Your search keyword '"Rossi, Simone"' showing total 26 results

1. Neural correlates of N-back task performance and proposal for corresponding neuromodulation targets in psychiatric and neurodevelopmental disorders.

Author

Mencarelli, Lucia, Romanella, Sara M., Di Lorenzo, Giorgio, Demchenko, Ilya, Bhat, Venkat, Rossi, Simone, and Santarnecchi, Emiliano

Subjects

MENTAL illness, TASK performance, ATTENTION-deficit hyperactivity disorder, BIPOLAR disorder, PARIETAL lobe

Abstract

Copyright of Psychiatry & Clinical Neurosciences is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

2. Optical Manipulation of the Rashba Effect in Germanium Quantum Wells.

Author

Rossi, Simone, Talamas Simola, Enrico, Raimondo, Marta, Acciarri, Maurizio, Pedrini, Jacopo, Balocchi, Andrea, Marie, Xavier, Isella, Giovanni, and Pezzoli, Fabio

Subjects

*RASHBA effect, *GERMANIUM, *PIN diodes, *STARK effect, *QUANTUM wells, *CIRCULAR polarization

Abstract

The Rashba effect in Ge/Si0.15Ge0.85 multiple quantum wells embedded in a p‐i‐n diode is studied through polarization and time‐resolved photoluminescence. In addition to a sizeable redshift arising from the quantum‐confined Stark effect, a threefold enhancement of the circular polarization degree of the direct transition is obtained by increasing the pump power over a 2 kW cm−2 range. This marked variation reflects an efficient modulation of the spin population and is further supported by dedicated investigations of the indirect gap transition. This study demonstrates a viable strategy to engineer the spin‐orbit Hamiltonian through contactless optical excitation and opens the way toward the electro‐optical manipulation of spins in quantum devices based on group‐IV heterostructures. [ABSTRACT FROM AUTHOR]

Published

2022

3. Mindfulness‐based stress reduction training modulates striatal and cerebellar connectivity.

Author

Santarnecchi, Emiliano, Egiziano, Eutizio, D'Arista, Sicilia, Gardi, Concetta, Romanella, Sara M., Mencarelli, Lucia, Rossi, Simone, Reda, Mario, and Rossi, Alessandro

Published

2021

4. Impact of network‐targeted multichannel transcranial direct current stimulation on intrinsic and network‐to‐network functional connectivity.

Author

Mencarelli, Lucia, Menardi, Arianna, Neri, Francesco, Monti, Lucia, Ruffini, Giulio, Salvador, Ricardo, Pascual‐Leone, Alvaro, Momi, Davide, Sprugnoli, Giulia, Rossi, Alessandro, Rossi, Simone, and Santarnecchi, Emiliano

Published

2020

5. Stimuli, presentation modality, and load‐specific brain activity patterns during n‐back task.

Author

Mencarelli, Lucia, Neri, Francesco, Momi, Davide, Menardi, Arianna, Rossi, Simone, Rossi, Alessandro, and Santarnecchi, Emiliano

Subjects

FUNCTIONAL magnetic resonance imaging, POSITRON emission tomography, BRAIN stimulation, COGNITIVE training, SHORT-term memory

Abstract

Working memory (WM) refers to a set of cognitive processes that allows for the temporary storage and manipulation of information, crucial for everyday life skills. WM deficits are present in several neurological, psychiatric, and neurodevelopmental disorders, thus making the full understanding of its neural correlates a key aspect for the implementation of cognitive training interventions. Here, we present a quantitative meta‐analysis focusing on the underlying neural substrates upon which the n‐back, one of the most commonly used tasks for WM assessment, is believed to rely on, as highlighted by functional magnetic resonance imaging and positron emission tomography findings. Relevant published work was scrutinized through the activation likelihood estimate (ALE) statistical framework in order to generate a set of task‐specific activation maps, according to n‐back difficulty. Our results confirm the known involvement of frontoparietal areas across different types of n‐back tasks, as well as the recruitment of subcortical structures, cerebellum and precuneus. Specific activations maps for four stimuli types, six presentation modalities, three WM loads and their combination are provided and discussed. Moreover, functional overlap with resting‐state networks highlighted a strong similarity between n‐back nodes and the Dorsal Attention Network, with less overlap with other networks like Salience, Language, and Sensorimotor ones. Additionally, neural deactivations during n‐back tasks and their functional connectivity profile were examined. Clinical and functional implications are discussed in the context of potential noninvasive brain stimulation and cognitive enhancement/rehabilitation programs. [ABSTRACT FROM AUTHOR]

