Your search keyword '"Vincent Walsh"' showing total 275 results

1. Decision‐making impairment under ambiguity but not under risk may underlie medication overuse in patients with chronic migraine

Author

Chi Ieong Lau, Wei‐Hung Chen, Han‐Cheng Wang, and Vincent Walsh

Subjects

Neurology, Neurology (clinical)

Published

2023

2. Effect of single‐session transcranial direct current stimulation on cognition in Parkinson's disease

Author

Han Cheng Wang, Chyi Huey Bai, Kae Chwen Chang, Ching Shiang Tseng, Chi-Ieong Lau, Mu N. Liu, Anna Chang, and Vincent Walsh

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Elementary cognitive task, Parkinson's disease, medicine.medical_treatment, Stimulation, Transcranial Direct Current Stimulation, tDCS, memory, 03 medical and health sciences, Cognition, 0302 clinical medicine, Physical medicine and rehabilitation, Physiology (medical), medicine, Humans, Cognitive Dysfunction, Pharmacology (medical), Effects of sleep deprivation on cognitive performance, Aged, Pharmacology, Cross-Over Studies, Transcranial direct-current stimulation, Working memory, business.industry, Parkinson Disease, Original Articles, Middle Aged, medicine.disease, Crossover study, inhibitory control, Psychiatry and Mental health, Memory, Short-Term, Treatment Outcome, 030104 developmental biology, Female, Original Article, business, Photic Stimulation, 030217 neurology & neurosurgery

Abstract

Aims Nonmotor symptoms (NMS) such as cognitive impairment and impulse‐control disorders in Parkinson's disease (PD) remain a therapeutic challenge. Transcranial direct current stimulation (tDCS) has emerged as a promising alternative, although its immediate effects on NMS have been less well defined. In this randomized, sham‐controlled, crossover study, we aimed to explore the single‐session tDCS effects on cognitive performance in PD. Methods Ten nondemented patients with PD completed two sessions in counterbalanced order, receiving 20 minutes of either 2 mA anodal or sham tDCS over the left dorsolateral prefrontal cortex (DLPFC). During stimulation, they performed the visual working memory and go/no‐go tasks. Performance of the tasks was compared between the two conditions. Results Single‐session anodal tDCS over the left DLPFC did not significantly improve cognitive tasks in PD compared with sham (P > .05). Conclusion Single‐session tDCS is ineffective in improving visual working memory and inhibitory control in PD. Further research may worth exploring alternative tDCS parameters, ideally with repeated sessions and concomitant training.

Published

2019

3. The physiological effects of transcranial electrical stimulation do not apply to parameters commonly used in studies of cognitive neuromodulation

Author

Mayank Bhandari, Vincent Walsh, James C. Glen, and Beth L. Parkin

Subjects

Adult, Male, Adolescent, Cognitive Neuroscience, media_common.quotation_subject, medicine.medical_treatment, Experimental and Cognitive Psychology, Stimulation, Transcranial Direct Current Stimulation, Inhibitory postsynaptic potential, Functional Laterality, 050105 experimental psychology, Young Adult, 03 medical and health sciences, Behavioral Neuroscience, Cognition, 0302 clinical medicine, Perception, medicine, Humans, 0501 psychology and cognitive sciences, media_common, Cerebral Cortex, Brain Mapping, Transcranial direct-current stimulation, 05 social sciences, Motor Cortex, Evoked Potentials, Motor, Neuromodulation (medicine), Bilateral stimulation, Excitatory postsynaptic potential, Female, Noise, Psychology, Neuroscience, 030217 neurology & neurosurgery

Abstract

Transcranial direct current stimulation (tDCS) and transcranial random noise stimulation (tRNS) have been claimed to produce many remarkable enhancements in perception, cognition, learning and numerous clinical conditions. The physiological basis of the claims for tDCS rests on the finding that 1 mA of unilateral anodal stimulation increases cortical excitation and 1 mA of cathodal produces inhibition. Here we show that these classic excitatory and inhibitory effects do not hold for the bilateral stimulation or 2 mA intensity conditions favoured in cognitive enhancement experiments. This is important because many, including some of the most salient claims are based on experiments using 2 mA bilateral stimulation. The claims for tRNS are also based on unilateral stimulation. Here we show that, again the classic excitatory effects of unilateral tRNS do not extend to the bilateral stimulation preferred in enhancement experiments. Further, we show that the effects of unilateral tRNS do not hold when one merely doubles the stimulation duration. We are forced to two conclusions: (i) that even if all the data on TES enhancements are true, the physiological explanations on which the claims are based are at best not established but at worst false, and (ii) that we cannot explain, scientifically at least, how so many experiments can have obtained data consistent with physiological effects that may not exist.

Published

2019

4. Revisiting the effects of transcranial direct current stimulation on pattern-reversal visual evoked potentials

Author

Lin Yuan Tseng, Chi-Ieong Lau, Tzu Yu Hsu, and Vincent Walsh

Subjects

0301 basic medicine, Adult, Male, medicine.medical_specialty, genetic structures, medicine.medical_treatment, Audiology, Electroencephalography, Stimulus (physiology), Transcranial Direct Current Stimulation, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Medicine, Humans, Habituation, Visual Cortex, medicine.diagnostic_test, Transcranial direct-current stimulation, business.industry, General Neuroscience, Middle Aged, medicine.disease, Crossover study, 030104 developmental biology, Visual cortex, medicine.anatomical_structure, Migraine, Evoked Potentials, Visual, Female, business, 030217 neurology & neurosurgery, Motor cortex

Abstract

Despite increasing growth of interest in transcranial direct current stimulation (tDCS), its underlying mechanisms are still unclear. With many claims based on the anodal-excitation and cathodal-inhibition dichotomy originally observed in the motor cortex, surprisingly few studies have examined these fundamental polarity-specific effects beyond the motor cortex. The after-effects of tDCS on the visual cortex are of particular interest because of their potential application to vision restoration and migraine treatment. Yet the limited studies revealed conflicting results. Here we investigated whether polarity-specific tDCS effects exist in the visual cortex. In a counterbalanced within-subject crossover design, 20 healthy subjects each completed three sessions of anodal, cathodal and sham tDCS (2 mA for 20 min) applied over the visual cortex. Pattern-reversal visual evoked potentials (VEP) and their habituation slopes were measured at five time-points immediately before, after and every 15 min following the end of tDCS. Compared to sham, we found no significant tDCS induced after-effects on VEP amplitudes or habituation slopes, supported by strong evidence from Bayesian statistics. Neither were there any after-effects of tDCS on EEG power of the frequency of stimulus presentation, theta or alpha band. In conclusion, our results challenge previous findings of robust polarity-dependent after-effects of tDCS over the visual cortex.

Published

2021

5. The city as a life-support system

Author

Vincent Walsh and David Haley

Subjects

business.industry, Sociology, Public relations, business, Life support system

Published

2020

6. Transcranial Magnetic Stimulation and the Understanding of Behavior

Author

Beth L. Parkin, David Pitcher, and Vincent Walsh

Subjects

0303 health sciences, Behavior, Brain Mapping, Spike-timing-dependent plasticity, medicine.medical_treatment, Brain, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, 03 medical and health sciences, 0302 clinical medicine, Neuroimaging, Memory, medicine, State dependence, Humans, Learning, Single-unit recording, Psychology, Neuroscience, 030217 neurology & neurosurgery, General Psychology, 030304 developmental biology, Behavioral Research

Abstract

The development of the use of transcranial magnetic stimulation (TMS) in the study of psychological functions has entered a new phase of sophistication. This is largely due to an increasing physiological knowledge of its effects and to its being used in combination with other experimental techniques. This review presents the current state of our understanding of the mechanisms of TMS in the context of designing and interpreting psychological experiments. We discuss the major conceptual advances in behavioral studies using TMS. There are meaningful physiological and technical achievements to review, as well as a wealth of new perceptual and cognitive experiments. In doing so we summarize the different uses and challenges of TMS in mental chronometry, perception, awareness, learning, and memory.

Published

2020

7. Assessing decision making using 2D animations in elite academy footballers

Author

Javid, Farahani, Pooya, Soltani, Constantin, Rezlescu, and Vincent, Walsh

Subjects

Adult, Male, Young Adult, Adolescent, Athletes, Decision Making, Soccer, Humans, Computer Simulation, Female, Athletic Performance, Neuropsychological Tests, Psychomotor Performance

Abstract

Having investigated the effects of videos in the preceding chapter, this chapter assesses 2D animation, a form of presentation used in many coaching situations. The aim of this experiment was to investigate decision-making skills in different age groups (Under 16, 18 and 23) of elite academy footballers using a 2D animation simulation task of real game football scenarios. The work also explored the relationship between individual performance on the task and the actual performance on the pitch, as rated by three independent expert football coaches. This allowed us to examine whether this task is useful in predicting real-world decision-making skills. The results suggested that there was a significant difference between age groups on accuracy, by gaining more experience footballers perform better on the task. Also, the results showed a significant difference between all age groups on the response time. The under 23 age group were fastest, then the under 18 age group and finally the under 16 footballers were the slowest on the task. The correlation between performance on the task and the assessments provided by the coaches showed that 2D animation task is a sensitive measure in assessment of decision-making skills of elite academy players.

Published

2020

8. High-Frequency External Muscle Stimulation Reduces Depressive Symptoms in Older Male Veterans: A Pilot Study

Author

Ai Seon Kuan, Ying-Jay Liou, Shih-Jen Tsai, Heng-Liang Yeh, Vincent Walsh, Chi-Ieong Lau, and Mu-N Liu

Subjects

Male, medicine.medical_specialty, Electric Stimulation Therapy, Pilot Projects, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Muscle Strength, Prospective Studies, Depressive symptoms, Depression (differential diagnoses), Aged, Veterans, 030214 geriatrics, business.industry, Depression, Public health, Psychiatry and Mental health, Treatment Outcome, Physical therapy, Muscle strength, Neurology (clinical), Geriatrics and Gerontology, Muscle Stimulation, business, Older people, 030217 neurology & neurosurgery

Abstract

Objective: Late-life depression (LLD) is a severe public health problem. Given that pharmacological treatments for LLD are limited by their side effects, development of efficient and tolerable nonpharmacological treatment for LLD is urgently required. This study investigated whether high-frequency external muscle stimulation could reduce depressive symptoms in LLD. Methods: Twenty-two older male veterans with major depression were recruited and randomized into a treatment (n = 9) or sham control group (n = 13). The groups received high-frequency external muscle stimulation or sham intervention 3 times per week for 12 weeks. Clinical symptoms and muscle strength were evaluated at baseline and every 2 weeks. Results: The 2 groups were homogeneous in age, baseline clinical symptoms, and muscle strength. The treatment group showed significant improvement in depression and anxiety scores and muscle strength (all P < .01), whereas the control group showed no significant change after the 12-week follow-up. Compared to the control group, the treatment group showed significant improvements in depression (Geriatric Depression Scale, P = .009; Hamilton Depression Rating Scale, P = .007) and anxiety scores (HAMA, P = .008) and muscle strength (all P < .001). Changes in depression and anxiety levels were significantly correlated with changes in muscle strength after the study. In the treatment group, we observed a trend of correlation between the reduction in depression and muscle strength gains. Conclusion: High-frequency external muscle stimulation appears to be an effective treatment for older patients with LLD. Large studies with more tests and/or conducted in different populations are warranted to validate these preliminary findings.

