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1. Prolonged microgravity induces reversible and persistent changes on human cerebral connectivity

Author

Steven Jillings, Ekaterina Pechenkova, Elena Tomilovskaya, Ilya Rukavishnikov, Ben Jeurissen, Angelique Van Ombergen, Inna Nosikova, Alena Rumshiskaya, Liudmila Litvinova, Jitka Annen, Chloë De Laet, Catho Schoenmaekers, Jan Sijbers, Victor Petrovichev, Stefan Sunaert, Paul M. Parizel, Valentin Sinitsyn, Peter zu Eulenburg, Steven Laureys, Athena Demertzi, and Floris L. Wuyts

Subjects
Biology (General), QH301-705.5
Abstract

rs-fMRI is used to investigate human brain connectivity changes induced by prolonged microgravity in cosmonauts before and after spaceflight, with both persistent and reversible location specific changes in connectivity being observed.

Published
2023
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2. Brain Connectometry Changes in Space Travelers After Long-Duration Spaceflight

Author

Andrei Doroshin, Steven Jillings, Ben Jeurissen, Elena Tomilovskaya, Ekaterina Pechenkova, Inna Nosikova, Alena Rumshiskaya, Liudmila Litvinova, Ilya Rukavishnikov, Chloë De Laet, Catho Schoenmaekers, Jan Sijbers, Steven Laureys, Victor Petrovichev, Angelique Van Ombergen, Jitka Annen, Stefan Sunaert, Paul M. Parizel, Valentin Sinitsyn, Peter zu Eulenburg, Karol Osipowicz, and Floris L. Wuyts

Subjects
spaceflight, magnetic resonance imaging (MRI), tractography, neuroplasticity, neuroscience, International Space Station (ISS), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Humans undergo extreme physiological changes when subjected to long periods of weightlessness, and as we continue to become a space-faring species, it is imperative that we fully understand the physiological changes that occur in the human body, including the brain. In this study, we present findings of brain structural changes associated with long-duration spaceflight based on diffusion magnetic resonance imaging (dMRI) data. Twelve cosmonauts who spent an average of six months aboard the International Space Station (ISS) were scanned in an MRI scanner pre-flight, ten days after flight, and at a follow-up time point seven months after flight. We performed differential tractography, a technique that confines white matter fiber tracking to voxels showing microstructural changes. We found significant microstructural changes in several large white matter tracts, such as the corpus callosum, arcuate fasciculus, corticospinal, corticostriatal, and cerebellar tracts. This is the first paper to use fiber tractography to investigate which specific tracts exhibit structural changes after long-duration spaceflight and may direct future research to investigate brain functional and behavioral changes associated with these white matter pathways.

Published
2022
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3. Alterations of Functional Brain Connectivity After Long-Duration Spaceflight as Revealed by fMRI

Author

Ekaterina Pechenkova, Inna Nosikova, Alena Rumshiskaya, Liudmila Litvinova, Ilya Rukavishnikov, Elena Mershina, Valentin Sinitsyn, Angelique Van Ombergen, Ben Jeurissen, Steven Jillings, Steven Laureys, Jan Sijbers, Alexey Grishin, Ludmila Chernikova, Ivan Naumov, Ludmila Kornilova, Floris L. Wuyts, Elena Tomilovskaya, and Inessa Kozlovskaya

Subjects
spaceflight, microgravity, cosmonauts, fMRI, functional connectivity, brain plasticity, Physiology, QP1-981
Abstract

The present study reports alterations of task-based functional brain connectivity in a group of 11 cosmonauts after a long-duration spaceflight, compared to a healthy control group not involved in the space program. To elicit the postural and locomotor sensorimotor mechanisms that are usually most significantly impaired when space travelers return to Earth, a plantar stimulation paradigm was used in a block design fMRI study. The motor control system activated by the plantar stimulation involved the pre-central and post-central gyri, SMA, SII/operculum, and, to a lesser degree, the insular cortex and cerebellum. While no post-flight alterations were observed in terms of activation, the network-based statistics approach revealed task-specific functional connectivity modifications within a broader set of regions involving the activation sites along with other parts of the sensorimotor neural network and the visual, proprioceptive, and vestibular systems. The most notable findings included a post-flight increase in the stimulation-specific connectivity of the right posterior supramarginal gyrus with the rest of the brain; a strengthening of connections between the left and right insulae; decreased connectivity of the vestibular nuclei, right inferior parietal cortex (BA40) and cerebellum with areas associated with motor, visual, vestibular, and proprioception functions; and decreased coupling of the cerebellum with the visual cortex and the right inferior parietal cortex. The severity of space motion sickness symptoms was found to correlate with a post- to pre-flight difference in connectivity between the right supramarginal gyrus and the left anterior insula. Due to the complex nature and rapid dynamics of adaptation to gravity alterations, the post-flight findings might be attributed to both the long-term microgravity exposure and to the readaptation to Earth’s gravity that took place between the landing and post-flight MRI session. Nevertheless, the results have implications for the multisensory reweighting and gravitational motor system theories, generating hypotheses to be tested in future research.

