Ray F. Lee scite author profile

Lapses of attention can have negative consequences, including accidents and lost productivity. Here we used closed-loop neurofeedback to improve sustained attention abilities and reduce the frequency of lapses. During a sustained attention task, the focus of attention was monitored in real time with multivariate pattern analysis of whole-brain neuroimaging data. When indicators of an attentional lapse were detected in the brain, we gave human participants feedback by making the task more difficult. Behavioral performance improved after one training session, relative to control participants who received feedback from other participants’ brains. This improvement was largest when feedback carried information from a frontoparietal attention network. A neural consequence of training was that the basal ganglia and ventral temporal cortex came to represent attentional states more distinctively. These findings suggest that attentional failures do not reflect an upper limit on cognitive potential and that attention can be trained with appropriate feedback about neural signals.

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Decoupled circular‐polarized dual‐head volume coil pair for studying two interacting human brains with dyadic fMRI

Lee

Dai

Jones

2011

Magnetic Resonance in Med

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A major function of the human brain is to mediate interactions with other people. Until recently, studying social interactions as they occur within the brain was not possible due to the lack of measurable methods to observe two interacting minds simultaneously. We have developed a novel MRI dual-head volume coil pair that can scan two subjects' brains simultaneously while the subjects are socially interacting in one MRI scanner. The feasibility of using this coil for dyadic functional MRI (fMRI) study has been successfully demonstrated for the first time. Meanwhile, an innovative robust scheme for decoupling two circular-polarized coils (not surface coils) is introduced in theory and validated in practice in the coil technology development.

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Dual Logic and Cerebral Coordinates for Reciprocal Interaction in Eye Contact

Lee

2015

PLoS ONE

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In order to scientifically study the human brain’s response to face-to-face social interaction, the scientific method itself needs to be reconsidered so that both quantitative observation and symbolic reasoning can be adapted to the situation where the observer is also observed. In light of the recent development of dyadic fMRI which can directly observe dyadic brain interacting in one MRI scanner, this paper aims to establish a new form of logic, dual logic, which provides a theoretical platform for deductive reasoning in a complementary dual system with emergence mechanism. Applying the dual logic in the dfMRI experimental design and data analysis, the exogenous and endogenous dual systems in the BOLD responses can be identified; the non-reciprocal responses in the dual system can be suppressed; a cerebral coordinate for reciprocal interaction can be generated. Elucidated by dual logic deductions, the cerebral coordinate for reciprocal interaction suggests: the exogenous and endogenous systems consist of the empathy network and the mentalization network respectively; the default-mode network emerges from the resting state to activation in the endogenous system during reciprocal interaction; the cingulate plays an essential role in the emergence from the exogenous system to the endogenous system. Overall, the dual logic deductions are supported by the dfMRI experimental results and are consistent with current literature. Both the theoretical framework and experimental method set the stage to formally apply the scientific method in studying complex social interaction.

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Decoupled circular‐polarized dual‐head volume coil pair for studying two interacting human brains with dyadic fMRI

Lee

Dai

Jones

2012

Magnetic Resonance in Med

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With a dual-head volume coil (DHVC), the BOLD effects of two directly interacting brains were observed for the first time in a dyadic fMRI study between two friends when they were instructed to open and close their eyes, simultaneously (a) and alternately (b). The plots in (c) and (d) show the BOLD response time series in the temporal parietal junction area when opening and closing their eyes simultaneously (c) and alternately (d), from the article by Lee et al (pp 1087Lee et al (pp -1096.

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Effect of topical fluoroquinolones on corneal re-epithelialization after excimer laser keratectomy

Moreira

Lee

Oliveira

et al. 1997

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Ray F. Lee

Closed-loop training of attention with real-time brain imaging

Decoupled circular‐polarized dual‐head volume coil pair for studying two interacting human brains with dyadic fMRI

Dual Logic and Cerebral Coordinates for Reciprocal Interaction in Eye Contact

Decoupled circular‐polarized dual‐head volume coil pair for studying two interacting human brains with dyadic fMRI

Effect of topical fluoroquinolones on corneal re-epithelialization after excimer laser keratectomy

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