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Wei Wei Lee
Albert Einstein College of Medicine
PsychologyCognitive psychologyPerceptionAuditory scene analysisSensory system
5Publications
3H-index
28Citations
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Publications 5
Newest
#1Kelin M. Brace (Albert Einstein College of Medicine)
#2Wei Wei Lee (Albert Einstein College of Medicine)H-Index: 3
Last. Elyse S. Sussman (Albert Einstein College of Medicine)H-Index: 36
view all 4 authors...
ABSTRACTObjective: The purpose of this study was to characterize post-chemotherapy sensory, memory, and attention abilities in childhood survivors of acute lymphoblastic leukemia (ALL) to better un...
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#1Renee M. Symonds (Albert Einstein College of Medicine)H-Index: 1
#2Wei Wei Lee (Albert Einstein College of Medicine)H-Index: 3
Last. Elyse S. Sussman (Albert Einstein College of Medicine)H-Index: 36
view all 6 authors...
The auditory mismatch negativity (MMN) component of event-related potentials (ERPs) has served as a neural index of auditory change detection. MMN is elicited by presentation of infrequent (deviant) sounds randomly interspersed among frequent (standard) sounds. Deviants elicit a larger negative deflection in the ERP waveform compared to the standard. There is considerable debate as to whether the neural mechanism of this change detection response is due to release from neural adaptation (neural ...
15 CitationsSource
#1Tova Miller (Albert Einstein College of Medicine)H-Index: 1
#2Sufen Chen (Albert Einstein College of Medicine)H-Index: 1
Last. Elyse S. Sussman (Albert Einstein College of Medicine)H-Index: 36
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ERPs and behavioral responses were measured to assess how task-irrelevant sounds interact with task processing demands and affect the ability to monitor and track multiple sound events. Participants listened to four-tone sequential frequency patterns, and responded to frequency pattern deviants (reversals of the pattern). Irrelevant tone feature patterns (duration and intensity) and respective pattern deviants were presented together with frequency patterns and frequency pattern deviants in sepa...
1 CitationsSource
#1Elyse S. Sussman (Albert Einstein College of Medicine)H-Index: 36
#2Mitchell Steinschneider (Albert Einstein College of Medicine)H-Index: 34
Last. Katharine R. Lawson (Albert Einstein College of Medicine)H-Index: 14
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Natural sound environments are dynamic, with overlapping acoustic input originating from simultaneously active sources. A key function of the auditory system is to integrate sensory inputs that belong together and segregate those that come from different sources. We hypothesized that this skill is impaired in individuals with phonological processing difficulties. There is considerable disagreement about whether phonological impairments observed in children with developmental language disorders c...
4 CitationsSource
#1Elyse S. Sussman (Albert Einstein College of Medicine)H-Index: 36
#2Albert S. Bregman (McGill University)H-Index: 31
Last. Wei Wei Lee (Albert Einstein College of Medicine)H-Index: 3
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The ability to perceive discrete sound streams in the presence of competing sound sources relies on multiple mechanisms that organize the mixture of the auditory input entering the ears. Many studies have focused on mechanisms that contribute to integrating sounds that belong together into one perceptual stream (integration) and segregating those that come from different sound sources (segregation). However, little is known about mechanisms that allow us to perceive individual sound sources with...
8 CitationsSource
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