Your search keyword '"Giorgio Arcara"' showing total 157 results

1. Artificial embodiment displaces cortical neuromagnetic somatosensory responses

Author

Silvia L. Isabella, Marco D’Alonzo, Alessandro Mioli, Giorgio Arcara, Giovanni Pellegrino, and Giovanni Di Pino

Subjects

Somatosensory evoked fields, Electrical stimulation, Rubber hand illusion, Magnetoencephalography, Primary somatosensory cortex, Embodiment, Medicine, Science

Abstract

Abstract Integrating artificial limbs as part of one's body involves complex neuroplastic changes resulting from various sensory inputs. While somatosensory feedback is crucial, plastic processes that enable embodiment remain unknown. We investigated this using somatosensory evoked fields (SEFs) in the primary somatosensory cortex (S1) following the Rubber Hand Illusion (RHI), known to quickly induce artificial limb embodiment. During electrical stimulation of the little finger and thumb, 19 adults underwent neuromagnetic recordings before and after the RHI. We found early SEF displacement, including an illusion-brain correlation between extent of embodiment and specific changes to the first cortical response at 20 ms in Area 3b, within S1. Furthermore, we observed a posteriorly directed displacement at 35 ms towards Area 1, known to be important for visual integration during touch perception. That this second displacement was unrelated to extent of embodiment implies a functional distinction between neuroplastic changes of these components and areas. The earlier shift in Area 3b may shape extent of limb ownership, while subsequent displacement into Area 1 may relate to early visual-tactile integration that initiates embodiment. Here we provide evidence for multiple neuroplastic processes in S1—lasting beyond the illusion—supporting integration of artificial limbs like prostheses within the body representation.

Published

2024

2. Aperiodic component of EEG power spectrum and cognitive performance are modulated by education in aging

Author

Sonia Montemurro, Daniel Borek, Daniele Marinazzo, Sara Zago, Fabio Masina, Ettore Napoli, Nicola Filippini, and Giorgio Arcara

Subjects

Medicine, Science

Abstract

Abstract Recent studies have shown a growing interest in the so-called “aperiodic” component of the EEG power spectrum, which describes the overall trend of the whole spectrum with a linear or exponential function. In the field of brain aging, this aperiodic component is associated both with age-related changes and performance on cognitive tasks. This study aims to elucidate the potential role of education in moderating the relationship between resting-state EEG features (including aperiodic component) and cognitive performance in aging. N = 179 healthy participants of the “Leipzig Study for Mind–Body-Emotion Interactions” (LEMON) dataset were divided into three groups based on age and education. Older adults exhibited lower exponent, offset (i.e. measures of aperiodic component), and Individual Alpha Peak Frequency (IAPF) as compared to younger adults. Moreover, visual attention and working memory were differently associated with the aperiodic component depending on education: in older adults with high education, higher exponent predicted slower processing speed and less working memory capacity, while an opposite trend was found in those with low education. While further investigation is needed, this study shows the potential modulatory role of education in the relationship between the aperiodic component of the EEG power spectrum and aging cognition.

Published

2024

3. Reliable measurement of auditory-driven gamma synchrony with a single EEG electrode: A simultaneous EEG-MEG study

Author

Giovanni Pellegrino, Silvia L. Isabella, Giulio Ferrazzi, Laura Gschwandtner, Martin Tik, Giorgio Arcara, Daniele Marinazzo, and Anna-Lisa Schuler

Subjects

Synchrony, Gamma, Magnetoencephalography (MEG), Electroencephalography (EEG), Auditory Steady State Responses (ASSR), Cerebral cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Objective: Auditory-driven gamma synchrony (GS) is linked to the function of a specific cortical circuit based on a parvalbumin+ and pyramidal neuron loop. This circuit is impaired in neuropsychiatric conditions (i.e. schizophrenia, Alzheimer's disease, stroke etc.) and its relevance in clinical practice is increasingly being recognized. Auditory stimulation at a typical gamma frequency of 40 Hz can be applied as a ‘stress test’ of excitation/inhibition (E/I) of the entire cerebral cortex, to drive GS and record it with magnetoencephalography (MEG) or high-density electroencephalography (EEG). However, these two techniques are costly and not widely available. Therefore, we assessed whether a single EEG electrode is sufficient to provide an accurate estimate of the auditory-driven GS level of the entire cortical surface while expecting the highest correspondence in the auditory and somatosensory cortices. Methods: We measured simultaneous EEG-MEG in 29 healthy subjects, utilizing 3 EEG electrodes (C4, F4, O2) and a full MEG setup. Recordings were performed during binaural exposure to auditory gamma stimulation and during silence. We compared GS measurement of each of the three EEG electrodes separately against full MEG mapping. Time-resolved phase locking value (PLVt) was computed between EEG signals and cortex reconstructed MEG signals. Results: During auditory stimulation, but not at rest, EEG captures a significant amount of GS, especially from both auditory cortices and motor-premotor regions. This was especially true for frontal (C4) and central electrodes (F4). Discussion and Conclusions: While hd-EEG and MEG are necessary for accurate spatial mapping of GS at rest and during auditory stimulation, a single EEG channel is sufficient to detect the global level of GS. These results have great translational potential for mapping GS in standard clinical settings.

Published

2024

4. Pre-Stimulus Activity of Left and Right TPJ in Linguistic Predictive Processing: A MEG Study

Author

Sara Lago, Sara Zago, Valentina Bambini, and Giorgio Arcara

Subjects

predictive processing, language, MEG, magnetoencephalography, temporo-parietal junctions, TPJs, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background. The left and right temporoparietal junctions (TPJs) are two brain areas involved in several brain networks, largely studied for their diverse roles, from attentional orientation to theory of mind and, recently, predictive processing. In predictive processing, one crucial concept is prior precision, that is, the reliability of the predictions of incoming stimuli. This has been linked with modulations of alpha power as measured with electrophysiological techniques, but TPJs have seldom been studied in this framework. Methods. The present article investigates, using magnetoencephalography, whether spontaneous oscillations in pre-stimulus alpha power in the left and right TPJs can modulate brain responses during a linguistic task that requires predictive processing in literal and non-literal sentences. Results. Overall, results show that pre-stimulus alpha power in the rTPJ was associated with post-stimulus responses only in the left superior temporal gyrus, while lTPJ pre-stimulus alpha power was associated with post-stimulus activity in Broca’s area, left middle temporal gyrus, and left superior temporal gyrus. Conclusions. We conclude that both the right and left TPJs have a role in linguistic prediction, involving a network of core language regions, with differences across brain areas and linguistic conditions that can be parsimoniously explained in the context of predictive processing.

Published

2024

5. Increasing associative plasticity in temporo-occipital back-projections improves visual perception of emotions

Author

Sara Borgomaneri, Marco Zanon, Paolo Di Luzio, Antonio Cataneo, Giorgio Arcara, Vincenzo Romei, Marco Tamietto, and Alessio Avenanti

Subjects

Science

Abstract

Abstract The posterior superior temporal sulcus (pSTS) is a critical node in a network specialized for perceiving emotional facial expressions that is reciprocally connected with early visual cortices (V1/V2). Current models of perceptual decision-making increasingly assign relevance to recursive processing for visual recognition. However, it is unknown whether inducing plasticity into reentrant connections from pSTS to V1/V2 impacts emotion perception. Using a combination of electrophysiological and neurostimulation methods, we demonstrate that strengthening the connectivity from pSTS to V1/V2 selectively increases the ability to perceive facial expressions associated with emotions. This behavior is associated with increased electrophysiological activity in both these brain regions, particularly in V1/V2, and depends on specific temporal parameters of stimulation that follow Hebbian principles. Therefore, we provide evidence that pSTS-to-V1/V2 back-projections are instrumental to perception of emotion from facial stimuli and functionally malleable via manipulation of associative plasticity.

Published

2023

6. The impact of ROI extraction method for MEG connectivity estimation: Practical recommendations for the study of resting state data.

