Your search keyword '"Pierfilippo De Sanctis"' showing total 23 results

1. Review for 'Perfect Timing: Mobile Brain/Body Imaging scaffolds the 4E‐cognition research program'

Author

Pierfilippo De Sanctis

Subjects

Cognitive science, Research program, Cognition, Psychology

Published

2020

2. Cognitive load reduces the effects of optic flow on gait and electrocortical dynamics during treadmill walking

Author

John J. Foxe, Pierfilippo De Sanctis, Sophie Molholm, John S. Butler, and Brenda R. Malcolm

Subjects

Adult, Male, medicine.medical_specialty, Physiology, Precuneus, Sensory system, Optic Flow, 050105 experimental psychology, 03 medical and health sciences, Cognition, 0302 clinical medicine, Gait (human), Physical medicine and rehabilitation, Parietal Lobe, medicine, Humans, 0501 psychology and cognitive sciences, Gait, Anterior cingulate cortex, Supplementary motor area, General Neuroscience, 05 social sciences, Parietal lobe, Inferior parietal lobule, Adaptation, Physiological, Frontal Lobe, Alpha Rhythm, medicine.anatomical_structure, Female, Psychology, human activities, 030217 neurology & neurosurgery, Cognitive load, Research Article

Abstract

During navigation of complex environments, the brain must continuously adapt to both external demands, such as fluctuating sensory inputs, and internal demands, such as engagement in a cognitively demanding task. Previous studies have demonstrated changes in behavior and gait with increased sensory and cognitive load, but the underlying cortical mechanisms remain largely unknown. In the present study, in a mobile brain/body imaging (MoBI) approach, 16 young adults walked on a treadmill with high-density EEG while 3-dimensional (3D) motion capture tracked kinematics of the head and feet. Visual load was manipulated with the presentation of optic flow with and without continuous mediolateral perturbations. The effects of cognitive load were assessed by the performance of a go/no-go task on half of the blocks. During increased sensory load, participants walked with shorter and wider strides, which may indicate a more restrained pattern of gait. Interestingly, cognitive task engagement attenuated these effects of sensory load on gait. Using an independent component analysis and dipole-fitting approach, we found that cautious gait was accompanied by neuro-oscillatory modulations localized to frontal (supplementary motor area, anterior cingulate cortex) and parietal (inferior parietal lobule, precuneus) areas. Our results show suppression in alpha/mu (8–12 Hz) and beta (13–30 Hz) rhythms, suggesting enhanced activation of these regions with unreliable sensory inputs. These findings provide insight into the neural correlates of gait adaptation and may be particularly relevant to older adults who are less able to adjust to ongoing cognitive and sensory demands while walking. NEW & NOTEWORTHY The neural underpinnings of gait adaptation in humans are poorly understood. To this end, we recorded high-density EEG combined with three-dimensional body motion tracking as participants walked on a treadmill while exposed to full-field optic flow stimulation. Perturbed visual input led to a more cautious gait pattern with neuro-oscillatory modulations localized to premotor and parietal regions. Our findings show a possible brain-behavior link that might further our understanding of gait and mobility impairments.

Published

2018

3. Aberrant response inhibition and task switching in psychopathic individuals

Author

Menahem Krakowski, Stephanie M. Kamiel, Pál Czobor, Pierfilippo De Sanctis, Karen A. Nolan, Constance Shope, John J. Foxe, and Matthew J. Hoptman

Subjects

Adult, Male, Task switching, Psychopathy, Impulsivity, behavioral disciplines and activities, Task (project management), Task Performance and Analysis, medicine, Humans, Set (psychology), Biological Psychiatry, Response inhibition, Cognitive flexibility, Cognition, Antisocial Personality Disorder, Middle Aged, medicine.disease, Inhibition, Psychological, Psychiatry and Mental health, Impulsive Behavior, Female, medicine.symptom, Psychology, psychological phenomena and processes, Cognitive psychology

Abstract

Deficits in cognitive control have been considered a core dysfunction of psychopathy, responsible for disrupted self-control. We investigated cognitive control impairments, including difficulties with task switching, failure of response inhibition, and inability to adjust speed of responding. Participants included 16 subjects with psychopathic traits (Ps), and 22 healthy controls (HCs). We recorded behavioral responses during a Task Switching paradigm, a probe of flexible behavioral adaptation to changing contexts; and a Go/NoGo Task, which assesses response inhibition and indexes behavioral impulsivity. During task switching, Ps evidenced impairments shifting set when conflicting (incongruent) information was presented, but performed as well as HCs in the absence of such conflict. In addition, when they encountered these difficulties, they failed to adjust their speed of responding. Ps presented also with deficits in response inhibition, with many commission errors on the Go/NoGo Task. This study identified impairments in response inhibition and in set shifting in psychopathic individuals. When shifting set, they evidenced difficulties refocusing on a new task when it was incongruent with the previous task. These deficits interfere with regulation of ongoing behavior and disrupt self-regulation. Our findings suggest abnormal neural processing during suppression of inappropriate responses in psychopathic individuals.

Published

2015

4. The aging brain shows less flexible reallocation of cognitive resources during dual-task walking: A mobile brain/body imaging (MoBI) study

Author

John S. Butler, John J. Foxe, Pierfilippo De Sanctis, and Brenda R. Malcolm

Subjects

Adult, Male, Aging, medicine.medical_specialty, Brain activity and meditation, Cognitive Neuroscience, Monitoring, Ambulatory, STRIDE, Walking, Article, Task (project management), Developmental psychology, Executive Function, Young Adult, Physical medicine and rehabilitation, Event-related potential, medicine, Humans, Human multitasking, Evoked Potentials, Gait, Aged, Cerebral Cortex, Electroencephalography, Cognition, Middle Aged, Inhibition, Psychological, Neurology, Exercise Test, Female, Psychology, Psychomotor Performance, Cognitive load