Published

2019

6. Thalamic morphometric changes induced by first‐person action videogame training.

Author

Momi, Davide, Smeralda, Carmelo, Sprugnoli, Giulia, Neri, Francesco, Rossi, Simone, Rossi, Alessandro, Di Lorenzo, Giorgio, and Santarnecchi, Emiliano

Subjects

THALAMIC nuclei, MAGNETIC resonance imaging

Abstract

Cross‐sectional data suggest videogaming as promoting modifications in perceptual and cognitive skills of players, as well as inducing structural brain changes. However, whether such changes are both possible after a systematic gaming exposure, and last beyond the training period, is not known. Here, we originally quantified immediate and long‐lasting cognitive and morphometric impact of a systematic gaming experience on a first‐person shooter (FPS) game. Thirty‐five healthy participants, assigned to a videogaming and a control group, underwent a cognitive assessment and structural magnetic resonance imaging at baseline (T0), immediately post‐gaming (T1) and after  3 months (T2). Enhancements of cognitive performance were found on perceptual and attentional measures at both T1 and T2. Morphometric analysis revealed immediate structural changes involving bilateral medial and posterior thalamic nuclei, as well as bilateral superior temporal gyrus, right precentral gyrus, and left middle occipital gyrus. Notably, significant changes in pulvinar volume were still present at T2, while a voxel‐wise regression analysis also linked baseline pulvinar volume and individual changes in gaming performance. Present findings extend over the notion that videogame playing might impact cognitive and brain functioning in a beneficial way, originally showing long‐term brain structural changes even months after gaming practice. The involvement of posterior thalamic structures highlights a potential link between FPS games and thalamo‐cortical networks related to attention mechanisms and multisensory integration processing. [ABSTRACT FROM AUTHOR]

Published

2019

7. Modulation of network‐to‐network connectivity via spike‐timing‐dependent noninvasive brain stimulation.

Author

Santarnecchi, Emiliano, Momi, Davide, Sprugnoli, Giulia, Neri, Francesco, Pascual‐Leone, Alvaro, Rossi, Alessandro, and Rossi, Simone

Abstract

Human cognitive abilities and behavior are linked to functional coupling of many brain regions organized in distinct networks. Gaining insights on the role those networks' dynamics play in cognition and pathology requires their selective, reliable, and reversible manipulation. Here we document the possibility to manipulate the interplay between two brain networks in a controlled manner, by means of a Transcranial Magnetic Stimulation (TMS) protocol inducing spike timing dependent plasticity (STDP). Pairs of TMS pulses at specific inter‐stimulus intervals, repeatedly delivered over two negatively correlated nodes of the default mode network (DMN) and the task‐positive network (TPN) defined on the basis of individual functional magnetic resonance imaging (fMRI) data, induced a modulation of network‐to‐network connectivity, even reversing correlation from negative to slightly positive in 30% of cases. Results also suggest a baseline‐dependent effect, with a greater connectivity modulation observed in participants with weaker between‐networks connectivity strength right before TMS. Finally, modulation of task‐evoked fMRI activity patterns during a sustained attention task was also observed after stimulation, with a faster or slower switch between rest and task blocks according to the timing of TMS pulses. The present findings promote paired associative TMS as a promising technique for controlled manipulation of fMRI connectivity dynamics in humans, as well as the causal investigation of brain‐behavior relations. [ABSTRACT FROM AUTHOR]

Published

2018

8. Midfrontal theta transcranial alternating current stimulation modulates behavioural adjustment after error execution.

Author

Fusco, Gabriele, Scandola, Michele, Feurra, Matteo, Pavone, Enea F., Rossi, Simone, and Aglioti, Salvatore M.

