Your search keyword '"Cheung, Teresa"' showing total 13 results

1. Neuromagnetic activation and oscillatory dynamics of stimulus-locked processing during naturalistic viewing.

Author

Nunes AS, Kozhemiako N, Moiseev A, Seymour RA, Cheung TPL, Ribary U, and Doesburg SM

Subjects

Acoustic Stimulation methods, Adult, Auditory Perception physiology, Brain diagnostic imaging, Brain Mapping methods, Female, Humans, Male, Nerve Net diagnostic imaging, Photic Stimulation methods, Young Adult, Brain physiology, Magnetoencephalography methods, Motion Pictures, Nerve Net physiology, Visual Perception physiology

Abstract

Naturalistic stimuli such as watching a movie while in the scanner provide an ecologically valid paradigm that has the potential of extracting valuable information on how the brain processes complex stimuli in realistic visual and auditory contexts. Naturalistic viewing is also easier to conduct with challenging participant groups including patients and children. Given the high temporal resolution of MEG, in the present study, we demonstrate how a short movie clip can be used to map distinguishable activation and connectivity dynamics underlying the processing of specific classes of visual stimuli such as face and hand manipulations, as well as contrasting activation dynamics for auditory words and non-words. MEG data were collected from 22 healthy volunteers (6 females, 3 left handed, mean age - 27.7 ​± ​5.28 years) during the presentation of naturalistic audiovisual stimuli. The MEG data were split into trials with the onset of the stimuli belonging to classes of interest (words, non-words, faces, hand manipulations). Based on the components of the averaged sensor ERFs time-locked to the visual and auditory stimulus onset, four and three time-windows, respectively, were defined to explore brain activation dynamics. Pseudo-Z, defined as the ratio of the source-projected time-locked power to the projected noise power for each vertex, was computed and used as a proxy of time-locked brain activation. Statistical testing using the mean-centered Partial Least Squares analysis indicated periods where a given visual or auditory stimuli had higher activation. Based on peak pseudo-Z differences between the visual conditions, time-frequency resolved analyses were performed to assess beta band desynchronization in motor-related areas, and inter-trial phase synchronization between face processing areas. Our results provide the first evidence that activation and connectivity dynamics in canonical brain regions associated with the processing of particular classes of visual and auditory stimuli can be reliably mapped using MEG during presentation of naturalistic stimuli. Given the strength of MEG for brain mapping in temporal and frequency domains, the use of naturalistic stimuli may open new techniques in analyzing brain dynamics during ecologically valid sensation and perception., (Copyright © 2019. Published by Elsevier Inc.)

Published

2020

2. Multiple constrained minimum variance beamformer (MCMV) performance in connectivity analyses.

Author

Nunes AS, Moiseev A, Kozhemiako N, Cheung T, Ribary U, and Doesburg SM

Subjects

Adult, Connectome standards, Electroencephalography standards, Humans, Magnetoencephalography standards, Cerebral Cortex physiology, Connectome methods, Electroencephalography methods, Magnetoencephalography methods, Models, Theoretical

Abstract

Functional brain connectivity is increasingly being seen as critical for cognition, perception and motor control. Magnetoencephalography and electroencephalography are modalities that offer noninvasive mapping of electrophysiological interactions among brain regions, yet suffer from signal leakage and signal cancellation when estimating brain activity. This leads to biased connectivity values which complicate interpretation. In this study, we test the hypothesis that a Multiple Constrained Minimum Variance beamformer (MCMV) outperforms the more traditional Linearly Constrained Minimum Variance beamformer (LCMV) for estimation of electrophysiological connectivity. To this end, MCMV and LCMV performance is compared in task related analyses with both simulated data and human MEG recordings of visual steady state signals, and in resting state analyses with simulated data and human MEG data of 89 subjects. In task related scenarios connectivity was estimated using coherence and phase locking values, whereas envelope correlations were used for the resting state data. We also introduce a novel Augmented Pairwise MCMV (APW-MCMV) approach for signal leakage suppression in resting state analyses and assess its performance against LCMV and more conventional MCMV approaches. We demonstrate that with MCMV effects of signal mixing and coherent source cancellation are greatly reduced in both task related and resting state conditions, while in contrast to other approaches 0- and short time lag interactions are preserved. In addition, we demonstrate that in resting state analyses, APW-MCMV strongly reduces spurious connections while better controlling for false negatives compared to more conservative measures such as symmetrical orthogonalization., (Copyright © 2019. Published by Elsevier Inc.)

