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2. Electroencephalographic hallmarks of Alzheimer's disease

Author

Ferreri, F., Miraglia, F., Vecchio, F., Manzo, N., Cotelli, Maria, Judica, E., Rossini, P. M., Cotelli M., Ferreri, F., Miraglia, F., Vecchio, F., Manzo, N., Cotelli, Maria, Judica, E., Rossini, P. M., and Cotelli M.

Abstract

In the human brain, physiological aging is characterized by progressive neuronal loss, leading to disruption of synapses and to a degree of failure in neurotransmission and information flow. However, there is increasing evidence to support the notion that the aged brain has a remarkable level of resilience (i.s. ability to reorganize itself), with the aim of preserving its physiological activity. It is therefore of paramount interest to develop objective markers able to characterize the biological processes underlying brain aging in the intact human, and to distinguish them from brain degeneration associated to age-related neurological progressive diseases like Alzheimer's disease. EEG, alone and combined with transcranial magnetic stimulation (TMS-EEG), is particularly suited to this aim, due to the functional nature of the information provided, and thanks to the ease with which it can be integrated in ecological scenarios including behavioral tasks. In this review, we aimed to provide the reader with updated information about the role of modern methods of EEG and TMS-EEG analysis in the investigation of physiological brain aging and Alzheimer's disease. In particular, we focused on data about cortical connectivity obtained by using readouts such graph theory network brain organization and architecture, and transcranial evoked potentials (TEPs) during TMS-EEG. Overall, findings in the literature support an important potential contribution of such neurophysiological techniques to the understanding of the mechanisms underlying normal brain aging and the early (prodromal/pre-symptomatic) stages of dementia.

Published
2022

8. A biochemical and cellular approach to explore the antiproliferative and prodifferentiative activity of Aloe Arborescens leaf extract

Author

Di Luccia B, Manzo N, Vivo M, Galano E, Amoresano A, Crescenzi E, Pollice A, Tudisco R, Infascelli F, Calabrò V., DI LUCCIA, Blanda, Manzo, Nicola, Vivo, Maria, Galano, Eugenio, Amoresano, Angela, Crescenzi, E., Pollice, Alessandra, Tudisco, Raffaella, Infascelli, Federico, and Calabro', Viola

Subjects
Keratinocytes, Proteomics, Aloe arborescence, differentiation, proliferation, Aloe, Anti-Bacterial Agents, Antineoplastic Agents, Phytogenic, Cell Differentiation, Cell Line, Cell Proliferation, Gas Chromatography-Mass Spectrometry, Humans, Microbial Sensitivity Tests, Plant Extracts, Plant Leaves, Aloe arborescens, Antineoplastic Agents, cell proliferation, Phytogenic, Cell differentiation
Abstract

Aloe arborescens Miller, belonging to the Aloe genus (Liliaceae family), is one of the main varieties of Aloe used worldwide. Although less characterized than the commonest Aloe vera, Aloe arborescens is known to be richer in beneficial phytotherapeutic, anticancer, and radio-protective properties. It is commonly used as a pharmaceutical ingredient for its effect in burn treatment and ability to increase skin wound healing properties. However, very few studies have addressed the biological effects of Aloe at molecular level. The aim of the research is to provide evidences for the antiproliferative properties of Aloe arborescens crude leaf extract using an integrated proteomic and cellular biological approach. We analysed the composition of an Aloe arborescens leaf extract by gas chromatography-mass spectrometry analysis. We found it rich in Aloe-emodin, a hydroxylanthraquinone with known antitumoral activity and in several compounds with anti-oxidant properties. Accordingly, we show that the Aloe extract has antiproliferative effects on several human transformed cell lines and exhibits prodifferentiative effects on both primary and immortalized human keratinocyte. Proteomic analysis of whole cell extracts revealed the presence of proteins with a strong antiproliferative and antimicrobial activity specifically induced in human keratinocytes by Aloe treatment supporting its application as a therapeutical agent. Copyright © 2013 John Wiley & Sons, Ltd.

Published
2013

9. Lactobacillus gasseri SF1183 affects intestinal epithelial cell survival and growth

Author

Di Luccia B, Manzo N, Baccigalupi L, Calabrò V, Crescenzi E, Ricca E, and Pollice A.

Abstract

It is now commonly accepted that the intestinal microbiota plays a crucial role in the gut physiology and homeostasis, and that both qualitative and quantitative alterations in the compositions of the gut flora exert profound effects on the host's intestinal cells. In spite of this, the details of the interaction between commensal bacteria and intestinal cells are still largely unknown and only in few cases the molecular mechanisms have been elucidated. Here we analyze the effects of molecules produced and secreted by Lactobacillus gasseri SF1183 on human intestinal HCT116 cells. L. gasseri is a well known species of lactic acid bacteria, commonly associated to the human intestine and SF1183 is a human strain previously isolated from an ileal biopsy of an healthy volunteer. SF1183 produces and secretes, in a growth phase-dependent way, molecule(s) able to drastically interfere with HCT116 cell proliferation. Although several attempts to purify and identify the bioactive molecule(s) have been so far unsuccessful, a partial characterization has indicated that it is smaller than 3 kDa, thermostable and of proteinaceous nature. L. gasseri molecule(s) stimulate a G1-phase arrest of the cell cycle by up-regulation of p21WAF1 rendering cells protected from intrinsic and extrinsic apoptosis. A L. gasseri-mediated reduction of apoptosis and of cell proliferation could be relevant in protecting epithelial barrier integrity and helping in reconstituting tissutal homeostasis.

Published
2013

24. CORRESPONDENCE.

Author

Weyrich, Paul M., Mitchell, Daniel J., Hogan, Maureen, Hogan, Neal, Smith, Alan, Nadler, Jerrold, Blumenthal, Richard, and Manzo, N.