Published

2020

9. Clinical and biobehavioral perspectives: Is medication overuse headache a behavior of dependence?

Author

Chi Ieong, Lau, Mu-N, Liu, Wei-Hung, Chen, Vincent, Walsh, and Shuu-Jiun, Wang

Subjects

Analgesics, Substance-Related Disorders, Headache Disorders, Secondary, Humans, Cognitive Dysfunction

Abstract

Medication overuse headache (MOH), previously known as analgesic abuse headache or medication misuse headaches, is a common form of chronic headache disorder that has a detrimental impact on health and society. Although it has been widely accepted that overusing abortive medications is paradoxically the cause of MOH and drug discontinuation is the treatment of choice, ongoing debates exist as to whether drug consumption per se is the cause or consequence of headache chronification. Certain features in MOH such as their compulsive drug-seeking behavior, withdrawal headaches and high relapse rates share similarities with drug dependence, suggesting that there might be common underlying biological and psychobehavioral mechanisms. In this regard, this article will discuss the updated evidence and current debates on the possible biobehavioral overlap between MOH and drug dependence. To begin with, we will discuss whether MOH has characteristics of substance dependence based on standard psychiatry diagnostic criteria and other widely used dependence scales. Recent epidemiological studies underscoring common psychiatric comorbidities between the two disorders will also be presented. Although both demonstrate seemingly distinct personality traits, recent studies revealed similar decision-making impairment from a cognitive perspective, indicating the presence of a maladaptive reward system in both disorders. In addition, emerging imaging studies also support this notion by showing reversible morphological and functional brain changes related to the mesocorticolimbic reward circuitry in MOH, with a strong resemblance to those in addiction. Finally, an increased familial risk for drug dependence and genetic association with dopaminergic and drug dependence molecular pathways in MOH also support a possible link between MOH and addiction. Understanding the role of dependence in MOH will have a great impact on disease management as this will provide the missing piece of the puzzle in current therapeutic strategies.

Published

2020

10. The visual system as target of non-invasive brain stimulation for migraine treatment: Current insights and future challenges

Author

Chi Ieong, Lau, Wei-Hung, Chen, and Vincent, Walsh

Subjects

Migraine Disorders, Vision Disorders, Humans, Nerve Net, Transcranial Direct Current Stimulation, Transcranial Magnetic Stimulation, Visual Cortex

Abstract

The visual network is crucially implicated in the pathophysiology of migraine. Several lines of evidence indicate that migraine is characterized by an altered visual cortex excitability both during and between attacks. Visual symptoms, the most common clinical manifestation of migraine aura, are likely the result of cortical spreading depression originating from the extrastriate area V3A. Photophobia, a clinical hallmark of migraine, is linked to an abnormal sensory processing of the thalamus which is converged with the non-image forming visual pathway. Finally, visual snow is an increasingly recognized persistent visual phenomenon in migraine, possibly caused by increased perception of subthreshold visual stimuli. Emerging research in non-invasive brain stimulation (NIBS) has vastly developed into a diversity of areas with promising potential. One of its clinical applications is the single-pulse transcranial magnetic stimulation (sTMS) applied over the occipital cortex which has been approved for treating migraine with aura, albeit limited evidence. Studies have also investigated other NIBS techniques, such as repetitive TMS (rTMS) and transcranial direct current stimulation (tDCS), for migraine prophylaxis but with conflicting results. As a dynamic brain disorder with widespread pathophysiology, targeting migraine with NIBS is challenging. Furthermore, unlike the motor cortex, evidence suggests that the visual cortex may be less plastic. Controversy exists as to whether the same fundamental principles of NIBS, based mainly on findings in the motor cortex, can be applied to the visual cortex. This review aims to explore existing literature surrounding NIBS studies on the visual system of migraine. We will first provide an overview highlighting the direct implication of the visual network in migraine. Next, we will focus on the rationale behind using NIBS for migraine treatment, including its effects on the visual cortex, and the shortcomings of currently available evidence. Finally, we propose a broader perspective of how novel approaches, the concept of brain networks and the integration of multimodal imaging with computational modeling, can help refine current NIBS methods, with the ultimate goal of optimizing a more individualized treatment for migraine.

Published

2020

11. Clinical and biobehavioral perspectives: Is medication overuse headache a behavior of dependence?

Author

Chi Ieong Lau, Vincent Walsh, Mu N. Liu, Wei Hung Chen, and Shuu Jiun Wang

Subjects

medicine.medical_specialty, Substance dependence, business.industry, Addiction, media_common.quotation_subject, Cognition, medicine.disease, Substance abuse, 03 medical and health sciences, Reward system, 0302 clinical medicine, Migraine, medicine, Headaches, medicine.symptom, Disease management (health), Psychiatry, business, 030217 neurology & neurosurgery, media_common

Abstract

Medication overuse headache (MOH), previously known as analgesic abuse headache or medication misuse headaches, is a common form of chronic headache disorder that has a detrimental impact on health and society. Although it has been widely accepted that overusing abortive medications is paradoxically the cause of MOH and drug discontinuation is the treatment of choice, ongoing debates exist as to whether drug consumption per se is the cause or consequence of headache chronification. Certain features in MOH such as their compulsive drug-seeking behavior, withdrawal headaches and high relapse rates share similarities with drug dependence, suggesting that there might be common underlying biological and psychobehavioral mechanisms. In this regard, this article will discuss the updated evidence and current debates on the possible biobehavioral overlap between MOH and drug dependence. To begin with, we will discuss whether MOH has characteristics of substance dependence based on standard psychiatry diagnostic criteria and other widely used dependence scales. Recent epidemiological studies underscoring common psychiatric comorbidities between the two disorders will also be presented. Although both demonstrate seemingly distinct personality traits, recent studies revealed similar decision-making impairment from a cognitive perspective, indicating the presence of a maladaptive reward system in both disorders. In addition, emerging imaging studies also support this notion by showing reversible morphological and functional brain changes related to the mesocorticolimbic reward circuitry in MOH, with a strong resemblance to those in addiction. Finally, an increased familial risk for drug dependence and genetic association with dopaminergic and drug dependence molecular pathways in MOH also support a possible link between MOH and addiction. Understanding the role of dependence in MOH will have a great impact on disease management as this will provide the missing piece of the puzzle in current therapeutic strategies.

Published

2020

12. Alpha Oscillations Are Causally Linked to Inhibitory Abilities in Ageing

Author

Nahid Zokaei, Marinella Cappelletti, Vincenzo Romei, Giulia Borghini, Cristina Filannino, Vincent Walsh, Michela Candini, Masud Hussain, Borghini, Giulia, Candini, Michela, Filannino, Cristina, Hussain, Masud, Walsh, Vincent, Romei, Vincenzo, Zokaei, Nahid, and Cappelletti, Marinella

Subjects

Adult, Male, tACS, Aging, Adolescent, Brain activity and meditation, Alpha (ethology), Stimulation, Transcranial Direct Current Stimulation, Inhibitory postsynaptic potential, 050105 experimental psychology, Young Adult, 03 medical and health sciences, Cognition, 0302 clinical medicine, Gamma Rhythm, Humans, 0501 psychology and cognitive sciences, Theta Rhythm, Child, Research Articles, Inhibition, Aged, Transcranial alternating current stimulation, Alpha oscillation, Neuroscience (all), Working memory, General Neuroscience, 05 social sciences, Middle Aged, Ageing, Alpha Rhythm, Inhibition, Psychological, Memory, Short-Term, Mental Recall, Female, Cues, Psychology, Neuroscience, Algorithms, Psychomotor Performance, 030217 neurology & neurosurgery

Abstract

Aging adults typically show reduced ability to ignore task-irrelevant information, an essential skill for optimal performance in many cognitive operations, including those requiring working memory (WM) resources. In a first experiment, young and elderly human participants of both genders performed an established WM paradigm probing inhibitory abilities by means of valid, invalid, and neutral retro-cues. Elderly participants showed an overall cost, especially in performing invalid trials, whereas younger participants' general performance was comparatively higher, as expected.Inhibitory abilities have been linked to alpha brain oscillations but it is yet unknown whether in aging these oscillations (also typically impoverished) and inhibitory abilities are causally linked. To probe this possible causal link in aging, we compared in a second experiment parietal alpha-transcranial alternating current stimulation (tACS) with either no stimulation (Sham) or with two control stimulation frequencies (theta- and gamma-tACS) in the elderly group while performing the same WM paradigm. Alpha- (but not theta- or gamma-) tACS selectively and significantly improved performance (now comparable to younger adults' performance in the first experiment), particularly for invalid cues where initially elderly showed the highest costs. Alpha oscillations are therefore causally linked to inhibitory abilities and frequency-tuned alpha-tACS interventions can selectively change these abilities in the elderly.SIGNIFICANCE STATEMENTIgnoring task-irrelevant information, an ability associated to rhythmic brain activity in the alpha frequency band, is fundamental for optimal performance. Indeed, impoverished inhibitory abilities contribute to age-related decline in cognitive functions like working memory (WM), the capacity to briefly hold information in mind. Whether in aging adults alpha oscillations and inhibitory abilities arecausallylinked is yet unknown. We experimentally manipulated frequency-tuned brain activity using transcranial alternating current stimulation (tACS), combined with a retro-cue paradigm assessing WM and inhibition. We found that alpha-tACS induced a significant improvement in target responses and misbinding errors, two indexes of inhibition. We concluded that in aging alpha oscillations are causally linked to inhibitory abilities, and that despite being impoverished, these abilities are still malleable.

Published

2018

13. The categories, frequencies, and stability of idiosyncratic eye-movement patterns to faces

Author

Galit Yovel, Chris I. Baker, Vincent Walsh, and Joseph Arizpe

Subjects

Adult, Male, Eye Movements, genetic structures, Population, Facial recognition system, Article, 050105 experimental psychology, 03 medical and health sciences, Discrimination, Psychological, 0302 clinical medicine, Face perception, medicine, Humans, Attention, 0501 psychology and cognitive sciences, education, Analysis of Variance, education.field_of_study, 05 social sciences, Eye movement, eye diseases, Sensory Systems, Ophthalmology, medicine.anatomical_structure, Fixation (visual), Spatial ecology, Common spatial pattern, Female, Nasion, Psychology, Facial Recognition, Social psychology, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

The spatial pattern of eye-movements to faces considered typical for neurologically healthy individuals is a roughly T-shaped distribution over the internal facial features with peak fixation density tending toward the left eye (observer’s perspective). However, recent studies indicate that striking deviations from this classic pattern are common within the population and are highly stable over time. The classic pattern actually reflects the average of these various idiosyncratic eye-movement patterns across individuals. The natural categories and respective frequencies of different types of idiosyncratic eye-movement patterns have not been specifically investigated before, so here we analyzed the spatial patterns of eye-movements for 48 participants to estimate the frequency of different kinds of individual eye-movement patterns to faces in the normal healthy population. Four natural clusters were discovered such that approximately 25% of our participants’ fixation density peaks clustered over the left eye region (observer’s perspective), 23% over the right eye-region, 31% over the nasion/bridge region of the nose, and 20% over the region spanning the nose, philthrum, and upper lips. We did not find any relationship between particular idiosyncratic eye-movement patterns and recognition performance. Individuals’ eye-movement patterns early in a trial were more stereotyped than later ones and idiosyncratic fixation patterns evolved with time into a trial. Finally, while face inversion strongly modulated eye-movement patterns, individual patterns did not become less distinct for inverted compared to upright faces. Group-averaged fixation patterns do not represent individual patterns well, so exploration of such individual patterns is of value for future studies of visual cognition.

