Your search keyword '"Patrick Johnston"' showing total 5 results

1. Attention and prediction modulations in expected and unexpected visuospatial trajectories.

Author

Kristen S Baker, Alan J Pegna, Naohide Yamamoto, and Patrick Johnston

Subjects

Medicine, Science

Abstract

Humans are constantly exposed to a rich tapestry of visual information in a potentially changing environment. To cope with the computational burden this engenders, our perceptual system must use prior context to simultaneously prioritise stimuli of importance and suppress irrelevant surroundings. This study investigated the influence of prediction and attention in visual perception by investigating event-related potentials (ERPs) often associated with these processes, N170 and N2pc for prediction and attention, respectively. A contextual trajectory paradigm was used which violated visual predictions and neglected to predetermine areas of spatial interest, to account for the potentially unpredictable nature of a real-life visual scene. Participants (N = 36) viewed a visual display of cued and non-cued shapes rotating in a five-step predictable trajectory, with the fifth and final position of either the cued or non-cued shape occurring in a predictable or unpredictable spatial location. To investigate the predictive coding theory of attention we used factors of attention and prediction, whereby attention was manipulated as either cued or non-cued conditions, and prediction manipulated in either predictable or unpredictable conditions. Results showed both enhanced N170 and N2pc amplitudes to unpredictable compared to predictable stimuli. Stimulus cueing status also increased N170 amplitude, but this did not interact with stimulus predictability. The N2pc amplitude was not affected by stimulus cueing status. In accordance with previous research these results suggest the N170 is in part a visual prediction error response with respect to higher-level visual processes, and furthermore the N2pc may index attention reorientation. The results demonstrate prior context influences the sensitivity of the N170 and N2pc electrophysiological responses. These findings add further support to the role of N170 as a prediction error signal and suggest that the N2pc may reflect attentional reorientation in response to unpredicted stimulus locations.

Published

2021

2. Functional Activation during the Rapid Visual Information Processing Task in a Middle Aged Cohort: An fMRI Study.

Author

Chris Neale, Patrick Johnston, Matthew Hughes, and Andrew Scholey

Subjects

Medicine, Science

Abstract

The Rapid Visual Information Processing (RVIP) task, a serial discrimination task where task performance believed to reflect sustained attention capabilities, is widely used in behavioural research and increasingly in neuroimaging studies. To date, functional neuroimaging research into the RVIP has been undertaken using block analyses, reflecting the sustained processing involved in the task, but not necessarily the transient processes associated with individual trial performance. Furthermore, this research has been limited to young cohorts. This study assessed the behavioural and functional magnetic resonance imaging (fMRI) outcomes of the RVIP task using both block and event-related analyses in a healthy middle aged cohort (mean age = 53.56 years, n = 16). The results show that the version of the RVIP used here is sensitive to changes in attentional demand processes with participants achieving a 43% accuracy hit rate in the experimental task compared with 96% accuracy in the control task. As shown by previous research, the block analysis revealed an increase in activation in a network of frontal, parietal, occipital and cerebellar regions. The event related analysis showed a similar network of activation, seemingly omitting regions involved in the processing of the task (as shown in the block analysis), such as occipital areas and the thalamus, providing an indication of a network of regions involved in correct trial performance. Frontal (superior and inferior frontal gryi), parietal (precuenus, inferior parietal lobe) and cerebellar regions were shown to be active in both the block and event-related analyses, suggesting their importance in sustained attention/vigilance. These networks and the differences between them are discussed in detail, as well as implications for future research in middle aged cohorts.

Published

2015

3. Functional Activation during the Rapid Visual Information Processing Task in a Middle Aged Cohort: An fMRI Study

Author

Andrew Scholey, Patrick Johnston, Matthew Hughes, and Chris Neale

Subjects

Adult, Male, medicine.medical_specialty, Visual perception, media_common.quotation_subject, Science, Poison control, Biology, Audiology, Brain mapping, Mental Processes, Neuroimaging, Functional neuroimaging, Task Performance and Analysis, medicine, Humans, media_common, Brain Mapping, Multidisciplinary, medicine.diagnostic_test, Functional Neuroimaging, Parietal lobe, Brain, Middle Aged, Magnetic Resonance Imaging, Visual Perception, Medicine, Functional magnetic resonance imaging, Psychomotor Performance, Research Article, Vigilance (psychology)

Abstract

The Rapid Visual Information Processing (RVIP) task, a serial discrimination task where task performance believed to reflect sustained attention capabilities, is widely used in behavioural research and increasingly in neuroimaging studies. To date, functional neuroimaging research into the RVIP has been undertaken using block analyses, reflecting the sustained processing involved in the task, but not necessarily the transient processes associated with individual trial performance. Furthermore, this research has been limited to young cohorts. This study assessed the behavioural and functional magnetic resonance imaging (fMRI) outcomes of the RVIP task using both block and event-related analyses in a healthy middle aged cohort (mean age = 53.56 years, n = 16). The results show that the version of the RVIP used here is sensitive to changes in attentional demand processes with participants achieving a 43% accuracy hit rate in the experimental task compared with 96% accuracy in the control task. As shown by previous research, the block analysis revealed an increase in activation in a network of frontal, parietal, occipital and cerebellar regions. The event related analysis showed a similar network of activation, seemingly omitting regions involved in the processing of the task (as shown in the block analysis), such as occipital areas and the thalamus, providing an indication of a network of regions involved in correct trial performance. Frontal (superior and inferior frontal gryi), parietal (precuenus, inferior parietal lobe) and cerebellar regions were shown to be active in both the block and event-related analyses, suggesting their importance in sustained attention/vigilance. These networks and the differences between them are discussed in detail, as well as implications for future research in middle aged cohorts.

