Predictive processing in the retina through evaluation of the omitted-stimulus response
Description
TitlePredictive processing in the retina through evaluation of the omitted-stimulus response
Date Created2020
Other Date2020-10 (degree)
Extent1 online resource (vii, 81 pages) : illustrations
DescriptionWhile previous studies have demonstrated that individuals with schizophrenia demonstrate predictive coding abnormalities in high-level vision, it is unclear whether impairments exist in low-level predictive processing within the disorder. Evaluation of the omitted-stimulus response (OSR), i.e., activity following the omission of a light flash subsequent to a repetitive stimulus, has been examined previously to assess prediction within retinal activity. Given that little research has focused on the OSR in humans, the present study investigated if predictive processing could be detected at the retinal level within a healthy human sample, and whether this activity was associated with high-level predictive processing. Flash electroretinography (fERG) was recorded while eighteen healthy control participants viewed a series of consecutive light flashes within a 1.96 Hz single-flash condition with a flash luminance of 85 Td · s, as well as a 28.3 Hz flicker condition with a flash luminance of 16 Td · s. Participants also completed the Ebbinghaus task, a context sensitivity task that assesses high-level predictive processing, and the Audio-Visual Abnormalities Questionnaire (AVAQ), which measures frequency of self-reported auditory and visual sensory distortions. For both conditions, within-group analyses were conducted to compare fERG amplitude and implicit time measurements following present-stimulus trials with those following omitted-stimulus trials. Additionally, mean omitted-stimulus waveforms reflecting averaged retinal responses across all subjects were examined for presence of an OSR. Results demonstrated the absence of an OSR within the 1.96 Hz condition and the presence of activity in response to omitted stimuli within the 28.3 Hz flicker condition that could represent an OSR. The amplitude of the OSR in the flicker condition was significantly correlated with the number of flicker repetitions prior to the first omission (rs=.57, p=.02), supporting the conclusion that this activity was at least partially predictive in nature. Correlations were also run to analyze the relationships between fERG measurements and high-level predictive processing and sensory distortions. Results revealed that the flicker evoked response was not related to high-level predictive processing, as measured by Ebbinghaus illusion task performance, or self-reported sensory abnormalities, as measured by the AVAQ. However, stronger omitted-stimulus a-wave amplitude at 1.96 Hz was marginally related to greater top-down prediction. Additionally, findings indicated that earlier omitted-stimulus a-wave implicit time was associated with increased sensory distortions. While the mechanisms underlying the OSR remain unclear, data from previous studies suggest that this activity represents resonant activity elicited by ON bipolar cells, although additional studies are required to assess the OSR at different frequencies. Overall, findings indicate the presence of an OSR within retinal activity of a healthy human sample following omissions embedded within a highly repetitive flicker train. Future studies should examine whether this activity is reduced in individuals with schizophrenia, as this could potentially be used as a visual biomarker for aspects of the disorder.
NoteM.S.
NoteIncludes bibliographical references
Genretheses, ETD graduate
LanguageEnglish
CollectionSchool of Graduate Studies Electronic Theses and Dissertations
Organization NameRutgers, The State University of New Jersey
RightsThe author owns the copyright to this work.