BETS) Benign sporadic sleep spikes (BSSS) Low amplitude and short duration (<50 µv, <50 msec) Abrupt ascending and steep descending, no slow waves Anterior to mid-temporal regions During drowsiness and stage II sleep Unilateral or bilateral with shifting Occur singly and not in trains 20%-25% of healthy subjects (adolescence to adults)
FP1-F7 F7-T3 T3-T5 T5-O1 FP2-F8 F8-T4 T4-T6 T6-O2 FP1-F3 F3-C3 C3-P3 P3-O1 FP2-F4 F4-C4 C4-P4 P4-O2 50 UV 1 SEC.
Phantom Spike and Wave Also known as six-hertz spike and wave Brief bursts of 5-7 Hz generalized spike and wave discharges Primarily in adolescents and young adults During wakefulness and drowsiness FOLD: female, occipital, low amplitude, drowsiness WHAM: wakefulness, higher amplitude, anterior, male 0.2% to 4.5% of healthy subjects
Mu Rhythm Pre-central rhythm of 7 to 12 Hz Comb-like morphology, may be asymmetric Unaffected by eye opening or closure Attenuates with movements, thought of movements, and tactile stimulation of contralateral limbs Mental task and fatigue attenuates 20% young adults; slightly more common in women
Wicket Spikes Monophasic, archiform 6-11 Hz transients Anterior or mid-temporal region Unilateral or bilateral (usually asymmetrical) During wakefulness or sleep Longer trains during wakefulness and drowsiness 0.9% to 2.9% of normal adults Different from temporal lobe spikes due to absence of following slow waves and morphology
Lambda Waves Bi- or tri-phasic transients over occipital area Elicited by looking at a patterned design in a well-illuminated room More common in children and adolescents May be asymmetrical Attenuates with eye-closure, reducing illumination and patterns
Low Voltage EEG Amplitude <20 uv overall Can be normal (4%-9% of nl adults) May be associated with VBI, extrapyramidal syndromes, psychiatric illness, alcoholism, myxedema, and head injury
Interpretation of Neonatal EEG First, establish and look for: Continuity of EEG Bilateral Synchrony Behavioral states Developmental markers
Behavioral States Eye Movements Body Movements Waking Active sleep Quiet sleep Blinks, etc Rapid, phasic None Frequent Frequent Infrequent Respiration Variable Irregular Regular
Distinct EEG Milestones Delta Brushes Temporal theta/alpha bursts Occipital theta Frontal sharp transients Rhythmic frontal delta Tracé discontinu Tracé alternant Interhemispheric synchrony
Tracé discontinu Timing Early prematurity to 34-36 weeks Low amplitude (<30 uv) epochs alternating with bursts including mixed delta/theta, delta brushes, temporal theta, sharp transients Active segments increase with increasing CA
Tracé discontinu
Average Duration of Discontinuous Period During NREM Sleep Levin KH, Luders HO. 2000.
Levin KH, Luders HO. 2000.
Tracé alternant Progression from T.D. with increasing CA Interburst intervals attenuated, not quiescent 3-6 second bursts high amplitude delta/theta (1-6 Hz, 50-150 uv) with low amplitude beta Interburst: moderate amplitude mixed frequencies (4-12 Hz, 25-50 uv) Seen in QS at term
Tracé alternant
Developmental Markers of EEG Trace Alternant Frontal Sharp Wave Transients Temporal Alpha Bursts Occipital Dominant Alpha Rhythm Temporal Theta Bursts Vertex Transients Beta Delta Complexes Sleep Spindles Levin KH, Luders HO. 2000.
Interhemispheric Synchrony At 30-32 weeks CA, 50%-60% bursts synchronous At term, 100% synchronous (during T.A. in QS)
Interhemispheric Synchrony
Development of EEG Synchrony Active Sleep Quiet Sleep Levin KH, Luders HO. 2000.
Excessive Asynchrony
Excessive Asynchrony
Developmental Markers of EEG Trace Alternant Frontal Sharp Wave Transients Temporal Alpha Bursts Occipital Dominant Alpha Rhythm Temporal Theta Bursts Vertex Transients Beta Delta Complexes Sleep Spindles Levin KH, Luders HO. 2000.
Temporal Theta/Alpha Bursts Timing Onset: 26 weeks Maximum: 29-31 weeks Rare after 35-36 weeks Sharply contoured 4.5-6 or 8-9 Hz, 50-100 uv Frequently bilateral, synchronous
Temporal Theta and Alpha Bursts Temporal Theta Bursts Temporal Alpha Bursts Levin KH, Luders HO. 2000.
Delta Brushes (Beta-Delta Complex) 32-35 weeks CA Spindle frequency (8-22 Hz) superimposed on 0.5-1.5 Hz delta waves May be asynchronous, asymmetric Central early (32 weeks) Occipital/temporal later Gone by several weeks pre-term
Beta Delta Complex ( Delta Brush )
Delta Brushes (Beta-Delta Complex) 50 45 40 35 30 25 20 15 10 5 0 26-30 31-32 33-34 35-36 37-38 39-42 AS QS
Frontal Sharp Transients (Encoches Frontales) Biphasic frontal sharp waves (- then +) During sleep, esp transition AS QS Timing Appear 35 weeks CA Persist several weeks post-term (6 weeks) 50-150 uv, 200 msec Bilateral and synchronous, may be asymmetric
Frontal Sharp Waves
Normal Temporal Sharp Transients (42 GA)
Normal vs Abnormal Temporal Sharps Normal Abnormal Amplitude <75 uv >75 uv Duration <100 msec >150 msec Frequency <1 per min >3 per min Morphology Mono- or biphasic Polyphasic, slow waves Polarity Surface negative Surface postive State NREM Awake and NREM Occurrence Random, bilateral In runs, consistently focal
Abnormal Sharp Waves (34 GA)
Neonatal Seizure Patterns
What Are These Patterns on a Neonatal EEG? Hiccups Electrode artifacts Patting baby Sucking a bottle
Pitfalls in Interpretation of Newborn EEG Normal activity called epileptiform Frontal sharp transients Rhythmic frontal delta activity Temporal theta bursts Distinguish normal discontinuity from burstsuppression patterns Don t overcall amplitude asymmetries or asynchrony of bursts in TA