Author

Diandra Brkić, Sara Sommariva, Anna-Lisa Schuler, Annalisa Pascarella, Paolo Belardinelli, Silvia L. Isabella, Giovanni Di Pino, Sara Zago, Giulio Ferrazzi, Javier Rasero, Giorgio Arcara, Daniele Marinazzo, and Giovanni Pellegrino

Subjects

N/A, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Magnetoencephalography and electroencephalography (M/EEG) seed-based connectivity analysis typically requires regions of interest (ROI)-based extraction of measures. M/EEG ROI-derived source activity can be treated in different ways. For instance, it is possible to average each ROI's time series prior to calculating connectivity measures. Alternatively one can compute connectivity maps for each element of the ROI, prior to dimensionality reduction to obtain a single map. The impact of these different strategies on connectivity estimation is still unclear.Here, we address this question within a large MEG resting state cohort (N=113) and simulated data. We consider 68 ROIs (Desikan-Kiliany atlas), two measures of connectivity (phase locking value-PLV, and its imaginary counterpart- ciPLV), and three frequency bands (theta 4-8 Hz, alpha 9-12 Hz, beta 15-30 Hz). We consider four extraction methods: (i) mean, or (ii) PCA of the activity within the ROI before computing connectivity, (iii) average, or (iv) maximum connectivity after computing connectivity for each element of the seed. Connectivity outputs from these extraction strategies are then compared with hierarchical clustering, followed by direct contrasts across extraction methods. Finally, the results are validated by using a set of realistic simulations.We show that ROI-based connectivity maps vary remarkably across strategies in both connectivity magnitude and spatial distribution. Dimensionality reduction procedures conducted after computing connectivity are more similar to each-other, while PCA before approach is the most dissimilar to other approaches. Although differences across methods are consistent across frequency bands, they are influenced by the connectivity metric and ROI size. Greater differences were observed for ciPLV than PLV, and in larger ROIs. Realistic simulations confirmed that after aggregation procedures are generally more accurate but have lower specificity (higher rate of false positive connections). Although computationally demanding, after dimensionality reduction strategies should be preferred when higher sensitivity is desired. Given the remarkable differences across aggregation procedures, caution is warranted in comparing results across studies applying different extraction methods.

Published

2023

7. Auditory white noise exposure results in intrinsic cortical excitability changes

Author

Anna-Lisa Schuler, Diandra Brkić, Giulio Ferrazzi, Giorgio Arcara, Daniele Marinazzo, and Giovanni Pellegrino

Subjects

Neuroscience, Sensory neuroscience, Science

Abstract

Summary: Cortical excitability is commonly measured by applying magnetic stimulation in combination with measuring behavioral response. This measure has, however, some shortcomings including spatial limitation to the primary motor cortex and not accounting for intrinsic excitability fluctuations. Here, we use a measure for intrinsic excitability based on phase synchronization previously validated for epilepsy. We apply this measure in 30 healthy participants’ magnetoencephalography (MEG) recordings during the exposure of auditory white noise, a stimulus that has been suggested to modify cortical excitability. Using cortical parcellation of the MEG source data, we could find a specific pattern of increased and decreased excitability while participants are exposed to white noise vs. silence. Specifically, excitability during white noise exposure decreases in the frontal lobe and increases in the temporal lobe. This study thus adds to the understanding of cortical excitability changes due to specific environmental stimuli as well as the spatial extent of these effects.

Published

2023

8. Prediction of rehabilitation induced motor recovery after stroke using a multi-dimensional and multi-modal approach

Author

Silvia Salvalaggio, Andrea Turolla, Martina Andò, Rita Barresi, Francesca Burgio, Pierpaolo Busan, Anna Maria Cortese, Daniela D’Imperio, Laura Danesin, Giulio Ferrazzi, Lorenza Maistrello, Eleonora Mascotto, Ilaria Parrotta, Rachele Pezzetta, Elena Rigon, Anna Vedovato, Sara Zago, Marco Zorzi, Giorgio Arcara, Dante Mantini, and Nicola Filippini

Subjects

stroke, rehabilitation-induced recovery, prediction, prognosis, neurophysiology, neuroimaging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

BackgroundStroke is a debilitating disease affecting millions of people worldwide. Despite the survival rate has significantly increased over the years, many stroke survivors are left with severe impairments impacting their quality of life. Rehabilitation programs have proved to be successful in improving the recovery process. However, a reliable model of sensorimotor recovery and a clear identification of predictive markers of rehabilitation-induced recovery are still needed. This article introduces the cross-modality protocols designed to investigate the rehabilitation treatment’s effect in a group of stroke survivors.Methods/designA total of 75 stroke patients, admitted at the IRCCS San Camillo rehabilitation Hospital in Venice (Italy), will be included in this study. Here, we describe the rehabilitation programs, clinical, neuropsychological, and physiological/imaging [including electroencephalography (EEG), transcranial magnetic stimulation (TMS), and magnetic resonance imaging (MRI) techniques] protocols set up for this study. Blood collection for the characterization of predictive biological biomarkers will also be taken. Measures derived from data acquired will be used as candidate predictors of motor recovery.Discussion/summaryThe integration of cutting-edge physiological and imaging techniques, with clinical and cognitive assessment, dose of rehabilitation and biological variables will provide a unique opportunity to define a predictive model of recovery in stroke patients. Taken together, the data acquired in this project will help to define a model of rehabilitation induced sensorimotor recovery, with the final aim of developing personalized treatments promoting the greatest chance of recovery of the compromised functions.

Published

2023

9. Validating MEG source imaging of resting state oscillatory patterns with an intracranial EEG atlas

Author

Jawata Afnan, Nicolás von Ellenrieder, Jean-Marc Lina, Giovanni Pellegrino, Giorgio Arcara, Zhengchen Cai, Tanguy Hedrich, Chifaou Abdallah, Hassan Khajehpour, Birgit Frauscher, Jean Gotman, and Christophe Grova

Subjects

Intracranial EEG, Magnetoencephalography, Source imaging, Validation, Resting state, Spectral analysis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: Magnetoencephalography (MEG) is a widely used non-invasive tool to estimate brain activity with high temporal resolution. However, due to the ill-posed nature of the MEG source imaging (MSI) problem, the ability of MSI to identify accurately underlying brain sources along the cortical surface is still uncertain and requires validation. Method: We validated the ability of MSI to estimate the background resting state activity of 45 healthy participants by comparing it to the intracranial EEG (iEEG) atlas (https://mni-open-ieegatlas.research.mcgill.ca/). First, we applied wavelet-based Maximum Entropy on the Mean (wMEM) as an MSI technique. Next, we converted MEG source maps into intracranial space by applying a forward model to the MEG-reconstructed source maps, and estimated virtual iEEG (ViEEG) potentials on each iEEG channel location; we finally quantitatively compared those with actual iEEG signals from the atlas for 38 regions of interest in the canonical frequency bands. Results: The MEG spectra were more accurately estimated in the lateral regions compared to the medial regions. The regions with higher amplitude in the ViEEG than in the iEEG were more accurately recovered. In the deep regions, MEG-estimated amplitudes were largely underestimated and the spectra were poorly recovered. Overall, our wMEM results were similar to those obtained with minimum norm or beamformer source localization. Moreover, the MEG largely overestimated oscillatory peaks in the alpha band, especially in the anterior and deep regions. This is possibly due to higher phase synchronization of alpha oscillations over extended regions, exceeding the spatial sensitivity of iEEG but detected by MEG. Importantly, we found that MEG-estimated spectra were more comparable to spectra from the iEEG atlas after the aperiodic components were removed. Conclusion: This study identifies brain regions and frequencies for which MEG source analysis is likely to be reliable, a promising step towards resolving the uncertainty in recovering intracerebral activity from non-invasive MEG studies.

Published

2023

10. Stimulation with acoustic white noise enhances motor excitability and sensorimotor integration

Author

Giovanni Pellegrino, Mattia Pinardi, Anna-Lisa Schuler, Eliane Kobayashi, Stefano Masiero, Gino Marioni, Vincenzo di Lazzaro, Flavio Keller, Giorgio Arcara, Francesco Piccione, and Giovanni Di Pino

Subjects

Medicine, Science

Abstract

Abstract Auditory white noise (WN) is widely used in neuroscience to mask unwanted environmental noise and cues, e.g. TMS clicks. However, to date there is no research on the influence of WN on corticospinal excitability and potentially associated sensorimotor integration itself. Here we tested the hypothesis, if WN induces M1 excitability changes and improves sensorimotor performance. M1 excitability (spTMS, SICI, ICF, I/O curve) and sensorimotor reaction-time performance were quantified before, during and after WN stimulation in a set of experiments performed in a cohort of 61 healthy subjects. WN enhanced M1 corticospinal excitability, not just during exposure, but also during silence periods intermingled with WN, and up to several minutes after the end of exposure. Two independent behavioural experiments highlighted that WN improved multimodal sensorimotor performance. The enduring excitability modulation combined with the effects on behaviour suggest that WN might induce neural plasticity. WN is thus a relevant modulator of corticospinal function; its neurobiological effects should not be neglected and could in fact be exploited in research applications.

Published

2022

11. Education differentiates cognitive performance and resting state fMRI connectivity in healthy aging

Author

Sonia Montemurro, Nicola Filippini, Giulio Ferrazzi, Dante Mantini, Giorgio Arcara, and Marco Marino

Subjects

education, resting state, fMRI, default mode network, memory, aging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

ObjectivesIn healthy aging, the way people cope differently with cognitive and neural decline is influenced by exposure to cognitively enriching life-experiences. Education is one of them, so that in general, the higher the education, the better the expected cognitive performance in aging. At the neural level, it is not clear yet how education can differentiate resting state functional connectivity profiles and their cognitive underpinnings. Thus, with this study, we aimed to investigate whether the variable education allowed for a finer description of age-related differences in cognition and resting state FC.MethodsWe analyzed in 197 healthy individuals (137 young adults aged 20–35 and 60 older adults aged 55–80 from the publicly available LEMON database), a pool of cognitive and neural variables, derived from magnetic resonance imaging, in relation to education. Firstly, we assessed age-related differences, by comparing young and older adults. Then, we investigated the possible role of education in outlining such differences, by splitting the group of older adults based on their education.ResultsIn terms of cognitive performance, older adults with higher education and young adults were comparable in language and executive functions. Interestingly, they had a wider vocabulary compared to young adults and older adults with lower education. Concerning functional connectivity, the results showed significant age- and education-related differences within three networks: the Visual-Medial, the Dorsal Attentional, and the Default Mode network (DMN). For the DMN, we also found a relationship with memory performance, which strengthen the evidence that this network has a specific role in linking cognitive maintenance and FC at rest in healthy aging.DiscussionOur study revealed that education contributes to differentiating cognitive and neural profiles in healthy older adults. Also, the DMN could be a key network in this context, as it may reflect some compensatory mechanisms relative to memory capacities in older adults with higher education.