Published
2019
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5. The effect of prolonged spaceflight on cerebrospinal fluid and perivascular spaces of astronauts and cosmonauts

Author

Giuseppe Barisano, Farshid Sepehrband, Heather R. Collins, Steven Jillings, Ben Jeurissen, James A. Taylor, Catho Schoenmaekers, Chloë De Laet, Ilya Rukavishnikov, Inna Nosikova, Liudmila Litvinova, Alena Rumshiskaya, Jitka Annen, Jan Sijbers, Steven Laureys, Angelique Van Ombergen, Victor Petrovichev, Valentin Sinitsyn, Ekaterina Pechenkova, Alexey Grishin, Peter zu Eulenburg, Meng Law, Stefan Sunaert, Paul M. Parizel, Elena Tomilovskaya, Donna R. Roberts, and Floris L. Wuyts

Published
2022
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6. Presurgical brain mapping of language processing with fMRI: state of the art and tendencies

Author

Elena Mershina, Yana Panikratova, Roza VLasova, and Ekaterina Pechenkova

Subjects
Radiological and Ultrasound Technology, Radiology, Nuclear Medicine and imaging
Abstract

Presurgical brain mapping of language-eloquent cortex aims to minimize its injury during neurosurgery in patients with brain tumors and drug-resistant epilepsy, and thereby, to preserve their quality of life. Two main goals of language mapping are to identify the localization and lateralization of brain regions involved in language. Gold standards for them are the intraoperative mapping and Wada test, respectively; however, due to some limitations of these techniques, non-invasive preliminary language mapping becomes reasonable. During the last years, fMRI has been widely applied for such purposes. Our literature review focuses on innovations and actual tendencies which spread in the field of language mapping via fMRI in the last decade. State-of-the-art knowledge on brain organization of language, which underpins brain mapping of language processing via fMRI, is briefly described in the article. Contemporary studies of fMRI validity in localization and lateralization of language brain regions are considered. Strategies of presurgical language mapping, such as application of tractography in addition to fMRI, combined analysis of fMRI tasks as well as resting-state fMRI are also discussed. Well-established fMRI tasks for brain mapping of language production and comprehension, as well as new experimental developments in this field, are listed and described.

Published
2022
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7. Scope and Perspectives of Neuroimaging and Neurostimulation to Develop the Theory of Systemic and Dynamic Localization of Higher Mental Functions

Author

Irina Lebedeva, Yana Panikratova, Valentin Sinitsyn, Ekaterina Pechenkova, and Roza VLasova

Subjects
Cultural Studies, Social Psychology, Developmental and Educational Psychology, Psychology (miscellaneous), Applied Psychology
Abstract

The theory of systemic and dynamic localization of higher mental functions by Lev Vygotsky and Alexander Luria was based on the data obtained via an original method, syndrome analysis of deficits of higher mental functions in patients with local brain injury. When this theory was being constructed, technical methods for brain investigation were only in their early stages. Although in later years Luria and his disciples pointed out that such methods were prominent for further development of Soviet/Russian neuropsychology, they are still rarely used by the followers of these scientists. In this article, we focus on neuroimaging and neurostimulation methods that are both noninvasive and the most accessible in Russia: structural, diffusion-weighted, and functional magnetic resonance imaging, as well as transcranial magnetic stimulation. We discuss their scope and perspectives for addressing research questions in neuropsychology and describe possible designs for neu­ropsychological studies in patients with local brain injury and healthy individuals.

Published
2022
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8. Storytelling in speakers with and without brain damage: A macrolinguistic approach

Author

Irina Lebedeva, Yana Panikratova, Olga Dragoy, Yulia Akinina, Ekaterina Pechenkova, and Mariya Khudyakova

Abstract

Narrative discourse is investigated in clinical and healthy populations. This study explored the discourse strategies used to tell stories, comparing the patterns of people with left- and right-hemisphere brain damage, as well as healthy speakers. We analyzed picture-elicited discourses by four people with aphasia, two people with right hemisphere damage, and four healthy speakers. We examined their microlinguistic properties, as well as macrolinguistic features, such as the discourse production type of utterances and patterns of story component usage. We identified two storytelling strategies used by the speakers: a narrative strategy marked by a prevalence of narrative discourse production type utterances and scarce use of evaluation clauses, and a quasi-narrative strategy with the opposite pattern. These strategies were used by both healthy speakers and participants with brain damage.

Published
2021
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9. Neural Mechanisms of Theory of Mind in Autism and Schizophrenia: A Review of fMRI Studies

Author

D. A. Bazhenova, Olga Larina, Valentin Sinitsyn, Ekaterina Pechenkova, Marina Iosifyan, and Elena Mershina

Subjects
autism spectrum disorders, fmri, 05 social sciences, lcsh:R, lcsh:Medicine, 050105 experimental psychology, schizophrenia, mentalization, 03 medical and health sciences, 0302 clinical medicine, Mentalization, 0501 psychology and cognitive sciences, General Materials Science, Psychology, 030217 neurology & neurosurgery, Mathematical physics, theory of mind
Abstract

Theory of mind is a cognitive ability, which enables to understand intentions, emotions and beliefs of another person. Because of theory of mind, people are able to interpret behavior of others and adapt to it. Numerous psychiatric impairments are associated with damaged theory of mind and communication with others. The present review analyses the impairments of theory of mind as laying on a continuum from hypermentalization (over-attribution of intentions to others) to hypomentalization (under-attribution of intentions to others) in autism spectrum disorders and schizophrenia. FMRI paradigm of different subprocesses of theory of mind is described (perceptual mind-reading, cognitive theory of mind, “hot” theory of mind and implicit theory of mind). Neural mechanisms of these subprocesses and their impairments in autism spectrum disorder and schizophrenia analyzed.