Published

2017

14. Review for 'No effect of tDCS of the primary motor cortex on isometric exercise performance or perceived fatigue'

Author

Vincent Walsh

Subjects

medicine.medical_specialty, Physical medicine and rehabilitation, business.industry, medicine, Isometric exercise, Primary motor cortex, business

Published

2019

15. High-stakes decision making

Author

Mark R. Wilson, Noel P. Kinrade, and Vincent Walsh

Subjects

medicine, Anxiety, Cognition, medicine.symptom, Psychology, Cognitive psychology

Published

2019

16. Neural predictors of treatment response to brain stimulation and psychological therapy in depression: a double-blind randomized controlled trial

Author

Jonathan P. Roiser, Camilla L. Nord, Níall Lally, Caroline J. Charpentier, Vincent Walsh, Tarun Limbachya, Stephen Pilling, D. Chamith Halahakoon, Judy Leibowitz, Nord, Camilla [0000-0002-9281-3417], and Apollo - University of Cambridge Repository

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Prefrontal Cortex, Transcranial Direct Current Stimulation, Article, law.invention, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Physical medicine and rehabilitation, Randomized controlled trial, Double-Blind Method, Functional neuroimaging, law, Medicine, Humans, Depression (differential diagnoses), Pharmacology, Depressive Disorder, Major, Transcranial direct-current stimulation, Cognitive Behavioral Therapy, business.industry, Working memory, Functional Neuroimaging, Brain, Odds ratio, Middle Aged, medicine.disease, Prognosis, Combined Modality Therapy, Magnetic Resonance Imaging, 030227 psychiatry, Psychiatry and Mental health, Brain stimulation, Major depressive disorder, Female, business, 030217 neurology & neurosurgery

Abstract

Standard depression treatments, including antidepressant medication and cognitive behavioural therapy (CBT), are ineffective for many patients. Prefrontal transcranial direct current stimulation (tDCS) has been proposed as an alternative treatment, but has shown inconsistent efficacy for depression, and its mechanisms are poorly understood. We recruited unmedicated patients with major depressive disorder (N = 71 approached; N = 39 randomised) for a mechanistic, double-blind, randomized controlled trial consisting of eight weekly sessions of prefrontal tDCS administered to the left prefrontal cortex prior to CBT. We probed (1) whether tDCS improved the efficacy of CBT relative to sham stimulation; and (2) whether neural measures predicted clinical response. We found a modest and non-significant effect of tDCS on clinical outcome over and above CBT (active: 50%; sham: 31.6%; odds ratio: 2.16, 95% CI = 0.59–7.99), but a strong relationship, predicted a priori, between baseline activation during a working memory task in the stimulated prefrontal region and symptom improvement. Repeating our analyses of symptom outcome splitting the sample according to this biomarker revealed that tDCS was significantly superior to sham in individuals with high left prefrontal cortex activation at baseline; we also show 86% accuracy in predicting clinical response using this measure. Exploratory analyses revealed several other regions where activation at baseline was associated with subsequent response to CBT, irrespective of tDCS. This mechanistic trial revealed variable, but predictable, clinical effects of prefrontal tDCS combined with CBT for depression. We have discovered a potential explanation for this variability: individual differences in baseline activation of the region stimulated. Such a biomarker could potentially be used to pre-select patients for trials and, eventually, in the clinic.

Published

2019

17. Left insular cortex and left SFG underlie prismatic adaptation effects on time perception: Evidence from fMRI

Author

Thomas Ditye, Barbara Magnani, Vincent Walsh, Massimiliano Oliveri, Francesca Frassinetti, Marcello Costantini, Magnani, B, Frassinetti, F, Ditye, T, Oliveri, M, Costantini, M, Walsh, V, Barbara Magnani, Francesca Frassinetti, Thomas Ditye, Massimiliano Oliveri, Marcello Costantini, and Vincent Walsh

Subjects

Adult, Male, Adolescent, genetic structures, Cognitive Neuroscience, Prefrontal Cortex, Posterior parietal cortex, Brain mapping, Young Adult, Figural Aftereffect, Neuroplasticity, medicine, Humans, SPACE, Prismatic adaptation, Prefrontal cortex, FUNCTIONAL MAGNETIC RESONANCE IMAGING (FMRI), Cerebral Cortex, Brain Mapping, Evidence-Based Medicine, Neuronal Plasticity, Settore M-PSI/02 - Psicobiologia E Psicologia Fisiologica, medicine.diagnostic_test, Working memory, Hemispatial neglect, Spatial representation of time, Time perception, Adaptation, Physiological, Magnetic Resonance Imaging, TIME, Neurology, Space Perception, FMRI, Time Perception, Female, Nerve Net, medicine.symptom, Psychology, Functional magnetic resonance imaging, Neuroscience

Abstract

Prismatic adaptation (PA) has been shown to affect left-to-right spatial representations of temporal durations. A leftward aftereffect usually distorts time representation toward an underestimation, while rightward aftereffect usually results in an overestimation of temporal durations. Here, we used functional magnetic resonance imaging (fMRI) to study the neural mechanisms that underlie PA effects on time perception. Additionally, we investigated whether the effect of PA on time is transient or stable and, in the case of stability, which cortical areas are responsible of its maintenance. Functional brain images were acquired while participants (n = 17) performed a time reproduction task and a control-task before, immediately after and 30 min after PA inducing a leftward aftereffect, administered outside the scanner. The leftward aftereffect induced an underestimation of time intervals that lasted for at least 30 min. The left anterior insula and the left superior frontal gyrus showed increased functional activation immediately after versus before PA in the time versus the control-task, suggesting these brain areas to be involved in the executive spatial manipulation of the representation of time. The left middle frontal gyrus showed an increase of activation after 30 min with respect to before PA. This suggests that this brain region may play a key role in the maintenance of the PA effect over time.

Published

2014

18. Polymathy: The Resurrection of Renaissance Man and the Renaissance Brain

Author

Claudia Garcia-Vega and Vincent Walsh

Subjects

Literature, business.industry, The Renaissance, Psychology, business

Published

2018

19. Dominant Voices and Attractive Faces: The Contribution of Visual and Auditory Information to Integrated Person Impressions

Author

Hikaru Tsujimura, Sophie K. Scott, Michael J. Banissy, Vincent Walsh, Constantin Rezlescu, and Tegan Penton

Subjects

Attractiveness, Dominance (ethology), Social Psychology, Social perception, Vowel, Masculinity, media_common.quotation_subject, Isolation (psychology), Prosody, Psychology, Social psychology, Mirroring, media_common

Abstract

Faces and voices, in isolation, prompt consistent social evaluations. However, most human interactions involve both seeing and talking with another person. Our main goal was to investigate how facial and vocal information are combined to reach an integrated person impression. In Study 1, we asked participants to rate faces and voices separately for perceived trustworthiness, attractiveness, and dominance. Most previous studies relied on stimuli in which extra-vocal information (e.g., verbal content, prosody) may have confounded voice-based effects; to prevent these unwanted influences, we used brief, neutral vowel sounds. Voices, like faces, led to the formation of highly reliable impressions. Voice trustworthiness correlated with voice attractiveness, mirroring the relation between face trustworthiness and attractiveness, but did not correlate with voice dominance. Inconsistent with the possibility that face and voice evaluations are indicative of real character traits, we found no positive correlations between judgments of trustworthiness or dominance based on faces and the same judgments based on voices (there was also no correlation between face attractiveness and voice attractiveness). In Study 2, we asked participants to evaluate male targets after seeing their faces and hearing their voices. Faces and voices contributed equally to judgments of trustworthiness and combined to produce a significant interaction effect. For attractiveness, faces were given more weight than voices, possibly due to the predominantly visual character of the attractiveness concept (there was no interaction effect). For dominance, the reverse pattern was true, with voices having a larger effect than faces on final judgments. In this case the auditory cues may be perceived to be more reliable because of the strong links between voice pitch, masculinity, and dominance.

Published

2015

20. Cross-hemispheric Alternating Current Stimulation During a Nap Disrupts Slow Wave Activity and Associated Memory Consolidation

Author

Crystal Goh, Peter Garside, Chi-Ieong Lau, Joseph Arizpe, and Vincent Walsh

Subjects

Male, tACS, Oscillations, Neuroscience(all), Delta wave, Clinical Neurology, Biophysics, Alpha (ethology), Stimulation, Electroencephalography, Transcranial Direct Current Stimulation, Montage, lcsh:RC321-571, Young Adult, Transcranial Direct Current Stimulation (tDCS)/Transcranial Alternating Current Stimulation (tACS), Slow wave sleep, Declarative memory, medicine, Humans, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Memory consolidation, Transcranial alternating current stimulation, Slow-wave sleep, medicine.diagnostic_test, Recall, General Neuroscience, Association Learning, Brain, Nap, Female, Original Article, Neurology (clinical), Sleep, Psychology, Neuroscience

Abstract

Background Slow Wave Activity (SWA), the low frequency (, Highlights • Cross-hemispheric tACS disrupted low frequency oscillation generation in afternoon nap. • Oscillation disruption correlated with declarative memory consolidation disruption. • Absent stimulation, low frequency oscillations also correlated with consolidation. • A rebound in low frequency oscillations was observed after 29 min of stimulation. • A causal role of low frequency oscillations in consolidation during nap is suggested.

Published

2015

21. Learning to Integrate versus Inhibiting Information Is Modulated by Age

Author

Maarten Speekenbrink, Vincent Walsh, Marinella Cappelletti, Emily Upstill, and Helen Pikkat

Subjects

Adult, Male, Aging, education, Posterior parietal cortex, Neuroenhancement, Developmental psychology, Dreyfus model of skill acquisition, Discrimination, Psychological, Parietal Lobe, Humans, Learning, Aged, General Neuroscience, Motor Cortex, Parietal lobe, Cognition, Numerosity adaptation effect, Articles, Middle Aged, Cognitive training, Brain stimulation, Female, Cues, Psychology, Cognitive psychology

Abstract

Cognitive training aiming at improving learning is often successful, but what exactly underlies the observed improvements and how these differ across the age spectrum are currently unknown. Here we asked whether learning in young and older people may reflect enhanced ability to integrate information required to perform a cognitive task or whether it may instead reflect the ability to inhibit task-irrelevant information for successful task performance. We trained 30 young and 30 aging human participants on a numerosity discrimination task known to engage the parietal cortex and in which cue-integration and inhibitory abilities can be distinguished. We coupled training with parietal, motor, or sham transcranial random noise stimulation, known for modulating neural activity. Numerosity discrimination improved after training and was maintained long term, especially in the training + parietal stimulation group, regardless of age. Despite the quantitatively similar improvement in the two age groups, the content of learning differed remarkably: aging participants improved more in inhibitory abilities, whereas younger subjects improved in cue-integration abilities. Moreover, differences in the content of learning were reflected in different transfer effects to untrained but related abilities: in the younger group, improvements in cue integration paralleled improvements in continuous quantity (time and space), whereas in the elderly group, improvements in numerosity-based inhibitory abilities generalized to other measures of inhibition and corresponded to a decline in space discrimination, possibly because conflicting learning resources are used in numerosity and continuous quantity processing. These results indicate that training can enhance different, age-dependent cognitive processes and highlight the importance of identifying the exact processes underlying learning for effective training programs.