Published

2023

12. Task matters: Individual MEG signatures from naturalistic and neurophysiological brain states

Author

Nigel Colenbier, Ekansh Sareen, Tamara del-Aguila Puntas, Alessandra Griffa, Giovanni Pellegrino, Dante Mantini, Daniele Marinazzo, Giorgio Arcara, and Enrico Amico

Subjects

Brain fingerprinting, Functional connectivity, Brain state, MEG, Resting state, Task, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The discovery that human brain connectivity data can be used as a “fingerprint” to identify a given individual from a population, has become a burgeoning research area in the neuroscience field. Recent studies have identified the possibility to extract these brain signatures from the temporal rich dynamics of resting-state magneto encephalography (MEG) recordings. Nevertheless, it is still uncertain to what extent MEG signatures can serve as an indicator of human identifiability during task-related conduct. Here, using MEG data from naturalistic and neurophysiological tasks, we show that identification improves in tasks relative to resting-state, providing compelling evidence for a task dependent axis of MEG signatures. Notably, improvements in identifiability were more prominent in strictly controlled tasks. Lastly, the brain regions contributing most towards individual identification were also modified when engaged in task activities. We hope that this investigation advances our understanding of the driving factors behind brain identification from MEG signals.

Published

2023

13. Event-Related Desynchronization of MEG Alpha-Band Oscillations during Simultaneous Presentation of Audio and Visual Stimuli in Children with Autism Spectrum Disorder

Author

Vardan Arutiunian, Giorgio Arcara, Irina Buyanova, Olga Buivolova, Elizaveta Davydova, Darya Pereverzeva, Alexander Sorokin, Svetlana Tyushkevich, Uliana Mamokhina, Kamilla Danilina, and Olga Dragoy

Subjects

autism spectrum disorder, magnetoencephalography, auditory cortex, event-related desynchronization (ERD), alpha power, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Alpha-band (8–12 Hz) event-related desynchronization (ERD) or a decrease in alpha power in electro- and magnetoencephalography (EEG and MEG) reflects the involvement of a neural tissue in information processing. It is known that most children with autism spectrum disorder (ASD) have difficulties in information processing, and, thus, investigation of alpha oscillations is of particular interest in this population. Previous studies have demonstrated alterations in this neural activity in individuals with ASD; however, little is known about alpha ERD during simultaneous presentation of auditory and visual stimuli in children with and without ASD. As alpha oscillations are intimately related to attention, and attention deficit is one of the common co-occurring conditions of ASD, we predict that children with ASD can have altered alpha ERD in one of the sensory domains. In the present study, we used MEG to investigate alpha ERD in groups of 20 children with ASD and 20 age-matched typically developing controls. Simple amplitude-modulated tones were presented together with a fixation cross appearing on the screen. The results showed that children with ASD had a bilateral reduction in alpha-band ERD in the auditory but not visual cortex. Moreover, alterations in the auditory cortex were associated with a higher presence of autistic traits measured in behavioral assessment.

Published

2023

14. Corrigendum: Case report: Pragmatic impairment in multiple sclerosis after worsening of clinical symptoms

Author

Sara Lago, Francesca Bevilacqua, Maria Rosaria Stabile, Cristina Scarpazza, Valentina Bambini, and Giorgio Arcara

Subjects

pragmatics, pragmatic impairment, multiple sclerosis, language, communication, case report, Psychology, BF1-990

Published

2023

15. Magnetoencephalography reveals differences in brain activations for fast and slow responses to simple multiplications

Author

Giorgio Arcara, Rachele Pezzetta, S. Benavides-Varela, G. Rizzi, S. Formica, C. Turco, F. Piccione, and C. Semenza

Subjects

Medicine, Science

Abstract

Abstract Despite decades of studies, it is still an open question on how and where simple multiplications are solved by the brain. This fragmented picture is mostly related to the different tasks employed. While in neuropsychological studies patients are asked to perform and report simple oral calculations, neuroimaging and neurophysiological studies often use verification tasks, in which the result is shown, and the participant must verify the correctness. This MEG study aims to unify the sources of evidence, investigating how brain activation unfolds in time using a single-digit multiplication production task. We compared the participants' brain activity—focusing on the parietal lobes—based on response efficiency, dividing their responses in fast and slow. Results showed higher activation for fast, as compared to slow, responses in the left angular gyrus starting after the first operand, and in the right supramarginal gyrus only after the second operand. A whole-brain analysis showed that fast responses had higher activation in the right dorsolateral prefrontal cortex. We show a timing difference of both hemispheres during simple multiplications. Results suggest that while the left parietal lobe may allow an initial retrieval of several possible solutions, the right one may be engaged later, helping to identify the solution based on magnitude checking.

Published

2021

16. Case report: Pragmatic impairment in multiple sclerosis after worsening of clinical symptoms

Author

Sara Lago, Francesca Bevilacqua, Maria Rosaria Stabile, Cristina Scarpazza, Valentina Bambini, and Giorgio Arcara

Subjects

pragmatics, pragmatic impairment, multiple sclerosis, language, communication, case report, Psychology, BF1-990

Abstract

Pragmatics, defined as the ability to integrate language and context to communicate effectively, may be impaired in Multiple Sclerosis (MS). We present the case of a patient with active secondary progressive MS who, after a first neuropsychological assessment that evidenced only a slight pragmatic impairment, suffered a sudden worsening of her clinical conditions, treated with corticosteroids. After this clinical worsening, her pragmatic abilities declined markedly, both in comprehension and production. This worsening was accompanied by a decline only in one attention task, in the context of an overall stable cognitive functioning. We conclude that pragmatics may be a domain particularly susceptible to cognitive worsening, highlighting the importance of its assessment in clinical practice.

Published

2022

17. Clinical Profiles in Multiple Sclerosis: Cognitive Reserve and Motor Impairment along Disease Duration

Author

Sabrina Maffezzini, Veronica Pucci, Alice Riccardi, Sonia Montemurro, Marco Puthenparampil, Paola Perini, Francesca Rinaldi, Paolo Gallo, Giorgio Arcara, and Sara Mondini

Subjects

multiple sclerosis, cognitive impairment, motor impairment, disease duration, cognitive reserve, generalised additive models, Psychology, BF1-990

Abstract

(i) Background: Cognitive impairment in people with multiple sclerosis (MS) has been studied in relation to certain clinical variables (e.g., motor disability and disease duration) and lifestyle factors such as cognitive reserve (CR). However, only very few studies have considered the interaction of clinical variables and cognitive reserve in preserving the integrity of the neuropsychological profile. In this paper, we hypothesised that a higher level of CR might predict good cognitive efficiency by modulating the clinical outcome of the disease. (ii) Methods: A sample of 100 participants with MS (age range 30–74), was recruited and assessed remotely with a questionnaire to measure CR and a cognitive screening test. Data were analysed through generalized additive models. (iii) Results: We found that the model analysing the interaction between CR and disease duration, and between CR and motor disability, was able to explain a significant percentage of cognitive performance. In particular, higher levels of CR predicted a better cognitive performance despite a long disease duration, unless the motor disability was severe. (iv) Conclusion: This study highlights the crucial role of CR in modulating cognitive efficiency in people with MS.

Published

2023

18. Global Examination of Mental State: An open tool for the brief evaluation of cognition

Author

Sara Mondini, Sonia Montemurro, Veronica Pucci, Adele Ravelli, Matteo Signorini, and Giorgio Arcara

Subjects

cognitive screening, neuropsychology, open tool, psychometric properties, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background The aim of this paper is to present a freely accessible new instrument for the evaluation of cognition: the Global Examination of Mental State (GEMS). Methods It is made up of 11 items tapping into a range of skills, such as Orientation in time and space, Memory, Working memory, Visuo‐spatial, Visuo‐constructional and Planning abilities, Perceptual and visual Attention, Language (Naming, Comprehension, and Verbal fluency), and Pragmatics. Results The psychometric strengths of this screening are: (1) extensive and updated normative data on the adult Italian population (from 18 to 100 years old); (2) absence of ceiling effect in healthy individuals, which allows to better detect interindividual variability; (3) comparison of the global scores with normative data taking into account Cognitive Reserve rather than only education, thus increasing diagnostic accuracy; (4) thresholds for significant change over time and the possibility to use parallel versions (GEMS‐A/GEMS‐B) for test‐retest; (5) solid psychometric properties and data on discriminant validity; and (6) free access to all materials (record forms, instructions, and cut‐off scores) on the web under a Creative Common License. Conclusions With all these characteristics, GEMS could be a very useful paper‐and‐pencil instrument for cognitive screening.