Published
2020

10. Sensory integration in interoception: Interplay between top-down and bottom-up processing

Author

Evgenia S. Novikova, Viktoriia P. Vorobeva, Anastasia D. Suslina, Olga S. Perepelkina, O. Dobrushina, Elena I. Kremneva, Mariia V. Gubanova, Anastasia V. Belopasova, Ekaterina Pechenkova, Marina Krotenkova, G. Arina, and Larisa A. Dobrynina

Subjects
Proprioception, Artificial neural network, Cognitive Neuroscience, media_common.quotation_subject, Illusion, Experimental and Cognitive Psychology, Sensory system, Insular cortex, Hand, Illusions, Magnetic Resonance Imaging, Interoception, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, medicine, Humans, Female, Insular Cortex, Prefrontal cortex, Psychology, Neuroscience, Anterior cingulate cortex, media_common
Abstract

Although the neural systems supporting interoception have been outlined in general, the exact processes underlying the integration of visceral signals still await research. Based on the predictive coding concept, we aimed to reveal the neural networks responsible for the bottom-up (stimulus-dependent) and top-down (model-dependent) processing of interoceptive information. In a study of 30 female participants, we utilized two classical body perception experiments-the rubber hand illusion and a heartbeat detection task (cardioception), with the latter being implemented in fMRI settings. We interpreted a stronger rubber hand illusion, as measured by higher proprioceptive drift, as a tendency to rely on actual sensory experience, i.e., bottom-up processing, while lower proprioceptive drift served as an indicator of the prevalence of top-down, model-based influences. To reveal the bottom-up and top-down processes in cardioception, we performed a seed-based connectivity analysis of the heartbeat detection task, using as seeds the areas with known roles in sensory integration and entering proprioceptive drift as a covariate. The results revealed a left thalamus-dependent network positively associated with proprioceptive drift (bottom-up processing) and a left amygdala-dependent network negatively associated with drift (top-down processing). Bottom-up processing was related to thalamic connectivity with the left frontal operculum and anterior insula, anterior cingulate cortex, hypothalamus, right planum polare and right inferior frontal gyrus. Top-down processing was related to amygdalar connectivity with the rostral prefrontal cortex and an area involving the left frontal opercular and anterior insular cortex, with the latter area being an intersection of the two networks. Thus, we revealed the neural mechanisms underlying the integration of interoceptive information through the interaction between the current sensory experience and internal models.

Published
2021

11. White Matter Integrity Correlates of the Reading Span

Author

Yana R. Panikratova, Valentin Sinitsyn, Irina S. Lebedeva, Elena Mershina, Olga V. Fedorova, Ekaterina Pechenkova, Roza M. Vlasova, Liudmila A. Makovskaya, Maria A. Fomina, Daria A. Bazhenova, and Alena Rumshiskaya

Subjects
White matter, medicine.anatomical_structure, Working memory, Reading (process), media_common.quotation_subject, medicine, anatomy_morphology, Psychology, Span (engineering), behavioral disciplines and activities, Cognitive psychology, media_common
Abstract

Although working memory (WM) is crucial for intellectual abilities, not much is known about its brain underpinnings, especially the structural connectivity. We used diffusion tensor imaging (DTI) to look across the whole brain for the white matter integrity correlates of the individual differences in the reading span (verbal WM capacity during reading) in healthy adults. Right-handed healthy native Russian speakers (N = 67) underwent DTI on a 3T Philips Ingenia scanner. Verbal WM was assessed with the Daneman-Carpenter reading span test (Russian version). Fractional anisotropy maps from each participant were entered into the group tract-based spatial statistics analysis with the reading span as a covariate; the results were TFCE-corrected. After taking into account effects of age, sex, education and handedness, reading span positively correlated with the white matter integrity in multiple sites: the body, the genu and the splenium of corpus callosum; bilateral corona radiata (anterior, posterior, and superior); bilateral superior longitudinal fasciculus; several tracts in the right hemisphere only, including the internal and external capsule; bilateral superior parietal and frontal white matter. Although the left hemisphere is central for verbal processing, we revealed the important role of the right hemisphere white matter for the verbal WM capacity. Our finding indicates that larger verbal working memory span may originate from additional processing resources of the right hemisphere.

Published
2021
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12. White Matter Integrity in the Right Hemisphere Correlates with the Reading Span

Author

Valentin Sinitsyn, Olga A. Fedorova, Irina S. Lebedeva, Alena Rumshiskaya, Elena Mershina, Yana R. Panikratova, Roza M. Vlasova, Maria A. Fomina, Ekaterina Pechenkova, Liudmila A. Makovskaya, and Daria A. Bazhenova

Subjects
medicine.medical_specialty, Working memory, media_common.quotation_subject, Audiology, Span (engineering), behavioral disciplines and activities, White matter, medicine.anatomical_structure, Reading (process), medicine, anatomy_morphology, Right hemisphere, Psychology, media_common
Abstract

Although working memory (WM) is crucial for intellectual abilities, not much is known about its brain underpinnings, especially the structural connectivity. We used diffusion tensor imaging (DTI) to look across the whole brain for the white matter integrity correlates of the individual differences in the reading span (verbal WM capacity during reading) in healthy adults. Right-handed healthy native Russian speakers (N = 47) underwent DTI on a 3T Philips Ingenia scanner. Verbal WM was assessed with the Daneman-Carpenter reading span test (Russian version). Fractional anisotropy maps from each participant were entered into the group tract-based spatial statistics analysis with the reading span as a covariate; the results were TFCE-corrected. Reading span positively correlated with the white matter integrity in several sites of the right hemisphere: the body and the splenium of corpus callosum; the posterior limb of internal capsule; posterior corona radiata; and superior parietal white matter. Although the left hemisphere is central for verbal processing, we revealed the important role of the right hemisphere white matter for the verbal WM capacity. Our finding indicates that larger verbal working memory span may originate from additional processing resources of the right hemisphere.