Subjects

TRANSCRANIAL alternating current stimulation, COGNITIVE ability, ELECTROENCEPHALOGRAPHY, CEREBRAL cortex, STIMULUS & response (Psychology)

Abstract

Cognitive control during conflict monitoring, error processing, and post‐error adjustment appear to be associated with the occurrence of midfrontal theta (MFϴ). While this association is supported by correlational EEG studies, much less is known about the possible causal link between MFϴ and error and conflict processing. In the present study, we aimed to explore the role of band‐specific effects in modulating the error system during a conflict resolution. In turn, we delivered transcranial alternating current stimulation (tACS) at different frequency bands (delta δ, theta θ, alpha α, beta β, gamma γ) and sham stimulation over the medial frontal cortex (MFC) in 36 healthy participants performing a modified version of the Flanker task. Task performance and reports about the sensations (e.g. visual flickering, cutaneous burning) induced by the different frequency bands, were also recorded. We found that online θ‐tACS increased the response speed to congruent stimuli after error execution with respect to sham stimulation. Importantly, the accuracy following the errors did not decrease because of speed‐accuracy trade off. Moreover, tACS evoked visual and somatosensory sensations were significantly stronger at α‐tACS and β‐tACS compared to other frequencies. Our findings suggest that theta activity plays a causative role in modulating behavioural adjustments during perceptual choices in a stimulus‐response conflict task. In the present study we aimed to explore the effects of transcranial Alternating Current Stimulation in modulating the error monitoring system during the Flanker task performance. We found that 6 Hz‐tACS applied over the medial frontal cortex increased the response speed to congruent stimuli after error execution with respect to sham stimulation. Our findings highlight the causative role of theta activity in modulating behavioural adjustments during conflicting perceptual choices. [ABSTRACT FROM AUTHOR]

Published

2018

9. EEG oscillations during caress‐like affective haptic elicitation.

Author

Valenza, Gaetano, Greco, Alberto, Bianchi, Matteo, Nardelli, Mimma, Rossi, Simone, and Scilingo, Enzo Pasquale

Subjects

ELECTROENCEPHALOGRAPHY, ELICITATION technique, TOUCH, SOMATOSENSORY cortex, IMMUNOSUPPRESSION

Abstract

Abstract: Noninvasive, objective quantitative techniques to gauge emotional states are fundamental for clinical psychology as they overcome subjective bias of currently used questionnaires. To this end, we investigated brain oscillatory EEG activity during caresslike, affective haptic elicitation conveyed on the forearm at two force (strength of the caress) and three velocity (velocity of the caress) levels. Thirty‐two healthy subjects (16 female) were asked to assess each haptic stimulus in terms of arousal (i.e., intensity of emotional perception) and valence (i.e., pleasantness/unpleasantness of emotional perception) scores, according to the circumplex model of affect. Changes in brain oscillations were quantified through spectral and functional connectivity analyses. EEG power spectra were estimated through the individual α frequency peak. Results, expressed in terms of p‐value topographic maps, revealed a suppression of α, β, and γ oscillations over the contralateral somatosensory cortex during unpleasant caresses performed with the lowest force (2 N) and the highest velocity (65 mm/s). Conversely, pleasant caresses at the highest force were associated with a significant decrease of EEG oscillatory activity over the midfrontal region, at frequency bands including α, β, and γ. A correlation analysis showed that EEG γ power from the somatosensory area was linked to caressing force. The more unpleasant the affective cutaneous stimuli, the more the brain dynamics decrease in activity all over the scalp, primarily showing a suppression of α power over the midfrontal cortex. These results also pave the way for the design of haptic systems eliciting a given emotional state. [ABSTRACT FROM AUTHOR]

Published

2018

10. A dynamic variational multiscale method for viscoelasticity using linear tetrahedral elements.

Author

Zeng, Xianyi, Scovazzi, Guglielmo, Abboud, Nabil, Colomés, Oriol, and Rossi, Simone

Subjects

VISCOELASTIC materials, FINITE element method, DEFORMATIONS (Mechanics), ELASTODYNAMICS, MATHEMATICAL models of engineering

Abstract

In this article, we develop a dynamic version of the variational multiscale (D-VMS) stabilization for nearly/fully incompressible solid dynamics simulations of viscoelastic materials. The constitutive models considered here are based on Prony series expansions, which are rather common in the practice of finite element simulations, especially in industrial/commercial applications. Our method is based on a mixed formulation, in which the momentum equation is complemented by a pressure equation in rate form. The unknown pressure, displacement, and velocity are approximated with piecewise linear, continuous finite element functions. To prevent spurious oscillations, the pressure equation is augmented with a stabilization operator specifically designed for viscoelastic problems, in that it depends on the viscoelastic dissipation. We demonstrate the robustness, stability, and accuracy properties of the proposed method with extensive numerical tests in the case of linear and finite deformations. [ABSTRACT FROM AUTHOR]

Published

2017

11. Individual and sex-related differences in pain and relief responsiveness are associated with differences in resting-state functional networks in healthy volunteers.