Published

2020

3. Accessing knowledge of the 'here and now': a new technique for capturing electromagnetic markers of orientation processing.

Author

Hajra SG, Liu CC, Song X, Fickling SD, Cheung TPL, and D'Arcy RCN

Subjects

Adult, Aged, Aged, 80 and over, Electromagnetic Phenomena, Female, Humans, Male, Middle Aged, Young Adult, Acoustic Stimulation methods, Brain physiology, Brain Mapping methods, Electroencephalography methods, Magnetoencephalography methods, Orientation, Spatial physiology

Abstract

Objective: The ability to orient with respect to the current context (e.g. current time or location) is crucial for daily functioning, and is used to measure overall cognitive health across many frontline clinical assessments. However, these tests are often hampered by their reliance on verbal probes (e.g. 'What city are we in?') in evaluating orientation. Objective, physiology-based measures of orientation processing are needed, but no such measures are currently in existence. We report the initial development of potential brainwave-based markers of orientation processing as characterized using electroencephlography (EEG) and magnetoencephalography (MEG)., Approach: An auditory stimulus sequence embedded with words corresponding to orientation-relevant (i.e. related to the 'here and now') and orientation-irrelevant (i.e. unrelated to the current context) conditions was used to elicit orientation processing responses. EEG/MEG data, in concert with clinical assessments, were collected from 29 healthy adults. Analysis at sensor and source levels identified and characterized neural signals related to orientation processing., Main Results: Orientation-irrelevant stimuli elicited increased negative amplitude in EEG-derived event-related potential (ERP) waveforms during the 390-570 ms window (p  <  0.05), with cortical activations across the left frontal, temporal, and parietal regions. These effects are consistent with the well-known N400 response to semantic incongruence. In contrast, ERP responses to orientation-relevant stimuli exhibited increased positive amplitude during the same interval (p  <  0.05), with activations across the bilateral temporal and parietal regions. Importantly, these differential responses were robust at the individual level, with machine-learning classification showing high accuracy (89%), sensitivity (0.88) and specificity (0.90)., Significance: This is the first demonstration of a neurotechnology platform that elicits, captures, and evaluates electrophysiological markers of orientation processing. We demonstrate neural responses to orientation stimuli that are validated across EEG and MEG modalities and robust at the individual level. The extraction of physiology-based markers through this technique may enable improved objective brain functional evaluation in clinical applications.

Published

2019

4. Neural mechanisms underlying action observation in adults with Down syndrome.

Author

Virji-Babul N, Moiseev A, Cheung T, Weeks DJ, Cheyne D, and Ribary U

Subjects

Adult, Female, Fingers innervation, Fingers physiology, Functional Laterality physiology, Humans, Male, Movement physiology, Young Adult, Down Syndrome pathology, Down Syndrome physiopathology, Magnetoencephalography, Motor Cortex pathology, Motor Cortex physiopathology

Abstract

Results of a magnetoencephalography (MEG) brain imaging study conducted to examine the cortical responses during action execution and action observation in 10 healthy adults and 8 age-matched adults with Down syndrome are reported. During execution, the motor responses were strongly lateralized on the ipsilateral rather than the contralateral side in the Down syndrome group. Observation of movement activated a network of cortical regions that was similar to the control group; however, there was no significant peak activity in the motor areas. In addition, the overall pattern of neural activation was more scattered and less organized in the Down syndrome group. These results further support the hypothesis of a dysfunction in the execution/observation matching system in adults with Down syndrome.

