Your search keyword '"Ponticorvo S"' showing total 14 results

1. S111: BRAIN PERFUSION CHANGES IN BETA-THALASSEMIA

Author

Manara, R, primary, Ponticorvo, S, additional, Tartaglione, I, additional, Canna, A, additional, Russo, A, additional, Fedele, M, additional, Rocco, M, additional, Cirillo, M, additional, Perrotta, S, additional, and Esposito, F, additional

Published

2022

2. P.0628 Found in translation: Cocaine craving drives connectivity alterations in fronto-striatal-thalamic-frontal network accompanied by accumbal glutamate disruptions

Author

Engeli, E., primary, Ponticorvo, S., additional, Russo, A.G., additional, Zoelch, N., additional, Hock, A., additional, Hulka, L.M., additional, Kirschner, M., additional, Preller, K.H., additional, Esposito, F., additional, and Herdener, M., additional

Published

2021

3. Magnetic resonance T1w/T2w ratio and voxel-based morphometry in multiple system atrophy

Author

Ponticorvo, S., primary, Manara, R., additional, Russillo, M. C., additional, Erro, R., additional, Picillo, M., additional, Di Salle, G., additional, Di Salle, F., additional, Barone, P., additional, Esposito, F., additional, and Pellecchia, M. T., additional

Published

2021

4. Resting-state functional MRI of the nose as a novel investigational window into the nervous system.

Author

Ponticorvo S, Paasonen J, Stenroos P, Salo RA, Tanila H, Filip P, Rothman DL, Eberly LE, Garwood M, Metzger GJ, Gröhn O, Michaeli S, and Mangia S

Subjects

Humans, Animals, Male, Adult, Female, Mice, Rest physiology, Young Adult, Brain physiology, Brain diagnostic imaging, Heart Rate physiology, Autonomic Nervous System physiology, Autonomic Nervous System diagnostic imaging, Brain Mapping methods, Magnetic Resonance Imaging methods, Nose physiology, Nose diagnostic imaging

Abstract

Besides being responsible for olfaction and air intake, the nose contains abundant vasculature and autonomic nervous system innervations, and it is a cerebrospinal fluid clearance site. Therefore, the nose is an attractive target for functional MRI (fMRI). Yet, nose fMRI has not been possible so far due to signal losses originating from nasal air-tissue interfaces. Here, we demonstrated feasibility of nose fMRI by using novel ultrashort/zero echo time (TE) MRI. Results obtained in the resting-state from 13 healthy participants at 7T and in 5 awake mice at 9.4T revealed a highly reproducible resting-state nose functional network that likely reflects autonomic nervous system activity. Another network observed in humans involves the nose, major brain vessels and CSF spaces, presenting a temporal dynamic that correlates with heart rate and breathing rate. These resting-state nose functional signals should help elucidate peripheral and central nervous system integrations., (© 2024. The Author(s).)

Published

2024

5. Brain perfusion changes in beta-thalassemia.

Author

Manara R, Ponticorvo S, Contieri M, Canna A, Russo AG, Fedele MC, Rocco MC, Borriello A, Valeggia S, Pennisi M, De Angelis M, Roberti D, Cirillo M, di Salle F, Perrotta S, Esposito F, and Tartaglione I

Subjects

Humans, Male, Female, Adult, Cross-Sectional Studies, Young Adult, Adolescent, Middle Aged, Child, beta-Thalassemia physiopathology, beta-Thalassemia pathology, Magnetic Resonance Imaging, Brain pathology, Brain diagnostic imaging, Cerebrovascular Circulation physiology