Published

2022

19. Auditory driven gamma synchrony is associated with cortical thickness in widespread cortical areas

Author

Anna-Lisa Schuler, Giulio Ferrazzi, Nigel Colenbier, Giorgio Arcara, Francesco Piccione, Florinda Ferreri, Daniele Marinazzo, and Giovanni Pellegrino

Subjects

Magnetoencephalography (MEG), Synchrony, Auditory Steady State Responses (ASSR), Gamma, Cortical thickness, Cerebral cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Objective: Gamma synchrony is a fundamental functional property of the cerebral cortex, impaired in multiple neuropsychiatric conditions (i.e. schizophrenia, Alzheimer's disease, stroke etc.). Auditory stimulation in the gamma range allows to drive gamma synchrony of the entire cortical mantle and to estimate the efficiency of the mechanisms sustaining it. As gamma synchrony depends strongly on the interplay between parvalbumin-positive interneurons and pyramidal neurons, we hypothesize an association between cortical thickness and gamma synchrony. To test this hypothesis, we employed a combined magnetoencephalography (MEG) – Magnetic Resonance Imaging (MRI) study. Methods: Cortical thickness was estimated from anatomical MRI scans. MEG measurements related to exposure of 40 Hz amplitude modulated tones were projected onto the cortical surface. Two measures of cortical synchrony were considered: (a) inter-trial phase consistency at 40 Hz, providing a vertex-wise estimation of gamma synchronization, and (b) phase-locking values between primary auditory cortices and whole cortical mantle, providing a measure of long-range cortical synchrony. A correlation between cortical thickness and synchronization measures was then calculated for 72 MRI-MEG scans. Results: Both inter-trial phase consistency and phase locking values showed a significant positive correlation with cortical thickness. For inter-trial phase consistency, clusters of strong associations were found in the temporal and frontal lobes, especially in the bilateral auditory and pre-motor cortices. Higher phase-locking values corresponded to higher cortical thickness in the frontal, temporal, occipital and parietal lobes. Discussion and conclusions: In healthy subjects, a thicker cortex corresponds to higher gamma synchrony and connectivity in the primary auditory cortex and beyond, likely reflecting underlying cell density involved in gamma circuitries. This result hints towards an involvement of gamma synchrony together with underlying brain structure in brain areas for higher order cognitive functions. This study contributes to the understanding of inherent cortical functional and structural brain properties, which might in turn constitute the basis for the definition of useful biomarkers in patients showing aberrant gamma synchronization.

Published

2022

20. Neurophysiological and behavioural effects of conventional and high definition tDCS

Author

Fabio Masina, Giorgio Arcara, Eleonora Galletti, Isabella Cinque, Luciano Gamberini, and Daniela Mapelli

Subjects

Medicine, Science

Abstract

Abstract High-definition transcranial direct current stimulation (HD-tDCS) seems to overcome a drawback of traditional bipolar tDCS: the wide-spread diffusion of the electric field. Nevertheless, most of the differences that characterise the two techniques are based on mathematical simulations and not on real, behavioural and neurophysiological, data. The study aims to compare a widespread tDCS montage (i.e., a Conventional bipolar montage with extracephalic return electrode) and HD-tDCS, investigating differences both at a behavioural level, in terms of dexterity performance, and a neurophysiological level, as modifications of alpha and beta power as measured with EEG. Thirty participants took part in three sessions, one for each montage: Conventional tDCS, HD-tDCS, and sham. In all the conditions, the anode was placed over C4, while the cathode/s placed according to the montage. At baseline, during, and after each stimulation condition, dexterity was assessed with a Finger Tapping Task. In addition, resting-state EEG was recorded at baseline and after the stimulation. Power spectrum density was calculated, selecting two frequency bands: alpha (8–12 Hz) and beta (18–22 Hz). Linear mixed effect models (LMMs) were used to analyse the modulation induced by tDCS. To evaluate differences among the montages and consider state-dependency phenomenon, the post-stimulation measurements were covariate-adjusted for baseline levels. We observed that HD-tDCS induced an alpha power reduction in participants with lower alpha at baseline. Conversely, Conventional tDCS induced a beta power reduction in participants with higher beta at baseline. Furthermore, data showed a trend towards a behavioural effect of HD-tDCS in participants with lower beta at baseline showing faster response times. Conventional and HD-tDCS distinctively modulated cortical activity. The study highlights the importance of considering state-dependency to determine the effects of tDCS on individuals.

Published

2021

21. Investigating the Effects of a Focal Muscle Vibration Protocol on Sensorimotor Integration in Healthy Subjects

Author

Nicoletta Manzo, Francesca Ginatempo, Daniele Belvisi, Giorgio Arcara, Ilaria Parrotta, Giorgio Leodori, Franca Deriu, Claudia Celletti, Filippo Camerota, and Antonella Conte

Subjects

focal muscle vibration, sensorimotor integration, neuromodulation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: The ability to perceive two tactile stimuli as asynchronous can be measured using the somatosensory temporal discrimination threshold (STDT). In healthy humans, the execution of a voluntary movement determines an increase in STDT values, while the integration of STDT and movement execution is abnormal in patients with basal ganglia disorders. Sensorimotor integration can be modulated using focal muscle vibration (fMV), a neurophysiological approach that selectively activates proprioceptive afferents from the vibrated muscle. Method: In this study, we investigated whether fMV was able to modulate STDT or STDT–movement integration in healthy subjects by measuring them before, during and after fMV applied over the first dorsalis interosseous, abductor pollicis brevis and flexor radialis carpi muscles. Results: The results showed that fMV modulated STDT–movement integration only when applied over the first dorsalis interosseous, namely, the muscle performing the motor task involved in STDT–movement integration. These changes occurred during and up to 10 min after fMV. Differently, fMV did not influence STDT at rest. We suggest that that fMV interferes with the STDT–movement task processing, possibly disrupting the physiological processing of sensory information. Conclusions: This study showed that FMV is able to modulate STDT–movement integration when applied over the muscle involved in the motor task. This result provides further information on the mechanisms underlying fMV, and has potential future implications in basal ganglia disorders characterized by altered sensorimotor integration.

Published

2023

22. Resting state network connectivity is attenuated by fMRI acoustic noise

Author

Giovanni Pellegrino, Anna-Lisa Schuler, Giorgio Arcara, Giovanni Di Pino, Francesco Piccione, and Eliane Kobayashi

Subjects

Magnetoencephalography, fMRI, EPI, Acoustic noise, Connectivity, Networks, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Introduction: During the past decades there has been an increasing interest in tracking brain network fluctuations in health and disease by means of resting state functional magnetic resonance imaging (rs-fMRI). Rs-fMRI however does not provide the ideal environmental setting, as participants are continuously exposed to noise generated by MRI coils during acquisition of Echo Planar Imaging (EPI). We investigated the effect of EPI noise on resting state activity and connectivity using magnetoencephalography (MEG), by reproducing the acoustic characteristics of rs-fMRI environment during the recordings. As compared to fMRI, MEG has little sensitivity to brain activity generated in deep brain structures, but has the advantage to capture both the dynamic of cortical magnetic oscillations with high temporal resolution and the slow magnetic fluctuations highly correlated with BOLD signal. Methods: Thirty healthy subjects were enrolled in a counterbalanced design study including three conditions: a) silent resting state (Silence), b) resting state upon EPI noise (fMRI), and c) resting state upon white noise (White). White noise was employed to test the specificity of fMRI noise effect. The amplitude envelope correlation (AEC) in alpha band measured the connectivity of seven Resting State Networks (RSN) of interest (default mode network, dorsal attention network, language, left and right auditory and left and right sensory-motor). Vigilance dynamic was estimated from power spectral activity. Results: fMRI and White acoustic noise consistently reduced connectivity of cortical networks. The effects were widespread, but noise and network specificities were also present. For fMRI noise, decreased connectivity was found in the right auditory and sensory-motor networks. Progressive increase of slow theta-delta activity related to drowsiness was found in all conditions, but was significantly higher for fMRI . Theta-delta significantly and positively correlated with variations of cortical connectivity. Discussion: rs-fMRI connectivity is biased by unavoidable environmental factors during scanning, which warrant more careful control and improved experimental designs. MEG is free from acoustic noise and allows a sensitive estimation of resting state connectivity in cortical areas. Although underutilized, MEG could overcome issues related to noise during fMRI, in particular when investigation of motor and auditory networks is needed.