Published
2021

13. Functional Brain Connectivity in Speech Disfluency Perception

Author

Nikolay A. Korotaev, Valentin Sinitsyn, Irina S. Lebedeva, Katerina V. Smirnova, Alena Rumshiskaya, Olga V. Fedorova, Yana R. Panikratova, Ekaterina Pechenkova, and Roza M. Vlasova

Subjects
Comprehension, Neuroimaging, Speech disfluency, Corpus linguistics, Perception, media_common.quotation_subject, Perspective (graphical), Posterior parietal cortex, Sensory system, Psychology, Cognitive psychology, media_common
Abstract

Speech disfluencies are a notable component of natural discourse production and comprehension that may play a role of signals that control the flow of communication. Using task-based functional MRI, we examined how brain functional connectivity changes when listeners encounter a disfluency. Participants listened to fragments of audio recordings of natural discourse from the RUPEX corpus while looking at the speaker’s photograph and being engaged in a referential task locking their attention on the narration. Using the intrinsic connectivity contrast, as a measure for a data-driven approach, we found modified connectivity in different portions of the left parietal cortex in response to isolated phoneme lengthenings or clustered disfluencies including phoneme lengthenings. Given the important role of the parietal cortex in attention and sensory integration, our results indicate promising targets for further studies of functional connectivity and neural networks in speech disfluency perception. From a broader perspective our study demonstrates how corpus linguistics and neuroimaging may join their efforts for interdisciplinary research of the brain and language.

Published
2021
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14. Context-dependency in the Cognitive Bias Task and Resting-state Functional Connectivity of the Dorsolateral Prefrontal Cortex

Author

Roza M. Vlasova, Yana R. Panikratova, Valentin Sinitsyn, O. Dobrushina, Tatiana V. Akhutina, Ekaterina Pechenkova, and Alexander Tomyshev

Subjects
Adult, Male, Decision Making, Prefrontal Cortex, Context (language use), Neuropsychological Tests, Functional Laterality, Task (project management), Attentional Bias, Executive Function, Young Adult, Cognition, Neuroimaging, Neural Pathways, medicine, Humans, Aged, Brain Mapping, Sex Characteristics, Resting state fMRI, General Neuroscience, Functional connectivity, Middle Aged, Executive functions, Magnetic Resonance Imaging, Cognitive bias, Dorsolateral prefrontal cortex, Psychiatry and Mental health, Clinical Psychology, medicine.anatomical_structure, Memory, Short-Term, Female, Neurology (clinical), Psychology, Neuroscience
Abstract

Objective:Goldberg, the author of the “novelty-routinization” framework, suggested a new pair of cognitive styles for agent-centered decision-making (DM), context-dependency/independency (CD/CI), quantified by the Cognitive Bias Task (CBT) and supposedly reflecting functional brain hemispheric specialization. To date, there are only three lesion and activation neuroimaging studies on the CBT with the largest sample of 12 participants. The present study is the first to analyze whole-brain functional connectivity (FC) of the dorsolateral prefrontal cortex (DLPFC), involved in contextual agent-centered DM.Method:We compared whole-brain resting-state FC of the DLPFC between CD (n = 24) and CI (n = 22) healthy participants. Additionally, we investigated associations between CD/CI and different aspects of executive functions.Results:CD participants had stronger positive FC of the DLPFC with motor and visual regions; FC of the left DLPFC was more extensive. CI participants had stronger positive FC of the left DLPFC with right prefrontal and parietal-occipital areas and of the left and right DLPFC with ipsilateral cerebellar hemispheres. No sex differences were found. CD/CI had nonlinear associations with working memory.Conclusions:The findings suggest that CD and CI are associated with different patterns of DLPFC FC. While CD is associated with FC between DLPFC and areas presumably involved in storing representations of current situation, CI is more likely to be associated with FC between DLPFC and right-lateralized associative regions, probably involved in the inhibition of the CD response and switching from processing of incoming perceptual information to creation of original response strategies.

Published
2020

15. The two eyes of the blind mind: object vs. spatial aphantasia?

Author

Ekaterina Pechenkova and Olesya Blazhenkova

Subjects
Spatial imagery, BF Psychology, Galton's problem, Vividness of Visual Imagery Questionnaire, Neuropsychology, Psychology, Object (philosophy), Aphantasia, Visualization, Cognitive psychology, Mental image
Abstract