Abstract

Background: Brain injury in hereditary hemoglobinopathies is commonly attributed to anemia-related relative hypoperfusion in terms of impaired oxygen blood supply. Supratentorial and infratentorial vascular watershed regions seem to be especially vulnerable, but data are very scarce., Aims: We investigated a large beta-thalassemia sample with arterial spin labeling in order to characterize regional perfusion changes and their correlation with phenotype and anemia severity., Methods: We performed a multicenter single-scanner cross-sectional 3T-MRI study analyzing non-invasively the brain perfusion in 54 transfusion-dependent thalassemia (TDT), 23 non-transfusion-dependent thalassemia (NTDT) patients and 56 Healthy Controls (HC). Age, hemoglobin levels, and cognitive functioning were recorded., Results: Both TDT and NTDT patients showed globally increased brain perfusion values compared to healthy controls, while no difference was found between patient subgroups. Using age and sex as covariates and scaling the perfusion maps for the global cerebral blood flow, beta-thalassemia patients showed relative hyperperfusion in supratentorial/infratentorial watershed regions. Perfusion changes correlated with hemoglobin levels (p = 0.013) and were not observed in the less severely anemic patients (hemoglobin level > 9.5 g/dL). In the hyperperfused regions, white matter density was significantly decreased (p = 0.0003) in both patient subgroups vs. HC. In NTDT, white matter density changes correlated inversely with full-scale Intelligence Quotient (p = 0.007) while in TDT no correlation was found., Conclusion: Relative hyperperfusion of watershed territories represents a hemodynamic hallmark of beta-thalassemia anemia challenging previous hypotheses of brain injury in hereditary anemias. A careful management of anemia severity might be crucial for preventing structural white matter changes and subsequent long-term cognitive impairment., (© 2024. The Author(s).)

Published

2024

6. Magnetic Resonance T1w/T2w Ratio in the Putamen and Cerebellum as a Marker of Cognitive Impairment in MSA: a Longitudinal Study.

Author

Cuoco S, Ponticorvo S, Bisogno R, Manara R, Esposito F, Di Salle G, Di Salle F, Amboni M, Erro R, Picillo M, Barone P, and Pellecchia MT

Subjects

Humans, Putamen diagnostic imaging, Putamen pathology, Longitudinal Studies, Magnetic Resonance Imaging methods, Cerebellum diagnostic imaging, Cerebellum pathology, Magnetic Resonance Spectroscopy, Multiple System Atrophy complications, Multiple System Atrophy diagnostic imaging, Cognitive Dysfunction diagnostic imaging, Cognitive Dysfunction pathology

Abstract

The exact pathophysiology of cognitive impairment in multiple system atrophy (MSA) is unclear. In our longitudinal study, we aimed to analyze (I) the relationships between cognitive functions and some subcortical structures, such as putamen and cerebellum assessed by voxel-based morphometry (VBM) and T1-weighted/T2-weighted (T1w/T2w) ratio, and (II) the neuroimaging predictors of the progression of cognitive deficits. Twenty-six patients with MSA underwent a comprehensive neuropsychological battery, motor examination, and brain MRI at baseline (T 0 ) and 1-year follow-up (T 1 ). Patients were then divided according to cognitive status into MSA with normal cognition (MSA-NC) and MSA with mild cognitive impairment (MCI). At T 1 , we divided the sample according to worsening/non worsening of cognitive status compared to baseline evaluation. Logistic regression analysis showed that age (β =  - 9.45, p = .02) and T1w/T2w value in the left putamen (β = 230.64, p = .01) were significant predictors of global cognitive status at T 0 , explaining 65% of the variance. Logistic regression analysis showed that ∆-values of WM density in the cerebellum/brainstem (β = 2188.70, p = .02) significantly predicted cognitive worsening at T 1 , explaining 64% of the variance. Our results suggest a role for the putamen and cerebellum in the cognitive changes of MSA, probably due to their connections with the cortex. The putaminal T1w/T2w ratio may deserve further studies as a marker of cognitive impairment in MSA., (© 2022. The Author(s).)

