Your search keyword '"Seyed-Allaei, Shima"' showing total 6 results

1. Brain network dynamics during spontaneous strategy shifts and incremental task optimization.

Author

Allegra M, Seyed-Allaei S, Schuck NW, Amati D, Laio A, and Reverberi C

Subjects

Adult, Algorithms, Attention physiology, Brain Mapping, Cognition physiology, Decision Making physiology, Exploratory Behavior physiology, Female, Humans, Magnetic Resonance Imaging methods, Male, Neural Pathways diagnostic imaging, Neural Pathways physiology, Neuroimaging methods, Parietal Lobe diagnostic imaging, Parietal Lobe physiology, Prefrontal Cortex diagnostic imaging, Prefrontal Cortex physiology, Psychomotor Performance physiology, Young Adult, Brain diagnostic imaging, Brain physiology, Nerve Net diagnostic imaging, Nerve Net physiology

Abstract

With practice, humans improve their performance in a task by either optimizing a known strategy or discovering a novel, potentially more fruitful strategy. We investigated the neural processes underlying these two fundamental abilities by applying fMRI in a task with two possible alternative strategies. For analysis we combined time-resolved network analysis with Coherence Density Peak Clustering (Allegra et al., 2017), univariate GLM, and multivariate pattern classification. Converging evidence showed that the posterior portion of the default network, i.e. the precuneus and the angular gyrus bilaterally, has a central role in the optimization of the current strategy. These regions encoded the relevant spatial information, increased the strength of local connectivity as well as the long-distance connectivity with other relevant regions in the brain (e.g., visual cortex, dorsal attention network). The connectivity increase was proportional to performance optimization. By contrast, the anterior portion of the default network (i.e. medial prefrontal cortex) and the rostral portion of the fronto-parietal network were associated with new strategy discovery: an early increase of local and long-range connectivity centered on these regions was only observed in the subjects who would later shift to a new strategy. Overall, our findings shed light on the dynamic interactions between regions related to attention and with cognitive control, underlying the balance between strategy exploration and exploitation. Results suggest that the default network, far from being "shut-down" during task performance, has a pivotal role in the background exploration and monitoring of potential alternative courses of action., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2020

2. fMRI single trial discovery of spatio-temporal brain activity patterns.

Author

Allegra M, Seyed-Allaei S, Pizzagalli F, Baftizadeh F, Maieron M, Reverberi C, Laio A, and Amati D

Subjects

Adult, Computer Simulation, Female, Humans, Image Processing, Computer-Assisted, Male, Middle Aged, Models, Neurological, Movement physiology, Oxygen blood, Principal Component Analysis, Reproducibility of Results, Time Factors, Young Adult, Brain diagnostic imaging, Brain physiology, Brain Mapping, Magnetic Resonance Imaging, Neural Pathways diagnostic imaging, Neural Pathways physiology

Abstract

There is growing interest in the description of short-lived patterns in the spatiotemporal cortical activity monitored via neuroimaging. Most traditional analysis methods, designed to estimate relatively long-term brain dynamics, are not always appropriate to capture these patterns. Here we introduce a novel data-driven approach for detecting short-lived fMRI brain activity patterns. Exploiting Density Peak Clustering (Rodriguez and Laio [2014]), our approach reveals well localized clusters by identifying and grouping together voxels whose time-series are similar, irrespective of their brain location, even when very short time windows (∼10 volumes) are used. The method, which we call Coherence Density Peak Clustering (CDPC), is first tested on simulated data and compared with a standard unsupervised approach for fMRI analysis, independent component analysis (ICA). CDPC identifies activated voxels with essentially no false-positives and proves more reliable than ICA, which is troubled by a number of false positives comparable to that of true positives. The reliability of the method is demonstrated on real fMRI data from a simple motor task, containing brief iterations of the same movement. The clusters identified are found in regions expected to be involved in the task, and repeat synchronously with the paradigm. The methodology proposed is especially suitable for the study of short-time brain dynamics and single trial experiments, where the event or task of interest cannot be repeated for the same subject, as happens, for instance, in problem-solving, learning and decision-making. A GUI implementation of our method is available for download at https://github.com/micheleallegra/CDPC. Hum Brain Mapp 38:1421-1437, 2017. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2017

