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4. Bridging cognition and action: executive functioning mediates the relationship between white matter fiber density and complex motor abilities in older adults.

Author

Seer, C, Adab, HZ, Sidlauskaite, J, Dhollander, T, Chalavi, S, Gooijers, J, Sunaert, S, Swinnen, SP, Seer, C, Adab, HZ, Sidlauskaite, J, Dhollander, T, Chalavi, S, Gooijers, J, Sunaert, S, and Swinnen, SP

Abstract

Aging may be associated with motor decline that is attributed to deteriorating white matter microstructure of the corpus callosum (CC), among other brain-related factors. Similar to motor functioning, executive functioning (EF) typically declines during aging, with age-associated changes in EF likewise being linked to altered white matter connectivity in the CC. Given that both motor and executive functions rely on white matter connectivity via the CC, and that bimanual control is thought to rely on EF, the question arises whether EF can at least party account for the proposed link between CC-connectivity and motor control in older adults. To address this, diffusion magnetic resonance imaging data were obtained from 84 older adults. A fiber-specific approach was used to obtain fiber density (FD), fiber cross-section (FC), and a combination of both metrics in eight transcallosal white matter tracts. Motor control was assessed using a bimanual coordination task. EF was determined by a domain-general latent EF-factor extracted from multiple EF tasks, based on a comprehensive test battery. FD of transcallosal prefrontal fibers was associated with cognitive and motor performance. EF partly accounted for the relationship between FD of prefrontal transcallosal pathways and motor control. Our results underscore the multidimensional interrelations between callosal white matter connectivity (especially in prefrontal brain regions), EF across multiple domains, and motor control in the older population. They also highlight the importance of considering EF when investigating brain-motor behavior associations in older adults.

Published
2022

9. Different neural substrates for precision stepping and fast online step adjustments in youth

Author

Corporaal, S.H., Bruijn, S.M., Hoogkamer, W., Chalavi, S., Boisgontier, M.P., Duysens, J., Swinnen, S.P., Gooijers, J., Corporaal, S.H., Bruijn, S.M., Hoogkamer, W., Chalavi, S., Boisgontier, M.P., Duysens, J., Swinnen, S.P., and Gooijers, J.

Abstract

Contains fulltext : 193602.pdf (publisher's version ) (Open Access), Humans can navigate through challenging environments (e.g., cluttered or uneven terrains) by modifying their preferred gait pattern (e.g., step length, step width, or speed). Growing behavioral and neuroimaging evidence suggests that the ability to modify preferred step patterns requires the recruitment of cognitive resources. In children, it is argued that prolonged development of complex gait is related to the ongoing development of involved brain regions, but this has not been directly investigated yet. Here, we aimed to elucidate the relationship between structural brain properties and complex gait in youth aged 9-18 years. We used volumetric analyses of cortical grey matter (GM) and whole-brain voxelwise statistical analyses of white matter (WM), and utilized a treadmill-based precision stepping task to investigate complex gait. Moreover, precision stepping was performed on step targets which were either unperturbed or perturbed (i.e., unexpectedly shifting to a new location). Our main findings revealed that larger unperturbed precision step error was associated with decreased WM microstructural organization of tracts that are particularly associated with attentional and visual processing functions. These results strengthen the hypothesis that precision stepping on unperturbed step targets is driven by cortical processes. In contrast, no significant correlations were found between perturbed precision stepping and cortical structures, indicating that other (neural) mechanisms may be more important for this type of stepping.

Published
2018

11. Regional Gray Matter Volume Loss Is Associated with Gait Impairments in Young Brain-Injured Individuals

Author

Drijkoningen, D., Chalavi, S., Sunaert, S., Duysens, J., Swinnen, S.P., Caeyenberghs, K., Drijkoningen, D., Chalavi, S., Sunaert, S., Duysens, J., Swinnen, S.P., and Caeyenberghs, K.

Abstract

Contains fulltext : 173220.pdf (publisher's version ) (Closed access), Traumatic brain injury (TBI) often leads to impairments in gait performance. However, the underlying neurostructural pathology of these gait deficits is poorly understood. We aimed to investigate regional gray matter (GM) volume in young moderate-to-severe TBI participants (n = 19; age 13 years 11 months +/-3 years 1 month), compared with typically developing (TD) participants (n = 30; 14 years 10 months +/-2 years 2 months), and assess whether reduced volume was related to impaired gait performance in TBI participants. Cortical and subcortical GM structures involved in the neural control of gait were selected as regions of interest (ROIs) and their volume was extracted using Freesurfer. Moreover, established spatiotemporal markers of gait impairments in TBI participants, including step length asymmetry, step length variability, and double support time, were obtained using an electronic walkway. Compared with TD participants, TBI participants showed increased double support time, step length asymmetry, and step length variability, suggesting a reduced gait control. Secondly, in TBI participants, reduced volumes were demonstrated in overall subcortical GM and individual subcortical ROIs, including the hippocampus, cerebellar cortex, putamen, and thalamus. Moreover, in the TBI group, volume losses in subcortical ROIs were highly inter-correlated, indicating that atrophy tends to occur in combined subcortical structures. Finally, it was demonstrated, for the first time, that gait abnormalities in TBI subjects were associated with reduced volume in specific GM structures, including the hippocampus, thalamus, and the cerebellar, superior frontal, paracentral, posterior cingulate, and superior parietal cortices. The present study is an important first step in the understanding of the neurostructural pathology underlying impaired gait in TBI patients.

Published
2017

16. The traumatized brain: gray and white matter morphology in dissociative identity disorder and posttraumatic stress disorder

Author

Chalavi, S., Aleman, A., Veltman, D.J., Reinders, A.A.T.S, Neuroscience Campus Amsterdam - Brain Mechanisms in Health & Disease, Aleman, Andre, Veltman, D. J., Veltman, Dirk, and NCA - Brain mechanisms in health and disease

Subjects
Dissociatieve identiteitsstoornis, Trauma's (psychologie), Corpus $striatum, Posttraumatische $stressstoornis, Proefschriften (vorm), Morfologie (biologie), Hippocampus, Magnetic Resonance Imaging, psychiatrie, psychopathologie
Abstract

Ondanks de inclusie van dissociatieve identiteitsstoornis (DIS) in de DSM-III tot en met DSM-5, is er een voortdurende discussie over de diagnostische validiteit, etiologie en de theoretische conceptualisering van de stoornis. Dit kan gerelateerd zijn aan het feit dat empirisch onderzoek naar de neurobiologische correlaten van dissociatieve identiteitsstoornis schaars is. Dit proefschrift is dan ook gericht op het leveren van objectieve neurowetenschappelijke gegevens aan de hand van structurele beeldvorming van de hersenen. Hiertoe werd grijze en witte stof van de hersenen onderzocht bij patiënten met dissociatieve identiteitsstoornis ten opzichte van patiënten met posttraumatische stressstoornis en gezonde controles. Gevonden werd dat zowel dissociatieve identiteitsstoornis als posttraumatische stress-stoornis geassocieerd zijn met grijze stof afwijkingen van de frontale, temporale en insulaire cortex en de hippocampus. Bovendien werd een lagere witte stof integriteit gevonden bij een aantal belangrijke bundels van vezels die betrokken zijn bij de regulatie van emoties. Interessant is dat de hippocampus afwijkingen gecorreleerd blijken te zijn met jeugdtrauma. We vonden eveneens een kleiner volume in de inferieure pariëtale cortex en een groter dorsaal striatum bij patiënten met dissociatieve identiteitsstoornis in vergelijking met patiënten met posttraumatische stressstoornis. Deze afwijkingen bleken te correleren met symptomen van dissociatie en depersonalisatie, een bevinding die op betrokkenheid van deze regio's bij de symptomatologie van DID kan wijzen. De bevindingen in dit proefschrift leveren hoofdzakelijk objectieve empirische steun ten gunste van een trauma-gerelateerde etiologie voor DIS.