Author

Galli, Giulia, Santarnecchi, Emiliano, Feurra, Matteo, Bonifazi, Marco, Rossi, Simone, Paulus, Martin P., Rossi, Alessandro, and Barrot, Michel

Subjects

PHYSIOLOGICAL aspects of pain, PAIN measurement, SEX differences (Biology), BRAIN physiology, FUNCTIONAL magnetic resonance imaging, COGNITIVE testing

Abstract

Pain processing is associated with neural activity in a number of widespread brain regions. Here, we investigated whether functional connectivity at rest between these brain regions is associated with individual and sex-related differences in thermal pain and relief responsiveness. Twenty healthy volunteers (ten females) were scanned with functional magnetic resonance imaging in resting conditions. Half an hour after scanning, we administered thermal pain on the back of their right hand and collected pain and relief ratings in two separate runs of twelve stimuli each. Across the whole group, mean pain ratings were associated with decreased connectivity at rest between brain regions belonging to the default mode and the visual resting-state network. In men, pain measures correlated with increased connectivity within the visual resting-state network. In women, in contrast, decreased connectivity between this network and parietal and prefrontal brain regions implicated in affective cognitive control were associated with both pain and relief ratings. Our findings indicate that the well documented individual variability and sex differences in pain sensitivity may be explained, at least in part, by network dynamics at rest in these brain regions. [ABSTRACT FROM AUTHOR]

Published

2016

12. Intelligence-related differences in the asymmetry of spontaneous cerebral activity.

Author

Santarnecchi, Emiliano, Tatti, Elisa, Rossi, Simone, Serino, Vinicio, and Rossi, Alessandro

Abstract

Recent evidence suggests the spontaneous BOLD signal synchronization of corresponding interhemispheric, homotopic regions as a stable trait of human brain physiology, with emerging differences in such organization being also related to some pathological conditions. To understand whether such brain functional symmetries play a role into higher-order cognitive functioning, here we correlated the functional homotopy profiles of 119 healthy subjects with their intelligence level. Counterintuitively, reduced homotopic connectivity in above average-IQ versus average-IQ subjects was observed, with significant reductions in visual and somatosensory cortices, supplementary motor area, rolandic operculum, and middle temporal gyrus, possibly suggesting that a downgrading of interhemispheric talk at rest could be associated with higher cognitive functioning. These regions also showed an increased spontaneous synchrony with medial structures located in ipsi- and contralateral hemispheres, with such pattern being mostly detectable for regions placed in the left hemisphere. The interactions with age and gender have been also tested, with different patterns for subjects above and below 25 years old and less homotopic connectivity in the prefrontal cortex and posterior midline regions in female participants with higher IQ scores. These findings support prior evidence suggesting a functional role for homotopic connectivity in human cognitive expression, promoting the reduction of synchrony between primary sensory regions as a predictor of higher intelligence levels. Hum Brain Mapp 36:3586-3602, 2015. © 2015 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2015

13. The Contribution of Agriculture, Forestry and other Land Use activities to Global Warming, 1990-2012.

Author

Tubiello, Francesco N., Salvatore, Mirella, Ferrara, Alessandro F., House, Jo, Federici, Sandro, Rossi, Simone, Biancalani, Riccardo, Condor Golec, Rocio D., Jacobs, Heather, Flammini, Alessandro, Prosperi, Paolo, Cardenas‐Galindo, Paola, Schmidhuber, Josef, Sanz Sanchez, Maria J., Srivastava, Nalin, and Smith, Pete

Subjects

GLOBAL warming, AGRICULTURAL research, FORESTRY research, LAND use, EMISSIONS (Air pollution), GREENHOUSE gases & the environment, HISTORY