Published

2022

23. Financial Decision-Making in Neurological Patients

Author

Laura Danesin, Andreina Giustiniani, Giorgio Arcara, and Francesca Burgio

Subjects

financial abilities, mild cognitive impairment, Parkinson’s disease, stroke, decision-making, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Financial abilities (FA) are a multi-dimensional domain comprising a wide range of conceptual, pragmatical, and judgmental skills ranging from basic abilities, such as bill payment, to high level abilities, such as financial decision-making (FDM). Preserved FDM abilities include the capacity to recognize fraud attempts, and they are fundamental for a person’s independence. Previous studies have reported decreased FDM in older adults and in patients with mild cognitive impairment (MCI), who consequently become more susceptible to fraud attempts. However, FDM has scarcely been investigated in other neurological populations, and it is unclear whether FDM may be predicted by more basic FA. The aim of the present study was to investigate FDM across patients with MCI, Parkinson’s disease (PD), or stroke, as well as healthy controls (HC), and to explore to what extent FDM could be inferred by other FA. We collected FDM and FA performances using the NADL-F short battery. Performances in the NADL-F short subtests were compared among groups. Additionally, the relationship between the scores at the FDM subtest and the performance obtained in other financial subtests of the NADL-F short were investigated for each group of participants. MCI patients performed worse than HC in FDM and in several FA domains. Conversely, FDM was relatively preserved in our sample of PD and stroke patients. In HC, FDM was associated with numeracy and financial knowledge applied to everyday situations, whereas this was true with some basic FA in both MCI and PD patients. No significant association was observed in stroke patients. Our results suggest that FDM is a complex ability, only partially inferable from other FA.

Published

2022

24. Italian Validation of the Touch Avoidance Measure and the Touch Avoidance Questionnaire

Author

Laura Casetta, Luca Rizzi, Marcello Passarelli, Giorgio Arcara, and Raffaella Perrella

Subjects

touch avoidance, social touch, ordinal CFA, non-verbal communication, Italian validation, Psychology, BF1-990

Abstract

Social touch is essential in relationships and well-being, but the unique personal experience of touch is not assessed and taken into account in health and social care services. The pleasantness of gentle stroking is influenced by gender, toucher genre, toucher familiarity, culture, and age. Moreover, pleasantness is influenced by touch avoidance, the attitude toward interpersonal touch. The aim of this article is to present the translation, adaptation, and validation in Italian of two scales to measure touch avoidance. For translation and validation, we selected the most used scale, the Touch Avoidance Measure (TAM) and a more recent scale, the Touch Avoidance Questionnaire (TAQ). Confirmatory factor analyses reported good model fit for the TAM [comparative fit index (CFI) = 0.947, Tucker–Lewis index (TLI) = 0.940, root-mean-square error of approximation (RMSEA) = 0.065] and excellent model fit for the TAQ (CFI = 0.954, TLI = 0.950, RMSEA = 0.058). Internal consistency was high for all subscales, except the TAQ “Stranger” subscale. One-month test–retest reliability ranged from 0.67 to 0.90 for each subscale. Lastly, convergent validity between the TAM and TAQ was also found to be high. We conclude that the TAM and TAQ can be used to assess touch avoidance with Italian samples. The instrument can be used to support healthcare professionals and to assess attitudes toward touch in individuals with interpersonal difficulties.

Published

2020

25. Theta and alpha oscillations as signatures of internal and external attention to delayed intentions: A magnetoencephalography (MEG) study

Author

Giorgia Cona, Francesco Chiossi, Silvia Di Tomasso, Giovanni Pellegrino, Francesco Piccione, Patrizia Bisiacchi, and Giorgio Arcara

Subjects

Prospective memory, MEG, Theta, Alpha, Attention, Delayed intention, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: Remembering to execute delayed intentions (i.e., prospective memory, PM) entails the allocation of internal and external attention. These processes are crucial for rehearsing PM intentions in memory and for monitoring the presence of the PM cue in the environment, respectively. Aim: The study took advantage of the excellent spatial and temporal resolution of magnetoencephalography (MEG) to delineate the neural mechanisms of the memory and monitoring processes underlying PM. Method: The spatio-temporal dynamic of theta and alpha oscillations were explored in 21 participants in two PM tasks compared to a baseline condition (i.e., a lexical decision task with no PM instruction). The PM tasks varied for the load of internally-directed attention (Retrospective-load task) vs externally-directed attention (Monitoring-load task). Results: Increase in theta activity was observed in the Retrospective-load task, and was particularly expressed in the regions of the Default Mode Network, such as in medial temporal regions, precuneus, posterior cingulate cortex and medial prefrontal cortex. Alpha decrease was the most relevant feature of the Monitoring-load task, and it was expressed over bilateral occipital, occipito-parietal and fronto-temporal regions, as well as over left dorsal fronto-parietal regions. Conclusions: Theta and alpha oscillations are strictly associated with the direction of attention during the PM tasks. In particular, theta increase is linked to internal attention necessary for maintaining the intention active in working memory, whereas alpha decrease supports the external attention for detecting the PM cue in the environment.

Published

2020

26. The role of limbic structures in financial abilities of mild cognitive impairment patients

Author

Silvia Benavides-Varela, Francesca Burgio, Luca Weis, Micaela Mitolo, Katie Palmer, Roberta Toffano, Giorgio Arcara, Antonino Vallesi, Dante Mantini, Francesca Meneghello, and Carlo Semenza

Subjects

MCI, Alzheimer's disease, Pathological aging, Financial decisions, VBM, Everyday functioning, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Mild Cognitive Impairment (MCI) patients experience problems in financial abilities that affect everyday functioning. To date, the neural correlates of decline in this domain are unclear. This study aims at examining the correlation between the pattern of brain atrophy of MCI patients and performance on financial abilities. Forty-four MCI patients and thirty-seven healthy controls underwent structural magnetic resonance imaging, and assessment of financial abilitiesby means of the Numerical Activities of Daily Living Financial battery (NADL-F). As compared to healthy controls, MCI patients showed impaired performance in three out of the seven domains assessed by NADL-F: Item purchase, percentage, and financial concepts. The patients’ performance in the NADL-F correlated with memory, language, visuo-spatial, and abstract reasoning composite scores. The analysis also revealed that volumetric differences in the limbic structures significantly correlated with financial abilities in MCI. Specifically, the patients’ performance in the NADL-F was correlated with atrophy in the left medial and lateral amygdala and the right anterior thalamic radiation. These findings suggest that completing daily financial tasks involves sub-cortical regions in MCI and presumably also the motivational and emotional processes associated to them. Involvement of altered limbic structures in MCI patients suggests that impairment in financial abilities may be related to emotional and reflexive processing deficits.

Published

2020

27. Hemodynamic Correlates of Electrophysiological Activity in the Default Mode Network

Author

Marco Marino, Giorgio Arcara, Camillo Porcaro, and Dante Mantini

Subjects

resting state, high-density EEG, fMRI, DMN, alpha rhythm, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Hemodynamic fluctuations in the default mode network (DMN), observed through functional magnetic resonance imaging (fMRI), have been linked to electrophysiological oscillations detected by electroencephalography (EEG). It has been reported that, among the electrophysiological oscillations, those in the alpha frequency range (8–13 Hz) are the most dominant during resting state. We hypothesized that DMN spatial configuration closely depends on the specific neuronal oscillations considered, and that alpha oscillations would mainly correlate with increased blood oxygen-level dependent (BOLD) signal in the DMN. To test this hypothesis, we used high-density EEG (hdEEG) data simultaneously collected with fMRI scanning in 20 healthy volunteers at rest. We first detected the DMN from source reconstructed hdEEG data for multiple frequency bands, and we then mapped the correlation between temporal profile of hdEEG-derived DMN activity and fMRI–BOLD signals on a voxel-by-voxel basis. In line with our hypothesis, we found that the correlation map associated with alpha oscillations, more than with any other frequency bands, displayed a larger overlap with DMN regions. Overall, our study provided further evidence for a primary role of alpha oscillations in supporting DMN functioning. We suggest that simultaneous EEG–fMRI may represent a powerful tool to investigate the neurophysiological basis of human brain networks.