Published

2015

22. Transcranial electrical stimulation

Author

Sven Bestmann and Vincent Walsh

Subjects

0301 basic medicine, Nervous system, Brain, Stimulation, Human brain, Recovery of Function, Biology, Transcranial Direct Current Stimulation, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Neural processing, medicine, Animals, Humans, General Agricultural and Biological Sciences, Neuroscience, 030217 neurology & neurosurgery, Brain function

Abstract

Transcranial electrical stimulation (tES) is a neuromodulatory technique in which low voltage constant or alternating currents are applied to the human brain via scalp electrodes. The basic idea of tES is that the application of weak currents can interact with neural processing, modify plasticity and entrain brain networks, and that this in turn can modify behaviour. The technique is now widely employed in basic and translational research, and increasingly is also used privately in sport, the military and recreation. The proposed capacity to augment recovery of brain function, by promoting learning and facilitating plasticity, has motivated a burgeoning number of clinical trials in a wide range of disorders of the nervous system.

Published

2017

23. Gunslingers, poker players, and chickens 2: Decision-making under physical performance pressure in subelite athletes

Author

Beth L, Parkin and Vincent, Walsh

Subjects

Adult, Male, Analysis of Variance, Adolescent, Decision Making, Fear, Young Adult, Games, Experimental, Risk-Taking, Athletes, Stress, Physiological, Reaction Time, Humans, Female, Psychomotor Performance

Abstract

Having investigated the influence of acute physical exhaustion on decision-making in world-class elite athletes in Parkin et al. (2017), here a similar method is applied to subelite athletes. These subelite athletes were enrolled on a Team GB talent development program and were undergoing training for possible Olympic competition in 4-8 years. They differ from elite athletes examined previously according to expertise and age. While considered elite (Swann et al., 2015), the subelite athletes had approximately 8 years fewer sporting experience and were yet to obtain sustained success on the international stage. Additionally, the average age of the subelite sample is 20 years; thus, they are still undergoing the behavioral, cognitive, and neuronal changes that occur during the transition from late adolescence to young adulthood (Blakemore and Robbins, 2012). Previous work has used broad definitions of elite status in sport, and as such overlooked different categories within the spectrum of elite athletes (Swann et al., 2015). Therefore it is important to consider subelite athletes as a discrete point on the developmental trajectory of elite sporting expertise.This work aims to investigate the influence of physical pressure on key indicators of decision-making in subelite athletes. It forms part of a wider project examining decision-making across different stages of the developmental trajectory in elite sport. In doing so, it aims to examine how to apply and develop psychological insights useful to an elite sporting environment.32 subelite athletes (18 males, mean age: 20 years) participated in the study. Performance across three categories of decision-making was assessed under conditions of low and high physical pressure. Decision-making under risk was measured with performance of the Cambridge Gambling Task (CGT; Rogers et al., 1999), decision-making under uncertainty with the Balloon Analogue Risk Task (BART; Lejuez et al., 2002), and fast reactive responses and inhibition via the Stop Signal Reaction Time Task (SSRT; Logan, 1994). Physical exhaustion was induced via intervals of maximal exertion exercise on a wattbike.Under pressure subelite athletes showed increased risk taking for both decisions where probability outcomes were explicit (on the CGT), and those where probability outcomes were unknown (on the BART). Despite making quicker decisions under pressure, with fewer errors, on the CGT, subelite athletes showed a reduced ability to optimally adjust betting behavior according to reward and loss contingencies. Fast reactive responses to perceptual stimuli and response inhibition did not change as a result of physical pressure. Individual responses to pressure showed a negative correlation in that a decrease in reaction times on the SSRT Task under pressure was associated with an increase in risk taking on the BART. When assessing the applicability of results based on group averages to individual athletes, 17% of the sample showed an "average" response (within 1 SD of the mean) to pressure across all three decision-making tasks.Indicators of decision-making in a sample of subelite athletes are influenced by physical pressure, with a shift toward increased indiscriminate risk taking. The influence that physical pressure has on decision-making was different to that observed in world-class elite athletes; this highlights the importance of distinguishing between athletes at the elite level (Swann et al., 2015). The application of this work to a novel subgroup of elite athletes, including the implementation of a decision-making taxonomy, is discussed.

Published

2017

24. Effectiveness of above real-time training on decision-making in elite football: A dose-response investigation

Author

Javid J, Farahani, Amir H, Javadi, Barry V, O'Neill, and Vincent, Walsh

Subjects

Male, Analysis of Variance, Random Allocation, Young Adult, Physical Education and Training, Time Factors, Adolescent, Decision Making, Football, Reaction Time, Humans, Athletic Performance

Abstract

We examined the effects of video-based training in elite footballers' decision-making by presenting videos with training and testing scenarios at above real-time speeds. We also examined different training protocols to establish how much training is beneficial. We found that above real-time training improved accuracy and response time in football decision-making. In terms of scheduling, we found that the benefits were short lasting and did not last beyond 2 weeks.

Published

2017

25. Gunslingers, poker players, and chickens 3: Decision making under mental performance pressure in junior elite athletes

Author

Beth L, Parkin and Vincent, Walsh

Subjects

Male, Analysis of Variance, Adolescent, Decision Making, Fear, Games, Experimental, Mental Processes, Risk-Taking, Athletes, Humans, Attention, Female, Child, Psychomotor Performance

Abstract

Having investigated the decision making of world class elite and subelite athletes (see Parkin and Walsh, 2017; Parkin et al., 2017), here the abilities of those at the earliest stage of entry to elite sport are examined. Junior elite athletes have undergone initial national selection and are younger than athletes examined previously (mean age 13 years). Decision making under mental pressure is explored in this sample. During performance an athlete encounters a wide array of mental pressures; these include the psychological impact of errors, negative feedback, and requirements for sustained attention in a dynamic environment (Anshel and Wells, 2000; Mellalieu et al., 2009). Such factors increase the cognitive demands of the athletes, inducing distracting anxiety-related thoughts known as rumination (Beilock and Gray, 2007). Mental pressure has been shown to reduce performance of decision-making tasks where reward and loss contingencies are explicit, with a shift toward increased risk taking (Pabst et al., 2013; Starcke et al., 2011). Mental pressure has been shown to be detrimental to decision-making speed in comparison to physical stress, highlighting the importance of considering a range of different pressures encountered by athletes (Hepler, 2015).To investigate the influence of mental pressure on key indicators of decision making in junior elite athletes. This chapter concludes a wider project examining decision making across developmental stages in elite sport. The work further explores how psychological insights can be applied in an elite sporting environment and in particular tailored to the requirements of junior athletes.Seventeen junior elite athletes (10 males, mean age: 13.80 years) enrolled on a national youth athletic development program participated in the study. Performance across three categories of decision making was assessed under conditions of low and high mental pressure. Decision making under risk was measured via the Cambridge Gambling Task (CGT; Rogers et al., 1999), decision making under uncertainty via the Balloon Analogue Risk Task (BART; Lejuez et al., 2002), and fast reactive responses to perceptual stimuli via the Visual Search Task (Treisman, 1982). Mental pressure was induced with the addition of a concurrent verbal memory task, used to increase cognitive load and mimic the distracting effects of anxiety-related rumination.In junior elite athletes, fast reactive responses to perceptual stimuli (on the Visual Search Task) were slower under conditions of mental pressure. For decision making under risk there was an interaction of mental pressure and gender on the amount of points gambled, under pressure there was a higher level of risk taking in male athletes compared to females. There was no influence of mental pressure on decision making under uncertainity. There were no significant correlations in the degree to which individual's responses changed under pressure across the three measures of decision making. When assessing the applicability of results based on group averages there were no junior elite athletes who showed an "average" response (within 1SD of the mean) to mental pressure across all the three decision-making tasks.Mental pressure affects decision making in a sample of junior elite athletes, with a slowing of response times, and modulations to performance of decision making under risk that have a high requirement for working memory. In relation to sport, these findings suggest that novel situations that place high cognitive demands on the athlete may be particularly influenced by mental pressure. The application of this work in junior elite athletes included the feedback of individual results and the implementation of a decision-making taxonomy.

Published

2017

26. Gunslingers, poker players, and chickens 1: Decision making under physical performance pressure in elite athletes

Author

Beth L, Parkin, Katie, Warriner, and Vincent, Walsh

Subjects

Adult, Male, Analysis of Variance, Decision Making, Fear, Young Adult, Games, Experimental, Professional Competence, Risk-Taking, Stroop Test, Time Perception, Humans, Female, Stress, Psychological, Sports

Abstract

The cognitive skills required during sport are highly demanding; accurate decisions based on the processing of dynamic environments are made in a fraction of a second (Walsh, 2014). Optimal decision-making abilities are crucial for success in sporting competition (Bar-Eli et al., 2011; Kaya, 2014). Moreover, for the elite athlete, decision making is required under conditions of intense mental and physical pressure (Anshel and Wells, 2000), yet much of the work in this area has largely ignored the highly stressful context in which athletes operate. A number of studies have shown that conditions of elevated pressure influence athletes' decision quality (Kinrade et al., 2015; Smith et al., 2016), response times (Hepler, 2015; Smith et al., 2016) and risk taking (Pighin et al., 2015). However, almost all of this work has been undertaken in nonelite athletes and participants who do not routinely operate under conditions of high stress. Thus, there is very little known about the influence of pressure on decision making in elite athletes.This study investigated the influence of physical performance pressure on decision making in a sample of world-class elite athletes. This allowed an examination of whether findings from the previous work in nonelite athletes extend to those who routinely operate under conditions of high stress. How this work could be applied to improve insight and understanding of decision making among sport professionals is examined. We sought to introduce a categorization of decision making useful to practitioners in sport: gunslingers, poker players, and chickens.Twenty-three elite athletes who compete and have frequent success at an international level (including six Olympic medal winners) performed tasks relating to three categories of decision making under conditions of low and high physical pressure. Decision making under risk was measured with performance on the Cambridge Gambling Task (CGT; Rogers et al., 1999), decision making under uncertainty with the Balloon Analogue Risk Task (BART; Lejuez et al., 2002), and fast reactive responses and interference with the Stroop Task (Stroop, 1935). Performance pressures of physical exhaustion was induced via an exercise protocol consisting of intervals of maximal exertion undertaken on a watt bike.At a group level, under physical pressure elite athletes were faster to respond to control trials on the Stroop Task and to simple probabilistic choices on the CGT. Physical pressure was also found to increase risk taking for decisions where probability outcomes were explicit (on the CGT), but did not affect risk taking when probability outcomes were unknown (on the BART). There were no significant correlations in the degree to which individuals' responses changed under pressure across the three tasks, suggesting that elite athletes did not show consistent responses to physical pressure across measures of decision making. When assessing the applicability of results based on group averages to individual athletes, none of the sample showed an "average" response (within 1 SD of the mean) to pressure across all three decision-making tasks.There are three points of conclusion. First, an immediate scientific point that highlights a failure of transfer of work reported from nonelite athletes to elite athletes in the area of decision making under pressure. Second, a practical conclusion with respect to the application of this work to the elite sporting environment, which highlights the limitations of statistical approaches based on group averages and thus the beneficial use of individualized profiling in feedback sessions. Third, the application of this work in a sports setting is described, in particular the development and implementation of a decision-making taxonomy as a framework to conceptualize and communicate psychological skills among elite sporting professionals.