Published
2013

17. Micelle-mediated extraction and cloud point pre-concentration for the spectrophotometric determination of phenol in water samples

Author

Reza Zarei, A, Gholamian, F, and Chalavi, S

Subjects
water samples, Pre-concentration, phenol, spectrophotometry, cloud point extraction
Abstract

In this paper, a cloud point extraction method for the determination of trace amounts of phenol by spectrophotometry is described. The method is based on the colour reaction of phenol with diazotized p-nitroanilinean alkaline media and the cloud point extraction of azo dye product using of nonionic surfactant Triton X-114. The effects of reaction and extraction parameters were studied and optimum parameters were established. The calibration graph was linear in the range of 2.0–400 ng mL–1 of phenol. Detection limit based on three times the standard deviation of the blank (3Sb) was 1.0 ng mL–1 and the relative standard deviation (RSD) for 50 ng mL–1 of phenol was 1.73 % (n=10). The proposed method was applied for the determination of phenolin water samples.Keywords: Pre-concentration, cloud point extraction, phenol, spectrophotometry, water samples

Published
2011

21. Quantitative and qualitative assessment of structural magnetic resonance imaging data in a two-center study

Author

Chalavi Sima, Simmons Andrew, Dijkstra Hildebrand, Barker Gareth J, and Reinders AAT Simone

Subjects
Multi-center, Structural MRI, Freesurfer, SPM, Voxel based morphometry, Cortical thickness, Subcortical volumes, Reproducibility, Test-retest, Variability, Relative mean difference, Medical technology, R855-855.5
Abstract

Abstract Background Multi-center magnetic resonance imaging (MRI) studies present an opportunity to advance research by pooling data. However, brain measurements derived from MR-images are susceptible to differences in MR-sequence parameters. It is therefore necessary to determine whether there is an interaction between the sequence parameters and the effect of interest, and to minimise any such interaction by careful choice of acquisition parameters. As an exemplar of the issues involved in multi-center studies, we present data from a study in which we aimed to optimize a set of volumetric MRI-protocols to define a protocol giving data that are consistent and reproducible across two centers and over time. Methods Optimization was achieved based on data quality and quantitative measures, in our case using FreeSurfer and Voxel Based Morphometry approaches. Our approach consisted of a series of five comparisons. Firstly, a single-center dataset was collected, using a range of candidate pulse-sequences and parameters chosen on the basis of previous literature. Based on initial results, a number of minor changes were implemented to optimize the pulse-sequences, and a second single-center dataset was collected. FreeSurfer data quality measures were compared between datasets in order to determine the best performing sequence(s), which were taken forward to the next stage of testing. We subsequently acquired short-term and long-term two-center reproducibility data, and quantitative measures were again assessed to determine the protocol with the highest reproducibility across centers. Effects of a scanner software and hardware upgrade on the reproducibility of the protocols at one of the centers were also evaluated. Results Assessing the quality measures from the first two datasets allowed us to define artefact-free protocols, all with high image quality as assessed by FreeSurfer. Comparing the quantitative test and retest measures, we found high within-center reproducibility for all protocols, but lower between-center reproducibility for some protocols than others. The upgrade showed no important effects. Conclusions We were able to determine (for the scanners used in this study) an optimised protocol, which gave the highest within- and between-center reproducibility of those assessed, and give details of this protocol here. More generally, we discuss some of the issues raised by multi-center studies and describe a methodical approach to take towards optimization and standardization, and recommend performing this kind of procedure to other investigators.

Published
2012
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22. Interactions between the aging brain and motor task complexity across the lifespan: balancing brain activity resource demand and supply

Author

P Van Ruitenbeek, T Santos Monteiro, S Chalavi, B R King, K Cuypers, S Sunaert, R Peeters, S P Swinnen, King, Bradley/0000-0002-3010-8755, Van Ruitenbeek, P., Santos Monteiro, T., Chalavi, S., King, B. R., CUYPERS, Koen, Sunaert, S., Peeters , R., Swinnen, S. P., Section Psychopharmacology, and RS: FPN NPPP II

Subjects
sensori-motor control, CRUNCH, Cellular and Molecular Neuroscience, Cognitive Neuroscience, aging, brain activation
Abstract

The Compensation Related Utilization of Neural Circuits Hypothesis (CRUNCH) proposes a framework for understanding task-related brain activity changes as a function of healthy aging and task complexity. Specifically, it affords the following predictions: (i) all adult age groups display more brain activation with increases in task complexity, (ii) older adults show more brain activation compared with younger adults at low task complexity levels, and (iii) disproportionately increase brain activation with increased task complexity, but (iv) show smaller (or no) increases in brain activation at the highest complexity levels. To test these hypotheses, performance on a bimanual tracking task at 4 complexity levels and associated brain activation were assessed in 3 age groups (20-40, 40-60, and 60-80 years, n = 99). All age groups showed decreased tracking accuracy and increased brain activation with increased task complexity, with larger performance decrements and activation increases in the older age groups. Older adults exhibited increased brain activation at a lower complexity level, but not the predicted failure to further increase brain activity at the highest complexity level. We conclude that older adults show more brain activation than younger adults and preserve the capacity to deploy increased neural resources as a function of task demand. This work was supported by the KU Leuven Research Fund (grant number C16/15/070); the Research Foundation Flanders (grant number G089818N); the Excellence of Science (EOS) grant from the Fonds Wetenschappelijk Onderzoek—Vlaanderen (FWO) and the Fonds de la Recherche Scientifique—FNRS under EOS Project No. (grant number EOS 30446199, MEMODYN), and a postdoctoral fellowship from FWO (grant number K174216N for SC). The authors would like to thank René Clerckx for his assistance in programming the task.

Published
2022

23. MRS-assessed brain GABA modulation in response to task performance and learning.

Author

Li H, Rodríguez-Nieto G, Chalavi S, Seer C, Mikkelsen M, Edden RAE, and Swinnen SP

Subjects
Humans, Psychomotor Performance physiology, Task Performance and Analysis, gamma-Aminobutyric Acid metabolism, Learning physiology, Brain metabolism, Brain physiology, Magnetic Resonance Spectroscopy methods
Abstract

Gamma-aminobutyric acid (GABA), the most important inhibitory neurotransmitter in the human brain, has long been considered essential in human behavior in general and learning in particular. GABA concentration can be quantified using magnetic resonance spectroscopy (MRS). Using this technique, numerous studies have reported associations between baseline GABA levels and various human behaviors. However, regional GABA concentration is not fixed and may exhibit rapid modulation as a function of environmental factors. Hence, quantification of GABA levels at several time points during the performance of tasks can provide insights into the dynamics of GABA levels in distinct brain regions. This review reports on findings from studies using repeated measures (n = 41) examining the dynamic modulation of GABA levels in humans in response to various interventions in the perceptual, motor, and cognitive domains to explore associations between GABA modulation and human behavior. GABA levels in a specific brain area may increase or decrease during task performance or as a function of learning, depending on its precise involvement in the process under investigation. Here, we summarize the available evidence and derive two overarching hypotheses regarding the role of GABA modulation in performance and learning. Firstly, training-induced increases in GABA levels appear to be associated with an improved ability to differentiate minor perceptual differences during perceptual learning. This observation gives rise to the 'GABA increase for better neural distinctiveness hypothesis'. Secondly, converging evidence suggests that reducing GABA levels may play a beneficial role in effectively filtering perceptual noise, enhancing motor learning, and improving performance in visuomotor tasks. Additionally, some studies suggest that the reduction of GABA levels is related to better working memory and successful reinforcement learning. These observations inspire the 'GABA decrease to boost learning hypothesis', which states that decreasing neural inhibition through a reduction of GABA in dedicated brain areas facilitates human learning. Additionally, modulation of GABA levels is also observed after short-term physical exercise. Future work should elucidate which specific circumstances induce robust GABA modulation to enhance neuroplasticity and boost performance., (© 2024. The Author(s).)