Published

2023

7. Frequency and imaging correlates of neuropsychiatric symptoms in Progressive Supranuclear Palsy.

Author

Cuoco S, Ponticorvo S, Abate F, Tepedino MF, Erro R, Manara R, Di Salle G, Di Salle F, Pellecchia MT, Esposito F, Barone P, and Picillo M

Subjects

Humans, Brain diagnostic imaging, Anxiety, Behavioral Symptoms diagnostic imaging, Behavioral Symptoms etiology, Supranuclear Palsy, Progressive diagnostic imaging, Mental Disorders psychology

Abstract

Neuropsychiatric symptoms are intrinsic to Progressive Supranuclear Palsy (PSP) and a spoonful of studies investigated their imaging correlates. Describe (I) the frequency and severity of neuropsychiatric symptoms in PSP and (II) their structural imaging correlates. Twenty-six PSP patients underwent Neuropsychiatric Inventory (NPI) and brain 3D T1-weighted MRI. Spearman's rho with Bonferroni correction was used to investigate correlations between NPI scores and volumes of gray matter regions. More than 80% of patients presented at least one behavioral symptom of any severity. The most frequent and severe were depression/dysphoria, apathy, and irritability/lability. Significant relationships were found between the severity of irritability and right pars opercularis volume (p < 0.001) as well as between the frequency of agitation/aggression and left lateral occipital volume (p < 0.001). Depression, apathy, and irritability are the most common neuropsychiatric symptoms in PSP. Moreover, we found a relationship between specific positive symptoms as irritability and agitation/aggression and greater volume of the right pars opercularis cortex and lower volume of the left occipital cortex, respectively, which deserve further investigations., (© 2023. The Author(s).)

Published

2023

8. Accumbal-thalamic connectivity and associated glutamate alterations in human cocaine craving: A state-dependent rs-fMRI and 1 H-MRS study.

Author

Engeli EJE, Russo AG, Ponticorvo S, Zoelch N, Hock A, Hulka LM, Kirschner M, Preller KH, Seifritz E, Quednow BB, Esposito F, and Herdener M

Subjects

Animals, Humans, Acetylcysteine, Magnetic Resonance Imaging, Proton Magnetic Resonance Spectroscopy, Glutamic Acid, Cocaine

Abstract

Craving is a core symptom of cocaine use disorder and a major factor for relapse risk. To date, there is no pharmacological therapy to treat this disease or at least to alleviate cocaine craving as a core symptom. In animal models, impaired prefrontal-striatal signalling leading to altered glutamate release in the nucleus accumbens appear to be the prerequisite for cocaine-seeking. Thus, those network and metabolic changes may constitute the underlying mechanisms for cocaine craving and provide a potential treatment target. In humans, there is recent evidence for corresponding glutamatergic alterations in the nucleus accumbens, however, the underlying network disturbances that lead to this glutamate imbalance remain unknown. In this state-dependent randomized, placebo-controlled, double-blinded, cross-over multimodal study, resting state functional magnetic resonance imaging in combination with small-voxel proton magnetic resonance spectroscopy (voxel size: 9.4 × 18.8 × 8.4 mm 3 ) was applied to assess network-level and associated neurometabolic changes during a non-craving and a craving state, induced by a custom-made cocaine-cue film, in 18 individuals with cocaine use disorder and 23 healthy individuals. Additionally, we assessed the potential impact of a short-term challenge of N-acetylcysteine, known to normalize disturbed glutamate homeostasis and to thereby reduce cocaine-seeking in animal models of addiction, compared to a placebo. We found increased functional connectivity between the nucleus accumbens and the dorsolateral prefrontal cortex during the cue-induced craving state. However, those changes were not linked to alterations in accumbal glutamate levels. Whereas we additionally found increased functional connectivity between the nucleus accumbens and a midline part of the thalamus during the cue-induced craving state. Furthermore, obsessive thinking about cocaine and the actual intensity of cocaine use were predictive of cue-induced functional connectivity changes between the nucleus accumbens and the thalamus. Finally, the increase in accumbal-thalamic connectivity was also coupled with craving-related glutamate rise in the nucleus accumbens. Yet, N-acetylcysteine had no impact on craving-related changes in functional connectivity. Together, these results suggest that connectivity changes within the fronto-accumbal-thalamic loop, in conjunction with impaired glutamatergic transmission, underlie cocaine craving and related clinical symptoms, pinpointing the thalamus as a crucial hub for cocaine craving in humans., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