Individual variability in imagery experiences has long attracted the interest of philosophers, educators, and psychologists. Since Aristotle’s time, it was assumed that imagery is a universal ability, so everyone possesses it. Galton first measured the vividness of subjective imagery experiences, and discovered that some individuals reported zero imagination. Recent research has coined the term “aphantasia” — an inability to form mental imagery, or having a “blind mind’s eye” (Zeman, Dewar, & Della Sala, 2015). We argue that there may be more than one type of aphantasia. Substantial behavioral and neuropsychological evidence has demonstrated a distinction between visual-object imagery (mental visualization of pictorial properties such as color, shape, brightness, and texture) and visual-spatial imagery (mental visualization of spatial locations, relations, and transformations). Notably, visual imagery is not a unitary ability, so individuals who excel in object imagery do not necessarily excel in spatial imagery, and vice versa. Here we argue that the commonly described “aphantasia” is not a general imagery deficit but rather a visual-object deficit of imagery (as aphantasic people are often identified by low scores on the Vividness of Visual Imagery Questionnaire, which assesses object imagery only). We hypothesize that “spatial aphantasia” (the inability to imagine spatial properties and relationships) can be a separate type of imagery deficit. Individuals with spatial aphantasia may not necessarily have a deficit in object imagery. We discuss future research directions examining how spatial aphantasia may manifest behaviorally and neurologically, and how object and spatial aphantasia may be related

Published
2019
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16. Macro- and microstructural changes in cosmonauts' brains after long-duration spaceflight

Author

Steven Jillings, Steven Laureys, Inessa Kozlovskaya, Angelique Van Ombergen, Peter zu Eulenburg, Olga V. Man’ko, Ben Jeurissen, Sergey Danilichev, Valentin Sinitsyn, Jan Sijbers, Alena Rumshiskaya, Floris L. Wuyts, Ekaterina Pechenkova, Inna Nosikova, Paul M. Parizel, Liudmila Litvinova, Elena Tomilovskaya, I. V. Rukavishnikov, Victor Petrovichev, and Stefan Sunaert

Subjects
Cerebellum, Biology, Spaceflight, computer.software_genre, law.invention, White matter, MOVEMENT, 03 medical and health sciences, 0302 clinical medicine, Cerebrospinal fluid, law, Voxel, Neuroplasticity, medicine, LOCOMOTOR FUNCTION, skin and connective tissue diseases, Short duration, Research Articles, 030304 developmental biology, 0303 health sciences, Science & Technology, Multidisciplinary, STRIATUM, medicine.diagnostic_test, musculoskeletal, neural, and ocular physiology, SciAdv r-articles, Magnetic resonance imaging, Multidisciplinary Sciences, medicine.anatomical_structure, TISSUE, DENSITY, Science & Technology - Other Topics, sense organs, Space Sciences, computer, Neuroscience, Engineering sciences. Technology, 030217 neurology & neurosurgery, Research Article
Abstract

Spaceflight causes persisting sensorimotor neuroplasticity and reversible gray matter morphological changes., Long-duration spaceflight causes widespread physiological changes, although its effect on brain structure remains poorly understood. In this work, we acquired diffusion magnetic resonance imaging to investigate alterations of white matter (WM), gray matter (GM), and cerebrospinal fluid (CSF) compositions in each voxel, before, shortly after, and 7 months after long-duration spaceflight. We found increased WM in the cerebellum after spaceflight, providing the first clear evidence of sensorimotor neuroplasticity. At the region of interest level, this increase persisted 7 months after return to Earth. We also observe a widespread redistribution of CSF, with concomitant changes in the voxel fractions of adjacent GM. We show that these GM changes are the result of morphological changes rather than net tissue loss, which remained unclear from previous studies. Our study provides evidence of spaceflight-induced neuroplasticity to adapt motor strategies in space and evidence of fluid shift–induced mechanical changes in the brain.

Published
2019

17. Functional connectivity of the dorsolateral prefrontal cortex contributes to different components of executive functions

Author

Roza M. Vlasova, Valentin Sinitsyn, A. A. Korneev, Yana R. Panikratova, Tatiana V. Akhutina, and Ekaterina Pechenkova

Subjects
Adult, Male, Prefrontal Cortex, Neuropsychological Tests, behavioral disciplines and activities, 050105 experimental psychology, 03 medical and health sciences, Executive Function, Young Adult, 0302 clinical medicine, Physiology (medical), mental disorders, medicine, Connectome, Humans, 0501 psychology and cognitive sciences, Neuropsychological assessment, Cerebral Cortex, medicine.diagnostic_test, Resting state fMRI, General Neuroscience, Functional connectivity, 05 social sciences, Default Mode Network, Mean age, Middle Aged, Executive functions, Magnetic Resonance Imaging, Dorsolateral prefrontal cortex, Inhibition, Psychological, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, nervous system, Correlation analysis, Female, Nerve Net, Psychology, Neuroscience, psychological phenomena and processes, 030217 neurology & neurosurgery
Abstract

Objective The dorsolateral prefrontal cortex (DLPFC) orchestrates other brain regions and plays a vital role for “the most uniquely human” executive functions (EFs), which are divided into distinct components. Components of EFs have been localized to different brain regions and at the same time the DLPFC was found to be involved in a majority of EF components. The possible mechanism of the DLPFC's contribution to EF components might be found in DLPFC functional connectivity (FC): this FC of the DLPFC with other brain regions contributes to different EF components. Method To explore the DLPFC FC contribution to different EFs, we used an integrative approach involving analysis of fMRI and neuropsychological assessment of EFs. Fifty healthy adults (27 females and 23 males, mean age 34.5 ± 16.6 years) underwent neuropsychological assessment of EFs as well as task-based and resting-state fMRI. Task-based fMRI was applied as a functional localizer for individually defined DLPFC ROIs that were further used for the FC seed-based correlation analysis of the resting-state data. Then we looked for associations between individual scores of different EF components and the whole-brain resting-state FC of the DLPFC. Results Resting-state correlates of DLPFC FC were revealed for three out of the seven EF components derived from an extensive neuropsychological assessment: inhibition, switching, and the verbal EF component. Conclusions Our study is the first to reveal the contribution of the DLPFC FC to several distinct EF components. The obtained results give insight into the brain mechanisms of EFs.