Published
2024
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24. Inter-identity amnesia in dissociative identity disorder resolved: A behavioural and neurobiological study.

Author

Dimitrova LI, Lawrence AJ, Vissia EM, Chalavi S, Kakouris AF, Veltman DJ, and Reinders AATS

Subjects
Humans, Male, Female, Adult, Young Adult, Reaction Time physiology, Amnesia physiopathology, Dissociative Identity Disorder physiopathology, Magnetic Resonance Imaging
Abstract

Introduction: Dissociative identity disorder (DID) is characterised by, among others, subjectively reported inter-identity amnesia, reflecting compromised information transfer between dissociative identity states. Studies have found conflicting results regarding memory transfer between dissociative identity states. Here, we investigated inter-identity amnesia in individuals with DID using self-relevant, subject specific stimuli, and behavioural and neural measures., Methods: Data of 46 matched participants were included; 14 individuals with DID in a trauma-avoidant state, 16 trauma-avoiding DID simulators, and 16 healthy controls. Reaction times and neural activation patterns related to three types of subject specific words were acquired and statistically analysed, namely non-self-relevant trauma-related words (NSt), self-relevant trauma-related words from a trauma-avoidant identity state (St), and trauma-related words from a trauma-related identity state (XSt)., Results: We found no differences in reaction times between XSt and St words and faster reaction times for XSt over NSt. Reaction times of the diagnosed DID group were the longest. Increased brain activation to XSt words was found in the frontal and parietal regions, while decreased brain activity was found in the anterior cingulate cortex in the diagnosed DID group., Discussion: The current study reproduces and amalgamates previous behavioural reports as well as brain activation patterns. Our finding of increased cognitive control over self-relevant trauma-related knowledge processing has important clinical implications and calls for the redefinition of "inter-identity amnesia" to "inter-identity avoidance"., Competing Interests: Declaration of competing interest None, (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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25. Neural correlates of transfer of learning in motor coordination tasks: role of inhibitory and excitatory neurometabolites.

Author

Rasooli A, Chalavi S, Li H, Seer C, Adab HZ, Mantini D, Sunaert S, Mikkelsen M, Edden RAE, and Swinnen SP

Subjects
Humans, Magnetic Resonance Spectroscopy methods, Learning, gamma-Aminobutyric Acid, Glutamic Acid, Transfer, Psychology, Glutamine
Abstract

We aimed to investigate transfer of learning, whereby previously acquired skills impact new task learning. While it has been debated whether such transfer may yield positive, negative, or no effects on performance, very little is known about the underlying neural mechanisms, especially concerning the role of inhibitory (GABA) and excitatory (Glu) (measured as Glu + glutamine (Glx)) neurometabolites, as measured by magnetic resonance spectroscopy (MRS). Participants practiced a bimanual coordination task across four days. The Experimental group trained a task variant with the right hand moving faster than the left (Task A) for three days and then switched to the opposite variant (Task B) on Day4. The control group trained Task B across four days. MRS data were collected before, during, and after task performance on Day4 in the somatosensory (S1) and visual (MT/V5) cortex. Results showed that both groups improved performance consistently across three days. On Day4, the Experimental group experienced performance decline due to negative task transfer while the control group continuously improved. GABA and Glx concentrations obtained during task performance showed no significant group-level changes. However, individual Glx levels during task performance correlated with better (less negative) transfer performance. These findings provide a first window into the neurochemical mechanisms underlying task transfer., (© 2024. The Author(s).)

Published
2024
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26. Baseline GABA+ levels in areas associated with sensorimotor control predict initial and long-term motor learning progress.

Author

Li H, Chalavi S, Rasooli A, Rodríguez-Nieto G, Seer C, Mikkelsen M, Edden RAE, Sunaert S, Peeters R, Mantini D, and Swinnen SP

Subjects
Humans, Inhibition, Psychological, Motor Skills, gamma-Aminobutyric Acid, Glutamic Acid, Learning physiology
Abstract

Synaptic plasticity relies on the balance between excitation and inhibition in the brain. As the primary inhibitory and excitatory neurotransmitters, gamma-aminobutyric acid (GABA) and glutamate (Glu), play critical roles in synaptic plasticity and learning. However, the role of these neurometabolites in motor learning is still unclear. Furthermore, it remains to be investigated which neurometabolite levels from the regions composing the sensorimotor network predict future learning outcome. Here, we studied the role of baseline neurometabolite levels in four task-related brain areas during different stages of motor skill learning under two different feedback (FB) conditions. Fifty-one healthy participants were trained on a bimanual motor task over 5 days while receiving either concurrent augmented visual FB (CA-VFB group, N = 25) or terminal intrinsic visual FB (TA-VFB group, N = 26) of their performance. Additionally, MRS-measured baseline GABA+ (GABA + macromolecules) and Glx (Glu + glutamine) levels were measured in the primary motor cortex (M1), primary somatosensory cortex (S1), dorsolateral prefrontal cortex (DLPFC), and medial temporal cortex (MT/V5). Behaviorally, our results revealed that the CA-VFB group outperformed the TA-VFB group during task performance in the presence of augmented VFB, while the TA-VFB group outperformed the CA-VFB group in the absence of augmented FB. Moreover, baseline M1 GABA+ levels positively predicted and DLPFC GABA+ levels negatively predicted both initial and long-term motor learning progress in the TA-VFB group. In contrast, baseline S1 GABA+ levels positively predicted initial and long-term motor learning progress in the CA-VFB group. Glx levels did not predict learning progress. Together, these findings suggest that baseline GABA+ levels predict motor learning capability, yet depending on the FB training conditions afforded to the participants., (© 2023 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published
2024
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27. Identity state-dependent self-relevance and emotional intensity ratings of words in dissociative identity disorder: A controlled longitudinal study.