Abstract

Aging is associated with reduced abilities to selectively allocate attention across multiple domains. This may be particularly problematic during everyday multitasking situations when cognitively demanding tasks are performed while walking. Due to previous limitations in neuroimaging technology, much remains unknown about the cortical mechanisms underlying resource allocation during locomotion. Here, we utilized an EEG-based mobile brain/body imaging (MoBI) technique that integrates high-density event-related potential (ERP) recordings with simultaneously acquired foot-force sensor data to monitor gait patterns and brain activity concurrently. To assess effects of motor load on cognition we evaluated young (N=17; mean age=27.2) and older adults (N=16; mean age=63.9) and compared behavioral and ERP measures associated with performing a Go/No-Go response inhibition task as participants sat stationary or walked on a treadmill. Stride time and variability were also measured during task performance and compared to stride parameters obtained without task performance, thereby assessing effects of cognitive load on gait. Results showed that older, but not young adults' accuracy dropped significantly when performing the inhibitory task while walking. Young adults revealed ERP modulations at relatively early (N2 amplitude reduction) and later (earlier P3 latency) stages within the processing stream as motor load increased while walking. In contrast, older adults' ERP modulations were limited to later processing stages (increased P3 amplitude) of the inhibitory network. The relative delay and attenuation of ERP modulations accompanied by behavioral costs in older participants might indicate an age-associated loss in flexible resource allocation across multiple tasks. Better understanding of the neural underpinnings of these age-related changes may lead to improved strategies to reduce fall risk and enhance mobility in aging.

Published

2015

5. Long-term test-retest reliability of event-related potential (ERP) recordings during treadmill walking using the mobile brain/body imaging (MoBI) approach

Author

John S. Butler, Pierfilippo De Sanctis, Brenda R. Malcolm, Sophie Molholm, Wenzhu B. Mowrey, and John J. Foxe

Subjects

Adult, Male, medicine.medical_specialty, Intraclass correlation, Neuroimaging, Walking, Electroencephalography, Audiology, Sitting, 050105 experimental psychology, Article, Developmental psychology, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Event-related potential, medicine, Humans, 0501 psychology and cognitive sciences, Effects of sleep deprivation on cognitive performance, Treadmill, Molecular Biology, Evoked Potentials, Gait, Brain Mapping, medicine.diagnostic_test, General Neuroscience, 05 social sciences, Brain, Reproducibility of Results, Cognition, Signal Processing, Computer-Assisted, Event-Related Potentials, P300, Exercise Test, Female, Neurology (clinical), Psychology, 030217 neurology & neurosurgery, Locomotion, Psychomotor Performance, Developmental Biology

Abstract

Advancements in acquisition technology and signal-processing techniques have spurred numerous recent investigations on the electro-cortical signals generated during whole-body motion. This approach, termed Mobile Brain/Body Imaging (MoBI), has the potential to elucidate the neural correlates of perceptual and cognitive processes during real-life activities, such as locomotion. However, as of yet, no one has assessed the long-term stability of event-related potentials (ERPs) recorded under these conditions. Therefore, the objective of the current study was to evaluate the test-retest reliability of cognitive ERPs recorded while walking. High-density EEG was acquired from 12 young adults on two occasions, separated by an average of 2.3 years, as they performed a Go/No-Go response inhibition paradigm. During each testing session, participants performed the task while walking on a treadmill and seated. Using the intraclass correlation coefficient (ICC) as a measure of agreement, we focused on two well-established neurophysiological correlates of cognitive control, the N2 and P3 ERPs. Following ICA-based artifact rejection, the earlier N2 yielded good to excellent levels of reliability for both amplitude and latency, while measurements for the later P3 component were generally less robust but still indicative of adequate to good levels of stability. Interestingly, the N2 was more consistent between walking sessions, compared to sitting, for both hits and correct rejection trials. In contrast, the P3 waveform tended to have a higher degree of consistency during sitting conditions. Overall, these results suggest that the electro-cortical signals obtained during active walking are representative of stable indices of neurophysiological function.

Published

2016

6. Disturbances in Response Inhibition and Emotional Processing as Potential Pathways to Violence in Schizophrenia: A High-Density Event-Related Potential Study

Author

Menahem Krakowski, John J. Foxe, Stephanie M. Kamiel, Pál Czobor, Pierfilippo De Sanctis, Matthew J. Hoptman, and Karen A. Nolan

Subjects

Adult, Male, medicine.medical_specialty, Emotions, Poison control, Audiology, Violence, Impulsivity, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Event-related potential, mental disorders, Injury prevention, medicine, Humans, 0501 psychology and cognitive sciences, Association (psychology), Psychiatry, Evoked Potentials, Cerebral Cortex, Aggression, 05 social sciences, Regular Article, Middle Aged, medicine.disease, Psychiatry and Mental health, Electrophysiology, Inhibition, Psychological, Schizophrenia, Impulsive Behavior, Female, medicine.symptom, Psychology, 030217 neurology & neurosurgery

Abstract

OBJECTIVE: Increased susceptibility to emotional triggers and poor response inhibition are important in the etiology of violence in schizophrenia. Our goal was to evaluate abnormalities in neurophysiological mechanisms underlying response inhibition and emotional processing in violent patients with schizophrenia (VS) and 3 different comparison groups: nonviolent patients (NV), healthy controls (HC) and nonpsychotic violent subjects (NPV). METHODS: We recorded high-density Event-Related Potentials (ERPs) and behavioral responses during an Emotional Go/NoGo Task in 35 VS, 24 NV, 28 HC and 31 NPV subjects. We also evaluated psychiatric symptoms and impulsivity. RESULTS: The neural and behavioral deficits in violent patients were most pronounced when they were presented with negative emotional stimuli: They responded more quickly than NV when they made commission errors (ie, failure of inhibition), and evidenced N2 increases and P3 decreases. In contrast, NVs showed little change in reaction time or ERP amplitude with emotional stimuli. These N2 and P3 amplitude changes in VSs showed a strong association with greater impulsivity. Besides these group specific changes, VSs shared deficits with NV, mostly N2 reduction, and with violent nonpsychotic subjects, particularly P3 reduction. CONCLUSION: Negative affective triggers have a strong impact on violent patients with schizophrenia which may have both behavioral and neural manifestations. The resulting activation could interfere with response inhibition. The affective disruption of response inhibition, identified in this study, may index an important pathway to violence in schizophrenia and suggest new modes of treatment. Language: en