Published

2015

4. Facial motion engages predictive visual mechanisms

Author

Jordy Kaufman and Patrick Johnston

Subjects

Adult, Male, Facial motion, Visual System, Cognitive Neuroscience, Emotions, Social Sciences, lcsh:Medicine, Stimulus (physiology), Nervous System, Young Adult, Cognition, Neuropsychology, Mental Health and Psychiatry, Medicine and Health Sciences, Reaction Time, Expressed emotion, Psychology, Humans, lcsh:Science, Cued speech, Facial expression, Behavior, Multidisciplinary, lcsh:R, Biology and Life Sciences, Experimental Psychology, Sensory Systems, Facial Expression, Pattern Recognition, Visual, Cognitive Science, Female, lcsh:Q, Anatomy, Cues, Cognitive psychology, Research Article, Neuroscience

Abstract

We employed a novel cuing paradigm to assess whether dynamically versus statically presented facial expressions differentially engaged predictive visual mechanisms. Participants were presented with a cueing stimulus that was either the static depiction of a low intensity expressed emotion; or a dynamic sequence evolving from a neutral expression to the low intensity expressed emotion. Following this cue and a backwards mask, participants were presented with a probe face that displayed either the same emotion (congruent) or a different emotion (incongruent) with respect to that displayed by the cue although expressed at a high intensity. The probe face had either the same or different identity from the cued face. The participants' task was to indicate whether or not the probe face showed the same emotion as the cue. Dynamic cues and same identity cues both led to a greater tendency towards congruent responding, although these factors did not interact. Facial motion also led to faster responding when the probe face was emotionally congruent to the cue. We interpret these results as indicating that dynamic facial displays preferentially invoke predictive visual mechanisms, and suggest that motoric simulation may provide an important basis for the generation of predictions in the visual system.

Published

2014

5. Mismatch Negativity in Recent-Onset and Chronic Schizophrenia: A Current Source Density Analysis

Author

Ulrich Schall, Juanita Todd, W. Ross Fulham, Patricia T. Michie, Philip B. Ward, Paul M. Thompson, Paul E. Rasser, and Patrick Johnston

Subjects

Male, Physiology, Precuneus, lcsh:Medicine, Social Sciences, Mismatch negativity, Audiology, Nervous System, Mechanical Treatment of Specimens, Cognition, Adolescent Psychiatry, Medicine and Health Sciences, Psychology, Age of Onset, lcsh:Science, Temporal cortex, Multidisciplinary, Parietal lobe, Sensory Systems, Electrophysiology, Electroporation, medicine.anatomical_structure, Auditory System, Neurology, Specimen Disruption, Frontal lobe, Evoked Potentials, Auditory, Sensory Perception, Female, Anatomy, psychological phenomena and processes, Research Article, Adult, medicine.medical_specialty, Cognitive Neuroscience, Models, Neurological, Posterior parietal cortex, Neuroimaging, Research and Analysis Methods, Auditory cortex, behavioral disciplines and activities, Young Adult, Event-related potential, Mental Health and Psychiatry, mental disorders, medicine, Humans, Computational Neuroscience, business.industry, lcsh:R, Cognitive Psychology, Biology and Life Sciences, Computational Biology, Bayes Theorem, Specimen Preparation and Treatment, Chronic Disease, Schizophrenia, Cognitive Science, lcsh:Q, business, Neuroscience

Abstract

Mismatch negativity (MMN) is a component of the event-related potential elicited by deviant auditory stimuli. It is presumed to index pre-attentive monitoring of changes in the auditory environment. MMN amplitude is smaller in groups of individuals with schizophrenia compared to healthy controls. We compared duration-deviant MMN in 16 recent-onset and 19 chronic schizophrenia patients versus age- and sex-matched controls. Reduced frontal MMN was found in both patient groups, involved reduced hemispheric asymmetry, and was correlated with Global Assessment of Functioning (GAF) and negative symptom ratings. A cortically-constrained LORETA analysis, incorporating anatomical data from each individual's MRI, was performed to generate a current source density model of the MMN response over time. This model suggested MMN generation within a temporal, parietal and frontal network, which was right hemisphere dominant only in controls. An exploratory analysis revealed reduced CSD in patients in superior and middle temporal cortex, inferior and superior parietal cortex, precuneus, anterior cingulate, and superior and middle frontal cortex. A region of interest (ROI) analysis was performed. For the early phase of the MMN, patients had reduced bilateral temporal and parietal response and no lateralisation in frontal ROIs. For late MMN, patients had reduced bilateral parietal response and no lateralisation in temporal ROIs. In patients, correlations revealed a link between GAF and the MMN response in parietal cortex. In controls, the frontal response onset was 17 ms later than the temporal and parietal response. In patients, onset latency of the MMN response was delayed in secondary, but not primary, auditory cortex. However amplitude reductions were observed in both primary and secondary auditory cortex. These latency delays may indicate relatively intact information processing upstream of the primary auditory cortex, but impaired primary auditory cortex or cortico-cortical or thalamo-cortical communication with higher auditory cortices as a core deficit in schizophrenia.

Published

2014