Published

2017

27. Investigating the Neural Basis of Theta Burst Stimulation to Premotor Cortex on Emotional Vocalization Perception: A Combined TMS-fMRI Study

Author

Zarinah K, Agnew, Michael J, Banissy, Carolyn, McGettigan, Vincent, Walsh, and Sophie K, Scott

Subjects

emotional vocalization, premotor cortex, transcranial magnetic stimulation, fMRI, cTBS, emotions, functional magnetic resonance imaging, Neuroscience, Original Research

Abstract

Previous studies have established a role for premotor cortex in the processing of auditory emotional vocalizations. Inhibitory continuous theta burst transcranial magnetic stimulation (cTBS) applied to right premotor cortex selectively increases the reaction time to a same-different task, implying a causal role for right ventral premotor cortex (PMv) in the processing of emotional sounds. However, little is known about the functional networks to which PMv contribute across the cortical hemispheres. In light of these data, the present study aimed to investigate how and where in the brain cTBS affects activity during the processing of auditory emotional vocalizations. Using functional neuroimaging, we report that inhibitory cTBS applied to the right premotor cortex (compared to vertex control site) results in three distinct response profiles: following stimulation of PMv, widespread frontoparietal cortices, including a site close to the target site, and parahippocampal gyrus displayed an increase in activity, whereas the reverse response profile was apparent in a set of midline structures and right IFG. A third response profile was seen in left supramarginal gyrus in which activity was greater post-stimulation at both stimulation sites. Finally, whilst previous studies have shown a condition specific behavioral effect following cTBS to premotor cortex, we did not find a condition specific neural change in BOLD response. These data demonstrate a complex relationship between cTBS and activity in widespread neural networks and are discussed in relation to both emotional processing and the neural basis of cTBS.

Published

2017

28. Navigating the Rapids of Urban Development: Lessons from the Biospheric Foundation, Salford, UK

Author

Beth Perry, Catherine Barlow, and Vincent Walsh

Subjects

Urban planning, Mathematics education, Foundation (engineering), Engineering ethics, Sociology

Published

2017

29. Gunslingers, poker players, and chickens 1: Decision making under physical performance pressure in elite athletes

Author

Beth L. Parkin, Katie Warriner, and Vincent Walsh

Subjects

media_common.quotation_subject, Cognition, 030229 sport sciences, 03 medical and health sciences, 0302 clinical medicine, Physical performance, Perception, Elite, Elite athletes, Young adult, Risk taking, Psychology, Social psychology, 030217 neurology & neurosurgery, Clinical psychology, media_common, Physical pressure

Abstract

Background: Having investigated the influence of acute physical exhaustion on decision-making in world-class elite athletes in Parkin et al. (2017) , here a similar method is applied to subelite athletes. These subelite athletes were enrolled on a Team GB talent development program and were undergoing training for possible Olympic competition in 4–8 years. They differ from elite athletes examined previously according to expertise and age. While considered elite ( Swann et al., 2015 ), the subelite athletes had approximately 8 years fewer sporting experience and were yet to obtain sustained success on the international stage. Additionally, the average age of the subelite sample is 20 years; thus, they are still undergoing the behavioral, cognitive, and neuronal changes that occur during the transition from late adolescence to young adulthood ( Blakemore and Robbins, 2012 ). Previous work has used broad definitions of elite status in sport, and as such overlooked different categories within the spectrum of elite athletes ( Swann et al., 2015 ). Therefore it is important to consider subelite athletes as a discrete point on the developmental trajectory of elite sporting expertise. Objective: This work aims to investigate the influence of physical pressure on key indicators of decision-making in subelite athletes. It forms part of a wider project examining decision-making across different stages of the developmental trajectory in elite sport. In doing so, it aims to examine how to apply and develop psychological insights useful to an elite sporting environment. Methods: 32 subelite athletes (18 males, mean age: 20 years) participated in the study. Performance across three categories of decision-making was assessed under conditions of low and high physical pressure. Decision-making under risk was measured with performance of the Cambridge Gambling Task (CGT; Rogers et al., 1999 ), decision-making under uncertainty with the Balloon Analogue Risk Task (BART; Lejuez et al., 2002 ), and fast reactive responses and inhibition via the Stop Signal Reaction Time Task (SSRT; Logan, 1994 ). Physical exhaustion was induced via intervals of maximal exertion exercise on a wattbike. Results: Under pressure subelite athletes showed increased risk taking for both decisions where probability outcomes were explicit (on the CGT), and those where probability outcomes were unknown (on the BART). Despite making quicker decisions under pressure, with fewer errors, on the CGT, subelite athletes showed a reduced ability to optimally adjust betting behavior according to reward and loss contingencies. Fast reactive responses to perceptual stimuli and response inhibition did not change as a result of physical pressure. Individual responses to pressure showed a negative correlation in that a decrease in reaction times on the SSRT Task under pressure was associated with an increase in risk taking on the BART. When assessing the applicability of results based on group averages to individual athletes, 17% of the sample showed an “average” response (within 1 SD of the mean) to pressure across all three decision-making tasks. Conclusion: Indicators of decision-making in a sample of subelite athletes are influenced by physical pressure, with a shift toward increased indiscriminate risk taking. The influence that physical pressure has on decision-making was different to that observed in world-class elite athletes; this highlights the importance of distinguishing between athletes at the elite level ( Swann et al., 2015 ). The application of this work to a novel subgroup of elite athletes, including the implementation of a decision-making taxonomy, is discussed.

Published

2017

30. Gunslingers, poker players, and chickens 2: Decision-making under physical performance pressure in subelite athletes

Author

Beth L. Parkin and Vincent Walsh

Published

2017

31. Effectiveness of above real-time training on decision-making in elite football: A dose–response investigation

Author

Amir H. Javadi, Vincent Walsh, Barry V. O’Neill, and Javid Farahani

Subjects

medicine.medical_specialty, Computer science, 05 social sciences, Applied psychology, Training (meteorology), 030229 sport sciences, Football, 050105 experimental psychology, Scheduling (computing), 03 medical and health sciences, 0302 clinical medicine, Elite, Physical therapy, medicine, 0501 psychology and cognitive sciences

Abstract

We examined the effects of video-based training in elite footballers’ decision-making by presenting videos with training and testing scenarios at above real-time speeds. We also examined different training protocols to establish how much training is beneficial. We found that above real-time training improved accuracy and response time in football decision-making. In terms of scheduling, we found that the benefits were short lasting and did not last beyond 2 weeks.

Published

2017

32. Gunslingers, poker players, and chickens 3: Decision making under mental performance pressure in junior elite athletes

Author

Beth L. Parkin and Vincent Walsh

Subjects

Visual search, Working memory, media_common.quotation_subject, Cognition, 030229 sport sciences, Developmental psychology, 03 medical and health sciences, 0302 clinical medicine, Perception, Rumination, Elite, medicine, Verbal memory, medicine.symptom, Psychology, 030217 neurology & neurosurgery, Cognitive load, media_common

Abstract

Background: Having investigated the decision making of world class elite and subelite athletes (see Parkin and Walsh, 2017 , Parkin et al., 2017 ), here the abilities of those at the earliest stage of entry to elite sport are examined. Junior elite athletes have undergone initial national selection and are younger than athletes examined previously (mean age 13 years). Decision making under mental pressure is explored in this sample. During performance an athlete encounters a wide array of mental pressures; these include the psychological impact of errors, negative feedback, and requirements for sustained attention in a dynamic environment ( Anshel and Wells, 2000 , Mellalieu et al., 2009 ). Such factors increase the cognitive demands of the athletes, inducing distracting anxiety-related thoughts known as rumination ( Beilock and Gray, 2007 ). Mental pressure has been shown to reduce performance of decision-making tasks where reward and loss contingencies are explicit, with a shift toward increased risk taking ( Pabst et al., 2013 , Starcke et al., 2011 ). Mental pressure has been shown to be detrimental to decision-making speed in comparison to physical stress, highlighting the importance of considering a range of different pressures encountered by athletes ( Hepler, 2015 ). Objective: To investigate the influence of mental pressure on key indicators of decision making in junior elite athletes. This chapter concludes a wider project examining decision making across developmental stages in elite sport. The work further explores how psychological insights can be applied in an elite sporting environment and in particular tailored to the requirements of junior athletes. Methods: Seventeen junior elite athletes (10 males, mean age: 13.80 years) enrolled on a national youth athletic development program participated in the study. Performance across three categories of decision making was assessed under conditions of low and high mental pressure. Decision making under risk was measured via the Cambridge Gambling Task (CGT; Rogers et al., 1999 ), decision making under uncertainty via the Balloon Analogue Risk Task (BART; Lejuez et al., 2002 ), and fast reactive responses to perceptual stimuli via the Visual Search Task ( Treisman, 1982 ). Mental pressure was induced with the addition of a concurrent verbal memory task, used to increase cognitive load and mimic the distracting effects of anxiety-related rumination. Results: In junior elite athletes, fast reactive responses to perceptual stimuli (on the Visual Search Task) were slower under conditions of mental pressure. For decision making under risk there was an interaction of mental pressure and gender on the amount of points gambled, under pressure there was a higher level of risk taking in male athletes compared to females. There was no influence of mental pressure on decision making under uncertainity. There were no significant correlations in the degree to which individual's responses changed under pressure across the three measures of decision making. When assessing the applicability of results based on group averages there were no junior elite athletes who showed an “average” response (within 1SD of the mean) to mental pressure across all the three decision-making tasks. Conclusion: Mental pressure affects decision making in a sample of junior elite athletes, with a slowing of response times, and modulations to performance of decision making under risk that have a high requirement for working memory. In relation to sport, these findings suggest that novel situations that place high cognitive demands on the athlete may be particularly influenced by mental pressure. The application of this work in junior elite athletes included the feedback of individual results and the implementation of a decision-making taxonomy.