Published

2016

7. Visual sensory processing deficits in schizophrenia: Is there anything to the magnocellular account?

Author

Menahem I. Krakowski, Edmund C. Lalor, Pierfilippo De Sanctis, and John J. Foxe

Subjects

Adult, Male, genetic structures, media_common.quotation_subject, Electroencephalography, Article, Contrast Sensitivity, Perceptual Disorders, Visual processing, Young Adult, Neuroimaging, Reaction Time, medicine, Humans, Contrast (vision), Evoked potential, Biological Psychiatry, media_common, medicine.diagnostic_test, Middle Aged, medicine.disease, Psychiatry and Mental health, medicine.anatomical_structure, ROC Curve, Schizophrenia, Scalp, Evoked Potentials, Visual, Female, Psychology, Neuroscience, Photic Stimulation

Abstract

article i nfo Visual processing studies have repeatedly shown impairment in patients with schizophrenia compared to healthy controls. Electroencephalography (EEG) and, specifically, visual evoked potential (VEP) studies have identified an early marker of this impairment in the form of a decrement in the P1 component of the VEP in patients and their clinically unaffected first-degree relatives. Much behavioral and neuroimaging re- search has implicated specific dysfunction of either the subcortical magnocellular pathway or the cortical vi- sual dorsal stream in this impairment. In this study, EEG responses were obtained to the contrast modulation of checkerboard stimuli using the VESPA (Visual Evoked Spread Spectrum Analysis) method. This was done for a high contrast condition and, in order to bias the stimuli towards the magnocellular pathway, a low con- trast condition. Standard VEPs were also obtained using high contrast pattern reversing checkerboards. Re- sponses were measured using high-density electrical scalp recordings in 29 individuals meeting DSM-IV criteria for schizophrenia and in 18 control subjects. Replicating previous research, a large (Cohen's d=1.11) reduction in the P1 component of the VEP was seen in patients when compared with controls with no corresponding difference in the VESPA response to high contrast stimuli. In addition, the low- contrast VESPA displayed no difference between patients and controls. Furthermore, no differences were seen between patients and controls for the C1 components of either the VEP or the high-contrast VESPA. Based on the differing acquisition methods between VEP and VESPA, we discuss these results in terms of con- trast gain control and the possibility of dysfunction at the cortical level with initial afferent activity into V1 along the magnocellular pathway being intact when processing is biased towards that pathway using low contrast stimuli.

Published

2012

8. Enhanced and bilateralized visual sensory processing in the ventral stream may be a feature of normal aging

Author

Pierfilippo De Sanctis, Glenn R. Wylie, Pejman Sehatpour, George S. Alexopoulos, Richard J. Katz, and John J. Foxe

Subjects

Adult, Male, Aging, Visual sensory, Sensory processing, medicine.medical_treatment, Normal aging, Neuropsychological Tests, Functional Laterality, Perceptual Disorders, medicine, Humans, Visual Pathways, Evoked potential, Aged, Visual Cortex, Aged, 80 and over, Brain Mapping, General Neuroscience, Electroencephalography, Cognition, Recovery of Function, Healthy elderly, Adaptation, Physiological, Pattern Recognition, Visual, Feature (computer vision), Laterality, Visual Perception, Evoked Potentials, Visual, Female, Neurology (clinical), Geriatrics and Gerontology, Psychology, Neuroscience, Photic Stimulation, Developmental Biology, Cognitive psychology

Abstract

Evidence has emerged for age-related amplification of basic sensory processing indexed by early components of the visual evoked potential (VEP). However, since these age-related effects have been incidental to the main focus of these studies, it is unclear whether they are performance dependent or alternately, represent intrinsic sensory processing changes. High-density VEPs were acquired from 19 healthy elderly and 15 young control participants who viewed alphanumeric stimuli in the absence of any active task. The data show both enhanced and delayed neural responses within structures of the ventral visual stream, with reduced hemispheric asymmetry in the elderly that may be indicative of a decline in hemispheric specialization. Additionally, considerably enhanced early frontal cortical activation was observed in the elderly, suggesting frontal hyper-activation. These age-related differences in early sensory processing are discussed in terms of recent proposals that normal aging involves large-scale compensatory reorganization. Our results suggest that such compensatory mechanisms are not restricted to later higher-order cognitive processes but may also be a feature of early sensory-perceptual processes.

Published

2008

9. Are Auditory-Evoked Frequency and Duration Mismatch Negativity Deficits Endophenotypic for Schizophrenia? High-Density Electrical Mapping in Clinically Unaffected First-Degree Relatives and First-Episode and Chronic Schizophrenia

Author

Elena Magno, Pierfilippo De Sanctis, Sherlyn Yeap, John J. Foxe, Jogin H. Thakore, and Hugh Garavan

Subjects

Adult, Male, Psychosis, Time Factors, Sensory processing, medicine.medical_treatment, Mismatch negativity, Contingent Negative Variation, behavioral disciplines and activities, Article, Event-related potential, mental disorders, Psychophysics, medicine, Humans, First-degree relatives, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Biological Psychiatry, Psychiatry, First episode, Analysis of Variance, Auditory Perceptual Disorders, Age Factors, Electroencephalography, Middle Aged, medicine.disease, Acoustic Stimulation, Schizophrenia, Endophenotype, Auditory Perception, Evoked Potentials, Auditory, Female, Psychology, Neuroscience, psychological phenomena and processes

Abstract

PUBLISHED, Mismatch negativity (MMN) is a negative-going event-related potential (ERP) component that occurs in response to intermittent changes in constant auditory backgrounds. A consistent finding across a large number of studies has been impaired MMN generation in schizophrenia, which has been interpreted as evidence for fundamental deficits in automatic auditory sensory processing. The aim of this study was to investigate the extent to which dysfunction in MMN generation might represent an endophenotypic marker for schizophrenia.