Author

Strouza AI, Lawrence AJ, Vissia EM, Kakouris A, Akan A, Nijenhuis ERS, Draijer N, Chalavi S, and Reinders AATS

Subjects
Humans, Female, Male, Adult, Longitudinal Studies, Young Adult, Stress Disorders, Post-Traumatic psychology, Self Concept, Middle Aged, Dissociative Identity Disorder psychology, Emotions physiology
Abstract

Introduction: Dissociative identity disorder (DID) is characterized by, among others, amnesic episodes and the recurrence of different dissociative identity states. While consistently observed in clinical settings, to our knowledge, no controlled research study has shown the degree to which different identity states report autobiographical knowledge over time. Hence, the current study investigates self-relevance and emotional intensity ratings of words longitudinally., Methods: Data of 46 participants were included: 13 individuals with DID, 11 DID-simulating actors, and a control group of 22 paired individuals. Individuals with DID and DID simulators participated once in the neutral identity state (NIS) and once in the trauma-related dissociative identity state (TIS). The control group paired 11 healthy controls with 11 participants with posttraumatic stress disorder (PTSD) as a NIS-TIS pair. Self-relevance ratings of different word types were collected in a baseline and a follow-up session, on average 6 weeks apart. A mixed ANOVA design was used to assess the effects of group, session, word type, and dissociative identity state., Results: All participants in TIS and individuals with DID in NIS rated self-relevant trauma-related words more negatively. In the NIS, the control group rated self-relevant trauma-related words as less negative, whereas the ratings of simulating actors were intermediate. There was no group-dependent longitudinal effect for intensity ratings., Conclusions: This study was the first to confirm clinical observations that self-relevant and emotional processing are different between individuals with DID and controls, but consistent over time. Actors were unable to perfectly simulate DID. The finding that ratings of self-relevant trauma-related words differ between subgroups as included in the study is in line with clinical observations., (© 2023 The Authors. Brain and Behavior published by Wiley Periodicals LLC.)

Published
2023
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28. Interactions between the aging brain and motor task complexity across the lifespan: balancing brain activity resource demand and supply.

Author

Van Ruitenbeek P, Santos Monteiro T, Chalavi S, King BR, Cuypers K, Sunaert S, Peeters R, and Swinnen SP

Subjects
Magnetic Resonance Imaging, Longevity, Brain physiology
Abstract

The Compensation Related Utilization of Neural Circuits Hypothesis (CRUNCH) proposes a framework for understanding task-related brain activity changes as a function of healthy aging and task complexity. Specifically, it affords the following predictions: (i) all adult age groups display more brain activation with increases in task complexity, (ii) older adults show more brain activation compared with younger adults at low task complexity levels, and (iii) disproportionately increase brain activation with increased task complexity, but (iv) show smaller (or no) increases in brain activation at the highest complexity levels. To test these hypotheses, performance on a bimanual tracking task at 4 complexity levels and associated brain activation were assessed in 3 age groups (20-40, 40-60, and 60-80 years, n = 99). All age groups showed decreased tracking accuracy and increased brain activation with increased task complexity, with larger performance decrements and activation increases in the older age groups. Older adults exhibited increased brain activation at a lower complexity level, but not the predicted failure to further increase brain activity at the highest complexity level. We conclude that older adults show more brain activation than younger adults and preserve the capacity to deploy increased neural resources as a function of task demand., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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29. White matter and neurochemical mechanisms underlying age-related differences in motor processing speed.

Author

Rasooli A, Adab HZ, Van Ruitenbeek P, Weerasekera A, Chalavi S, Cuypers K, Levin O, Dhollander T, Peeters R, Sunaert S, Mantini D, and Swinnen SP

Abstract

Aging is associated with changes in the central nervous system and leads to reduced life quality. Here, we investigated the age-related differences in the CNS underlying motor performance deficits using magnetic resonance spectroscopy and diffusion MRI. MRS measured N-acetyl aspartate (NAA), choline (Cho), and creatine (Cr) concentrations in the sensorimotor and occipital cortex, whereas dMRI quantified apparent fiber density (FD) in the same voxels to evaluate white matter microstructural organization. We found that aging was associated with increased reaction time and reduced FD and NAA concentration in the sensorimotor voxel. Both FD and NAA mediated the association between age and reaction time. The NAA concentration was found to mediate the association between age and FD in the sensorimotor voxel. We propose that the age-related decrease in NAA concentration may result in reduced axonal fiber density in the sensorimotor cortex which may ultimately account for the response slowness of older participants., Competing Interests: The authors have no conflict of interest or competing interests to disclose., (© 2023 The Author(s).)

Published
2023
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31. A neurostructural biomarker of dissociative amnesia: a hippocampal study in dissociative identity disorder.

Author

Dimitrova LI, Dean SL, Schlumpf YR, Vissia EM, Nijenhuis ERS, Chatzi V, Jäncke L, Veltman DJ, Chalavi S, and Reinders AATS

Subjects
Humans, Female, Hippocampus diagnostic imaging, Hippocampus pathology, Magnetic Resonance Imaging methods, Amnesia diagnostic imaging, Amnesia pathology, Biomarkers, Dissociative Identity Disorder pathology
Abstract

Background: Little is known about the neural correlates of dissociative amnesia, a transdiagnostic symptom mostly present in the dissociative disorders and core characteristic of dissociative identity disorder (DID). Given the vital role of the hippocampus in memory, a prime candidate for investigation is whether total and/or subfield hippocampal volume can serve as biological markers of dissociative amnesia., Methods: A total of 75 women, 32 with DID and 43 matched healthy controls (HC), underwent structural magnetic resonance imaging (MRI). Using Freesurfer (version 6.0), volumes were extracted for bilateral global hippocampus, cornu ammonis (CA) 1-4, the granule cell molecular layer of the dentate gyrus (GC-ML-DG), fimbria, hippocampal-amygdaloid transition area (HATA), parasubiculum, presubiculum and subiculum. Analyses of covariance showed volumetric differences between DID and HC. Partial correlations exhibited relationships between the three factors of the dissociative experience scale scores (dissociative amnesia, absorption, depersonalisation/derealisation) and traumatisation measures with hippocampal global and subfield volumes., Results: Hippocampal volumes were found to be smaller in DID as compared with HC in bilateral global hippocampus and bilateral CA1, right CA4, right GC-ML-DG, and left presubiculum. Dissociative amnesia was the only dissociative symptom that correlated uniquely and significantly with reduced bilateral hippocampal CA1 subfield volumes. Regarding traumatisation, only emotional neglect correlated negatively with bilateral global hippocampus, bilateral CA1, CA4 and GC-ML-DG, and right CA3., Conclusion: We propose decreased CA1 volume as a biomarker for dissociative amnesia. We also propose that traumatisation, specifically emotional neglect, is interlinked with dissociative amnesia in having a detrimental effect on hippocampal volume.

Published
2023
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33. Bridging cognition and action: executive functioning mediates the relationship between white matter fiber density and complex motor abilities in older adults.

Author

Seer C, Adab HZ, Sidlauskaite J, Dhollander T, Chalavi S, Gooijers J, Sunaert S, and Swinnen SP

Subjects
Cognition, Corpus Callosum diagnostic imaging, Corpus Callosum pathology, Diffusion Tensor Imaging methods, Executive Function, White Matter diagnostic imaging, White Matter pathology
Abstract

Aging may be associated with motor decline that is attributed to deteriorating white matter microstructure of the corpus callosum (CC), among other brain-related factors. Similar to motor functioning, executive functioning (EF) typically declines during aging, with age-associated changes in EF likewise being linked to altered white matter connectivity in the CC. Given that both motor and executive functions rely on white matter connectivity via the CC, and that bimanual control is thought to rely on EF, the question arises whether EF can at least party account for the proposed link between CC-connectivity and motor control in older adults. To address this, diffusion magnetic resonance imaging data were obtained from 84 older adults. A fiber-specific approach was used to obtain fiber density (FD), fiber cross-section (FC), and a combination of both metrics in eight transcallosal white matter tracts. Motor control was assessed using a bimanual coordination task. EF was determined by a domain-general latent EF-factor extracted from multiple EF tasks, based on a comprehensive test battery. FD of transcallosal prefrontal fibers was associated with cognitive and motor performance. EF partly accounted for the relationship between FD of prefrontal transcallosal pathways and motor control. Our results underscore the multidimensional interrelations between callosal white matter connectivity (especially in prefrontal brain regions), EF across multiple domains, and motor control in the older population. They also highlight the importance of considering EF when investigating brain-motor behavior associations in older adults.