9. Explaining neural activity in human listeners with deep learning via natural language processing of narrative text.

Author

Russo AG, Ciarlo A, Ponticorvo S, Di Salle F, Tedeschi G, and Esposito F

Subjects

Humans, Comprehension, Brain diagnostic imaging, Natural Language Processing, Magnetic Resonance Imaging methods, Brain Mapping, Deep Learning

Abstract

Deep learning (DL) approaches may also inform the analysis of human brain activity. Here, a state-of-art DL tool for natural language processing, the Generative Pre-trained Transformer version 2 (GPT-2), is shown to generate meaningful neural encodings in functional MRI during narrative listening. Linguistic features of word unpredictability (surprisal) and contextual importance (saliency) were derived from the GPT-2 applied to the text of a 12-min narrative. Segments of variable duration (from 15 to 90 s) defined the context for the next word, resulting in different sets of neural predictors for functional MRI signals recorded in 27 healthy listeners of the narrative. GPT-2 surprisal, estimating word prediction errors from the artificial network, significantly explained the neural data in superior and middle temporal gyri (bilaterally), in anterior and posterior cingulate cortices, and in the left prefrontal cortex. GPT-2 saliency, weighing the importance of context words, significantly explained the neural data for longer segments in left superior and middle temporal gyri. These results add novel support to the use of DL tools in the search for neural encodings in functional MRI. A DL language model like the GPT-2 may feature useful data about neural processes subserving language comprehension in humans, including next-word context-related prediction., (© 2022. The Author(s).)

Published

2022

10. Combined regional T1w/T2w ratio and voxel-based morphometry in multiple system atrophy: A follow-up study.

Author

Ponticorvo S, Manara R, Russillo MC, Andreozzi V, Forino L, Erro R, Picillo M, Amboni M, Cuoco S, Di Salle G, Di Salle F, Barone P, Esposito F, and Pellecchia MT

Abstract

Several MRI techniques have become available to support the early diagnosis of multiple system atrophy (MSA), but few longitudinal studies on both MSA variants have been performed, and there are no established MRI markers of disease progression. We aimed to characterize longitudinal brain changes in 26 patients with MSA (14 MSA-P and 12 MSA-C) over a 1-year follow-up period in terms of local tissue density and T1w/T2w ratio in a-priori regions, namely, bilateral putamen, cerebellar gray matter (GM), white matter (WM), and substantia nigra (SN). A significant GM density decrease was found in cerebellum and left putamen in the entire group (10.7 and 33.1% variation, respectively) and both MSA subtypes (MSA-C: 15.4 and 33.0% variation; MSA-P: 7.7 and 33.2%) and in right putamen in the entire group (19.8% variation) and patients with MSA-C (20.9% variation). A WM density decrease was found in the entire group (9.3% variation) and both subtypes in cerebellum-brainstem (MSA-C: 18.0% variation; MSA-P: 5% variation). The T1w/T2w ratio increase was found in the cerebellar and left putamen GM (6.6 and 24.9% variation), while a significant T1w/T2w ratio decrease was detected in SN in the entire MSA group (31% variation). We found a more progressive atrophy of the cerebellum in MSA-C with a similar progression of putaminal atrophy in the two variants. T1w/T2w ratio can be further studied as a potential marker of disease progression, possibly reflecting decreased neuronal density or iron accumulation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ponticorvo, Manara, Russillo, Andreozzi, Forino, Erro, Picillo, Amboni, Cuoco, Di Salle, Di Salle, Barone, Esposito and Pellecchia.)