Published

2008

10. Early Visual Processing Deficits in Dysbindin-Associated Schizophrenia

Author

Aiden Corvin, Derek W. Morris, Elena Magno, Gary Donohoe, John J. Foxe, Hugh Garavan, Daniel C. Javitt, Pierfilippo De Sanctis, Jennifer L. Montesi, Ian H. Robertson, and Michael Gill

Subjects

Adult, Male, Adolescent, Gene Expression, Electroencephalography, Schizotypal Personality Disorder, Parietal Lobe, Reaction Time, medicine, Humans, Genetic Predisposition to Disease, Biological Psychiatry, medicine.diagnostic_test, Genetic Carrier Screening, Dysbindin, Haplotype, Signal Processing, Computer-Assisted, Middle Aged, medicine.disease, Schizotypal personality disorder, Frontal Lobe, Phenotype, Haplotypes, Pattern Recognition, Visual, Frontal lobe, Schizophrenia, Agnosia, Higher Nervous Activity, Dystrophin-Associated Proteins, Evoked Potentials, Visual, Female, Schizophrenic Psychology, Occipital Lobe, medicine.symptom, Carrier Proteins, Psychology, Occipital lobe, Neuroscience

Abstract

Background Variation at the dysbindin gene ( DTNBP1 ) has been associated with increased risk for schizophrenia in numerous independent samples and recently with deficits in general and domain-specific cognitive processing. The relationship between dysbindin risk variants and sensory-level deficits in schizophrenia remains to be explored. We investigated P1 performance, a component of early visual processing on which both patients and their relatives show deficits, in carriers and noncarriers of a known dysbindin risk haplotype. Methods Event-related potential responses to simple visual isolated-check stimuli were measured using high-density electrical scalp recordings in 26 individuals meeting DSM-IV criteria for schizophrenia, comprising 14 patients who were carriers of the dysbindin risk haplotype and 12 patients who were nonrisk haplotype carriers. Results Carriers of the dysbindin risk haplotype demonstrated significantly reduced P1 amplitudes compared with noncarriers. A large effect size of d=.89 was calculated for the difference in P1 amplitude over scalp sites where the deficit was maximal. Conclusions The P1 deficits associated with a dysbindin risk haplotype previously identified in our sample presents functional confirmation of its deleterious effect on brain activity. Building on evidence of dysbindin's role in higher cognitive function, these early visual processing deficits suggest a generalized role for dysbindin in brain function and is likely to be part of the mechanism by which illness susceptibility is mediated.

Published

2008

11. Regulating task-monitoring systems in response to variable reward contingencies and outcomes in cocaine addicts

Author

John J. Foxe, Hugh Garavan, Kristen P. Morie, and Pierfilippo De Sanctis

Subjects

Adult, Male, Anhedonia, media_common.quotation_subject, Context (language use), behavioral disciplines and activities, 050105 experimental psychology, Task (project management), Developmental psychology, 03 medical and health sciences, Cocaine-Related Disorders, 0302 clinical medicine, Reward, medicine, Reaction Time, Humans, 0501 psychology and cognitive sciences, Set (psychology), Evoked Potentials, media_common, Pharmacology, Motivation, Addiction, 05 social sciences, Brain, Hedonic tone, Middle Aged, medicine.disease, Substance abuse, Reward dependence, Female, medicine.symptom, Cues, Psychology, psychological phenomena and processes, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

We investigated anticipatory and consummatory reward processing in cocaine addiction. In addition, we set out to assess whether task-monitoring systems were appropriately recalibrated in light of variable reward schedules. We also examined neural measures of task-monitoring and reward processing as a function of hedonic tone, since anhedonia is a vulnerability marker for addiction that is obviously germane in the context of reward processing.High-density event-related potentials were recorded while participants performed a speeded response task that systematically varied anticipated probabilities of reward receipt. The paradigm dissociated feedback regarding task success (or failure) from feedback regarding the value of reward (or loss), so that task-monitoring and reward processing could be examined in partial isolation. Twenty-three active cocaine abusers and 23 age-matched healthy controls participated.Cocaine abusers showed amplified anticipatory responses to reward predictive cues, but crucially, these responses were not as strongly modulated by reward probability as in controls. Cocaine users also showed blunted responses to feedback about task success or failure and did not use this information to update predictions about reward. In turn, they showed clearly blunted responses to reward feedback. In controls and users, measures of anhedonia were associated with reward motivation. In cocaine users, anhedonia was also associated with diminished monitoring and reward feedback responses.Findings imply that reward anticipation and monitoring deficiencies in addiction are associated with increased responsiveness to reward cues but impaired ability to predict reward in light of task contingencies, compounded by deficits in responding to actual reward outcomes.

Published

2015

12. Executive Dysfunction and Reward Dysregulation: A High-Density Electrical Mapping Study in Cocaine Abusers

Author

John J. Foxe, Kristen P. Morie, Hugh Garavan, and Pierfilippo De Sanctis

Subjects

Adult, Male, medicine.medical_specialty, Anhedonia, media_common.quotation_subject, Electroencephalography, Neuropsychological Tests, behavioral disciplines and activities, Severity of Illness Index, Article, Cellular and Molecular Neuroscience, Cocaine-Related Disorders, Executive Function, Cognition, Cocaine, Dopamine Uptake Inhibitors, Reward, Surveys and Questionnaires, Severity of illness, medicine, Humans, Psychiatry, Evoked Potentials, media_common, Pharmacology, medicine.diagnostic_test, Addiction, Brain, medicine.disease, Substance abuse, Inhibition, Psychological, Cohort, Regression Analysis, Female, medicine.symptom, Psychology, psychological phenomena and processes, Clinical psychology, Executive dysfunction

