Your search keyword '"Lucas Spierer"' showing total 2 results

1. Differential patterns of functional and structural plasticity within and between inferior frontal gyri support training‐induced improvements in inhibitory control proficiency

Author

Wietske van der Zwaag, Bogdan Draganski, Camille F. Chavan, Lucas Spierer, and Michael Mouthon

Subjects

Adult, Male, Prefrontal Cortex, Grey matter, behavioral disciplines and activities, Functional Laterality, White matter, Executive Function, Young Adult, Inhibitory control, Neuroplasticity, medicine, Humans, Radiology, Nuclear Medicine and imaging, Research Articles, CIBM-AIT, Neuronal Plasticity, Radiological and Ultrasound Technology, medicine.diagnostic_test, Working memory, Cognition, Voxel-based morphometry, Magnetic Resonance Imaging, Inhibition, Psychological, medicine.anatomical_structure, Neurology, Practice, Psychological, Neurology (clinical), Anatomy, Functional magnetic resonance imaging, Psychology, Neuroscience, Psychomotor Performance

Abstract

Ample evidence indicates that inhibitory control (IC), a key executive component referring to the ability to suppress cognitive or motor processes, relies on a right‐lateralized fronto‐basal brain network. However, whether and how IC can be improved with training and the underlying neuroplastic mechanisms remains largely unresolved. We used functional and structural magnetic resonance imaging to measure the effects of 2 weeks of training with a Go/NoGo task specifically designed to improve frontal top‐down IC mechanisms. The training‐induced behavioral improvements were accompanied by a decrease in neural activity to inhibition trials within the right pars opercularis and triangularis, and in the left pars orbitalis of the inferior frontal gyri. Analyses of changes in brain anatomy induced by the IC training revealed increases in grey matter volume in the right pars orbitalis and modulations of white matter microstructure in the right pars triangularis. The task‐specificity of the effects of training was confirmed by an absence of change in neural activity to a control working memory task. Our combined anatomical and functional findings indicate that differential patterns of functional and structural plasticity between and within inferior frontal gyri enhanced the speed of top‐down inhibition processes and in turn IC proficiency. The results suggest that training‐based interventions might help overcoming the anatomic and functional deficits of inferior frontal gyri manifesting in inhibition‐related clinical conditions. More generally, we demonstrate how multimodal neuroimaging investigations of training‐induced neuroplasticity enable revealing novel anatomo‐functional dissociations within frontal executive brain networks. Hum Brain Mapp 36:2527–2543, 2015. © 2015 Wiley Periodicals, Inc.

Published

2015

2. Submillisecond unmasked subliminal visual stimuli evoke electrical brain responses

Author

Christoph M. Michel, Holger Franz Sperdin, Lucas Spierer, Theodor Landis, and Robert Becker

Subjects

Communication, Visual perception, genetic structures, Radiological and Ultrasound Technology, Visual N1, business.industry, Subliminal stimuli, Precuneus, Stimulus (physiology), Tachistoscope, medicine.anatomical_structure, Neurology, Visual masking, medicine, Radiology, Nuclear Medicine and imaging, Neurology (clinical), Anatomy, Evoked potential, business, Psychology, Neuroscience

Abstract

Subliminal perception is strongly associated to the processing of meaningful or emotional information and has mostly been studied using visual masking. In this study, we used high density 256-channel EEG coupled with an liquid crystal display (LCD) tachistoscope to characterize the spatio-temporal dynamics of the brain response to visual checkerboard stimuli (Experiment 1) or blank stimuli (Experiment 2) presented without a mask for 1 ms (visible), 500 µs (partially visible), and 250 µs (subliminal) by applying time-wise, assumption-free nonparametric randomization statistics on the strength and on the topography of high-density scalp-recorded electric field. Stimulus visibility was assessed in a third separate behavioral experiment. Results revealed that unmasked checkerboards presented subliminally for 250 µs evoked weak but detectable visual evoked potential (VEP) responses. When the checkerboards were replaced by blank stimuli, there was no evidence for the presence of an evoked response anymore. Furthermore, the checkerboard VEPs were modulated topographically between 243 and 296 ms post-stimulus onset as a function of stimulus duration, indicative of the engagement of distinct configuration of active brain networks. A distributed electrical source analysis localized this modulation within the right superior parietal lobule near the precuneus. These results show the presence of a brain response to submillisecond unmasked subliminal visual stimuli independently of their emotional saliency or meaningfulness and opens an avenue for new investigations of subliminal stimulation without using visual masking.

Published

2014