Published
2022
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34. The interaction between endogenous GABA, functional connectivity, and behavioral flexibility is critically altered with advanced age.

Author

Heise KF, Rueda-Delgado L, Chalavi S, King BR, Monteiro TS, Edden RAE, Mantini D, and Swinnen SP

Subjects
Adult, Humans, Longitudinal Studies, Motor Cortex physiology, gamma-Aminobutyric Acid
Abstract

The flexible adjustment of ongoing behavior challenges the nervous system's dynamic control mechanisms and has shown to be specifically susceptible to age-related decline. Previous work links endogenous gamma-aminobutyric acid (GABA) with behavioral efficiency across perceptual and cognitive domains, with potentially the strongest impact on those behaviors that require a high level of dynamic control. Our analysis integrated behavior and modulation of interhemispheric phase-based connectivity during dynamic motor-state transitions with endogenous GABA concentration in adult human volunteers. We provide converging evidence for age-related differences in the preferred state of endogenous GABA concentration for more flexible behavior. We suggest that the increased interhemispheric connectivity observed in the older participants represents a compensatory neural mechanism caused by phase-entrainment in homotopic motor cortices. This mechanism appears to be most relevant in the presence of a less optimal tuning of the inhibitory tone as observed during healthy aging to uphold the required flexibility of behavioral action. Future work needs to validate the relevance of this interplay between neural connectivity and GABAergic inhibition for other domains of flexible human behavior., (© 2022. The Author(s).)

Published
2022
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35. The role of MRS-assessed GABA in human behavioral performance.

Author

Li H, Heise KF, Chalavi S, Puts NAJ, Edden RAE, and Swinnen SP

Subjects
Animals, Cross-Sectional Studies, Humans, Magnetic Resonance Spectroscopy, gamma-Aminobutyric Acid, Brain, Magnetic Resonance Imaging
Abstract

Understanding the neurophysiological mechanisms that drive human behavior has been a long-standing focus of cognitive neuroscience. One well-known neuro-metabolite involved in the creation of optimal behavioral repertoires is GABA, the main inhibitory neurochemical in the human brain. Converging evidence from both animal and human studies indicates that individual variations in GABAergic function are associated with behavioral performance. In humans, one increasingly used in vivo approach to measuring GABA levels is through Magnetic Resonance Spectroscopy (MRS). However, the implications of MRS measures of GABA for behavior remain poorly understood. In this respect, it is yet to be determined how GABA levels within distinct task-related brain regions of interest account for differences in behavioral performance. This review summarizes findings from cross-sectional studies that determined baseline MRS-assessed GABA levels and examined their associations with performance on various behaviors representing the perceptual, motor and cognitive domains, with a particular focus on healthy participants across the lifespan. Overall, the results indicate that MRS-assessed GABA levels play a pivotal role in various domains of behavior. Even though some converging patterns emerge, it is challenging to draw comprehensive conclusions due to differences in behavioral task paradigms, targeted brain regions of interest, implemented MRS techniques and reference compounds used. Across all studies, the effects of GABA levels on behavioral performance point to generic and partially independent functions that refer to distinctiveness, interference suppression and cognitive flexibility. On one hand, higher baseline GABA levels may support the distinctiveness of neural representations during task performance and better coping with interference and suppression of preferred response tendencies. On the other hand, lower baseline GABA levels may support a reduction of inhibition, leading to higher cognitive flexibility. These effects are task-dependent and appear to be mediated by age. Nonetheless, additional studies using emerging advanced methods are required to further clarify the role of MRS-assessed GABA in behavioral performance., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2022
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36. Dissociative identity state-dependent working memory in dissociative identity disorder: a controlled functional magnetic resonance imaging study.

Author

Vissia EM, Lawrence AJ, Chalavi S, Giesen ME, Draijer N, Nijenhuis ERS, Aleman A, Veltman DJ, and Reinders AATS

Abstract

Background: Memory function is at the core of the psychopathology of dissociative identity disorder (DID), but little is known about its psychobiological correlates., Aims: This study aims to investigate whether memory function in DID differs between dissociative identity states., Method: Behavioural data and neural activation patterns were assessed in 92 sessions during an n-back working memory task. Participants were people with genuine diagnosed DID (n = 14), DID-simulating controls (n = 16) and a paired control group (post-traumatic stress disorder (n = 16), healthy controls (n = 16)). Both DID groups participated as authentic or simulated neutral and trauma-related identity states. Reaction times and errors of omission were analysed with repeated measures ANOVA. Working memory neural activation (main working memory and linear load) was investigated for effects of identity state, participant group and their interaction., Results: Identity state-dependent behavioural performance and neural activation was found. DID simulators made fewer errors of omission than those with genuine DID. Regarding the prefrontal parietal network, main working memory in the left frontal pole and ventrolateral prefrontal cortex (Brodmann area 44) was activated in all three simulated neutral states, and in trauma-related identity states of DID simulators, but not those with genuine DID or post-traumatic stress disorder; for linear load, trauma-related identity states of those with genuine DID did not engage the parietal regions., Conclusions: Behavioural performance and neural activation patterns related to working memory in DID are dependent on the dissociative identities involved. The narrowed consciousness of trauma-related identity states, with a proneness to re-experiencing traumatising events, may relate to poorer working memory functioning.

Published
2022
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37. Selective extraction and determination of Cr(VI) in food samples based on tandem electromembrane extraction followed by electrothermal atomic absorption spectrometry.

Author

Goodarzi L, Bayatloo MR, Chalavi S, Nojavan S, Rahmani T, and Azimi SB

Subjects
Animals, Limit of Detection, Spectrophotometry, Atomic, Chromium
Abstract

In this study, electromembrane extraction (EME) combined with micro-EME (µ-EME) was used for the selective extraction of Cr(VI) from food samples (milk powder, Ocimum basilicum, and fish samples). Electrothermal atomic absorption spectrometry was used for the quantification of Cr(VI). Under the optimized extraction conditions, the extraction recovery of Cr(VI) was 73.7%. This proposed method provided a linear range from 0.01 to 5.0 ng/mL and the limit of detection (LOD) and limit of quantification (LOQ) were 0.003 and 0.010 ng/mL. The %RSD (n = 5) was in the range of 11.2-11.8% at 0.05, 1.0 and 2.5 ng/mL of Cr(VI), and the enrichment factor was 584. The accuracy of the method was evaluated by analysis of SRM 2700 as a certified reference material (CRM) and result was in good agreement with the certified value., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2022
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38. Normal amygdala morphology in dissociative identity disorder.