Published
2019

18. Cortical functional connectivity during the retention of affective pictures in working memory: EEG-source theta coherence analysis

Author

A. V. Kurgansky, Ekaterina Pechenkova, R. I. Rozovskaya, and R. I. Machinskaya

Subjects
medicine.medical_specialty, medicine.diagnostic_test, Physiology, Working memory, 05 social sciences, Posterior parietal cortex, Electroencephalography, Stimulus (physiology), Audiology, 050105 experimental psychology, Lateralization of brain function, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Physiology (medical), Posterior cingulate, medicine, 0501 psychology and cognitive sciences, Retention period, Psychology, 030217 neurology & neurosurgery, Anterior cingulate cortex, Cognitive psychology
Abstract

The pattern of cortical functional connectivity in the source space was studied in a group of righthanded adult participants (N = 44:17 women, 27 men, aged M = 29.61 ± 6.45 years). Participants retained the traces of realistic pictures of positive, neutral, and negative emotional valences in their working memory (WM) while performing the same-different task. Within the framework of this task, participants had to compare the initial picture against a target picture that followed after a specified delay. The coherence (COH) between the pairs of cortical sources chosen in advance according to fMRI data was estimated in the theta frequency range for the period preceding the initial stimulus, during the retention of the initial stimulus in WM, and during the rest interval between successive trials. Two distinct sets of functional links were found. The links of the first type that presumably reflected the involvement of sustained attention were between the dorsal anterior cingulate cortex, the prefrontal areas, and temporal areas of the right hemispheres. When compared to the rest period, the links of this type showed strengthening not only during the retention period but also during the period preceding the initial picture. The links of the second type presumably reflected a progressive neocortex-to-hippocampus functional integration with increasing memory load and strengthened exclusively during the retention period. These links were between the parietal, temporal and prefrontal cortices in the lateral surface of both hemispheres with the additional inclusion of the posterior cingulate cortex and the medial parietal cortex in the left hemisphere. The impact of emotional valence on the strength and topography of the functional links of the second type was found. In the left hemisphere, the increase of strength of cortical interaction was more pronounced for the pictures of positive valence than for the pictures of either neutral or negative valences. When compared to the pictures of neutral valence, the retention of pictorial information of both positive and negative valence showed some extraneous integration of the cortical areas for the theta rhythm. This finding might be related to the additional load exerted by emotionally colored pictures onto the mechanisms of short-time retention of visual information.

Published
2016
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19. Brain Tissue-Volume Changes in Cosmonauts

Author

Stefan Sunaert, Inna Nosikova, Jan Sijbers, Paul M. Parizel, Ben Jeurissen, Peter zu Eulenburg, R. Maxine Rühl, Liudmila Litvinova, Inessa Kozlovskaya, Steven Jillings, Jitka Annen, Elena Tomilovskaya, Floris L. Wuyts, Steven Laureys, Alena Rumshiskaya, Angelique Van Ombergen, Ekaterina Pechenkova, and Valentin Sinitsyn

Subjects
0301 basic medicine, Brain tissue, Cortical volume, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, skin and connective tissue diseases, Cerebrospinal Fluid, medicine.diagnostic_test, business.industry, Physics, Brain, Magnetic resonance imaging, General Medicine, Organ Size, Anatomy, Space Flight, Magnetic Resonance Imaging, 030104 developmental biology, Brain size, Astronauts, Human medicine, sense organs, business, 030217 neurology & neurosurgery, Volume (compression)
Abstract

Changes in Brain Volume in Cosmonauts Ten cosmonauts, who spent an average of 189 days in space, had changes in brain volumes — mainly decreased cortical volume and increased CSF subarachnoid and v...

Published
2018

20. [Cortical functional connectivity during retention of affective pictures in working memory: EEG-source theta coherence analysis]

Author

Ri, Machinskaya, Ri, Rozovskaya, Av, Kurgansky, and Ekaterina Pechenkova

Subjects
Adult, Male, Rest, Emotions, Prefrontal Cortex, Retention, Psychology, Gyrus Cinguli, Magnetic Resonance Imaging, Memory, Short-Term, Parietal Lobe, Humans, Attention, Female, Theta Rhythm
Abstract

A pattern of cortical functional connectivity in the source space was studied in a group of right-handed adult participants (N = 44:17 women, 27 men, aged M = 29.61 ± 6.45 years) who retained in their working memory (WM) traces of realistic pictures of positive, neutral, and negative emotional valence while in their working memory (WM) while performing same different task in which participants had to compare an etalon picture against a target picture that followed after a specified delay. A coherence (COH) between pairs of cortical sources chosen in advance according to fMRI data was estimated in the theta frequency range for the period of time preceding the etalon stimulus, distinct sets of functional links are found. The links of the first type that presumably reflect the involvement of sustained attention were between the dorsal anterior cingulate cortex, the prefrontal areas, and temporal areas of the right hemispheres. When compared to the rest period, links of this type showed strengthening not only during the retention period but also during the period preceding the etalon picture. The links of the second type presumably reflecting a progressive neocortex-to-hippocampus functional integration with increasing memory load and strengthened exclusively during retention period. Those links were between parietal, temporal and prefrontal cortices in the lateral surface of both hemispheres with the additional inclusion of the posterior cingulate cortex and the medial parietal cortex in the left hemisphere. An impact of emotional valence onto the strength and topography of the functional links of the second type was found. In the left hemisphere, an increase in the strength of cortical interaction was more pronounced for pictures of positive valence than for pictures of either neutral or negative valences. When compared to the pictures of neutral valence, the retention of pictorial information of both positive and negative valence showed some extraneous integration of the cortical areas for the theta rhythm. This finding might be related to the additional load exerted by emotionally colored pictures onto the mechanisms of short-time retention of visual information.