Published

2010

5. Development of Human Brainwave Simulating Device for Magnetoencephalography and the Corresponding Dipole Localization Study

Author

Liu, Jeff, Kishimoto, Yoshinao, Cheung, Teresa, Parameswaran, Ash M., Amaya, Kenji, Magjarevic, Ratko, editor, Supek, Selma, editor, and Sušac, Ana, editor

Published

2010

6. An integrated full-head OPM-MEG system based on 128 zero-field sensors.

Author

Alem, Orang, Hughes, K. Jeramy, Buard, Isabelle, Cheung, Teresa P., Maydew, Tyler, Griesshammer, Andreas, Holloway, Kendall, Park, Aaron, Lechuga, Vanessa, Coolidge, Collin, Gerginov, Marja, Quigg, Erik, Seames, Alexander, Kronberg, Eugene, Teale, Peter, and Knappe, Svenja

Subjects

DETECTORS, SENSOR arrays, MAGNETOENCEPHALOGRAPHY, MAGNETOMETERS, SYSTEM integration

Abstract

Compact optically-pumped magnetometers (OPMs) are now commercially available with noise floors reaching 10 fT/Hz1/2. However, to be used effectively for magnetoencephalography (MEG), dense arrays of these sensors are required to operate as an integrated turn-key system. In this study, we present the HEDscan, a 128-sensor OPM MEG system by FieldLine Medical, and evaluate its sensor performance with regard to bandwidth, linearity, and crosstalk. We report results from cross-validation studies with conventional cryogenic MEG, the Magnes 3,600 WH Biomagnetometer by 4-D Neuroimaging. Our results show high signal amplitudes captured by the OPM-MEG system during a standard auditory paradigm, where short tones at 1000 Hz were presented to the left ear of six healthy adult volunteers. We validate these findings through an event-related beamformer analysis, which is in line with existing literature results. [ABSTRACT FROM AUTHOR]

Published

2023

7. Perceptual and conceptual processing of visual objects across the adult lifespan

Author

Bruffaerts, Rose, Tyler, Lorraine K., Shafto, Meredith, Tsvetanov, Kamen A., Clarke, Alex, Brayne, Carol, Bullmore, Edward T., Calder, Andrew C., Cusack, Rhodri, Dalgleish, Tim, Duncan, John, Henson, Richard N., Matthews, Fiona E., Marslen-Wilson, William D., Rowe, James B., Campbell, Karen, Cheung, Teresa, Davis, Simon, Geerligs, Linda, Kievit, Rogier, McCarrey, Anna, Mustafa, Abdur, Price, Darren, Samu, David, Taylor, Jason R., Treder, Matthias, Van Belle, Janna, Williams, Nitin, Bates, Lauren, Emery, Tina, Erzinçlioglu, Sharon, Gadie, Andrew, Gerbase, Sofia, Georgieva, Stanimira, Hanley, Claire, Parkin, Beth, Troy, David, Auer, Tibor, Correia, Marta, Gao, Lu, Green, Emma, Henriques, Rafael, Allen, Jodie, Amery, Gillian, Amunts, Liana, Barcroft, Anne, Castle, Amanda, Dias, Cheryl, Dowrick, Jonathan, Fair, Melissa, Fisher, Hayley, Goulding, Anna, Grewal, Adarsh, Hale, Geoff, Hilton, Andrew, Johnson, Frances, Johnston, Patricia, Kavanagh-Williamson, Thea, Kwasniewska, Magdalena, McMinn, Alison, Norman, Kim, Penrose, Jessica, Roby, Fiona, Rowland, Diane, Sargeant, John, Squire, Maggie, Stevens, Beth, Stoddart, Aldabra, Stone, Cheryl, Thompson, Tracy, Yazlik, Ozlem, Barnes, Dan, Dixon, Marie, Hillman, Jaya, Mitchell, Joanne, Villis, Laura, Clarke, Alex [0000-0001-7768-5229], and Apollo - University of Cambridge Repository