Published

2017

33. Combined TMS and fMRI Reveal Dissociable Cortical Pathways for Dynamic and Static Face Perception

Author

Vincent Walsh, Bradley Duchaine, and David Pitcher

Subjects

Adult, Male, Movement, medicine.medical_treatment, Cognitive neuroscience, Stimulus (physiology), Biology, General Biochemistry, Genetics and Molecular Biology, Extrastriate body area, Young Adult, Face perception, medicine, Humans, Emotional expression, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Sulcus, Magnetic Resonance Imaging, Transcranial Magnetic Stimulation, Temporal Lobe, Transcranial magnetic stimulation, medicine.anatomical_structure, Visual cortex, Face, Visual Perception, Female, Occipital Lobe, General Agricultural and Biological Sciences, Neuroscience

Abstract

Institute of Cognitive Neuroscience and Department ofPsychology, University College London, Alexandra House,17 Queen Square, London WC1N 3AR, UKSummaryFaces contain structural information, for identifying individ-uals, as well as changeable information, which can conveyemotion and direct attention. Neuroimaging studies revealbrain regions thatexhibit preferentialresponses toinvariant[1, 2] or changeable [3–5] facial aspects but the functionalconnections between these regions are unknown. We ad-dressed this issue by causally disrupting two face-selectiveregions with thetaburst transcranial magnetic stimulation(TBS) and measuring the effects of this disruption in localand remote face-selective regions with functional magneticresonance imaging (fMRI). Participants were scanned, overtwo sessions, while viewing dynamic or static faces and ob-jects. During these sessions, TBS was delivered over theright occipital face area (rOFA) or right posterior superiortemporal sulcus (rpSTS). Disruption of the rOFA reducedthe neural response to both static and dynamic faces inthe downstream face-selective region in the fusiform gyrus.In contrast, the response to dynamic and static faces wasdoubly dissociated in the rpSTS. Namely, disruption of therOFA reduced the response to static but not dynamic faces,while disruption of the rpSTS itself reduced the response todynamic but not static faces. These results suggest thatdynamic and static facial aspects are processed via dis-sociable cortical pathways that begin in early visual cortex,a conclusion inconsistent with current models of faceperception [6–9].ResultsInfluential models of face perception [6–8] propose that twofunctionally distinct cortical pathways process different facialaspects. The ventral pathway, which includes the fusiformface area (FFA) [10], preferentially responds to invariant facialaspects, such as individual identity. The lateral pathway,which includes the posterior superior temporal sulcus(pSTS) [3], preferentially responds to changeable facial as-pects, such as emotional expression and eye-gaze direction[4]. Crucially, despite functional differences, both pathwaysare believed to begin in the same face-selective region, theoccipital face area (OFA) [7–9, 11]. In the present study wecausally tested the hypothesis that the OFA is the solegateway for the face perception network using a ‘‘virtual’’lesion approach.Toexaminehowface-selectiveregionsarefunctionallycon-nected,thetabursttranscranialmagneticstimulation(TBS)[12]was used to transiently disrupt the brains of neurologicallyhealthy participants. The effects of this disruption were thenmeasuredinlocalandremoteface-selectiveregionswithfunc-tionalmagneticresonanceimaging (fMRI).Wereasonedthat ifthe OFA is the sole source of dynamic and static face informa-tion for the FFA and pSTS, then disrupting the OFA wouldreduce the neural response to dynamic and static faces inboth the FFA and pSTS. However, if a separate pathwayconveying only dynamic face information exists to the pSTS,independently of the OFA, then disruption of the OFA wouldhave relatively little impact on the response to dynamic facesin the pSTS (see Figure 1).Participants completed two scanning sessions, performedon separate days, while viewing face and object stimulithat were either dynamic or static (see Figure 2). Scanningwas performed before and after TBS was delivered over thefunctionally localized right OFA (rOFA) or right posterior supe-rior temporal sulcus (rpSTS). We then measured what ef-fect TBS disruption had on the neural response in both thestimulated regions (rOFA and rpSTS), as well as in the rightFFA (rFFA), a face-selective region on the ventral corticalsurface that cannot be directly stimulated by TBS. The magni-tuderesponsesfromeachface-selectiveROIaswellasfortheright extrastriate body area (rEBA) and right lateral occipitalarea (rLO) are shown in full in Figures S1 and S2 availableonline.ROI AnalysisTo understand what effect TBS stimulation had on the threeface-selective regions, we calculated the size of the TBSdisruptive effect in the rpSTS, rOFA, and rFFA. This wasdone by subtracting the BOLD responses for each stimuluscategory (dynamic faces, static faces, dynamic objects, staticobjects) after TBS stimulation of the rOFA and rpSTS from thepre-TMS baseline response in each ROI (see Figure 3).Thedatawerethenentered intoa2(TMS: TBStorOFA;TBSto rpSTS) by 2 (motion: dynamic, static) by 2 (stimulus: faces,objects) by 3 (ROI: rFFA, rpSTS; rOFA) repeated-measuresANOVA. Results showed a main effect of stimulus (F (1,14) =7.3, p = 0.017) as well as interactions between motion andTMS (F (1,14) = 4.2, p = 0.048) and between motion, stimulus,and TMS (F (1,14) = 3.6, p = 0.041). Crucially, there was alsoa significant interaction between ROI, motion, stimulus, andTMS(F(2,28)=3,p=0.043).Nootherinteractionsapproachedsignificance.Separate ANOVAs performed in each of the face-selectiveROIs (reported in full in Supplemental Information) demon-strated that TBS stimulation of the rOFA and rpSTS induceda double dissociation between the response to dynamic andstatic faces in the rpSTS (Figure 3). The response to staticfaces in the rpSTS was reduced by stimulation of the rOFAbut not of the rpSTS, while the response to dynamic faces inthe rpSTS was reduced by stimulation of the rpSTS but notof the rOFA. This result is consistent with the hypothesis thatdynamic face information can reach the rpSTS independently

Published

2014

34. Personality traits in people with synaesthesia: Do synaesthetes have an atypical personality profile?

Author

L. E. Annett, Jamie Ward, Elias Tsakanikos, Michael J. Banissy, Mary Jane Spiller, Henning Holle, Josephine E. Cassell, and Vincent Walsh

Subjects

Agreeableness, media_common.quotation_subject, Schizotypy, Empathy, Empathy quotient, medicine.disease, Developmental psychology, Openness to experience, medicine, Personality, Big Five personality traits, Synesthesia, Psychology, General Psychology, media_common

Abstract

People with synaesthesia not only have – by definition – unusual experiences (e.g., numbers triggering colour), they also have a different cognitive profile (e.g., in terms of their memory and perceptual abilities) and a bias towards certain interests and activities (e.g., towards the arts). However, virtually nothing is known about whether synaesthetes have an atypical personality profile. In this study, a standard measure of personality was administered (Big Five Inventory) along with two questionnaire measures of empathy. Synaesthetes, relative to demographically matched controls, reported higher levels of ‘Openness to Experience’ which is known to be related to imagination and artistic tendencies. They also reported higher levels of ‘Fantasizing’ on one of the empathy measures, which is conceptually related to Openness, although their self-reported empathy did not differ in other respects. In addition, synaesthetes reported lower levels of Agreeableness which we did not predict in advance.

Published

2013

35. Bi-frontal direct current stimulation affects delay discounting choices

Author

David Hecht, Vincent Walsh, and Michal Lavidor

Subjects

Adult, Male, Frontal cortex, Transcranial direct-current stimulation, Delay discounting, Cognitive Neuroscience, medicine.medical_treatment, Decision Making, Prefrontal Cortex, Stimulation, Intertemporal choice, Choice Behavior, Electric Stimulation, Young Adult, Reward, Brain stimulation, medicine, Humans, Female, Psychology, Prefrontal cortex, Neuroscience, Left dorsolateral prefrontal cortex

Abstract

In delay discounting tasks, participants decide between receiving a certain amount of money now or a larger sum sometime in the future. This study investigated the effects of transcranial direct current stimulation on delay discounting. Participants made delay discounting choices while receiving a bi-frontal stimulation of right-hemisphere anodal/left-hemisphere cathodal, left-hemisphere anodal/right-hemisphere cathodal, and sham stimulation, in three separate sessions. When the difference between the alternatives was 10% or more, participants generally preferred to wait for the larger sum. Nevertheless, there were more choices of smaller "immediate" gains, instead of the larger delayed options, when the left dorsolateral prefrontal cortex (DLPFC) was facilitated and the right DLPFC inhibited, compared to the sham stimulation. These observations indicate the significant role of the prefrontal cortex in delay discounting choices, and demonstrate that increased left frontal activation combined with decreased right frontal activation can alter decision-making by intensifying a tendency to choose immediate gains.

Published

2013

36. Digit Ratio Predicts Spatial Memory Performance in Women

Author

Neil G. Muggleton, Vincent Walsh, and Lili Tcheang

Subjects

Digit ratio, genetic structures, media_common.quotation_subject, Ambiguity, behavioral disciplines and activities, Mental rotation, Task (project management), Developmental psychology, law.invention, Correlation, law, Component (UML), CLARITY, Psychology, psychological phenomena and processes, Feature detection (computer vision), media_common

Abstract

The ratio of the length of the 2nd and 4th digits of the hand is an indicator of prenatal testosterone exposure and has been shown to be a within sex correlate of various abilities, such as visuo-spatial processing in men. However, a number of studies report such links also exist in women, whilst others show no link for either sex. Using a unique paradigm that sub-divides visuo-spatial processing into a distinct subset of component skills we found a strong correlation between finger ratio and spatial memory performance specifically under stereo viewing conditions in women. We argue that the current ambiguity regarding links between digit-ratio and visuo-spatial ability is the result of a lack of clarity between the component skills recruited in different visuo-spatial tasks. Our task independently tested a subset of the component skills used in visuo-spatial tasks such as: mental rotation, cross-dimensionality processing and feature detection. Our results show that digit-ratio, a physical parameter linked to prenatal testosterone levels, indicates performance on a distinct aspect of visuo-spatial processing in women, without contradicting previous links for visuo-spatial processing in men. These results offer an explanation for the differences in previous findings linking visuo-spatial processing in both men and women.

Published

2013

37. Two Critical and Functionally Distinct Stages of Face and Body Perception

Author

Tanya Goldhaber, Vincent Walsh, David Pitcher, Nancy Kanwisher, and Bradley Duchaine

Subjects

Adult, Male, Visual perception, Adolescent, genetic structures, Photic Stimulation, medicine.medical_treatment, media_common.quotation_subject, Stimulus (physiology), Brain mapping, Extrastriate body area, Perception, medicine, Humans, media_common, Human Body, Brain Mapping, General Neuroscience, Cognitive neuroscience of visual object recognition, Brain, Articles, Magnetic Resonance Imaging, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, Pattern Recognition, Visual, Visual Perception, Female, Psychology, Neuroscience

Abstract

Cortical regions that respond preferentially to particular object categories, such as faces and bodies, are essential for visual perception of these object categories. However, precisely when these regions play a causal role in recognition of their preferred categories is unclear. Here we addressed this question using transcranial magnetic stimulation (TMS). Across a series of experiments, TMS was delivered over the functionally localized right occipital face area (rOFA) or right extrastriate body area (rEBA) at different latencies, up to 150 ms, after stimulus onset while adult human participants performed delayed match-to-sample tasks on face and body stimuli. Results showed that TMS disrupted task performance during two temporally distinct time periods after stimulus onset, the first at 40/50 ms and the second at 100/110 ms. These two time periods exhibited functionally distinct patterns of impairment: TMS delivered during the early time period (at 40/50 ms) disrupted task performance for both preferred (faces at rOFA and bodies at rEBA) and nonpreferred (bodies at rOFA and faces at rEBA) categories. In contrast, TMS delivered during the later time period (at 100/110 ms) disrupted task performance for the preferred category only of each area (faces at rOFA and bodies at rEBA). These results indicate that category-selective cortical regions are critical for two functionally distinct stages of visual object recognition: an early, presumably preparatory stage that is not category selective occurring almost immediately after stimulus onset, followed by a later stage of category-specific perceptual processing.

Published

2012

38. Short duration transcranial direct current stimulation (tDCS) modulates verbal memory

Author

Paul Cheng, Amir-Homayoun Javadi, and Vincent Walsh

Subjects

Adult, Male, Adolescent, medicine.medical_treatment, Biophysics, Prefrontal Cortex, Stimulation, Neuropsychological Tests, lcsh:RC321-571, Memory, Reaction Time, medicine, Humans, Speech, Prefrontal cortex, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, dorsolateral prefrontal cortex, Transcranial direct-current stimulation, Working memory, General Neuroscience, Recognition, Psychology, Electric Stimulation, Dorsolateral prefrontal cortex, medicine.anatomical_structure, Facilitation, Female, Neurology (clinical), transcranial direct current stimulation, Verbal memory, Psychology, Neuroscience, Electrical brain stimulation, electrical brain stimulation

Abstract

Transcranial direct current stimulation (tDCS) is a noninvasive method of modulating cortical excitability. The aim of this study was to investigate the effects of short-duration tDCS (1.6 seconds per trial) on memory performance, and whether the effects were affected by stimulation administered early or late in a trial. Participants memorize words under anodal and cathodal tDCS to the left dorsolateral prefrontal cortex (DLPFC) in two separate sessions in no-stimulation, early stimulation, and late stimulation trials. Early stimulation occurred during word presentation, whereas late stimulation occurred after word presentation. Early anodal tDCS led to significantly better accuracy and speed in a subsequent recognition test compared to anodal late or no-stimulation conditions. Early cathodal tDCS, on the other hand, led to significantly worse accuracy and speed in a subsequent recognition test compared with cathodal late or no-stimulation conditions. The results of this study suggest that short-duration tDCS can modulate memory performance and highlight the importance of period of stimulation.