Published

2022

11. Uncovering clinical and radiological asymmetry in progressive supranuclear palsy-Richardson's syndrome.

Author

Picillo M, Tepedino MF, Abate F, Ponticorvo S, Erro R, Cuoco S, Oksuz N, Di Salle G, Di Salle F, Esposito F, Pellecchia MT, Manara R, and Barone P

Subjects

Humans, Magnetic Resonance Imaging, Neuroimaging methods, Apraxias, Parkinsonian Disorders diagnostic imaging, Supranuclear Palsy, Progressive diagnostic imaging

Abstract

Background: Richardson's syndrome (RS) is considered the most symmetric phenotype of progressive supranuclear palsy (PSP) as opposed to PSP with predominant corticobasal syndrome (PSP-CBS) or parkinsonism (PSP-P)., Objectives: Evaluate asymmetrical motor and higher cortical features in probable PSP-RS and compare the degree of asymmetry of cortical lobes and hemispheres between PSP-RS, PSP-CBS, PSP-P, and age-matched healthy controls (HC)., Methods: Asymmetry of motor and higher cortical features evaluated with an extensive videotaped neurologic examination was investigated in 28 PSP-RS, 8 PSP-CBS, and 14 PSP-P. Brain MRI to compute the laterality index (LI) was performed in 36 patients as well as in 56 HC., Results: In PSP-RS, parkinsonism was the most common asymmetric motor feature (53.6%), followed by dystonia and myoclonus (21.4% and 17.9%, respectively). Among higher cortical features, limb apraxia was found asymmetric in about one-third of patients. PSP-RS disclosed higher LI for hemispheres compared to HC, indicating a greater degree of asymmetry (p = 0.003). The degree of asymmetry of clinical features was not different between PSP-RS and those qualifying for PSP-CBS or PSP-P. As for imaging, LI was not different between PSP-RS, PSP-CBS, and PSP-P in any cortical region., Conclusions: Motor and higher cortical features are asymmetric in up to 50% of PSP-RS who also present a greater degree of asymmetry in hemispheres compared to age-matched HC. Lateralization of clinical features should be annotated in PSP., (© 2022. The Author(s).)

Published

2022

12. Semantic fMRI neurofeedback: a multi-subject study at 3 tesla.

Author

Ciarlo A, Russo AG, Ponticorvo S, di Salle F, Lührs M, Goebel R, and Esposito F

Subjects

Brain Mapping methods, Feedback, Sensory, Humans, Magnetic Resonance Imaging methods, Semantics, Neurofeedback physiology

Abstract

Objective. Real-time functional magnetic resonance imaging neurofeedback (rt-fMRI-NF) is a non-invasive procedure allowing the self-regulation of brain functions via enhanced self-control of fMRI based neural activation. In semantic rt-fMRI-NF, an estimated relation between multivariate fMRI activation patterns and abstract mental states is exploited for a multi-dimensional feedback stimulus via real-time representational similarity analysis (rt-RSA). Here, we assessed the performances of this framework in a multi-subject multi-session study on a 3 T MRI clinical scanner. Approach. Eighteen healthy volunteers underwent two semantic rt-fMRI-NF sessions on two different days. In each session, participants were first requested to engage in specific mental states while local fMRI patterns of brain activity were recorded during stimulated mental imagery of concrete objects (pattern generation). The obtained neural representations were to be replicated and modulated by the participants in subsequent runs of the same session under the guidance of a rt-RSA generated visual feedback (pattern modulation). Performance indicators were derived from the rt-RSA output to assess individual abilities in replicating (and maintaining over time) a target pattern. Simulations were carried out to assess the impact of the geometric distortions implied by the low-dimensional representation of patterns' dissimilarities in the visual feedback. Main results. Sixteen subjects successfully completed both semantic rt-fMRI-NF sessions. Considering some performance indicators, a significant improvement between the first and the second runs, and within run increasing modulation performances were observed, whereas no improvements were found between sessions. Simulations confirmed that in a small percentage of cases visual feedback could be affected by metric distortions due to dimensionality reduction implicit to the rt-RSA approach. Significance. Our results proved the feasibility of the semantic rt-fMRI-NF at 3 T, showing that subjects can successfully modulate and maintain a target mental state when guided by rt-RSA derived feedback. Further development is needed to encourage future clinical applications., (© 2022 IOP Publishing Ltd.)