Published

2019

28. Corrigendum: Pragmatic Language Disorder in Parkinson's Disease and the Potential Effect of Cognitive Reserve

Author

Sonia Montemurro, Sara Mondini, Matteo Signorini, Anna Marchetto, Valentina Bambini, and Giorgio Arcara

Subjects

Parkinson's disease, pragmatic abilities, Cognitive Reserve, communication, discourse, figurative language, Psychology, BF1-990

Published

2019

29. Pragmatic Language Disorder in Parkinson’s Disease and the Potential Effect of Cognitive Reserve

Author

Sonia Montemurro, Sara Mondini, Matteo Signorini, Anna Marchetto, Valentina Bambini, and Giorgio Arcara

Subjects

Parkinson’s disease, pragmatic abilities, Cognitive Reserve, communication, discourse, figurative language, Psychology, BF1-990

Abstract

It is known that patients with Parkinson’s Disease (PD) may show deficits in several areas of cognition, including speech and language abilities. One domain of particular interest is pragmatics, which refers to the capacity of using language in context for a successful communication. Several studies showed that some specific aspects of pragmatics – both in production and in comprehension – might be impaired in patients with PD. However, a clear picture of pragmatic abilities in PD is still missing, as most of the existing studies focused on specific aspects of the pragmatic competence rather than on sketching a complete pragmatic profile. Moreover, little is known on the potential role of protective factors in compensating the decline of communicative skills as the disease progresses. The present study has two aims: (1) to provide a complete picture of pragmatic abilities in patients with PD, by using a comprehensive battery (Assessment of Pragmatic Abilities and Cognitive Substrates, APACS) and by investigating the relationship with other aspects of cognitive functioning (e.g., working memory and Theory of Mind) and (2) to investigate whether Cognitive Reserve, i.e., the resilience to cognitive impairment provided by life experiences and activities, may compensate for the progressive pragmatic deficits in PD. We found that patients with PD, compared to healthy matched controls, had worse performance in discourse production and in the description of scenes, and that these impairments were tightly correlated with the severity of motor impairment, suggesting reduced intentionality of engaging in a communicative exchange. Patients with PD showed also an impairment in comprehending texts and humor, suggesting a problem in inferring from stories, which was related to general cognitive impairment. Notably, we did not find any significant difference between patients and controls in figurative language comprehension, a domain that is commonly impaired in other neurodegenerative diseases. This might be indicative of a specific profile of pragmatic impairment in patients with PD, worth of further investigation. Finally, Cognitive Reserve measures showed a high degree of association with pragmatic comprehension abilities, suggesting that the modification of life-styles could be a good candidate for compensating the possible problems in understanding the pragmatic aspects of language experienced by patients with PD.

Published

2019

30. Italian norms and naming latencies for 357 high quality color images.

Author

Eduardo Navarrete, Giorgio Arcara, Sara Mondini, and Barbara Penolazzi

Subjects

Medicine, Science

Abstract

In the domain of cognitive studies on the lexico-semantic representational system, one of the most important means of ensuring effective experimental designs is using ecological stimulus sets accompanied by normative data on the most relevant variables affecting the processing of their items. In the context of image sets, color photographs are particularly suited to this purpose as they reduce the difficulty of visual decoding processes that may emerge with traditional image sets of line drawings. This is especially so in clinical populations. In this study we provide Italian norms for a set of 357 high quality image-items belonging to 23 semantic subcategories from the Moreno-Martínez and Montoro database. Data from several variables affecting image processing were collected from a sample of 255 Italian-speaking participants: age of acquisition, familiarity, lexical frequency, manipulability, name agreement, typicality and visual complexity. Lexical frequency data were derived from the CoLFIS corpus. Furthermore, we collected data on image oral naming latencies to explore how the variance in these latencies could be explained by these critical variables. Multiple regression analyses on the naming latencies show classical psycholinguistic phenomena, such as the effects of age of acquisition and name agreement. In addition, manipulability was also a significant predictor. The described Italian normative data and naming latencies are available for download as supplementary material.

Published

2019

31. Cortical gamma-synchrony measured with magnetoencephalography is a marker of clinical status and predicts clinical outcome in stroke survivors

Author

Giovanni Pellegrino, Giorgio Arcara, Anna Maria Cortese, Luca Weis, Silvia Di Tomasso, Gino Marioni, Stefano Masiero, and Francesco Piccione

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: The outcome of stroke survivors is difficult to anticipate. While the extent of the anatomical brain lesion is only poorly correlated with the prognosis, functional measures of cortical synchrony, brain networks and cortical plasticity seem to be good predictors of clinical recovery. In this field, gamma (>30 Hz) cortical synchrony is an ideal marker of brain function, as it plays a crucial role for the integration of information, it is an indirect marker of Glutamate/GABA balance and it directly estimates the reserve of parvalbulin-positive neurons, key players in synaptic plasticity. In this study we measured gamma synchronization driven by external auditory stimulation with magnetoencephalography and tested whether it was predictive of the clinical outcome in stroke survivors undergoing intensive rehabilitation in a tertiary rehabilitation center. Material and methods: Eleven stroke survivors undergoing intensive rehabilitation were prospectively recruited. Gamma synchrony was measured non-invasively within one month from stroke onset with magnetoencephalography, both at rest and during entrainment with external 40 Hz amplitude modulated binaural sounds. Lesion location and volume were quantitatively assessed through a high-resolution anatomical MRI. Barthel index (BI) and Functional Independence Measure (FIM) scales were measured at the beginning and at the end of the admission to the rehabilitation unit. Results: The spatial distribution of cortical gamma synchrony was altered, and the physiological right hemispheric dominance observed in healthy controls was attenuated or lost. Entrained gamma synchronization (but not resting state gamma synchrony) showed a very high correlation with the clinical status at both admission and discharge (both BI and FIM). Neither clinical status nor gamma synchrony showed a correlation with lesion volume. Conclusions: Cortical gamma synchrony related to auditory entrainment can be reliably measured in stroke patients. Gamma synchrony is strongly associated with the clinical outcome of stroke survivors undergoing rehabilitation. Keywords: Magnetoencephalography, Synchrony, MEG, Gamma, Stroke, Rehabilitation

Published

2019

32. Bilateral Transcranial Direct Current Stimulation Reshapes Resting-State Brain Networks: A Magnetoencephalography Assessment

Author

Giovanni Pellegrino, Matteo Maran, Cristina Turco, Luca Weis, Giovanni Di Pino, Francesco Piccione, and Giorgio Arcara

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Transcranial direct current stimulation (tDCS) can noninvasively induce brain plasticity, and it is potentially useful to treat patients affected by neurological conditions. However, little is known about tDCS effects on resting-state brain networks, which are largely involved in brain physiological functions and in diseases. In this randomized, sham-controlled, double-blind study on healthy subjects, we have assessed the effect of bilateral tDCS applied over the sensorimotor cortices on brain and network activity using a whole-head magnetoencephalography system. Bilateral tDCS, with the cathode (−) centered over C4 and the anode (+) centered over C3, reshapes brain networks in a nonfocal fashion. Compared to sham stimulation, tDCS reduces left frontal alpha, beta, and gamma power and increases global connectivity, especially in delta, alpha, beta, and gamma frequencies. The increase of connectivity is consistent across bands and widespread. These results shed new light on the effects of tDCS and may be of help in personalizing treatments in neurological disorders.

Published

2018

33. The Relationship between Cognitive Reserve and Math Abilities

Author

Giorgio Arcara, Sara Mondini, Alice Bisso, Katie Palmer, Francesca Meneghello, and Carlo Semenza

Subjects

aging, cognitive reserve, maths, mathematical abilities, daily living activities, healthy aging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Cognitive Reserve is the capital of knowledge and experiences that an individual acquires over their life-span. Cognitive Reserve is strictly related to Brain Reserve, which is the ability of the brain to cope with damage. These two concepts could explain many phenomena such as the modality of onset in dementia or the different degree of impairment in cognitive abilities in aging. The aim of this study is to verify the effect of Cognitive Reserve, as measured by a questionnaire, on a variety of numerical abilities (number comprehension, reading and writing numbers, rules and principles, mental calculations and written calculations), in a group of healthy older people (aged 65–98 years). Sixty older individuals were interviewed with the Cognitive Reserve Index questionnaire (CRIq), and assessed with the Numerical Activities of Daily Living battery (NADL), which included formal tasks on math abilities, an informal test on math, one interview with the participant, and one interview with a relative on the perceived math abilities. We also took into account the years of education, as another proxy for Cognitive Reserve. In the multiple regression analyses on all formal tests, CRIq scores did not significantly predict math performance. Other variables, i.e., years of education and Mini-Mental State Examination score, accounted better for math performance on NADL. Only a subsection of CRIq, CRIq-Working-activity, was found to predict performance on a NADL subtest assessing informal use of math in daily life. These results show that education might better explain abstract math functions in late life than other aspects related to Cognitive Reserve, such as lifestyle or occupational attainment.

Published

2017

34. Lexical and Buffer Effects in Reading and in Writing Noun-Noun Compound Nouns

Author

Sara Mondini, Giorgio Arcara, and Carlo Semenza

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2012

35. Electrophysiological correlates of strategic monitoring in event-based and time-based prospective memory.

Author

Giorgia Cona, Giorgio Arcara, Vincenza Tarantino, and Patrizia Silvia Bisiacchi

Subjects

Medicine, Science

Abstract

Prospective memory (PM) is the ability to remember to accomplish an action when a particular event occurs (i.e., event-based PM), or at a specific time (i.e., time-based PM) while performing an ongoing activity. Strategic Monitoring is one of the basic cognitive functions supporting PM tasks, and involves two mechanisms: a retrieval mode, which consists of maintaining active the intention in memory; and target checking, engaged for verifying the presence of the PM cue in the environment. The present study is aimed at providing the first evidence of event-related potentials (ERPs) associated with time-based PM, and at examining differences and commonalities in the ERPs related to Strategic Monitoring mechanisms between event- and time-based PM tasks.The addition of an event-based or a time-based PM task to an ongoing activity led to a similar sustained positive modulation of the ERPs in the ongoing trials, mainly expressed over prefrontal and frontal regions. This modulation might index the retrieval mode mechanism, similarly engaged in the two PM tasks. On the other hand, two further ERP modulations were shown specifically in an event-based PM task. An increased positivity was shown at 400-600 ms post-stimulus over occipital and parietal regions, and might be related to target checking. Moreover, an early modulation at 130-180 ms post-stimulus seems to reflect the recruitment of attentional resources for being ready to respond to the event-based PM cue. This latter modulation suggests the existence of a third mechanism specific for the event-based PM; that is, the "readiness mode".