Abstract

We refine the information available through the IPCC AR5 with regard to recent trends in global GHG emissions from agriculture, forestry and other land uses ( AFOLU), including global emission updates to 2012. Using all three available AFOLU datasets employed for analysis in the IPCC AR5, rather than just one as done in the IPCC AR5 WGIII Summary for Policy Makers, our analyses point to a down-revision of global AFOLU shares of total anthropogenic emissions, while providing important additional information on subsectoral trends. Our findings confirm that the share of AFOLU emissions to the anthropogenic total declined over time. They indicate a decadal average of 28.7 ± 1.5% in the 1990s and 23.6 ± 2.1% in the 2000s and an annual value of 21.2 ± 1.5% in 2010. The IPCC AR5 had indicated a 24% share in 2010. In contrast to previous decades, when emissions from land use (land use, land use change and forestry, including deforestation) were significantly larger than those from agriculture (crop and livestock production), in 2010 agriculture was the larger component, contributing 11.2 ± 0.4% of total GHG emissions, compared to 10.0 ± 1.2% of the land use sector. Deforestation was responsible for only 8% of total anthropogenic emissions in 2010, compared to 12% in the 1990s. Since 2010, the last year assessed by the IPCC AR5, new FAO estimates indicate that land use emissions have remained stable, at about 4.8 Gt CO2 eq yr−1 in 2012. Emissions minus removals have also remained stable, at 3.2 Gt CO2 eq yr−1 in 2012. By contrast, agriculture emissions have continued to grow, at roughly 1% annually, and remained larger than the land use sector, reaching 5.4 Gt CO2 eq yr−1 in 2012. These results are useful to further inform the current climate policy debate on land use, suggesting that more efforts and resources should be directed to further explore options for mitigation in agriculture, much in line with the large efforts devoted to REDD+ in the past decade. [ABSTRACT FROM AUTHOR]

Published

2015

14. Safe use of statins in elderly people.

Author

Westaway, Kerrie P., Frank, Oliver R., Husband, Alan J., Rowett, Debra, Rossi, Simone, L. Blanc, Tammy, and Shute, Russell

Abstract

Multiple medicine use is common in older Australians, with statins (hydroxymethylglutaryl coenzyme A reductase inhibitors) being among the most commonly prescribed. While there is significant evidence that statins are of benefit in people at higher levels of cardiovascular risk, the risk-benefit ratio is less assured in those 80 years and older. High doses or high-potency statins in elderly people may not increase effectiveness, but may increase the risk of adverse effects such as muscle-related aches, pains and weakness. Hence, statin use in the elderly requires frequent review and consideration of their therapeutic goals, quality of life, risk-benefit ratio and life expectancy. This paper outlines steps to consider when an older person who is prescribed a statin experiences unexplained muscle-related aches and pains or weakness. [ABSTRACT FROM AUTHOR]

Published

2014

15. Efficiency of weak brain connections support general cognitive functioning.

Author

Santarnecchi, Emiliano, Galli, Giulia, Polizzotto, Nicola Riccardo, Rossi, Alessandro, and Rossi, Simone

Abstract

Brain network topology provides valuable information on healthy and pathological brain functioning. Novel approaches for brain network analysis have shown an association between topological properties and cognitive functioning. Under the assumption that 'stronger is better', the exploration of brain properties has generally focused on the connectivity patterns of the most strongly correlated regions, whereas the role of weaker brain connections has remained obscure for years. Here, we assessed whether the different strength of connections between brain regions may explain individual differences in intelligence. We analyzed-functional connectivity at rest in ninety-eight healthy individuals of different age, and correlated several connectivity measures with full scale, verbal, and performance Intelligent Quotients (IQs). Our results showed that the variance in IQ levels was mostly explained by the distributed communication efficiency of brain networks built using moderately weak, long-distance connections, with only a smaller contribution of stronger connections. The variability in individual IQs was associated with the global efficiency of a pool of regions in the prefrontal lobes, hippocampus, temporal pole, and postcentral gyrus. These findings challenge the traditional view of a prominent role of strong functional brain connections in brain topology, and highlight the importance of both strong and weak connections in determining the functional architecture responsible for human intelligence variability. Hum Brain Mapp 35:4566-4582, 2014. © 2014 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2014

16. Orthotropic active strain models for the numerical simulation of cardiac biomechanics.

Author

Rossi, Simone, Ruiz-Baier, Ricardo, Pavarino, Luca F., and Quarteroni, Alfio

Subjects

*MYOCARDIUM, *LAGRANGE equations, *DEFORMATIONS (Mechanics), *HEART cells, *PHYSIOLOGICAL stress

Abstract

SUMMARY A model for the active deformation of cardiac tissue considering orthotropic constitutive laws is introduced and studied. In particular, the passive mechanical properties of the myocardium are described by the Holzapfel-Ogden relation, whereas the activation model is based on the concept of active strain. There, an incompatible intermediate configuration is considered, which entails a multiplicative decomposition between active and passive deformation gradients. The underlying Euler-Lagrange equations for minimizing the total energy are written in terms of these deformation factors, where the active part is assumed to depend, at the cell level, on the electrodynamics and on the specific orientation of the cardiomyocytes. The active strain formulation is compared with the classical active stress model from both numerical and modeling perspectives. The well-posedness of the linear system derived from a generic Newton iteration of the original problem is analyzed, and different mechanical activation functions are considered. Taylor-Hood and MINI finite elements are used in the discretization of the overall mechanical problem. The results of several numerical experiments show that the proposed formulation is mathematically consistent and is able to represent the main features of the phenomenon, while allowing savings in computational costs. Copyright © 2012 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2012

17. New perspectives on techniques for the clinical psychiatrist: Brain stimulation, chronobiology and psychiatric brain imaging.