Subjects

Male, DYNAMICS, 123, Visual Physiology, lcsh:Medicine, 631/378/2649/1723, Visual processing, 0302 clinical medicine, Cognition, Visual Objects, lcsh:Science, Language, computer.programming_language, media_common, Aged, 80 and over, Multidisciplinary, medicine.diagnostic_test, 05 social sciences, Cognitive neuroscience of visual object recognition, article, Brain, Middle Aged, STATISTICS, STATE, Semantics, Multidisciplinary Sciences, Pattern Recognition, Visual, 9, Visual Perception, Science & Technology - Other Topics, Female, Psychology, Cognitive psychology, Adult, media_common.quotation_subject, Longevity, 050105 experimental psychology, AGE-RELATED-CHANGES, 03 medical and health sciences, Young Adult, Perception, medicine, Humans, 0501 psychology and cognitive sciences, KNOWLEDGE, SPEED, Aged, Science & Technology, lcsh:R, RECOGNITION, Magnetoencephalography, 631/378/2649/1594, COGNITION, lcsh:Q, 119, computer, 030217 neurology & neurosurgery, RESPONSES

Abstract

Making sense of the external world is vital for multiple domains of cognition, and so it is crucial that object recognition is maintained across the lifespan. We investigated age differences in perceptual and conceptual processing of visual objects in a population-derived sample of 85 healthy adults (24-87 years old) by relating measures of object processing to cognition across the lifespan. Magnetoencephalography (MEG) was recorded during a picture naming task to provide a direct measure of neural activity, that is not confounded by age-related vascular changes. Multiple linear regression was used to estimate neural responsivity for each individual, namely the capacity to represent visual or semantic information relating to the pictures. We find that the capacity to represent semantic information is linked to higher naming accuracy, a measure of task-specific performance. In mature adults, the capacity to represent semantic information also correlated with higher levels of fluid intelligence, reflecting domain-general performance. In contrast, the latency of visual processing did not relate to measures of cognition. These results indicate that neural responsivity measures relate to naming accuracy and fluid intelligence. We propose that maintaining neural responsivity in older age confers benefits in task-related and domain-general cognitive processes, supporting the brain maintenance view of healthy cognitive ageing. ispartof: SCIENTIFIC REPORTS vol:9 issue:1 ispartof: location:England status: published

Published

2019

8. Cognitive loading via mental arithmetic modulates effects of blink‐related oscillations on precuneus and ventral attention network regions.

Author

Liu, Careesa C., Hajra, Sujoy Ghosh, Song, Xiaowei, Doesburg, Sam M., Cheung, Teresa P. L., and D'Arcy, Ryan C. N.

Abstract

Blink‐related oscillations (BROs) have been linked with environmental monitoring processes associated with blinking, with cortical activations in the bilateral precuneus. Although BROs have been described under resting and passive fixation conditions, little is known about their characteristics under cognitive loading. To address this, we investigated BRO effects during both mental arithmetic (MA) and passive fixation (PF) tasks using magnetoencephalography (n =20), while maintaining the same sensory environment in both tasks. Our results confirmed the presence of BRO effects in both MA and PF tasks, with similar characteristics including blink‐related increase in global field power and blink‐related activation of the bilateral precuneus. In addition, cognitive loading due to MA also modulated BRO effects by decreasing BRO‐induced cortical activations in key brain regions including the bilateral anterior precuneus. Interestingly, blinking during MA—but not PF—activated regions of the ventral attention network (i.e., right supramarginal gyrus and inferior frontal gyrus), suggesting possible recruitment of these areas for blink processing under cognitive loading conditions. Time–frequency analysis revealed a consistent pattern of BRO‐related effects in the precuneus in both tasks, but with task‐related functional segregation within the anterior and posterior subregions. Based on these findings, we postulate a potential neurocognitive mechanism for blink processing in the precuneus. This study is the first investigation of BRO effects under cognitive loading, and our results provide compelling new evidence for the important cognitive implications of blink‐related processing in the human brain. [ABSTRACT FROM AUTHOR]

Published

2019

9. Spontaneous Blinks Activate the Precuneus: Characterizing Blink-Related Oscillations Using Magnetoencephalography.

Author

Liu, Careesa C., Hajra, Sujoy Ghosh, Cheung, Teresa P. L., Xiaowei Song, and D'Arcy, Ryan C. N.