Author

Reinders AATS, Dimitrova LI, Schlumpf YR, Vissia EM, Nijenhuis ERS, Jäncke L, Chalavi S, and Veltman DJ

Abstract

Studies investigating the structure of the amygdala in relation to dissociation in psychiatric disorders are limited and have reported normal or preserved, increased or decreased global volumes. Thus, a more detailed investigation of the amygdala is warranted. Amygdala global and subregional volumes were compared between individuals with dissociative identity disorder (DID: n = 32) and healthy controls (n = 42). Analyses of covariance did not show volumetric differences between the DID and control groups. Although several unknowns make it challenging to interpret our findings, we propose that the finding of normal amygdala volume is a genuine finding because other studies using this data-set have presented robust morphological aberrations in relation to the diagnosis of DID.

Published
2022
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39. No Self Without Salience: Affective and Self-relevance Ratings of 552 Emotionally Valenced and Neutral Dutch Words.

Author

Dimitrova LI, Vissia EM, Geugies H, Hofstetter H, Chalavi S, and Reinders AATS

Subjects
Humans, Language, Surveys and Questionnaires, Affect, Emotions
Abstract

It is unknown how self-relevance is dependent on emotional salience. Emotional salience encompasses an individual's degree of attraction or aversion to emotionally-valenced information. The current study investigated the interconnection between self and salience through the evaluation of emotional valence and self-relevance. 56 native Dutch participants completed a questionnaire assessing valence, intensity, and self-relevance of 552 Dutch nouns and verbs. One-way repeated-measures ANCOVA investigated the relationship between valence and self, age and gender. Repeated-measures ANCOVA also tested the relationship between valence and self with intensity ratings and effects of gender and age. Results showed a significant main effect of valence for self-relevant words. Intensity analyses showed a main effect of valence but not of self-relevance. There were no significant effects of gender and age. The most important finding presents that self-relevance is dependent on valence. These findings concerning the relationship between self and salience opens avenues to study an individual's self-definition., (© 2021. The Author(s).)

Published
2022
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40. The utility of the Structured Inventory of Malingered Symptomatology for distinguishing individuals with Dissociative Identity Disorder (DID) from DID simulators and healthy controls.

Author

Brand BL, Barth M, Schlumpf YR, Schielke H, Chalavi S, Vissia EM, Nijenhuis ERS, Jäncke L, and Reinders AATS

Subjects
Adult, Female, Humans, Male, Middle Aged, Young Adult, Dissociative Identity Disorder diagnosis, Malingering diagnosis, Neuropsychological Tests standards
Abstract

Background: Individuals with dissociative identity disorder (DID) have complex symptoms consistent with severe traumatic reactions. Clinicians and forensic assessors are challenged by distinguishing symptom exaggeration and feigning from genuine symptoms among these individuals. This task may be aided by administering validity measures., Objective: This study aimed to document how individuals with DID score on the Structured Inventory of Malingered Symptomatology (SIMS). The second objective was to compare coached DID simulators and healthy controls to DID patients on the SIMS's total score and subscales. The third objective was to examine the utility rates of the SIMS in distinguishing simulated DID from clinically diagnosed DID., Method: We compared SIMS data gathered from participants from two Dutch sites, one Swiss site and one U.S. site. Sixty-three DID patients were compared to 77 coached DID simulators and 64 healthy controls on the SIMS. A multivariate analysis compared the groups on the SIMS total scores and subscales, and post-hoc Games Howell tests and univariate ANOVAs examined differences between the groups. Utility statistics assessed the accuracy of the SIMS in distinguishing clinical from simulated DID., Results: DID simulators scored significantly higher than DID individuals and healthy controls on every SIMS subscale as well as the total score. The majority (85.7%) of the individuals with DID scored above the cut-off, which is typically interpreted as indicative of possible symptom exaggeration. DID individuals scored higher than the healthy controls on every subscale except Low Intelligence, even after controlling for dissociation. The subscales and items most frequently endorsed by the DID group are consistent with symptoms associated with complex trauma exposure and dissociative reactions. The SIMS total score had a sensitivity of 96% but an unacceptably low specificity of 14%., Conclusions: The findings indicate that the instrument is not accurate in assessing potential symptom exaggeration or feigning in DID., Competing Interests: The authors have no conflicts of interest., (© 2021 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.)

Published
2021
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41. Thalamic morphology predicts the onset of freezing of gait in Parkinson's disease.

Author

D'Cruz N, Vervoort G, Chalavi S, Dijkstra BW, Gilat M, and Nieuwboer A

Abstract

The onset of freezing of gait (FOG) in Parkinson's disease (PD) is a critical milestone, marked by a higher risk of falls and reduced quality of life. FOG is associated with alterations in subcortical neural circuits, yet no study has assessed whether subcortical morphology can predict the onset of clinical FOG. In this prospective multimodal neuroimaging cohort study, we performed vertex-based analysis of grey matter morphology in fifty-seven individuals with PD at study entry and two years later. We also explored the behavioral correlates and resting-state functional connectivity related to these local volume differences. At study entry, we found that freezers (N = 12) and persons who developed FOG during the course of the study (converters) (N = 9) showed local inflations in bilateral thalamus in contrast to persons who did not (non-converters) (N = 36). Longitudinally, converters (N = 7) also showed local inflation in the left thalamus, as compared to non-converters (N = 36). A model including sex, daily levodopa equivalent dose, and local thalamic inflation predicted conversion with good accuracy (AUC: 0.87, sensitivity: 88.9%, specificity: 77.8%). Exploratory analyses showed that local thalamic inflations were associated with larger medial thalamic sub-nuclei volumes and better cognitive performance. Resting-state analyses further revealed that converters had stronger thalamo-cortical coupling with limbic and cognitive regions pre-conversion, with a marked reduction in coupling over the two years. Finally, validation using the PPMI cohort suggested FOG-specific non-linear evolution of thalamic local volume. These findings provide markers of, and deeper insights into conversion to FOG, which may foster earlier intervention and better mobility for persons with PD.

Published
2021
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42. Age-related GABAergic differences in the primary sensorimotor cortex: A multimodal approach combining PET, MRS and TMS.

Author

Cuypers K, Hehl M, van Aalst J, Chalavi S, Mikkelsen M, Van Laere K, Dupont P, Mantini D, and Swinnen SP

Subjects
Adult, Aged, Aged, 80 and over, Female, Humans, Magnetic Resonance Spectroscopy methods, Male, Positron-Emission Tomography methods, Transcranial Magnetic Stimulation methods, Young Adult, Aging metabolism, Multimodal Imaging methods, Receptors, GABA-A metabolism, Sensorimotor Cortex metabolism
Abstract

Healthy aging is associated with mechanistic changes in gamma-aminobutyric acid (GABA), the most abundant inhibitory neurotransmitter in the human brain. While previous work mainly focused on magnetic resonance spectroscopy (MRS)-based GABA+ levels and transcranial magnetic stimulation (TMS)-based GABA A receptor (GABA A R) activity in the primary sensorimotor (SM1) cortex, the aim of the current study was to identify age-related differences in positron emission tomography (PET)-based GABA A R availability and its relationship with GABA+ levels (i.e. GABA with the contribution of macromolecules) and GABA A R activity. For this purpose, fifteen young (aged 20-28 years) and fifteen older (aged 65-80 years) participants were recruited. PET and MRS images were acquired using simultaneous time-of-flight PET/MR to evaluate age-related differences in GABA A R availability (distribution volume ratio with pons as reference region) and GABA+ levels. TMS was applied to identify age-related differences in GABA A R activity by measuring short-interval intracortical inhibition (SICI). Whereas GABA A R availability was significantly higher in the SM cortex of older as compared to young adults (18.5%), there were neither age-related differences in GABA+ levels nor SICI. A correlation analysis revealed no significant associations between GABA A R availability, GABA A R activity and GABA+ levels. Although the exact mechanisms need to be further elucidated, it is possible that a higher GABA A R availability in older adults is a compensatory mechanism to ensure optimal inhibitory functionality during the aging process., (Copyright © 2020. Published by Elsevier Inc.)