Abstract

Executive function deficits and reward dysregulation, which mainly manifests as anhedonia, are well documented in drug abusers. We investigated specific aspects of executive function (inhibitory control and cognitive control), as well as anhedonia, in a cohort of current cocaine abusers in order to ascertain to what extent these factors are associated with more severe drug dependence. Participants filled out questionnaires relating to anhedonia and their addiction history. Participants also performed a response inhibition task while high-density event-related potentials (ERPs) were recorded. Electrophysiological responses to successful inhibitions (N2/P3 components) and to commission errors (ERN/Pe components) were compared between 23 current users of cocaine and 27 non-using controls. A regression model was performed to determine the association of our measures of reward dysregulation and executive function with addiction severity. As expected, cocaine users performed more poorly than controls on the inhibitory control task and showed significant electrophysiological differences. They were also generally more anhedonic than controls. Higher levels of anhedonia were associated with more severe substance use, whereas the level of executive dysfunction was not associated with more severe substance use. However, N2 amplitude was associated with duration of drug use. Further, inhibitory control and anhedonia were correlated, but only in controls. These data suggest that while executive dysfunction characterizes drug abuse, it is anhedonia, independent of executive dysfunction, that is most strongly associated with more severe use.

Published

2014

13. Recalibration of Inhibitory Control Systems during Walking-Related Dual-Task Interference: A Mobile Brain-Body Imaging (MOBI) Study

Author

John J. Foxe, Brenda R. Malcolm, Pierfilippo De Sanctis, and John S. Butler

Subjects

Male, medicine.medical_specialty, Brain activity and meditation, Cognitive Neuroscience, STRIDE, Monitoring, Ambulatory, Walking, Electroencephalography, Brain mapping, behavioral disciplines and activities, Sensitivity and Specificity, Article, Task (project management), Young Adult, Physical medicine and rehabilitation, Event-related potential, medicine, Humans, Gait, Simulation, Cerebral Cortex, Feedback, Physiological, Brain Mapping, medicine.diagnostic_test, Reproducibility of Results, Neural Inhibition, Preferred walking speed, Inhibition, Psychological, Neurology, Calibration, Female, Psychology, human activities, psychological phenomena and processes, Psychomotor Performance

Abstract

Walking while simultaneously performing cognitively demanding tasks such as talking or texting are typical complex behaviors in our daily routines. Little is known about neural mechanisms underlying cortical resource allocation during such mobile actions, largely due to portability limitations of conventional neuroimaging technologies. We applied an EEG-based Mobile Brain-Body Imaging (MOBI) system that integrates high-density event-related potential (ERP) recordings with simultaneously acquired foot-force sensor data to monitor gait patterns and brain activity. We compared behavioral and ERP measures associated with performing a Go/NoGo response-inhibition task under conditions where participants (N = 18) sat in a stationary way, walked deliberately or walked briskly. This allowed for assessment of effects of increasing dual-task load (i.e. walking speed) on neural indices of inhibitory control. Stride time and variability were also measured during inhibitory task performance and compared to stride parameters without task performance, thereby assessing reciprocal dual-task effects on gait parameters. There were no task performance differences between sitting and either walking condition, indicating that participants could perform both tasks simultaneously without suffering dual-task costs. However, participants took longer strides under dual-task load, likely indicating an adaptive mechanism to reduce inter-task competition for cortical resources. We found robust differences in amplitude, latency and topography of ERP components (N2 and P3) associated with inhibitory control between the sitting and walking conditions. Considering that participants showed no dual-task performance costs, we suggest that observed neural alterations under increasing task-load represent adaptive recalibration of the inhibitory network towards a more controlled and effortful processing mode, thereby optimizing performance under dual-task situations.

Published

2014

14. Throwing out the rules: anticipatory alpha-band oscillatory attention mechanisms during task-set reconfigurations

Author

Jeremy W. Murphy, John J. Foxe, and Pierfilippo De Sanctis

Subjects

Adult, Male, Task switching, Adolescent, Electroencephalography, Auditory cortex, Article, Task (project management), Developmental psychology, medicine, Humans, Cortical Synchronization, Set (psychology), Visual Cortex, Cued speech, Auditory Cortex, Modality (human–computer interaction), medicine.diagnostic_test, General Neuroscience, Anticipation, Psychological, Alpha Rhythm, Visual cortex, medicine.anatomical_structure, Female, Cues, Psychology, Psychomotor Performance, Cognitive psychology

Abstract

We assessed the role of alpha-band oscillatory activity during a task-switching design that required participants to switch between an auditory and a visual task, while task-relevant audio-visual inputs were simultaneously presented. Instructional cues informed participants which task to perform on a given trial and we assessed alpha-band power in the short 1.35-second period intervening between the cue and the task-imperative stimuli, on the premise that attentional biasing mechanisms would be deployed to resolve competition between the auditory and visual inputs. Prior work had shown that alpha-band activity was differentially deployed depending on the modality of the cued task. Here, we asked whether this activity would, in turn, be differentially deployed depending on whether participants had just made a switch of task, or were being asked to simply repeat the task. It is well-established that performance speed and accuracy are poorer on switch than on repeat trials. Here, however, the use of instructional cues completely mitigated these classic switch-costs. Measures of alpha-band synchronization/desynchronization showed that there was indeed greater and earlier differential deployment of alpha-band activity on switch versus repeat trials. Contrary to our hypothesis, this differential effect was entirely due to changes in the amount of desynchronization observed during switch and repeat trials of the visual task, with more desynchronization over both posterior and frontal scalp regions during switch-visual trials. These data imply that particularly vigorous, and essentially fully effective, anticipatory biasing mechanisms resolved the competition between competing auditory and visual inputs when a rapid switch of task was required.