Published

2012

36. Reduced magnetic mismatch negativity: a shared deficit in psychosis and related risk

Author

Christian Valt, Tiziana Quarto, Angelantonio Tavella, Fabiola Romanelli, Leonardo Fazio, Giorgio Arcara, Mario Altamura, Giuseppe Barrasso, Antonello Bellomo, Giuseppe Blasi, Flora Brudaglio, Angela Carofiglio, Enrico D'Ambrosio, Flavia Antida Padalino, Antonio Rampino, Alessandro Saponaro, Domenico Semisa, Domenico Suma, Giulio Pergola, and Alessandro Bertolino

Subjects

Psychiatry and Mental health, Applied Psychology

Abstract

Background Abnormal auditory processing of deviant stimuli, as reflected by mismatch negativity (MMN), is often reported in schizophrenia (SCZ). At present, it is still under debate whether this dysfunctional response is specific to the full-blown SCZ diagnosis or rather a marker of psychosis in general. The present study tested MMN in patients with SCZ, bipolar disorder (BD), first episode of psychosis (FEP), and in people at clinical high risk for psychosis (CHR). Methods Source-based MEG activity evoked during a passive auditory oddball task was recorded from 135 patients grouped according to diagnosis (SCZ, BD, FEP, and CHR) and 135 healthy controls also divided into four subgroups, age- and gender-matched with diagnostic subgroups. The magnetic MMN (mMMN) was analyzed as event-related field (ERF), Theta power, and Theta inter-trial phase coherence (ITPC). Results The clinical group as a whole showed reduced mMMN ERF amplitude, Theta power, and Theta ITPC, without any statistically significant interaction between diagnosis and mMMN reductions. The mMMN subgroup contrasts showed lower ERF amplitude in all the diagnostic subgroups. In the analysis of Theta frequency, SCZ showed significant power and ITPC reductions, while only indications of diminished ITPC were observed in CHR, but no significant decreases characterized BD and FEP. Conclusions Significant mMMN alterations in people experiencing psychosis, also for diagnoses other than SCZ, suggest that this neurophysiological response may be a feature shared across psychotic disorders. Additionally, reduced Theta ITPC may be associated with risk for psychosis.

Published

2022

37. The age‐related changes in 40 Hz Auditory S <scp>teady‐State</scp> Response and sustained E <scp>vent‐Related</scp> Fields to the same amplitude‐modulated tones in typically developing children: A magnetoencephalography study

Author

Vardan Arutiunian, Giorgio Arcara, Irina Buyanova, Militina Gomozova, and Olga Dragoy

Subjects

Neurology, Radiological and Ultrasound Technology, Radiology, Nuclear Medicine and imaging, Neurology (clinical), Anatomy

Published

2022

38. The impact of sensory modality on prospective memory: Differences between visual and auditory processing

Author

Stefano Vicentin, Giorgia Cona, Giorgio Arcara, and Patrizia Bisiacchi

Subjects

Prospective memory, visual modality, Neuropsychology and Physiological Psychology, attention, auditory modality, Physiology, Physiology (medical), Experimental and Cognitive Psychology, General Medicine, General Psychology

Abstract

Prospective memory (PM) is the ability to perform an intended action when the appropriate conditions occur. Several features play a role in the successful retrieval of an intention: the activity we are concurrently engaged in, the number of intentions we are maintaining, where our attention is focused (outward vs. to inner states), and how outstanding the trigger of the intention is. Another factor that may play a crucial role is sensory modality: Do auditory and visual stimuli prompt PM processing in the same way? In this study, we explored for the first time the nature of PM for auditory stimuli and the presence of modality-dependent differences in PM processing. To do so, an identical paradigm composed of multiple PM tasks was administered in two versions, one with auditory stimuli and one with visual ones. Each PM task differed for features such as focality, salience, and number of intentions (factors that are known in literature to modulate the monitoring and maintenance requests of PM) to explore the impact of sensory modality on a broad variety of classical PM tasks. In general, PM processing showed similar patterns between modalities, especially for low demanding prospective instructions. Conversely, substantial differences were found when the prospective load was increased and monitoring requests enhanced, as participants were significantly slower and less accurate with acoustic stimuli. These results represent the first evidence that modality-dependent effects arise in PM processing, especially in its interaction with features such as the difficulty of the task and the increased monitoring load.

Published

2022

39. Tele-Global Examination of Mental State (Tele-GEMS): an open tool for the remote neuropsychological screening

Author

Sonia Montemurro, Sara Mondini, Veronica Pucci, Giorgia Durante, Alice Riccardi, Sabrina Maffezzini, Graziana Scialpi, Matteo Signorini, and Giorgio Arcara

Subjects

Psychiatry and Mental health, Cognitive screening · Tele-neuropsychology · Normative data · Cognitive reserve · Regression-based norms, Neurology (clinical), Dermatology, General Medicine

Published

2023

40. Assessment of Pragmatic Abilities and Cognitive Substrates (APACS) Brief Remote: a novel tool for the rapid and tele-evaluation of pragmatic skills in Italian

Author

Luca Bischetti, Chiara Pompei, Biagio Scalingi, Federico Frau, Marta Bosia, Giorgio Arcara, and Valentina Bambini

Abstract

Healthcare services require rapid assessment tools, as well as the possibility of using them flexibly in different contexts, such as those experienced during the COVID-19 pandemic, that favor remote interaction over traditional care. These needs become especially challenging when assessing language and communication skills, for which few tools exist. This work aimed to develop and evaluate the psychometric properties of a novel test for the rapid and tele-assessment of pragmatic skills in Italian-speaking individuals, including an alternate form to allow for monitoring and follow-up. Inspired by Gricean pragmatics and modelled after the already validated Assessment of Pragmatic Abilities and Cognitive Substrates (APACS) in-person test, the new APACS Brief Remote test includes 18 original items assessing discourse and non-literal language understanding in expressive and receptive modalities. The test lasts approximately 10 minutes and is suited for video-conference administration. Results from a sample of 141 healthy participants indicate that both reliability (internal consistency, test-retest, and inter-rater) and validity (measured via APACS and verbal and cognitive tests) of the APACS Brief Remote are adequate. The alternate form of the test can be considered as equivalent. Among demographic variables, the analysis highlighted especially the role of age. Perceived experience with the videoconference administration was positive, supporting the feasibility of APACS Brief Remote across ages and educational levels. The APACS Brief Remote represents a useful tool to promote evidence-based tele-assessment practices in the domain of pragmatics, for instance for online follow-up assessment, in a vast range of clinical conditions that might cause communicative difficulties.

Published

2023

41. Trial-by-trial fluctuations of prestimulus alpha power predict post-stimulus amplitude of language ERPs

Author

Sara Lago, Rachele Pezzetta, Simone Gastaldon, Francesca Peressotti, and Giorgio Arcara

Abstract

Anticipatory mechanisms are known to play a key role in language, but they have been mostly investigated with violation paradigms, which only consider what happens after predictions have been (dis)confirmed. Relatively few studies focused on the prestimulus interval and found that stronger expectations are associated with lower prestimulus alpha power. However, alpha power also fluctuates spontaneously, in absence of experimental manipulations; and in the attention and perception domains, spontaneously low prestimulus power is associated with better behavioral performance and with ERPs with shorter latencies and higher amplitudes Importantly, little is known about the role of alpha fluctuations in other domains, as it is in language. To this aim, we investigated whether spontaneous fluctuations in prestimulus alpha power modulate language-related ERPs in a semantic congruence task. EEG data were analyzed using Generalized Additive Mixed Models to model non-linear interactions between prestimulus alpha power and EEG amplitude, at the single-trial level. We found that the N400 and the late posterior positivity/P600 were larger in the case of lower prestimulus alpha power. Still, while the N400 was observable regardless of the level of prestimulus power, a late posterior positivity/P600 effect was only observable for low prestimulus alpha power. We discuss these findings in light of the different, albeit connected, functional interpretations of prestimulus alpha and the ERPs according to both a non-predictive interpretation focused on attentional mechanisms and under a predictive processing framework.