3. Language control in bilinguals: Intention to speak vs. execution of speech.

Author

Reverberi C, Kuhlen A, Abutalebi J, Greulich RS, Costa A, Seyed-Allaei S, and Haynes JD

Subjects

Brain Mapping, Cognition physiology, Cues, England, Female, Germany, Humans, Magnetic Resonance Imaging, Male, Photic Stimulation, Young Adult, Brain physiology, Intention, Language, Multilingualism, Speech physiology

Abstract

Bilinguals require a high degree of cognitive control to select the language intended for speaking and inhibit the unintended. Previous neuroimaging studies have not teased apart brain regions for generating the intention to use a given language, and those for speaking in that language. Separating these two phases can clarify at what stage competition between languages occurs. In this fMRI study German-English bilinguals were first cued to use German or English. After a delay, they named a picture in the cued language. During the intention phase, the precuneus, right superior lateral parietal lobule, and middle temporal gyrus were more activated when participants had to update the currently active language. During language execution activation was higher for English compared to German in brain areas associated with cognitive control, most notably the anterior cingulate and the caudate. Our results suggest two different systems enabling cognitive control during bilingual language production., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

4. Mechanisms of rule acquisition and rule following in inductive reasoning.

Author

Crescentini C, Seyed-Allaei S, De Pisapia N, Jovicich J, Amati D, and Shallice T

Subjects

Adult, Brain Mapping methods, Female, Humans, Male, Young Adult, Brain physiology, Photic Stimulation methods, Problem Solving physiology, Psychomotor Performance physiology, Reaction Time physiology

Abstract

Despite the recent interest in the neuroanatomy of inductive reasoning processes, the regional specificity within prefrontal cortex (PFC) for the different mechanisms involved in induction tasks remains to be determined. In this study, we used fMRI to investigate the contribution of PFC regions to rule acquisition (rule search and rule discovery) and rule following. Twenty-six healthy young adult participants were presented with a series of images of cards, each consisting of a set of circles numbered in sequence with one colored blue. Participants had to predict the position of the blue circle on the next card. The rules that had to be acquired pertained to the relationship among succeeding stimuli. Responses given by subjects were categorized in a series of phases either tapping rule acquisition (responses given up to and including rule discovery) or rule following (correct responses after rule acquisition). Mid-dorsolateral PFC (mid-DLPFC) was active during rule search and remained active until successful rule acquisition. By contrast, rule following was associated with activation in temporal, motor, and medial/anterior prefrontal cortex. Moreover, frontopolar cortex (FPC) was active throughout the rule acquisition and rule following phases before a rule became familiar. We attributed activation in mid-DLPFC to hypothesis generation and in FPC to integration of multiple separate inferences. The present study provides evidence that brain activation during inductive reasoning involves a complex network of frontal processes and that different subregions respond during rule acquisition and rule following phases.

Published

2011

5. A Novel Generalizable Neural Decoder for Visual Object Recognition Using fMRI Data of Human Brains.

Author

Shakeripour, Alireza, Aghaomidi, Poorya, Seyed-Allaei, Shima, and Bahmani, Zahra

Subjects

FUNCTIONAL magnetic resonance imaging, DEEP learning, OBJECT recognition (Computer vision), IMAGE reconstruction, BRAIN, NEUROSCIENCES

Published

2024

6. Disturbance of information in superior parietal lobe during dual-task interference in a simulated driving task.

Author

Abbaszadeh, Mojtaba, Hossein-Zadeh, Gholam-Ali, Seyed-Allaei, Shima, and Vaziri-Pashkam, Maryam

Subjects

PARIETAL lobe, FUNCTIONAL magnetic resonance imaging, NERVOUS system, SYMPTOMS, BRAIN

Published

2023