Published

2013

15. Mapping phonemic processing zones along human perisylvian cortex: an electro-corticographic investigation

Author

John J. Foxe, Manuel R. Mercier, Sophie Molholm, Einat Liebenthal, Theodore H. Schwartz, Walter Ritter, and Pierfilippo De Sanctis

Subjects

Male, Auditory perception, Auditory Pathways, Histology, Adolescent, Mismatch negativity, Auditory cortex, Brain mapping, Functional Laterality, Article, Temporal lobe, Young Adult, Superior temporal gyrus, medicine, Humans, Speech, Auditory system, Language, Auditory Cortex, Brain Mapping, General Neuroscience, Electroencephalography, Speech processing, Temporal Lobe, medicine.anatomical_structure, Acoustic Stimulation, Auditory Perception, Female, Anatomy, Psychology, Neuroscience, Cognitive psychology

Abstract

The auditory system is organized such that progressively more complex features are represented across successive cortical hierarchical stages. Just when and where the processing of phonemes, fundamental elements of the speech signal, is achieved in this hierarchy remains a matter of vigorous debate. Non-invasive measures of phonemic representation have been somewhat equivocal. While some studies point to a primary role for middle/anterior regions of the superior temporal gyrus (STG), others implicate the posterior STG. Differences in stimulation, task and inter-individual anatomical/functional variability may account for these discrepant findings. Here, we sought to clarify this issue by mapping phonemic representation across left perisylvian cortex, taking advantage of the excellent sampling density afforded by intracranial recordings in humans. We asked whether one or both major divisions of the STG were sensitive to phonemic transitions. The high signal-to-noise characteristics of direct intracranial recordings allowed for analysis at the individual participant level, circumventing issues of inter-individual anatomic and functional variability that may have obscured previous findings at the group level of analysis. The mismatch negativity (MMN), an electro-physiological response elicited by changes in repetitive streams of stimulation, served as our primary dependent measure. Oddball configurations of pairs of phonemes, spectro-temporally matched non-phonemes, and simple tones were presented. The loci of the MMN clearly differed as a function of stimulus type. Phoneme representation was most robust over middle/anterior STG/STS, but was also observed over posterior STG/SMG. These data point to multiple phonemic processing zones along perisylvian cortex, both anterior and posterior to primary auditory cortex. This finding is considered within the context of a dual stream model of auditory processing in which functionally distinct ventral and dorsal auditory processing pathways may be engaged by speech stimuli.

Published

2013

16. Mobile brain/body imaging (MoBI): High-density electrical mapping of inhibitory processes during walking

Author

Pierfilippo De Sanctis, John J. Foxe, Adam C. Snyder, John S. Butler, and Jason M. Green

Subjects

Adult, Male, medicine.medical_specialty, Walking, Electroencephalography, Sitting, Task (project management), Physical medicine and rehabilitation, Task Performance and Analysis, medicine, Photography, Humans, Evoked Potentials, Analysis of Variance, Brain Mapping, medicine.diagnostic_test, Work (physics), Brain, Neurophysiology, Gait, Biomechanical Phenomena, Gait analysis, Female, Psychology, Neuroscience, Cognitive load

Abstract

The present study investigated the feasibility of acquiring high-density event-related brain potential (ERP) recordings during treadmill walking in human subjects. The work builds upon recent studies testing the applicability of real-world tasks while obtaining electroencephalographic (EEG) recordings. Participants performed a response inhibition GO/NOGO task - designed to evoke a P3 component for correct response inhibitions and an error-related negativity (ERN) for incorrect commission errors - while speed of walking was experimentally manipulated. Robust P3 and ERN components were obtained under all experimental conditions - while participants were sitting, walking at moderate speed (2.4 km/hour), or walking rapidly (5 km/hour). Signal-to-noise ratios were remarkably similar across conditions, pointing to the feasibility of high-fidelity ERP recordings under relatively vigorous activity regimens. There is considerable research and clinical motivation to obtain high quality neurophysiological measures under more naturalistic environmental settings such as these. Strong links between cognitive load and gait abnormalities are seen in a number of clinical populations and these MoBI technologies provide highly promising methods for gaining insights into the underlying pathophysiology.

Published

2013

17. Intact inhibitory control processes in abstinent drug abusers (II): a high-density electrical mapping study in former cocaine and heroin addicts

Author

Pierfilippo De Sanctis, Kristen P. Morie, John J. Foxe, Menachem I. Krakowski, Ryan P. Bell, and Hugh Garavan

Subjects

Adult, Male, medicine.medical_specialty, media_common.quotation_subject, Population, Emotions, Audiology, Motor Activity, Neuropsychological Tests, Impulsivity, Inhibitory postsynaptic potential, Developmental psychology, Cohort Studies, Cellular and Molecular Neuroscience, Cocaine-Related Disorders, Surveys and Questionnaires, Inhibitory control, Neural Pathways, Task Performance and Analysis, medicine, Reaction Time, Humans, education, Evoked Potentials, media_common, Pharmacology, education.field_of_study, Heroin Dependence, Addiction, Brain, Electroencephalography, Abstinence, medicine.disease, Substance abuse, Electrophysiology, Inhibition, Psychological, Impulsive Behavior, Female, medicine.symptom, Psychology

Abstract

Response inhibition deficits are well-documented in drug users, and are related to the impulsive tendencies characteristic of the addictive phenotype. Addicts also show significant motivational issues that may accentuate these inhibitory deficits. We investigated the extent to which these inhibitory deficits are present in abstinence. Salience of the task stimuli was also manipulated on the premise that emotionally-valenced inputs might impact inhibitory efficacy by overcoming the blunted responses to everyday environmental inputs characteristic of this population. Participants performed response inhibition tasks consisting of both neutral and emotionally valenced stimuli while high-density event-related potentials (ERPs) were recorded. Electrophysiological responses (N2/P3 components) to successful inhibitions in abstinent abusers (N = 20) and non-using participants (N = 21) were compared. In contrast to previous work in current users, our abstinent cohort showed no detectable behavioral or electrophysiological differences in their inhibitory responses, and no differences on self-reports of impulsivity, despite their long histories of chronic use (mean = 10.3 years). The current findings are consistent with a recovery of inhibitory control processes as a function of abstinence. Abstinent former users, however, did show a reduced modulation, relative to controls, of their ERPs to valenced input while performing successful inhibitions, although contrary to our hypothesis, the use of valenced inputs had no impact on inhibitory performance. Reduced ERP modulation to emotionally valenced inputs may have implications for relapse in emotional contexts outside the treatment center.