Published

2012

39. Inter-individual differences in empathy are reflected in human brain structure

Author

Vincent Walsh, Ryota Kanai, Geraint Rees, and Michael J. Banissy

Subjects

Male, Voxel based morphometry, Cognitive Neuroscience, media_common.quotation_subject, Individuality, Precuneus, Inferior frontal gyrus, Empathy, Interpersonal reactivity index, Grey matter, Article, 050105 experimental psychology, Developmental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Image Interpretation, Computer-Assisted, medicine, Humans, 0501 psychology and cognitive sciences, Prefrontal cortex, Mirror neuron, media_common, Brain Mapping, 05 social sciences, Brain, Structure, Voxel-based morphometry, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, Individual differences, Interpersonal Reactivity Index, Female, Social neuroscience, Psychology, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

Empathy is a multi-faceted concept consisting of our ability not only to share emotions but also to exert cognitive control and perspective taking in our interactions with others. Here we examined whether inter-individual variability in different components of empathy was related to differences in brain structure assessed using voxel-based morphometry. Following a magnetic resonance imaging (MRI) scan, participants completed the Interpersonal Reactivity Index (IRI). Multiple regression was then used to assess the relationship between individual differences in grey matter volume and individual differences in empathy traits. We found that individual differences in affective empathic abilities oriented towards another person were negatively correlated with grey matter volume in the precuneus, inferior frontal gyrus, and anterior cingulate. Differences in self-oriented affective empathy were negatively correlated with grey matter volume of the somatosensory cortex, but positively correlated with volume in the insula; cognitive perspective taking abilities were positively correlated with grey matter volume of the anterior cingulate; and the ability to empathise with fictional characters was positively related to grey matter changes in the right dorsolateral prefrontal cortex. These findings are discussed in relation to neurocognitive models of empathy., Highlights ► We studied how individual variability in empathy is linked to brain structure. ► Affective empathy was linked to changes in the precuneus and anterior cingulate. ► Changes in the inferior frontal gyrus were also linked with affective empathy. ► Perspective taking was related to changes in the anterior cingulate. ► Personal distress was linked to changes in the somatosensory cortex and insula.

Published

2012

40. Unleashing Potential: Transcranial Direct Current Stimulation over the Right Posterior Parietal Cortex Improves Change Detection in Low-Performing Individuals

Author

Chi Hung Juan, Wei Kuang Liang, Philip Tseng, Neil G. Muggleton, Vincent Walsh, Ovid J.L. Tzeng, Tzu Yu Hsu, Shih Kuen Cheng, Daisy L. Hung, and Chi Fu Chang

Subjects

Male, Signal Detection, Psychological, medicine.medical_treatment, Biophysics, Short-term memory, Posterior parietal cortex, Functional Laterality, Young Adult, Event-related potential, Parietal Lobe, Reaction Time, medicine, Humans, Evoked Potentials, Neurostimulation, Analysis of Variance, Transcranial direct-current stimulation, General Neuroscience, Motor Cortex, Electroencephalography, Articles, Electric Stimulation, Electrophysiology, Memory, Short-Term, Visual Perception, Change blindness, Female, Psychology, N2pc, Neuroscience, Photic Stimulation

Abstract

The limits of human visual short-term memory (VSTM) have been well documented, and recent neuroscientific studies suggest that VSTM performance is associated with activity in the posterior parietal cortex. Here we show that artificially elevating parietal activity via positively charged electric current through the skull can rapidly and effortlessly improve people's VSTM performance. This artificial improvement, however, comes with an interesting twist: it interacts with people's natural VSTM capability such that low performers who tend to remember less information benefitted from the stimulation, whereas high performers did not. This behavioral dichotomy is explained by event-related potentials around the parietal regions: low performers showed increased waveforms in N2pc and contralateral delay activity (CDA), which implies improvement in attention deployment and memory access in the current paradigm, respectively. Interestingly, these components are found during the presentation of the test array instead of the retention interval, from the parietal sites ipsilateral to the target location, thus suggesting that transcranial direct current stimulation (tDCS) was mainly improving one's ability to suppress no-change distractors located on the irrelevant side of the display during the comparison stage. The high performers, however, did not benefit from tDCS as they showed equally large waveforms in N2pc and CDA, or SPCN (sustained parietal contralateral negativity), before and after the stimulation such that electrical stimulation could not help any further, which also accurately accounts for our behavioral observations. Together, these results suggest that there is indeed a fixed upper limit in VSTM, but the low performers can benefit from neurostimulation to reach that maximum via enhanced comparison processes, and such behavioral improvement can be directly quantified and visualized by the magnitude of its associated electrophysiological waveforms.

Published

2012

41. Modulating behavioral inhibition by tDCS combined with cognitive training

Author

Michal Lavidor, Liron Jacobson, Vincent Walsh, and Thomas Ditye

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, education, Inferior frontal gyrus, Electric Stimulation Therapy, Context (language use), Stop signal, Audiology, Young Adult, Behavior Therapy, medicine, Humans, Cognitive Behavioral Therapy, Transcranial direct-current stimulation, Working memory, Teaching, General Neuroscience, Social Behavior Disorders, Neural Inhibition, Cognition, Cognitive training, Brain stimulation, Female, Psychology, Neuroscience

Abstract

Cognitive training is an effective tool to improve a variety of cognitive functions, and a small number of studies have now shown that brain stimulation accompanying these training protocols can enhance their effects. In the domain of behavioral inhibition, little is known about how training can affect this skill. As for transcranial direct current stimulation (tDCS), it was previously found that stimulation over the right inferior frontal gyrus (rIFG) facilitates behavioral inhibition performance and modulates its electrophysiological correlates. This study aimed to investigate this behavioral facilitation in the context of a learning paradigm by giving tDCS over rIFG repetitively over four consecutive days of training on a behavioral inhibition task (stop signal task (SST)). Twenty-two participants took part; ten participants were assigned to receive anodal tDCS (1.5 mA, 15 min), 12 were assigned to receive training but not active stimulation. There was a significant effect of training on learning and performance in the SST, and the integration of the training and rIFG-tDCS produced a more linear learning slope. Better performance was also found in the active stimulation group. Our findings show that tDCS-combined cognitive training is an effective tool for improving the ability to inhibit responses. The current study could constitute a step toward the use of tDCS and cognitive training as a therapeutic tool for cognitive control impairments in conditions such as attention-deficit hyperactivity disorder (ADHD) or schizophrenia.

Published

2012

42. Saliency based on cortex-like mechanisms

Author

Lili Tcheang, Xinbo Gao, Vincent Walsh, and Bing Han

Subjects

Computational Theory and Mathematics, business.industry, Computer science, Applied Mathematics, Cognitive neuroscience of visual object recognition, Visual attention, Entropy (information theory), Saliency map, Computer vision, Sparse approximation, Artificial intelligence, business, Computer Science Applications

Abstract

A visual attention system should preferentially locate the most informative spots in complex environments. Feature-integration theory of attention plays an important role in bottom-up computational model for visual attention. This point extremely decreases the detection accuracy and also impacts the performance of the automatic visual attention model. To improve the accuracy of saliency detection in human visual attention, we propose a model based on cortex-like mechanisms. Saliency Criteria are obtained from two pathways: Shannon's entropy and sparse representation. And our model not only substantiates the bottom-up model proposed by Itti and HMAX model by Paggio, but also enriches the theory of saliency detection. We demonstrate that the proposed model achieves superior accuracy in comparison to the classical approach in static saliency map generation on real data of natural scenes and psychology stimuli patterns.

Published

2011

43. TMS of the right angular gyrus modulates priming of pop-out in visual search: combined TMS-ERP evidence

Author

Martin Eimer, Paul C.J. Taylor, Neil G. Muggleton, Roger Kalla, and Vincent Walsh

Subjects

Adult, Male, Eye Movements, genetic structures, Physiology, medicine.medical_treatment, Posterior parietal cortex, Electroencephalography, behavioral disciplines and activities, Functional Laterality, Angular gyrus, Young Adult, Parietal Lobe, Reaction Time, medicine, Humans, Attention, Evoked Potentials, Visual search, Analysis of Variance, Brain Mapping, medicine.diagnostic_test, General Neuroscience, Frontal eye fields, Magnetic Resonance Imaging, Transcranial Magnetic Stimulation, body regions, Transcranial magnetic stimulation, Feature (computer vision), Female, Visual Fields, Psychology, Neuroscience, Priming (psychology), Photic Stimulation, psychological phenomena and processes

Abstract

During priming of pop-out, performance at discriminating a pop-out feature target in visual search is affected by whether the target on the previous trial was defined by the same feature as on the upcoming trial. Recent studies suggest that priming of pop-out relies on attentional processes. With the use of simultaneous, combined transcranial magnetic stimulation and event-related potential recording (TMS-ERP), we tested for any critical role of the right angular gyrus (rANG) and left and right frontal eye fields (FEFs)—key attentional sites—in modulating both performance and the ERPs evoked by such visual events. Intertrial TMS trains were applied while participants discriminated the orientation of a color pop-out element in a visual search array. rANG TMS disrupted priming of pop-out, reducing reaction time costs on switch trials and speeding responses when the color of the pop-out target switched. rANG TMS caused a negativity in the ERP elicited in response to the visual stimulus array, starting 210 ms after stimulus onset. Both behavioral and ERP effects were apparent only after rANG TMS, on switch trials, and when the target in the visual search array was presented in the left visual field, with no effects after left or right FEF TMS. These results provide evidence for an attentional reorienting mechanism, which originates in the rANG and is modulated by the implicit memory of the previous trial. The rANG plays a causal role on switch trials during priming of pop-out by interacting with visual processing, particularly in the ipsilateral hemisphere representing the contralateral hemifield.