Published
2021
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43. Prefronto-Striatal Structural Connectivity Mediates Adult Age Differences in Action Selection.

Author

Rasooli A, Zivari Adab H, Chalavi S, Monteiro TS, Dhollander T, Mantini D, and Swinnen SP

Subjects
Adult, Aged, Aging physiology, Caudate Nucleus physiology, Cross-Sectional Studies, Cues, Decision Making, Diffusion Magnetic Resonance Imaging, Female, Humans, Male, Middle Aged, Movement physiology, Neostriatum growth & development, Neural Pathways growth & development, Nucleus Accumbens physiology, Photic Stimulation, Prefrontal Cortex growth & development, Reaction Time physiology, Young Adult, Neostriatum anatomy & histology, Neostriatum physiology, Neural Pathways anatomy & histology, Neural Pathways physiology, Prefrontal Cortex anatomy & histology, Prefrontal Cortex physiology
Abstract

In complex everyday environments, action selection is critical for optimal goal-directed behavior. This refers to the process of choosing a proper action from the range of possible alternatives. The neural mechanisms underlying action selection and how these are affected by normal aging remain to be elucidated. In the present cross-sectional study, we studied processes of effector selection during a multilimb reaction time task in a lifespan sample of healthy human adults ( N = 89; 20-75 years; 48 males, 41 females). Participants were instructed to react as quickly and accurately as possible to visually cued stimuli representing single-limb or combined upper and/or lower limb motions. Diffusion MRI was used to study structural connectivity between prefrontal and striatal regions as critical nodes for action selection. Behavioral findings revealed that increasing age was associated with slowing of action selection performance. At the neural level, aging had a negative impact on prefronto-striatal connectivity. Importantly, mediation analyses revealed that the negative association between action selection performance and age was mediated by prefronto-striatal connectivity, specifically the connections between left rostral medial frontal gyrus and left nucleus accumbens as well as right frontal pole and left caudate. These results highlight the potential role of prefronto-striatal white matter decline in poorer action selection performance of older adults. SIGNIFICANCE STATEMENT As a result of enhanced life expectancy, researchers have devoted increasing attention to the study of age-related alterations in cognitive and motor functions. Here we study associations between brain structure and behavior to reveal the impact of central neural white matter changes as a function of normal aging on action selection performance. We demonstrate the critical role of a reduction in prefronto-striatal structural connectivity in accounting for action selection performance deficits in healthy older adults. Preserving this cortico-subcortical pathway may be critical for behavioral flexibility and functional independence in older age., (Copyright © 2021 the authors.)

Published
2021
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44. The role of the PMd in task complexity: functional connectivity is modulated by motor learning and age.

Author

Maes C, Swinnen SP, Albouy G, Sunaert S, Gooijers J, Chalavi S, and Pauwels L

Subjects
Adaptation, Physiological, Aged, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Psychometrics methods, Young Adult, Aging psychology, Executive Function, Learning, Motor Cortex physiology, Psychomotor Performance
Abstract

The dorsal premotor cortex (PMd) plays a key role in the control and learning of motor tasks, especially when task complexity is high. This study sought to investigate the effect of task complexity on PMd-seeded functional connectivity in the context of aging using psychophysiological interaction analyses. Young and older participants were enrolled in a 3-day training protocol whereby task-related functional magnetic resonance imaging data were acquired. During training, movement was either internally generated or externally generated in the absence or presence of online visual feedback, respectively. Behavioral results indicated that older adults tended to have more difficulties with the complex task variants as compared with young adults. On a neural level, older adults demonstrated difficulties in flexibly adjusting their neural resources dependent on the feedback provided. Furthermore, PMd-seeded connectivity was related to a behavioral task complexity index in both age groups, albeit mediated by age. Together, these results highlight the importance of PMd in adaptability to task complexity and its age-related effects., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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45. Reduced Modulation of Task-Related Connectivity Mediates Age-Related Declines in Bimanual Performance.

Author

Monteiro TS, Zivari Adab H, Chalavi S, Gooijers J, King BBR, Cuypers K, Mantini D, and Swinnen SP

Subjects
Adult, Aged, Aged, 80 and over, Brain Mapping methods, Female, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Aging physiology, Brain physiology, Neural Pathways physiology, Psychomotor Performance physiology
Abstract

Aging is accompanied by marked changes in motor behavior and its neural correlates. At the behavioral level, age-related declines in motor performance manifest, for example, as a reduced capacity to inhibit interference between hands during bimanual movements, particularly when task complexity increases. At the neural level, aging is associated with reduced differentiation between distinct functional systems. Functional connectivity (FC) dedifferentiation is characterized by more homogeneous connectivity patterns across various tasks or task conditions, reflecting a reduced ability of the aging adult to modulate brain activity according to changing task demands. It is currently unknown, however, how whole-brain dedifferentiation interacts with increasing task complexity. In the present study, we investigated age- and task-related FC in a group of 96 human adults across a wide age range (19.9-74.5 years of age) during the performance of a bimanual coordination task of varying complexity. Our findings indicated stronger task complexity-related differentiation between visuomotor- and nonvisuomotor-related networks, though modulation capability decreased with increasing age. Decreased FC modulation mediated larger complexity-related increases in between-hand interference, reflective of worse bimanual coordination. Thus, the ability to maintain high motor performance levels in older adults is related to the capability to properly segregate and modulate functional networks., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permission@oup.com.)

Published
2020
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46. Fiber-specific variations in anterior transcallosal white matter structure contribute to age-related differences in motor performance.

Author

Zivari Adab H, Chalavi S, Monteiro TS, Gooijers J, Dhollander T, Mantini D, and Swinnen SP

Subjects
Adult, Aged, Arm physiology, Corpus Callosum diagnostic imaging, Cross-Sectional Studies, Diffusion Tensor Imaging, Female, Humans, Male, Middle Aged, Young Adult, Aging pathology, Aging physiology, Corpus Callosum pathology, Motor Activity physiology, Psychomotor Performance physiology
Abstract

Age-related differences in bimanual motor performance have been extensively documented, but their underlying neural mechanisms remain less clear. Studies applying diffusion MRI in the aging population have revealed evidence for age-related white matter variations in the corpus callosum (CC) which are related to bimanual motor performance. However, the diffusion tensor model used in those studies is confounded by partial volume effects in voxels with complex fiber geometries which are present in up to 90% of white matter voxels, including the bilateral projections of the CC. A recently developed whole-brain analysis framework, known as fixel-based analysis (FBA), enables comprehensive statistical analyses of white matter quantitative measures in the presence of such complex fiber geometries. To investigate the contribution of age-related fiber-specific white matter variations to age-related differences in bimanual performance, a cross-sectional lifespan sample of healthy human adults (N ​= ​95; 20-75 years of age) performed a bimanual tracking task. Furthermore, diffusion MRI data were acquired and the FBA metrics associated with fiber density, cross-section, and combined fiber density and cross-section were estimated. Whole-brain FBA revealed significant negative associations between age and fiber density, cross-section, and combined metrics of multiple white matter tracts, including the bilateral projections of the CC, indicative of white matter micro- and macrostructural degradation with age. More importantly, mediation analyses demonstrated that age-related variations in the combined (fiber density and cross-section) metric of the genu, but not splenium, of the CC contributed to the observed age-related differences in bimanual coordination performance. These findings highlight the contribution of variations in interhemispheric communication between prefrontal (non-motor) cortices to age-related differences in motor performance., Competing Interests: Declaration of competing interest The authors have no conflict of interest or competing interests to disclose., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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47. Sensorimotor cortex neurometabolite levels as correlate of motor performance in normal aging: evidence from a 1 H-MRS study.