Published
2018

21. The influence of emotional coloring of images on visual working memory in adults and adolescents

Author

Ekaterina Pechenkova, R. I. Rozovskaya, and R. I. Machinskaya

Subjects
Visual perception, Physiology, Working memory, 05 social sciences, Emotional stimuli, Human physiology, Emotional valence, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), 0501 psychology and cognitive sciences, Valence (psychology), Psychology, psychological phenomena and processes, 030217 neurology & neurosurgery, Cognitive psychology
Abstract

The influence of emotional valence (positive, negative or neutral) of realistic images on the functioning of visual working memory (WM) was studied in adults (n = 40) and adolescents (n = 17). In adults, emotional coloring of stimuli increased the reaction time and decreased the accuracy of WM task performance. This effect was more pronounced for negative than for positive valence: the minimal reaction time was observed for the neutral stimuli, the maximal for the negative emotional stimuli, and significant differences in the reaction time were found between all three types of images. The accuracy was lower for negative stimuli than for either positive or neutral stimuli. Compared with adults, adolescents of age 14–16 showed lower indices of the performance accuracy and rate with neutral and positive stimuli in the WM task. In this group, no significant influence of the emotional valence of visual stimuli on the accuracy of WM task performance was found.

Published
2016
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22. A disembodied man: A case of somatopsychic depersonalization in schizotypal disorder

Author

Marc Wittmann, Yuliya Zaytseva, Caroline Szymanski, Rosa Vlasova, Ekaterina Pechenkova, and Evgeny Gutyrchik

Subjects
media_common.quotation_subject, Neuropsychology, Empathy, Tactile perception, medicine.disease, Schizotypal personality disorder, Feeling, Schizophrenia, Depersonalization, medicine, medicine.symptom, Psychology, Neurocognitive, General Psychology, Cognitive psychology, media_common
Abstract

In the general concept of self-disturbances in schizophrenia and schizophrenia spectrum disorders, somatopsychic depersonalization (SPD) occupies a special place as it constitutes a syndrome that comprises feelings of detachment from one's own body and mental processes. However, apart from clinical descriptions, to date the pathophysiology of SPD is not fully understood due to the rareness of the syndrome and a lack of experimental studies. In a case study of one patient with schizotypal disorder, we applied a multimodal approach to understanding the SPD phenomena. The patient's clinical profile was identified as disruption of implicit bodily function, accompanied by depressive symptoms. On a neuropsychological level, the patient exhibited impairment in executive functioning, intact tactile perception and kinesthetic praxis. Behavioral tests revealed an altered sense of time but unimpaired self-agency. Furthermore, the patient exhibited a lack of empathy and he had autistic traits, although with a sufficient ability to verbalize his feelings. On the neurobiological level using an active and passive touch paradigm during functional magnetic resonance imaging (fMRI), we found a hyperconnectivity of the default-mode network and salience network and a hypoconnectivity of the central executive brain networks in the performance of the touch task as well as intact perceptual touch processing emerging from the direct comparisons of the touch conditions. Our data provide evidence for the important role of altered large-brain network functioning in SPD that corresponds to the specific behavioral and neurocognitive phenomena.

Published
2015
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24. A disembodied man: A case of somatopsychic depersonalization in schizotypal disorder

Author

Yuliya, Zaytseva, Caroline, Szymanski, Evgeny, Gutyrchik, Ekaterina, Pechenkova, Rosa, Vlasova, and Marc, Wittmann

Subjects
Adult, Male, Schizotypal Personality Disorder, Depersonalization, Brain, Humans, Neuropsychological Tests, Somatoform Disorders, Magnetic Resonance Imaging, Psychomotor Performance
Abstract

In the general concept of self-disturbances in schizophrenia and schizophrenia spectrum disorders, somatopsychic depersonalization (SPD) occupies a special place as it constitutes a syndrome that comprises feelings of detachment from one's own body and mental processes. However, apart from clinical descriptions, to date the pathophysiology of SPD is not fully understood due to the rareness of the syndrome and a lack of experimental studies. In a case study of one patient with schizotypal disorder, we applied a multimodal approach to understanding the SPD phenomena. The patient's clinical profile was identified as disruption of implicit bodily function, accompanied by depressive symptoms. On a neuropsychological level, the patient exhibited impairment in executive functioning, intact tactile perception and kinesthetic praxis. Behavioral tests revealed an altered sense of time but unimpaired self-agency. Furthermore, the patient exhibited a lack of empathy and he had autistic traits, although with a sufficient ability to verbalize his feelings. On the neurobiological level using an active and passive touch paradigm during functional magnetic resonance imaging (fMRI), we found a hyperconnectivity of the default-mode network and salience network and a hypoconnectivity of the central executive brain networks in the performance of the touch task as well as intact perceptual touch processing emerging from the direct comparisons of the touch conditions. Our data provide evidence for the important role of altered large-brain network functioning in SPD that corresponds to the specific behavioral and neurocognitive phenomena.