Subjects

BRAIN imaging, COGNITIVE ability, BLINKING (Physiology), INFORMATION processing, ENVIRONMENTAL monitoring, MAGNETOENCEPHALOGRAPHY

Abstract

Spontaneous blinking occurs 15-20 times per minute. Although blinking has often been associated with its physiological role of corneal lubrication, there is now increasing behavioral evidence suggesting that blinks are also modulated by cognitive processes such as attention and information processing. Recent low-density electroencephalography (EEG) studies have reported so-called blink-related oscillations (BROs) associated with spontaneous blinking at rest. Delta-band (0.5-4Hz) BROs are thought to originate from the precuneus region involved in environmental monitoring and awareness, with potential clinical utility in evaluation of disorders of consciousness. However, the neural mechanisms of BROs have not been elucidated. Using magnetoencephalography (MEG), we characterized delta-band BROs in 36 healthy individuals while controlling for background brain activity. Results showed that, compared to pre-blink baseline, delta-band BROs resulted in increased global field power (p < 0.001) and time-frequency spectral power (p < 0.05) at the sensor level, peaking at ~250ms post-blink maximum. Source localization showed that spontaneous blinks activated the bilateral precuneus (p<0.05 FWE), and source activitywithin the precuneus was also consistent with sensor-space results. Crucially, these effects were only observed in the blink condition and were absent in the control condition, demonstrating that results were due to spontaneous blinks rather than as part of the inherent brain activity. The current study represents the first MEG examination of BROs. Our findings suggest that spontaneous blinks activate the precuneus regions consistent with environmental monitoring and awareness, and provide important neuroimaging support for the cognitive role of spontaneous blinks. [ABSTRACT FROM AUTHOR]

Published

2017

10. Syntactic computations in the language network: characterizing dynamic network properties using representational similarity analysis

Author

Tyler, Lorraine K, Cheung, Teresa PL, Devereux, Barry J, and Clarke, Alex

Subjects

magnetoencephalography, representational similarity analysis, syntactic ambiguity, sentence processing, 16. Peace & justice, language networks, syntax

Abstract

The core human capacity of syntactic analysis involves a left hemisphere network involving left inferior frontal gyrus (LIFG) and posterior middle temporal gyrus (LMTG) and the anatomical connections between them. Here we use magnetoencephalography (MEG) to determine the spatio-temporal properties of syntactic computations in this network. Listeners heard spoken sentences containing a local syntactic ambiguity (e.g., "… landing planes …"), at the offset of which they heard a disambiguating verb and decided whether it was an acceptable/unacceptable continuation of the sentence. We charted the time-course of processing and resolving syntactic ambiguity by measuring MEG responses from the onset of each word in the ambiguous phrase and the disambiguating word. We used representational similarity analysis (RSA) to characterize syntactic information represented in the LIFG and left posterior middle temporal gyrus (LpMTG) over time and to investigate their relationship to each other. Testing a variety of lexico-syntactic and ambiguity models against the MEG data, our results suggest early lexico-syntactic responses in the LpMTG and later effects of ambiguity in the LIFG, pointing to a clear differentiation in the functional roles of these two regions. Our results suggest the LpMTG represents and transmits lexical information to the LIFG, which responds to and resolves the ambiguity.

11. Neonatal pain-related stress, functional cortical activity and visual-perceptual abilities in school-age children born at extremely low gestational age.

Author

Doesburg, Sam M., Chau, Cecil M., Cheung, Teresa P.L., Moiseev, Alexander, Ribary, Urs, Herdman, Anthony T., Miller, Steven P., Cepeda, Ivan L., Synnes, Anne, and Grunau, Ruth E.