Author

Zanardi, Raffaella, Barbini, Barbara, Rossini, David, Bernasconi, Alessandro, Fregni, Felipe, Padberg, Frank, Rossi, Simone, Wirz‐Justice, Anna, Terman, Michael, Martiny, Klaus, Bersani, Giuseppe, Hariri, Ahmad R., Pezawas, Lukas, Roiser, Jonathan P., Bertolino, Alessandro, Calabrese, Giovanna, Magri, Lorenzo, Benedetti, Francesco, Pontiggia, Adriana, and Malaguti, Alessia

Subjects

AFFECTIVE disorders, CHRONOBIOLOGY, BRAIN imaging, TRANSCRANIAL magnetic stimulation, DRUG efficacy, PSYCHIATRISTS, TRAINING, THERAPEUTICS

Abstract

This review summarizes a scientific dialogue between representatives in non-pharmacological treatment options of affective disorders. Among the recently introduced somatic treatments for depression those with most evidenced efficacy will be discussed. The first part of this article presents current opinions about the clinical applications of transcranial magnetic stimulation in the treatment of depression. The second part explains the most relevant uses of chronobiology in mood disorders, while the last part deals with the main perspectives on brain imaging techniques in psychiatry. The aim was to bridge gaps between the research evidence and clinical decisions, and reach an agreement on several key points of chronobiological and brain stimulation techniques, as well as on relevant objectives for future research. [ABSTRACT FROM AUTHOR]

Published

2008

18. Modulation of high-frequency (600 Hz) somatosensory-evoked potentials after rTMS of the primary sensory cortex.

Author

Restuccia, Domenico, Ulivelli, Monica, De Capua, Alberto, Bartalini, Sabina, and Rossi, Simone

Subjects

SOMATOSENSORY evoked potentials, EVOKED potentials (Electrophysiology), NEURAL stimulation, TRANSCRANIAL magnetic stimulation, MEDICAL research, ELECTROPHYSIOLOGY

Abstract

Somatosensory inputs to the primary sensory cortex (S1) after median nerve stimulation include temporally overlapping parallel processing, as reflected by standard low-frequency somatosensory-evoked potentials (LF-SEPs) and high-frequency SEPs (HF-SEPs), the latter being more sensitive to arousal and to other rapid adaptive changes. Experimental data suggest that cortical HF-SEPs are formed by two successive pre- and postsynaptic components, respectively, generated in the terminal part of thalamo-cortical radiation (early burst) and in specialized neuronal pools within S1 (later burst). In eight healthy subjects, slow (1 Hz) or rapid (10 Hz) repetitive transcranial magnetic stimulations (rTMS), which are known to induce opposite changes on cortical excitability, applied on S1 did not modify LF-SEPs, while HF-SEPs showed a series of dissociate changes in the early and later high-frequency burst, moreover occurring with a different time-course. Slow rTMS caused an immediate and lasting decrease of the later burst activity, coupled with an immediate increase of the earlier part of the burst, suggesting that inhibition of cortical excitability triggered opposite, compensatory effects at subcortical levels; rapid rTMS induced a delayed increase of later HF-SEPs, leaving unaltered the earlier subcortical burst. Findings causally demonstrate that LF- and HF-SEPs reflect two distinct functional pathways for somatosensory input processing, and that early and late high-frequency burst do actually reflect the activity of different generators, as suggested by experimental data. Possible underlying neurophysiological phenomena are discussed. [ABSTRACT FROM AUTHOR]