Published

2023

42. Inefficient speech-motor control affects predictive speech comprehension: atypical electrophysiological correlates in stuttering

Author

Simone Gastaldon, Pierpaolo Busan, Giorgio Arcara, and Francesca Peressotti

Subjects

Cellular and Molecular Neuroscience, developmental stuttering, speech production, Cognitive Neuroscience, alpha-beta oscillations, N400, language prediction

Abstract

Listeners predict upcoming information during language comprehension. However, how this ability is implemented is still largely unknown. Here, we tested the hypothesis proposing that language production mechanisms have a role in prediction. We studied 2 electroencephalographic correlates of predictability during speech comprehension—pre-target alpha–beta (8–30 Hz) power decrease and the post-target N400 event-related potential effect—in a population with impaired speech-motor control, i.e. adults who stutter (AWS), compared to typically fluent adults (TFA). Participants listened to sentences that could either constrain towards a target word or not, modulating its predictability. As a complementary task, participants also performed context-driven word production. Compared to TFA, AWS not only displayed atypical neural responses in production, but, critically, they showed a different pattern also in comprehension. Specifically, while TFA showed the expected pre-target power decrease, AWS showed a power increase in frontal regions, associated with speech-motor control. In addition, the post-target N400 effect was reduced for AWS with respect to TFA. Finally, we found that production and comprehension power changes were positively correlated in TFA, but not in AWS. Overall, the results support the idea that processes and neural structures prominently devoted to speech planning also support prediction during speech comprehension.

Published

2023

43. Reduced connectivity of primary auditory and motor cortices during exposure to auditory white noise

Author

Mattia Pinardi, Anna-Lisa Schuler, Giorgio Arcara, Florinda Ferreri, Daniele Marinazzo, Giovanni Di Pino, and Giovanni Pellegrino

Subjects

Connectivity, Motor, White Noise, General Neuroscience, Magnetoencephalography, Auditory

Published

2023

44. 10 Dyslexia and Pragmatic Skills

Author

Gloria Cappelli, Sabrina Noccetti, Nicoletta Simi, Giorgio Arcara, and Valentina Bambini

Published

2022

45. Lexical Categories or Frequency Effects? A Feedback from Quantitative Methods Applied to Psycholinguistic Models in two Studies on Italian.

Author

Francesca Franzon, Giorgio Arcara, and Chiara Zanini

Published

2016

46. Biofeedback as an Adjunctive Treatment for Post-stroke Dysphagia: A Pilot-Randomized Controlled Trial

Author

Laura Ventura, Camilla Brisotto, Giorgio Arcara, Irene Battel, Isabella Koch, Sara Nordio, Marta Aspidistria, Diego Cazzador, Daniela D'Imperio, Angela Dellai, Andrea Turolla, Giulia Berta, Nordio S., Arcara G., Berta G., Dellai A., Brisotto C., Koch I., Cazzador D., Aspidistria M., Ventura L., Turolla A., D'Imperio D., and Battel I.

Subjects

medicine.medical_specialty, Settore M-PSI/02 - PSICOBIOLOGIA E PSICOLOGIA FISIOLOGICA, FEES, medicine.medical_treatment, Biofeedback, law.invention, Speech and Hearing, Swallowing, Quality of life, Randomized controlled trial, law, otorhinolaryngologic diseases, medicine, Humans, Stroke, Rehabilitation, business.industry, digestive, oral, and skin physiology, Gastroenterology, Biofeedback, Psychology, Dysphagia, medicine.disease, Deglutition, Treatment Outcome, Otorhinolaryngology, Adjunctive treatment, Quality of Life, Physical therapy, medicine.symptom, Deglutition Disorders, business

Abstract

Background and Purpose: Post-stroke dysphagia affects almost half of the survivors and severely influences quality of life, thus becoming swallowing rehabilitation of paramount importance. However, there is little adequate evidence on which the best rehabilitative strategy can be. Surface electromyography (sEMG) allows for recording swallowing muscles’ activity and provides real time visual feedback, as a biofeedback adjunctive technique to improve treatment outcome. This study aimed to analyze the effectiveness of biofeedback rehabilitation of swallowing through sEMG compared to standard techniques, in post-stroke dysphagia. Methods: A pilot-randomized controlled trial included 17 patients diagnosed with post-stroke dysphagia. Nine underwent sEMG-biofeedback rehabilitation; seven controls were submitted to control treatment, one dropout. The primary outcome was the functional oral intake scale (FOIS), secondary outcomes was pharyngeal clearance and safe swallowing, assessed through fiberoptic endoscopic evaluation of swallowing (FEES). Results: FOIS improved in all patients, regardless of treatment. sEMG-biofeedback rehabilitation led to improvements of the pharyngeal clearance and swallowing safety. The rehabilitative effects appeared stable at 2-months follow-up. Conclusions: The application of biofeedback based on sEMG in post-stroke dysphagia patients resulted in an effective rehabilitative technique, in particular for pharyngeal clearance improvements and safe swallowing, thus reducing the risk of aspiration and malnutrition.

Published

2021

47. Heterogeneity of effects of cognitive reserve on performance in probable Alzheimer’s disease and in subjective cognitive decline

Author

Sara Mondini, Sonia Montemurro, and Giorgio Arcara

Subjects

Intelligence quotient, Neuropsychology, Brain, Cognition, Disease, Neuropsychological Tests, Neuropsychology and Physiological Psychology, Cognitive Reserve, Alzheimer Disease, Humans, Cognitive Dysfunction, Effects of sleep deprivation on cognitive performance, Cognitive decline, Proxy (statistics), Psychology, Clinical psychology, Cognitive reserve

Abstract

Objective Cognitive reserve (CR) is a term used to describe the adaptability of cognitive processes to brain changes. It helps to explain the different cognitive adaptation to daily functioning in aging individuals and in individuals with brain pathology: a higher CR is associated with a delay in the manifestation of cognitive symptoms. CR is estimated using different proxies, such as education, cognitively stimulating life experiences, premorbid intelligence quotient (IQ), and vocabulary size. Despite the complexity of CR, little research to date has systematically focused on the heterogeneity of its effects. Method We investigated this issue in individuals with probable Alzheimer's Disease (AD) and in individuals with subjective cognitive decline (SCD) by focusing on two variables: (a) the type of CR proxy (i.e., Education and Life experience) and (b) the type of test used to assess cognitive performance (i.e., the Mini-Mental State Examination [MMSE] screening test and the extensive Brief Neuropsychological Examination-2 [ENB-2] test battery). Results Our results suggest that effects on CR varied: in individuals with probable AD, we found a positive relationship of Education with performance on both the MMSE and the ENB-2 tests; in contrast, individuals with SCD showed a positive relationship of a Life experience proxy selectively with the ENB-2 global score. Conclusions Different proxies may reflect different compensatory mechanisms of CR depending on task demand and on an individual's global cognitive condition. In particular, while the Education proxy can capture CR-related cognitive compensation in a pathological condition such as probable AD, the more complex Life experience proxy might be useful for capturing CR-related effects when signs of deterioration are subtle, like in SCD. (PsycInfo Database Record (c) 2021 APA, all rights reserved).

Published

2021

48. Magnetoencephalography reveals differences in brain activations for fast and slow responses to simple multiplications

Author

Silvia Formica, Giorgio Arcara, Carlo Semenza, Rachele Pezzetta, Cristina Turco, Silvia Benavides-Varela, Francesco Piccione, and G. Rizzi

Subjects

Adult, Male, Computer science, Science, Neuroimaging, Operand, Article, Young Adult, Dorsolateral Prefrontal Cortex, Simple (abstract algebra), Parietal Lobe, medicine, Cluster Analysis, Humans, Psychology, Nervous System Physiological Phenomena, Behavior, Brain Mapping, Multidisciplinary, medicine.diagnostic_test, Neuropsychology, Neurosciences, Brain, Magnetoencephalography, Neurophysiology, Magnetic Resonance Imaging, Healthy Volunteers, Task (computing), Medicine, Multiplication, Female, Neuroscience, Mathematics

Abstract

Despite decades of studies, it is still an open question on how and where simple multiplications are solved by the brain. This fragmented picture is mostly related to the different tasks employed. While in neuropsychological studies patients are asked to perform and report simple oral calculations, neuroimaging and neurophysiological studies often use verification tasks, in which the result is shown, and the participant must verify the correctness. This MEG study aims to unify the sources of evidence, investigating how brain activation unfolds in time using a single-digit multiplication production task. We compared the participants' brain activity—focusing on the parietal lobes—based on response efficiency, dividing their responses in fast and slow. Results showed higher activation for fast, as compared to slow, responses in the left angular gyrus starting after the first operand, and in the right supramarginal gyrus only after the second operand. A whole-brain analysis showed that fast responses had higher activation in the right dorsolateral prefrontal cortex. We show a timing difference of both hemispheres during simple multiplications. Results suggest that while the left parietal lobe may allow an initial retrieval of several possible solutions, the right one may be engaged later, helping to identify the solution based on magnitude checking.

Published

2021

49. Principles, objectives and settings

Author

Sara Mondini, Marinella Cappelletti, and Giorgio Arcara

Published

2022

50. Psychometric assessment and neuropsychological tests

Author

Sara Mondini, Marinella Cappelletti, and Giorgio Arcara

Published

2022