Subjects

*MAGNETOENCEPHALOGRAPHY, *NEONATAL diseases, *PAIN management, *STRESS in children, *VISUAL perception, *MENTAL health of school children, *GESTATIONAL age, *PREMATURE infant diseases

Abstract

Abstract: Children born very prematurely (⩽32weeks) often exhibit visual-perceptual difficulties at school-age, even in the absence of major neurological impairment. The alterations in functional brain activity that give rise to such problems, as well as the relationship between adverse neonatal experience and neurodevelopment, remain poorly understood. Repeated procedural pain-related stress during neonatal intensive care has been proposed to contribute to altered neurocognitive development in these children. Due to critical periods in the development of thalamocortical systems, the immature brain of infants born at extremely low gestational age (ELGA; ⩽28weeks) may have heightened vulnerability to neonatal pain. In a cohort of school-age children followed since birth we assessed relations between functional brain activity measured using magnetoencephalogragy (MEG), visual-perceptual abilities and cumulative neonatal pain. We demonstrated alterations in the spectral structure of spontaneous cortical oscillatory activity in ELGA children at school-age. Cumulative neonatal pain-related stress was associated with changes in background cortical rhythmicity in these children, and these alterations in spontaneous brain oscillations were negatively correlated with visual-perceptual abilities at school-age, and were not driven by potentially confounding neonatal variables. These findings provide the first evidence linking neonatal pain-related stress, the development of functional brain activity, and school-age cognitive outcome in these vulnerable children. [Copyright &y& Elsevier]

Published

2013

12. Changes in mu rhythm during action observation and execution in adults with Down syndrome: Implications for action representation

Author

Virji-Babul, Naznin, Moiseev, Alexander, Cheung, Teresa, Weeks, Daniel, Cheyne, Douglas, and Ribary, Urs

Subjects

*NERVOUS system, *CEREBRAL dominance, *DOWN syndrome, *MAGNETOENCEPHALOGRAPHY

Abstract

Abstract: The human mirror neuron system is thought to be the underlying basis of perception–action coupling involved in imitation and action understanding. In order to examine this issue we examined the recruitment of the mirror neuron system, as reflected in mu rhythm suppression in a population of adults with Down syndrome (DS) with known strengths in imitation but with impairments in perceptual-motor coupling. Ten healthy adults and 10 age-matched adults with (DS) participated in the study. Subjects were asked to make self-paced movements (execution), and view movements made by the experimenter (observation). The action consisted of reaching with the dominant hand to grasp and lift a cup. Cortical responses were recorded with a whole head magnetoencephalography (MEG) system. Both groups demonstrated significant attenuation of the mu rhythm in bilateral sensorimotor areas when executing the action. Typical adults also demonstrated significant mu suppression in bilateral sensorimotor areas during observation of the action. In contrast, when observing the movement, adults with DS showed a significantly reduced overall attenuation of mu activity with a distinct laterality in the pattern of mu suppression. These results suggest that there is a dysfunction in the execution/observation matching system in adults with DS and has implications for the functional role of the human mirror neuron system. [Copyright &y& Elsevier]

Published

2008

13. External landmark and head-shape-based functional data normalization

Author

Beg, Mirza Faisal, Wong, Stephen, Khan, Ali R., Cheung, Teresa, Virji-Babul, Naznin, and Herdman, Anthony

Subjects

*MAGNETOENCEPHALOGRAPHY, *MAGNETIC resonance imaging of the brain, *MEDICAL records, *OPTICAL resolution, *BIOINFORMATICS, *POPULATION

Abstract

Abstract: Functional data, as obtained from magnetoencephalography (MEG) techniques, is frequently transformed to a template brain space for pooling data across the population. This transformation is often performed via an intermediate magnetic resonance image (MRI) of the subject’s brain that is first registered to the template brain MRI. However, in many instances, it is difficult, expensive or undesirable to acquire MRIs, and since reconstructed functional data is lower resolution, the full information in MRIs is not required for registration. We present here two alternative options for computing the transformation of functional data to a common template space. These alternatives compute the registration based on external landmarks placed on the head, and the external shape of the head, features that are considerably simpler and inexpensive to acquire than MRIs. We present quantification of the accuracy of using these alternative features for registration, and show that they give accuracy for functional data registration that is sufficient given the functional data resolution, and is comparable to existing methods that are commonly used. [Copyright &y& Elsevier]

Published

2009