Published

2012

18. Early sensory-perceptual processing deficits for affectively valenced inputs are more pronounced in schizophrenia patients with a history of violence than in their non-violent peers

Author

Pal Czobor, Jessica Huening, Glenn R. Wylie, Stephanie M. Kamiel, John J. Foxe, Menahem I. Krakowski, Pierfilippo De Sanctis, and Michael Nair-Collins

Subjects

Adult, Male, medicine.medical_specialty, Sensory processing, Adolescent, Cognitive Neuroscience, medicine.medical_treatment, Population, Emotions, Poison control, Experimental and Cognitive Psychology, Audiology, Neuropsychological Tests, Violence, Brain mapping, Developmental psychology, Perceptual Disorders, Young Adult, Event-related potential, medicine, Reaction Time, Humans, education, International Affective Picture System, Psychiatric Status Rating Scales, education.field_of_study, Analysis of Variance, Brain Mapping, Electroencephalography, General Medicine, Original Articles, Middle Aged, medicine.disease, Facial Expression, Schizophrenia, Evoked Potentials, Visual, Female, Schizophrenic Psychology, Psychology, Photic Stimulation

Abstract

Individuals with schizophrenia are more prone to violent behaviors than the general population. It is increasingly recognized that processing of emotionally valenced stimuli is impaired in schizophrenia, a deficit that may play a role in aggressive behavior. Our goal was to establish whether patients with a history of violence would show more severe deficits in processing emotionally valenced inputs than non-violent patients. Using event-related potentials, we measured how early during processing of emotional valence, evidence of aberrant function was observed. A total of 42 schizophrenia patients (21 with history of violence; 21 without) and 28 healthy controls were tested. Participants performed an inhibitory control task, making speeded responses to pictorial stimuli. Pictures occasionally repeated twice and participants withheld responses to these repeats. Valenced pictures from the International Affective Picture System were presented. Results in controls showed modulations during the earliest phases of sensory processing (

Published

2012

19. Cognitive control in late-life depression: response inhibition deficits and dysfunction of the anterior cingulate cortex

Author

Jeannette R. Mahoney, Richard J. Katz, Manuel Gomez-Ramirez, George S. Alexopoulos, Christopher F. Murphy, John J. Foxe, Pierfilippo De Sanctis, and Pejman Sehatpour

Subjects

Male, medicine.medical_specialty, Population, Electroencephalography, Audiology, Brain mapping, Gyrus Cinguli, Article, medicine, Middle frontal gyrus, Humans, education, Psychiatry, Evoked Potentials, Anterior cingulate cortex, Depression (differential diagnoses), Aged, education.field_of_study, Brain Mapping, Depressive Disorder, medicine.diagnostic_test, Cognition, Late life depression, Psychiatry and Mental health, Inhibition, Psychological, medicine.anatomical_structure, Female, Geriatrics and Gerontology, Psychology, Cognition Disorders, Psychomotor Performance

Abstract

Objectives Geriatric depression is associated with frontolimbic functional deficits, and this frontal dysfunction may underlie the marked executive control deficits often seen in this population. The authors' goal was to assess the integrity of frontal cortical functioning in geriatric depression, while these individuals performed a standard cognitive control task. The N2 component of the event-related potential (ERP), an evoked response generated within the anterior cingulate cortex (ACC), is significantly enhanced when nondepressed individuals successfully inhibit a response, providing an excellent metric of frontal inhibitory function. Design The authors used a variant of a demanding Go/NoGo task-switching paradigm that required participants to inhibit response execution during NoGo trials by overcoming a potent response tendency established by frequent Go trials. Participants The authors compared a cohort of depressed geriatric outpatients (N = 11) with a similarly aged group of nondepressed participants (N = 11). Measurements Reaction times, accuracy, and high-density event-related potential recordings from a 64-channel electrode montage were obtained. Results A significantly enhanced N2 to NoGo trials was observed in nondepressed elderly participants, with generators localized to the ACC. In contrast, this enhancement was strongly reduced in the depressed sample. Source analysis and topographic mapping pointed to a displacement of N2 generators toward more posterior areas of the middle frontal gyrus in depressed subjects. Conclusions Findings confirm previous reports of an inhibitory control deficit in depressed elderly who show significantly increased rates of commission errors (i.e., failures to inhibit responses on NoGo trials). Electrophysiologic data suggest underlying dysfunction in ACC as the basis for this deficit.

Published

2010

20. Information transmission for one-dimensional stimuli: the role of strategies

Author

Pierfilippo De Sanctis and Werner Sommer

Subjects

Adult, Male, Time Factors, media_common.quotation_subject, Speech recognition, Decision Making, Experimental and Cognitive Psychology, Contingent Negative Variation, Choice Behavior, Young Adult, Cognition, Discrimination, Psychological, Arts and Humanities (miscellaneous), Event-related potential, Perception, Task Performance and Analysis, Developmental and Educational Psychology, Reaction Time, Humans, Evoked Potentials, media_common, Communication, Lateralized readiness potential, business.industry, Flexibility (personality), Information flow, Electroencephalography, General Medicine, Electrooculography, Asynchronous communication, Visual Perception, Female, Psychology, business, Photic Stimulation, Psychomotor Performance, Coding (social sciences)

Abstract

Important evidence about the information flow between perceptual and motor processes has been obtained from the lateralized readiness potential (LRP) recorded in two-choice go/nogo tasks. Here, we investigated the effect of time pressure on information transmission for one-dimensional stimuli (four squares differing in size). In between- and within-subject designs, respectively, Experiments 1 and 2 showed that under time pressure partial information initiates hand decision and response preparation before complete size information is available. These findings appear to be at odds with the asynchronous discrete coding model. Experiment 3 assessed the mechanisms behind these effects by manipulating the relative difficulty of extracting hand- and go/nogo-specific information from the size of the stimuli. Consistent with asynchronous coding, our results suggest that serial-consecutive processes in extracting partial and full size information may occur also for one-dimensional stimuli. Our data are inconclusive as to the question of discreteness or continuity of information transmission. On a more general level, our data support the notion of flexibility in the coding of perceptual dimensions to adapt performance to environmental conditions.