Author

Levin O, Weerasekera A, King BR, Heise KF, Sima DM, Chalavi S, Maes C, Peeters R, Sunaert S, Cuypers K, Van Huffel S, Mantini D, Himmelreich U, and Swinnen SP

Subjects
Adult, Aged, Female, Humans, Male, Middle Aged, Neuropsychological Tests, Proton Magnetic Resonance Spectroscopy, Young Adult, Aging metabolism, Motor Activity physiology, Sensorimotor Cortex metabolism
Abstract

Aging is associated with gradual alterations in the neurochemical characteristics of the brain, which can be assessed in-vivo with proton-magnetic resonance spectroscopy ( 1 H-MRS). However, the impact of these age-related neurochemical changes on functional motor behavior is still poorly understood. Here, we address this knowledge gap and specifically focus on the neurochemical integrity of the left sensorimotor cortex (SM1) and the occipital lobe (OCC), as both regions are main nodes of the visuomotor network underlying bimanual control. 1 H-MRS data and performance on a set of bimanual tasks were collected from a lifespan (20-75 years) sample of 86 healthy adults. Results indicated that aging was accompanied by decreased levels of N-acetylaspartate (NAA), glutamate-glutamine (Glx), creatine ​+ ​phosphocreatine (Cr) and myo-inositol (mI) in both regions, and decreased Choline (Cho) in the OCC region. Lower NAA and Glx levels in the SM1 and lower NAA levels in the OCC were related to poorer performance on a visuomotor bimanual coordination task, suggesting that NAA could serve as a potential biomarker for the integrity of the motor system supporting bimanual control. In addition, lower NAA, Glx, and mI levels in the SM1 were found to be correlates of poorer dexterous performance on a bimanual dexterity task. These findings highlight the role for 1 H-MRS to study neurochemical correlates of motor performance across the adult lifespan., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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48. Aiding the diagnosis of dissociative identity disorder: pattern recognition study of brain biomarkers.

Author

Reinders AATS, Marquand AF, Schlumpf YR, Chalavi S, Vissia EM, Nijenhuis ERS, Dazzan P, Jäncke L, and Veltman DJ

Subjects
Adult, Adverse Childhood Experiences, Biomarkers, Brain Mapping methods, Case-Control Studies, Diagnosis, Differential, Female, Humans, Magnetic Resonance Imaging, Male, Sensitivity and Specificity, Stress Disorders, Post-Traumatic diagnosis, Stress Disorders, Post-Traumatic pathology, Dissociative Identity Disorder diagnosis, Dissociative Identity Disorder pathology, Gray Matter pathology, White Matter pathology
Abstract

Background: A diagnosis of dissociative identity disorder (DID) is controversial and prone to under- and misdiagnosis. From the moment of seeking treatment for symptoms to the time of an accurate diagnosis of DID individuals received an average of four prior other diagnoses and spent 7 years, with reports of up to 12 years, in mental health services., Aim: To investigate whether data-driven pattern recognition methodologies applied to structural brain images can provide biomarkers to aid DID diagnosis., Method: Structural brain images of 75 participants were included: 32 female individuals with DID and 43 matched healthy controls. Individuals with DID were recruited from psychiatry and psychotherapy out-patient clinics. Probabilistic pattern classifiers were trained to discriminate cohorts based on measures of brain morphology., Results: The pattern classifiers were able to accurately discriminate between individuals with DID and healthy controls with high sensitivity (72%) and specificity (74%) on the basis of brain structure. These findings provide evidence for a biological basis for distinguishing between DID-affected and healthy individuals., Conclusions: We propose a pattern of neuroimaging biomarkers that could be used to inform the identification of individuals with DID from healthy controls at the individual level. This is important and clinically relevant because the DID diagnosis is controversial and individuals with DID are often misdiagnosed. Ultimately, the application of pattern recognition methodologies could prevent unnecessary suffering of individuals with DID because of an earlier accurate diagnosis, which will facilitate faster and targeted interventions., Declaration of Interest: The authors declare no competing financial interests.

Published
2019
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49. Recent advances in microextraction procedures for determination of amphetamines in biological samples.

Author

Chalavi S, Asadi S, Nojavan S, and Fakhari AR

Subjects
Amphetamines pharmacology, Humans, Amphetamines metabolism, Liquid Phase Microextraction methods
Abstract

Amphetamine and its related derivatives have stimulant and hallucinogenic properties. Illegal use of these drugs is an increasing global problem resulting in significant public health and legal problems. Deaths have been reported after intake of these drugs due to overdose. It is important to determine the type and concentration of illicit drugs in biological samples. These compounds are found in complex matrices at low concentration levels. The microextraction techniques are dominant sample preparation procedure and they are widely accepted as the most labor-intensive part of the bioanalytical process. For this purpose, a survey of recent published advances in microextraction procedures for quantification of amphetamines in biological samples found in the different databases from 2008 to date will be conducted.

Published
2019
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50. Development of a modified partial filling method in capillary electrophoresis using two chiral plugs for the simultaneous enantioseparation of chiral drugs: Comparison with mixed chiral selector capillary electrophoresis.

Author

Chalavi S, Fakhari AR, and Nojavan S

Subjects
Electricity, Hydrogen-Ion Concentration, Polysaccharides chemistry, Stereoisomerism, Temperature, Time Factors, alpha-Cyclodextrins, beta-Cyclodextrins chemistry, Electrophoresis, Capillary methods, Pharmaceutical Preparations chemistry, Pharmaceutical Preparations isolation & purification
Abstract

In this study, a chiral CE method was developed based on the partial filling technique with two chiral plugs for the simultaneous enantioseparation of some racemic drugs, including baclofen, carvedilol, cetirizine, chlorpheniramine, citalopram, fluoxetine, hydroxyzine, propranolol, tramadol, trihexyphenidyl. This method of capillary filling involves the application of two adjacent chiral plugs containing the same BGE, but with different chiral selectors in the plugs for the enantioseparation of a mixture of drugs which cannot be separated with single or mixed chiral selectors. By using this method, each plug can separate the enantiomers independently (same as a single chiral selector modified CE) and the possible interactions between the chiral selectors would be inhibited. The best results were obtained using a fused silica capillary (60cm×50μm id (50cm effective length)) with phosphate buffer (100mM, pH 3.0) containing 10mM hydroxypropyl-α/β-cyclodextrin and 10% (w/v) maltodextrin and detected by UV at 214nm. The influence of the length and order of the chiral plugs on the enantioresolution was also studied and optimized. The proposed method was compared with a mixed chiral selector-CE system with a combination of hydroxypropyl-α-cyclodextrin/hydroxypropyl-β-cyclodextrin and maltodextrin in the BGE. According to the results, the modified partial filling method is a simple and efficient method for the simultaneous chiral separation and offers appropriate migration times and resolutions compared to the results obtained from mixed chiral selector CE., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2018
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