Published

2022

13. Cross-modal connectivity effects in age-related hearing loss.

Author

Ponticorvo S, Manara R, Cassandro E, Canna A, Scarpa A, Troisi D, Cassandro C, Cuoco S, Cappiello A, Pellecchia MT, Salle FD, and Esposito F

Subjects

Aged, Auditory Cortex pathology, Auditory Cortex physiopathology, Brain diagnostic imaging, Brain physiopathology, Diffusion Tensor Imaging, Female, Hearing, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Neural Pathways physiopathology, Visual Cortex physiopathology, Connectome methods, Neuronal Plasticity, Presbycusis diagnosis, Presbycusis physiopathology

Abstract

Age-related sensorineural hearing loss (HL) leads to localized brain changes in the primary auditory cortex, long-range functional alterations, and is considered a risk factor for dementia. Nonhuman studies have repeatedly highlighted cross-modal brain plasticity in sensorial brain networks other than those primarily involved in the peripheral damage, thus in this study, the possible cortical alterations associated with HL have been analyzed using a whole-brain multimodal connectomic approach. Fifty-two HL and 30 normal hearing participants were examined in a 3T MRI study along with audiological and neurological assessments. Between-regions functional connectivity and whole-brain probabilistic tractography were calculated in a connectome-based manner and graph theory was used to obtain low-dimensional features for the analysis of brain connectivity at global and local levels. The HL condition was associated with a different functional organization of the visual subnetwork as revealed by a significant increase in global efficiency, density, and clustering coefficient. These functional effects were mirrored by similar (but more subtle) structural effects suggesting that a functional repurposing of visual cortical centers occurs to compensate for age-related loss of hearing abilities., Competing Interests: Disclosure statement The authors have no actual or potential conflicts of interest., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

14. Sex differences in the taste-evoked functional connectivity network.

Author

Ponticorvo S, Prinster A, Cantone E, Di Salle F, Esposito F, and Canna A

Subjects

Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Taste Perception physiology, Thalamus, Sex Characteristics, Taste physiology

Abstract

The central gustatory pathway encompasses multiple subcortical and cortical regions whose neural functional connectivity can be modulated by taste stimulation. While gustatory perception has been previously linked to sex, whether and how the gustatory network differently responds to basic tastes between men and women is unclear. Here, we defined the regions of the central gustatory network by a meta-analysis of 35 fMRI taste activation studies and then analyzed the taste-evoked functional connectivity between these regions in 44 subjects (19 women) in a separate 3 Tesla activation study where sweet and bitter solutions, at five concentrations each, were administered during scanning. From the meta-analysis, a network model was set up, including bilateral anterior, middle and inferior insula, thalamus, precentral gyrus, left amygdala, caudate and dorsolateral prefrontal cortex. Higher functional connectivity than in women was observed in men between the right middle insula and bilateral thalami for bitter taste. Men exhibited higher connectivity than women at low bitter concentrations and middle-high sweet concentrations between bilateral thalamus and insula. A graph-based analysis expressed similar results in terms of nodal characteristics of strength and centrality. Our findings add new insights into the mechanisms of taste processing by highlighting sex differences in the functional connectivity of the gustatory network as modulated by the perception of sweet and bitter tastes. These results shed more light on the neural origin of sex-related differences in gustatory perception and may guide future research on the pathophysiology of taste perception in humans., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022