Published

2007

19. Slow Repetitive TMS for Drug-resistant Epilepsy: Clinical and EEG Findings of a Placebo-controlled Trial.

Author

Cantello, Roberto, Rossi, Simone, Varrasi, Claudia, Ulivelli, Monica, Civardi, Carlo, Bartalini, Sabina, Vatti, Giampaolo, Cincotta, Massimo, Borgheresi, Alessandra, Zaccara, Gaetano, Quartarone, Angelo, Crupi, Domenica, Laganà, Angela, Inghilleri, Maurizio, Giallonardo, Anna Teresa, Berardelli, Alfredo, Pacifici, Loredana, Ferreri, Florinda, Tombini, Mario, and Gilio, Francesca

Subjects

*TRANSCRANIAL magnetic stimulation, *EPILEPSY, *DEVELOPMENTAL disabilities, *BRAIN diseases, *PLACEBOS, *ELECTROENCEPHALOGRAPHY, *SEIZURES (Medicine), *SPASMS, *MOTOR cortex

Abstract

Purpose: To assess the effectiveness of slow repetitive transcranial magnetic stimulation (rTMS) as an adjunctive treatment for drug-resistant epilepsy. Methods: Forty-three patients with drug-resistant epilepsy from eight Italian Centers underwent a randomized, double-blind, sham-controlled, crossover study on the clinical and EEG effects of slow rTMS. The stimulus frequency was 0.3 Hz. One thousand stimuli per day were given at the resting motor threshold intensity for 5 consecutive days, with a round coil at the vertex. Results:“Active” rTMS was no better than placebo for seizure reduction. However, it decreased interictal EEG epileptiform abnormalities significantly (p < 0.05) in one-third of the patients, which supports a detectable biologic effect. No correlation linked the rTMS effects on seizure frequency to syndrome or anatomic classification, seizure type, EEG changes, or resting motor threshold (an index of motor cortex excitability). Conclusions: Although the antiepileptic action was not significant (p > 0.05), the individual EEG reactivity to “active” rTMS may be encouraging for the development of more-powerful, noninvasive neuromodulatory strategies. [ABSTRACT FROM AUTHOR]

Published

2007

20. Prefrontal and parietal cortex in human episodic memory: an interference study by repetitive transcranial magnetic stimulation.

Author

Rossi, Simone, Pasqualetti, Patrizio, Zito, Giancarlo, Vecchio, Fabrizio, Cappa, Stefano F., Miniussi, Carlo, Babiloni, Claudio, and Rossini, Paolo M.

Subjects

*LEARNING, *MEMORY, *PREFRONTAL cortex, *TRANSCRANIAL magnetic stimulation, *CEREBRAL dominance, *CEREBRAL sulci, *BRAIN stimulation

Abstract

Neuroimaging findings, including repetitive transcranial magnetic stimulation (rTMS) interference, point to an engagement of prefrontal cortex (PFC) in learning and memory. Whether parietal cortex (PC) activity is causally linked to successful episodic encoding and retrieval is still uncertain. We compared the effects of event-related active or sham rTMS (a rapid-rate train coincident to the very first phases of memoranda presentation) to the left or right intraparietal sulcus, during a standardized episodic memory task of visual scenes, with those obtained in a fully matched sample of subjects who received rTMS on left or right dorsolateral PFC during the same task. In these subjects, specific hemispheric effects of rTMS included interference with encoding after left stimulation and disruption of retrieval after right stimulation. The interference of PC-rTMS on encoding/retrieval performance was negligible, lacking specificity even when higher intensities of stimulation were applied. However, right PC-rTMS of the same intensity lengthened reaction times in the context of a purely attentive visuospatial task. These results suggest that the activity of intraparietal sulci shown in several funtional magnetic resonance studies on memory, unlike that of the dorsolateral PFC, is not causally engaged to a useful degree in memory encoding and retrieval of visual scenes. The parietal activations accompanying the memorization processes could reflect the engagement of a widespread brain attentional network, in which interference on a single ‘node’ is insufficient for an overt disruption of memory performance. [ABSTRACT FROM AUTHOR]

Published

2006

21. The role of cutaneous inputs during magnetic transcranial stimulation.

Author

Rossini, Paolo M., Tecchio, Franca, Sabato, Alessandro, Finazzi-Agrò, Alessandro, Pasqualetti, Patrizio, Rossi, Simone, Rossini, P M, Tecchio, F, Sabato, A, Finazzi-Agrò, A, Pasqualetti, P, and Rossi, S

Published

1996

22. Known and unknown risks.

Author

Patterson, Craig and Rossi, Simone

Subjects

*DRUG side effects, *CRITICAL care medicine, *MARKETING, *MEDICAL personnel, *MEDICATION errors, *NIFEDIPINE, *PATIENT safety, *INAPPROPRIATE prescribing (Medicine)

Abstract

An editorial is presented which discusses the improvement in procedures for high-risk medicines. It cites on the trade-off between potential benefits and harms in any medicine which considered favourable. The editorial also discusses the evidence for efficacy and safety and must be submitted to the regulator for approval.