Published
2015

25. Cortical reorganization in an astronaut's brain after long-duration spaceflight

Author

Paul Van de Heyning, Jan Sijbers, Floris L. Wuyts, Inessa Kozlovskaya, Alena Rumshiskaya, Ekaterina Pechenkova, Paul M. Parizel, Elena Tomilovskaya, Valentin Sinitsyn, Enrico Amico, I. V. Rukavishnikov, Angelique Van Ombergen, Steven Laureys, Ben Jeurissen, Liudmila Litvinova, Carol Di Perri, Athena Demertzi, and Stefan Sunaert

Subjects
0301 basic medicine, Adult, Male, medicine.medical_specialty, Histology, Cortical reorganization, Neuroscience(all), Short Communication, Poison control, Biology, Spaceflight, law.invention, 03 medical and health sciences, 0302 clinical medicine, Motor imagery, Deconditioning, law, Cerebellum, Motor behavior, Neural Pathways, medicine, Humans, Default mode network, Functional MRI, Neuronal Plasticity, Weightlessness, Physics, General Neuroscience, Motor Cortex, Brain, Space Flight, Vestibular cortex, 030104 developmental biology, medicine.anatomical_structure, Physical therapy, Imagination, Astronauts, Human medicine, Microgravity, Anatomy, Neuroscience, 030217 neurology & neurosurgery, Motor cortex
Abstract

To date, hampered physiological function after exposure to microgravity has been primarily attributed to deprived peripheral neuro-sensory systems. For the first time, this study elucidates alterations in human brain function after long-duration spaceflight. More specifically, we found significant differences in resting-state functional connectivity between motor cortex and cerebellum, as well as changes within the default mode network. In addition, the cosmonaut showed changes in the supplementary motor areas during a motor imagery task. These results highlight the underlying neural basis for the observed physiological deconditioning due to spaceflight and are relevant for future interplanetary missions and vestibular patients. Electronic supplementary material The online version of this article (doi:10.1007/s00429-015-1054-3) contains supplementary material, which is available to authorized users.

Published
2015

26. fMRI correlates of the word frequency Effect in Russian

Author

Valentin Sinitsyn, Ekaterina Pechenkova, and Roza M. Vlasova

Subjects
Fusiform gyrus, Supplementary motor area, Inferior frontal gyrus, jel:Z19, behavioral disciplines and activities, Task (project management), Emotional lateralization, Word lists by frequency, medicine.anatomical_structure, nervous system, Noun, medicine, Psychology, word frequency effect, object naming, fMRI (functional magnetic resonance imaging), Russian language, Word (group theory), psychological phenomena and processes, Cognitive psychology
Abstract

The results of the previous fMRI study of the word frequency effect in Russian (Malutina et al., 2012) contradict the results obtained from fMRI studies of English speakers. Two reasons for such inconsistency may be either task specificity (tasks involving verbs vs. tasks involving nouns) or cross-linguistic differences. This study examines fMRI correlates of word frequency in Russian using an object naming task. We found that several brain regions were more activated by the retrieval of low frequency rather than high frequency words: the fusiform gyrus, the inferior occipital gyrus, the middle occipital gyrus, the supplementary motor area, the inferior frontal gyrus bilaterally, the left thalamus, the left insula, and the right cingulate gyrus. At the same time we revealed no brain areas responding more to high frequency words. These results are consistent with the previous fMRI studies in English and also indicate the possible role of task specificity as well as possible interactions of task and word frequency in brain mechanisms for word retrieval.

Published
2013

27. Erratum to: Cortical reorganization in an astronaut’s brain after long-duration spaceflight

Author

Liudmila Litvinova, Elena Tomilovskaya, Steven Laureys, Stefan Sunaert, Angelique Van Ombergen, Paul M. Parizel, Athena Demertzi, Paul Van de Heyning, Inessa Kozlovskaya, Jan Sijbers, Ekaterina Pechenkova, I. V. Rukavishnikov, Carol Di Perri, Floris L. Wuyts, Enrico Amico, Alena Rumshiskaya, Valentin Sinitsyn, and Ben Jeurissen

Subjects
medicine.medical_specialty, Histology, Neurology, business.industry, General Neuroscience, Published Erratum, Spaceflight, law.invention, law, medicine, Anatomy, Erratum, business, Short duration, Neuroscience
Published
2016

33. Measuring accommodation of visual attention: Titchener's 'attention-wave' reconsidered?

Author

Ekaterina Pechenkova

Subjects
Ophthalmology, Focus (computing), business.industry, media_common.quotation_subject, Event (relativity), Visual attention, Consciousness, business, Psychology, Accommodation, Sensory Systems, media_common, Cognitive psychology
Abstract

It takes less time to focus one's attention on an certain event if one prepares to pay attention to this event. Such preparation or «accommodation» was first listed among the properties of attention by Titchener (1910). In his terms, accommodation of attention towards an event can be understood as coherence of this event with the current contents of consciousness that results in faster rising of an impression onto the crest of the «attention-wave». Accommodation takes time: about one second and a half for a single event according to Titchener's data. Decreased performance at shorter preparation intervals is nowadays discussed in terms of preparation costs (e.g., Ariga, Yokosawa, 2005). Our method is aimed at the investigation of both time-course and individual differences in the accommodation of attention. EKATERINA PECHENKOVA

Published
2010
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