Published

2008

21. Auditory Scene Analysis: the interaction of stimulation rate and frequency separation on pre-attentive grouping

Author

Simon P. Kelly, Sophie Molholm, Walter Ritter, Pierfilippo De Sanctis, and John J. Foxe

Subjects

Auditory perception, Adult, Male, Communication, Auditory scene analysis, business.industry, General Neuroscience, Speech recognition, Stimulation rate, Mismatch negativity, Stimulus (physiology), Frequency difference, Article, Acoustic Stimulation, Event-related potential, Frequency separation, Auditory Perception, Evoked Potentials, Auditory, Humans, Attention, Female, business, Psychology

Abstract

Segregation of auditory inputs into meaningful acoustic groups is a key element of auditory scene analysis. Previously, we showed that two interwoven sets of tones differing widely along multiple feature dimensions (duration, pitch and location) were pre-attentively separated into different groups, and that tones separated in this manner did not elicit the mismatch negativity component with respect to each other. Grouping was studied with human subjects using a stimulus rate too slow to induce streaming. Here, we varied the separation of tone sequences along a single feature dimension, i.e. frequency. Frequency differences were either 24 Hz (small) or 1054 Hz (large). Two relatively slow stimulus rates were used (2.7 or 1 tone/s) to explicitly investigate grouping outside the so-called 'streaming effect', which requires rates of about 4 tones/s or faster. Two tones were presented in a quasi-random manner with embedded trains of one to four identical tones in a row. Deviants were defined as frequency switches after trains of four identical tones. Mismatch negativity was only elicited for small frequency switches at the slower stimulation rate. The data indicate that pre-attentive grouping of tones occurred when the frequency difference that separated them was large, regardless of stimulation rate. For small frequency differences, inputs were only grouped separately when the stimulation rate was relatively fast.

Published

2008

22. Preattentively grouped tones do not elicit MMN with respect to each other

Author

Pierfilippo De Sanctis, John J. Foxe, Daniel C. Javitt, Walter Ritter, and Sophie Molholm

Subjects

Auditory perception, Adult, Male, medicine.medical_specialty, Adolescent, Cognitive Neuroscience, Mismatch negativity, Experimental and Cognitive Psychology, Audiology, Electroencephalography, behavioral disciplines and activities, Functional Laterality, Article, Developmental Neuroscience, Event-related potential, medicine, otorhinolaryngologic diseases, Humans, Attention, Set (psychology), Evoked Potentials, Biological Psychiatry, Communication, Scene analysis, medicine.diagnostic_test, Endocrine and Autonomic Systems, business.industry, General Neuroscience, Neuropsychology and Physiological Psychology, Neurology, Acoustic Stimulation, Data Interpretation, Statistical, Auditory Perception, Female, sense organs, Psychology, business, psychological phenomena and processes

Abstract

In order to promote preattenive grouping of two sets of tones, one set of tones with a combination of frequency and ear of delivery was intermixed with another set of tones with a different combination of frequency and ear of delivery. The ERPs elicited by tones delivered to one ear that were preceded by three or four tones delivered in a row to the other ear were associated with an enhanced N1, due to the changes in frequency and ear of delivery with respect to the immediately preceding tones. However, no mismatch negativity (MMN) was obtained, even though these tones differed from the previious tones on the two dimensions of frequency and ear of delivery. The data were interpreted to signify that preattentively grouped sets of tones do not elicit MMN with respect to one another. This implies that once acoustic input has been preattentively grouped, the MMN system is dedicated to detecting changes that occur within but not between preattentively grouped stimuli

Published

2006

23. Seeing voices: High-density electrical mapping and source-analysis of the multisensory mismatch negativity evoked during the McGurk illusion

Author

Dave Saint-Amour, Pierfilippo De Sanctis, Sophie Molholm, Walter Ritter, and John J. Foxe

Subjects

Auditory perception, Adult, Male, medicine.medical_specialty, genetic structures, Cognitive Neuroscience, media_common.quotation_subject, Illusion, Mismatch negativity, Experimental and Cognitive Psychology, Contingent Negative Variation, Audiology, Auditory cortex, behavioral disciplines and activities, Lateralization of brain function, Article, Behavioral Neuroscience, medicine, Image Processing, Computer-Assisted, Reaction Time, Humans, Oddball paradigm, Vision, Ocular, media_common, Temporal cortex, Analysis of Variance, Brain Mapping, Spectrum Analysis, Multisensory integration, Electroencephalography, Illusions, Acoustic Stimulation, Auditory Perception, Voice, Female, Psychology, psychological phenomena and processes, Photic Stimulation, Cognitive psychology

Abstract

Seeing a speaker's facial articulatory gestures powerfully affects speech perception, helping us overcome noisy acoustical environments. One particularly dramatic illustration of visual influences on speech perception is the "McGurk illusion", where dubbing an auditory phoneme onto video of an incongruent articulatory movement can often lead to illusory auditory percepts. This illusion is so strong that even in the absence of any real change in auditory stimulation, it activates the automatic auditory change-detection system, as indexed by the mismatch negativity (MMN) component of the auditory event-related potential (ERP). We investigated the putative left hemispheric dominance of McGurk-MMN using high-density ERPs in an oddball paradigm. Topographic mapping of the initial McGurk-MMN response showed a highly lateralized left hemisphere distribution, beginning at 175 ms. Subsequently, scalp activity was also observed over bilateral fronto-central scalp with a maximal amplitude at approximately 290 ms, suggesting later recruitment of right temporal cortices. Strong left hemisphere dominance was again observed during the last phase of the McGurk-MMN waveform (350-400 ms). Source analysis indicated bilateral sources in the temporal lobe just posterior to primary auditory cortex. While a single source in the right superior temporal gyrus (STG) accounted for the right hemisphere activity, two separate sources were required, one in the left transverse gyrus and the other in STG, to account for left hemisphere activity. These findings support the notion that visually driven multisensory illusory phonetic percepts produce an auditory-MMN cortical response and that left hemisphere temporal cortex plays a crucial role in this process.

Published

2005