Published

2018

23. A transmurally heterogeneous orthotropic activation model for ventricular contraction and its numerical validation.

Author

Barbarotta, Luca, Rossi, Simone, Dedè, Luca, and Quarteroni, Alfio

Subjects

*MUSCLE contraction, *MYOCARDIUM, *LEFT heart ventricle, *ORTHOTROPY (Mechanics), *FINITE element method, *SHEARING force, *STRAINS & stresses (Mechanics)

Abstract

Models for cardiac mechanics require an activation mechanism properly representing the stress‐strain relations in the contracting myocardium. In this paper, we propose a new activation model that accounts for the transmural heterogeneities observed in myocardial strain measurements. In order to take the anisotropy of the active mechanics into account, our model is based on an active strain formulation. Thanks to multiplicative decomposition of the deformation gradient tensor, in this formulation, the active strains orthogonal to the fibers can be naturally described. We compare the results of our novel formulation against different anisotropic models of the active contraction of the cardiac muscle, as well as against experimental data available in the literature. We show that with the currently available models, the strain distributions are not in agreement with the reported experimental measurements. Conversely, we show that our new transmurally heterogeneous orthotropic activation model improves the accuracy of shear strains related to in‐plane rotations and torsion. In this work, we propose a novel transmurally heterogeneous orthotropic model based on an active strain formulation that is able to improve the prediction of the strains of current mechanical models of the left ventricle. The proposed model is able to describe the physiological cardiac function with fiber contraction within the physiological range. The model has been validated against experimental data and measurements, a recent active stress formulation and other active strain models. [ABSTRACT FROM AUTHOR]

Published

2018

24. Active strain and activation models in cardiac electromechanics.

Author

Rossi, Simone, Ruiz-Baier, Ricardo, Pavarino, Luca F., and Quarteroni, Alfio

Published

2011

25. Death and morbidity from supratherapeutic dosing of colchicine.

Author

Buckley NA, Rossi SO, Buckley, Nicholas A, and Rossi, Simone O P

Published

2011

26. Hands-feet wireless devices: Test-retest reliability and discriminant validity of motor measures in Parkinson's disease telemonitoring.

Author

Maremmani C, Rovini E, Salvadori S, Pecori A, Pasquini J, Ciammola A, Rossi S, Berchina G, Monastero R, and Cavallo F

Subjects

Foot, Gait, Humans, Reproducibility of Results, Parkinson Disease diagnosis, Wearable Electronic Devices

Abstract

Background: Telemonitoring, a branch of telemedicine, involves the use of technological tools to remotely detect clinical data and evaluate patients. Telemonitoring of patients with Parkinson's disease (PD) should be performed using reliable and discriminant motor measures. Furthermore, the method of data collection and transmission, and the type of subjects suitable for telemonitoring must be well defined., Objective: To analyze differences in patients with PD and healthy controls (HC) with the wearable inertial device SensHands-SensFeet (SH-SF), adopting a standardized acquisition mode, to verify if motor measures provided by SH-SF have a high discriminating capacity and high intraclass correlation coefficient (ICC)., Methods: Altogether, 64 patients with mild-to-moderate PD and 50 HC performed 14 standardized motor activities for assessing bradykinesia, postural and resting tremors, and gait parameters. SH-SF inertial devices were used to acquire movements and calculate objective motor measures of movement (total: 75). For each motor task, five or more biomechanical parameters were measured twice. The results were compared between patients with PD and HC., Results: Fifty-eight objective motor measures significantly differed between patients with PD and HC; among these, 32 demonstrated relevant discrimination power (Cohen's d > 0.8). The test-retest reliability was excellent in patients with PD (median ICC = 0.85 right limbs, 0.91 left limbs) and HC (median ICC = 0.78 right limbs, 0.82 left limbs)., Conclusion: In a supervised environment, the SH-SF device provides motor measures with good results in terms of reliability and discriminant ability. The reliability of SH-SF measurements should be evaluated in an unsupervised home setting in future studies., (© 2022 The Authors. Acta Neurologica Scandinavica published by John Wiley & Sons Ltd.)

Published

2022