Published

2011

44. Visual Selection and the Human Frontal Eye Fields: Effects of Frontal Transcranial Magnetic Stimulation on Partial Report Analyzed by Bundesen's Theory of Visual Attention

Author

Jon Driver, June Hung, and Vincent Walsh

Subjects

Adult, Male, medicine.medical_specialty, Eye Movements, Property (programming), Color vision, medicine.medical_treatment, Prefrontal Cortex, Audiology, Eye, Models, Biological, Brain mapping, Visual processing, Reaction Time, medicine, Humans, Visual attention, Attention, Analysis of Variance, Brain Mapping, General Neuroscience, Eye movement, Articles, Frontal eye fields, Magnetic Resonance Imaging, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, Female, Visual Fields, Psychology, Color Perception, Photic Stimulation, Cognitive psychology

Abstract

While the frontal eye fields (FEF) are traditionally associated with eye movements, recent work indicates possible roles in controlling selective visual processing. We applied 10 Hz bursts of transcranial magnetic stimulation (TMS) over left or right human FEF while subjects performed a partial-report task that allowed quantitative estimates of top-down control and other parameters affecting visual performance. Participants selectively reported digits in a relevant color (targets) but not those in an irrelevant color (nontargets) from a brief masked display. A target could appear alone or together with an accompanying item (nontarget or target) in the same or opposite hemifield. Targets were normally identified better when presented with a nontarget than with another target, indicating prioritization of task-relevant targets and thus top-down control. We found this usual pattern of results without TMS, and also with TMS over left FEF. However, during right FEF TMS, the detrimental impact of accompanying distractors increased. Formal analysis in terms of Bundesen's (1990) theory of visual attention confirmed that right FEF TMS diminished the top-down control parameter for both hemifields, indicating an FEF role in top-down selection even for targets defined by the nonspatial property of color. Direct comparison with our previous findings for parietal TMS (Hung et al., 2005) confirmed the distinct role of FEF in top-down control, plus right-hemisphere predominance for this in humans.

Published

2011

45. The role of lateral occipital face and object areas in the face inversion effect

Author

Nancy Kanwisher, Galit Yovel, David Pitcher, Vincent Walsh, and Bradley Duchaine

Subjects

Adult, Male, genetic structures, Cognitive Neuroscience, medicine.medical_treatment, Experimental and Cognitive Psychology, Stimulus (physiology), Functional Laterality, Young Adult, Behavioral Neuroscience, Face perception, Extrastriate cortex, Reaction Time, medicine, Humans, Analysis of Variance, Brain Mapping, musculoskeletal, neural, and ocular physiology, Cognitive neuroscience of visual object recognition, Magnetic Resonance Imaging, Transcranial Magnetic Stimulation, body regions, Transcranial magnetic stimulation, Face discrimination, medicine.anatomical_structure, Pattern Recognition, Visual, Face, Neural processing, Female, Occipital Lobe, Psychology, Neuroscience, Photic Stimulation, Facial identity, Cognitive psychology

Abstract

a b s t r a c t Stimulus inversion impairs face discrimination to a greater extent than discrimination of other non-face object categories. This finding has led to suggestions that upright faces are represented by mechanisms specialized for upright faces whereas inverted face representation depends on more general object recog- nition mechanisms. In the present study we tested the causal role of face-selective and object-selective cortical areas for upright and inverted face discrimination by transiently disrupting neural processing using transcranial magnetic stimulation (TMS). Participants matched upright and inverted faces while TMS was delivered over each participant's functionally localized right occipital face area (rOFA) or right lateral occipital area (rLO). TMS delivered over rOFA disrupted the discrimination of upright and inverted faces while TMS delivered over rLO impaired inverted face discrimination only. These results provide causal evidence that upright faces are represented by face-specific mechanisms whereas inverted faces are represented by both face-specific and object-specific mechanisms. The similar sensitivity of the OFA to upright and inverted faces is consistent with the hypothesis that the OFA processes facial features at an early stage of face processing.

Published

2011

46. Neural basis of mathematical cognition

Author

Brian Butterworth and Vincent Walsh

Subjects

media_common.quotation_subject, Numerical cognition, General Biochemistry, Genetics and Molecular Biology, Cognition, Numeracy, medicine, Animals, Humans, Relevance (information retrieval), Function (engineering), Language, Mathematics, media_common, Neurons, Cognitive science, Brain Mapping, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Representation (systemics), Brain, medicine.disease, Mental calculation, Action (philosophy), Dyscalculia, General Agricultural and Biological Sciences

Abstract

SummaryThe human brain has remarkable capabilities for encoding and manipulating information about quantities. Understanding how the brain carries out such number and quantity processing is a problem not just for those interested in numerical cognition: it raises important questions that are relevant to understanding development, action, vision, language, executive function and cortical organisation. It is also a clear case of research into a core human psychological function having indisputable everyday relevance; hence the emphasis in early education on numeracy and later on mathematics.

Published

2011

47. Modulating inhibitory control with direct current stimulation of the superior medial frontal cortex

Author

Tzu Yu Hsu, Wen Jui Kuo, Daisy L. Hung, Lin Yuan Tseng, Vincent Walsh, Neil G. Muggleton, Chi Hung Juan, Jiaxin Yu, and Ovid J.L. Tzeng

Subjects

Adult, Male, Supplementary motor area, Transcranial direct-current stimulation, Cognitive Neuroscience, medicine.medical_treatment, Stimulation, Medial frontal cortex, Voluntary action, Electric Stimulation, Frontal Lobe, Transcranial magnetic stimulation, Inhibition, Psychological, Young Adult, medicine.anatomical_structure, Neurology, Inhibitory control, Reaction Time, medicine, Humans, Premovement neuronal activity, Female, Psychology, Neuroscience

Abstract

The executive control of voluntary action involves not only choosing from a range of possible actions but also the inhibition of responses as circumstances demand. Recent studies have demonstrated that many clinical populations, such as people with attention-deficit hyperactivity disorder, exhibit difficulties in inhibitory control. One prefrontal area that has been particularly associated with inhibitory control is the pre-supplementary motor area (Pre-SMA). Here we applied non-invasive transcranial direct current stimulation (tDCS) over Pre-SMA to test its role in this behavior. tDCS allows for current to be applied in two directions to selectively excite or suppress the neural activity of Pre-SMA. Our results showed that anodal tDCS improved efficiency of inhibitory control. Conversely, cathodal tDCS showed a tendency towards impaired inhibitory control. To our knowledge, this is the first demonstration of non-invasive intervention tDCS altering subjects' inhibitory control. These results further our understanding of the neural bases of inhibitory control and suggest a possible therapeutic intervention method for clinical populations.

Published

2011

48. Modality-independent role of the primary auditory cortex in time estimation

Author

Domenica Bueti, Ryota Kanai, Vincent Walsh, and Harriet Lloyd

Subjects

Adult, Male, Echoic memory, genetic structures, Sensory system, Auditory cortex, Young Adult, Discrimination, Psychological, Stimulus modality, Reaction Time, medicine, Humans, Auditory system, Visual Cortex, Auditory Cortex, Analysis of Variance, N100, General Neuroscience, Transcranial Magnetic Stimulation, Settore M-PSI/02 - Psicobiologia e Psicologia Fisiologica, medicine.anatomical_structure, Visual cortex, Acoustic Stimulation, Sensory Thresholds, Time Perception, Auditory imagery, Transcranial magnetic stimulation (TMS), Female, Psychology, Neuroscience, Photic Stimulation, psychological phenomena and processes

Abstract

It has been argued that both modality-specific and supramodal mechanisms dedicated to time perception underlie the estimation of interval durations. While it is generally assumed that early sensory areas are dedicated to modality-specific time estimation, we hypothesized that early sensory areas such as the primary visual cortex or the auditory cortex might be involved in time perception independently of the sensory modality of the input. To test this possibility, we examined whether disruption of the primary visual cortex or the auditory cortex would disrupt time estimation of auditory stimuli and visual stimuli using transcranial magnetic stimulation (TMS). We found that disruption of the auditory cortex impaired not only time estimation of auditory stimuli but also impaired that of visual stimuli to the same degree. This finding suggests a supramodal role of the auditory cortex in time perception. On the other hand, TMS over the primary visual cortex impaired performance only in visual time discrimination. These asymmetric contributions of the auditory and visual cortices in time perception may be explained by a superiority of the auditory cortex in temporal processing. Here, we propose that time is primarily encoded in the auditory system and that visual inputs are automatically encoded into an auditory representation in time discrimination tasks.

Published

2011

49. Superior Facial Expression, But Not Identity Recognition, in Mirror-Touch Synesthesia

Author

Lúcia Garrido, Michael J. Banissy, Flor Kusnir, Bradley Duchaine, Jamie Ward, and Vincent Walsh

Subjects

Adult, Male, media_common.quotation_subject, Emotions, Self-concept, Neuropsychological Tests, Social cognition, Perception, Expression recognition, Humans, Mirror-touch synesthesia, media_common, Facial expression, General Neuroscience, Recognition, Psychology, Identity recognition, Middle Aged, Facial expressions, Self Concept, Facial Expression, Pattern Recognition, Visual, Touch Perception, Expression (architecture), Face, Pattern recognition (psychology), Female, Brief Communications, Psychology, Cognitive psychology

Abstract

Copyright © 2011 Society for Neuroscience and the authors. The The Journal of Neuroscience uses a Creative Commons Attribution-NonCommercial-ShareAlike licence: http://creativecommons.org/licenses/by-nc-sa/4.0/. Simulation models of expression recognition contend that to understand another's facial expressions, individuals map the perceived expression onto the same sensorimotor representations that are active during the experience of the perceived emotion. To investigate this view, the present study examines facial expression and identity recognition abilities in a rare group of participants who show facilitated sensorimotor simulation (mirror-touch synesthetes). Mirror-touch synesthetes experience touch on their own body when observing touch to another person. These experiences have been linked to heightened sensorimotor simulation in the shared-touch network (brain regions active during the passive observation and experience of touch). Mirror-touch synesthetes outperformed nonsynesthetic participants on measures of facial expression recognition, but not on control measures of face memory or facial identity perception. These findings imply a role for sensorimotor simulation processes in the recognition of facial affect, but not facial identity. The Medical Research Council, the Economic and Social Research Coucnil and the British Academy.

Published

2011

50. Suppressing Sensorimotor Activity Modulates the Discrimination of Auditory Emotions But Not Speaker Identity

Author

Sophie K. Scott, Jamie Ward, Michael J. Banissy, Jane E. Warren, Disa Sauter, and Vincent Walsh

Subjects

Adult, Male, Auditory perception, Time Factors, media_common.quotation_subject, medicine.medical_treatment, Emotions, CTBS, Functional Laterality, Article, 050105 experimental psychology, Premotor cortex, 03 medical and health sciences, Discrimination, Psychological, 0302 clinical medicine, Functional neuroimaging, Perception, Image Processing, Computer-Assisted, medicine, Humans, 0501 psychology and cognitive sciences, Mirror neuron, media_common, Cerebral Cortex, Analysis of Variance, Brain Mapping, Facial expression, General Neuroscience, 05 social sciences, Recognition, Psychology, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, medicine.anatomical_structure, Acoustic Stimulation, Auditory Perception, Female, Psychology, Neuroscience, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

Our ability to recognize the emotions of others is a crucial feature of human social cognition. Functional neuroimaging studies indicate that activity in sensorimotor cortices is evoked during the perception of emotion. In the visual domain, right somatosensory cortex activity has been shown to be critical for facial emotion recognition. However, the importance of sensorimotor representations in modalities outside of vision remains unknown. Here we use continuous theta-burst transcranial magnetic stimulation (cTBS) to investigate whether neural activity in the right postcentral gyrus (rPoG) and right lateral premotor cortex (rPM) is involved in nonverbal auditory emotion recognition. Three groups of participants completed same-different tasks on auditory stimuli, discriminating between the emotion expressed and the speakers' identities, before and following cTBS targeted at rPoG, rPM, or the vertex (control site). A task-selective deficit in auditory emotion discrimination was observed. Stimulation to rPoG and rPM resulted in a disruption of participants' abilities to discriminate emotion, but not identity, from vocal signals. These findings suggest that sensorimotor activity may be a modality-independent mechanism which aids emotion discrimination. Copyright © 2010 the authors.

Published

2010