Subjects
LETTERS to the editor, SEXUAL harassment, ACTIONS & defenses (Law), SPACE probes, PRODUCT safety
Abstract

Presents letters to the editor referencing articles and topics discussed in previous issues. "Sexual Healing," which focused on the Professor Harmon Zeigler sexual harassment case; "No Free Launch," which presented a view on the launch to Saturn of the Cassini probe; "Bittersweet," which addressed the safety of the Nestlé Magic product.

Published
1997

27. Nitric oxide and superoxide mediate diesel particle effects in cytokine-treated mice and murine lung epithelial cells — implications for susceptibility to traffic-related air pollution

Author

Manzo Nicholas D, LaGier Adriana J, Slade Ralph, Ledbetter Allen D, Richards Judy H, and Dye Janice A

Subjects
Traffic, Diesel, Particles, Epithelial cells, Phagocytes, Nitric oxide, Peroxynitrite, Redox balance, Toxicology. Poisons, RA1190-1270, Industrial hygiene. Industrial welfare, HD7260-7780.8
Abstract

Abstract Background Epidemiologic studies associate childhood exposure to traffic-related air pollution with increased respiratory infections and asthmatic and allergic symptoms. The strongest associations between traffic exposure and negative health impacts are observed in individuals with respiratory inflammation. We hypothesized that interactions between nitric oxide (NO), increased during lung inflammatory responses, and reactive oxygen species (ROS), increased as a consequence of traffic exposure ─ played a key role in the increased susceptibility of these at-risk populations to traffic emissions. Methods Diesel exhaust particles (DEP) were used as surrogates for traffic particles. Murine lung epithelial (LA-4) cells and BALB/c mice were treated with a cytokine mixture (cytomix: TNFα, IL-1β, and IFNγ) to induce a generic inflammatory state. Cells were exposed to saline or DEP (25 μg/cm2) and examined for differential effects on redox balance and cytotoxicity. Likewise, mice undergoing nose-only inhalation exposure to air or DEP (2 mg/m3 × 4 h/d × 2 d) were assessed for differential effects on lung inflammation, injury, antioxidant levels, and phagocyte ROS production. Results Cytomix treatment significantly increased LA-4 cell NO production though iNOS activation. Cytomix + DEP-exposed cells incurred the greatest intracellular ROS production, with commensurate cytotoxicity, as these cells were unable to maintain redox balance. By contrast, saline + DEP-exposed cells were able to mount effective antioxidant responses. DEP effects were mediated by: (1) increased ROS including superoxide anion (O2˙-), related to increased xanthine dehydrogenase expression and reduced cytosolic superoxide dismutase activity; and (2) increased peroxynitrite generation related to interaction of O2˙- with cytokine-induced NO. Effects were partially reduced by superoxide dismutase (SOD) supplementation or by blocking iNOS induction. In mice, cytomix + DEP-exposure resulted in greater ROS production in lung phagocytes. Phagocyte and epithelial effects were, by and large, prevented by treatment with FeTMPyP, which accelerates peroxynitrite catalysis. Conclusions During inflammation, due to interactions of NO and O2˙-, DEP-exposure was associated with nitrosative stress in surface epithelial cells and resident lung phagocytes. As these cell types work in concert to provide protection against inhaled pathogens and allergens, dysfunction would predispose to development of respiratory infection and allergy. Results provide a mechanism by which individuals with pre-existing respiratory inflammation are at increased risk for exposure to traffic-dominated urban air pollution.

Published
2012
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28. Carbohydrate-active enzymes from pigmented Bacilli: a genomic approach to assess carbohydrate utilization and degradation

Author

Henrissat Bernard, Cutting Simon M, Coutinho Pedro M, D'Apuzzo Enrica, Manzo Nicola, and Ricca Ezio

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Spore-forming Bacilli are Gram-positive bacteria commonly found in a variety of natural habitats, including soil, water and the gastro-intestinal (GI)-tract of animals. Isolates of various Bacillus species produce pigments, mostly carotenoids, with a putative protective role against UV irradiation and oxygen-reactive forms. Results We report the annotation of carbohydrate active enzymes (CAZymes) of two pigmented Bacilli isolated from the human GI-tract and belonging to the Bacillus indicus and B. firmus species. A high number of glycoside hydrolases (GHs) and carbohydrate binding modules (CBMs) were found in both isolates. A detailed analysis of CAZyme families, was performed and supported by growth data. Carbohydrates able to support growth as the sole carbon source negatively effected carotenoid formation in rich medium, suggesting that a catabolite repression-like mechanism controls carotenoid biosynthesis in both Bacilli. Experimental results on biofilm formation confirmed genomic data on the potentials of B. indicus HU36 to produce a levan-based biofilm, while mucin-binding and -degradation experiments supported genomic data suggesting the ability of both Bacilli to degrade mammalian glycans. Conclusions CAZy analyses of the genomes of the two pigmented Bacilli, compared to other Bacillus species and validated by experimental data on carbohydrate utilization, biofilm formation and mucin degradation, suggests that the two pigmented Bacilli are adapted to the intestinal environment and are suited to grow in and colonize the human gut.

Published
2011
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29. A new type of tomato puree with high content of bioactive compounds from 100% whole fruit

Author

Raffaele Romano, Lucia De Luca, Alessandra Aiello, Fabiana Pizzolongo, Nadia Manzo, Romano, R., De Luca, L., Manzo, N., Pizzolongo, F., and Aiello, A.

Subjects
volatile organic compound, food.ingredient, Water activity, Food industry, Food Handling, 030309 nutrition & dietetics, Flavonoid, Titratable acid, Hexanal, Antioxidants, Tomato puree, 03 medical and health sciences, chemistry.chemical_compound, Lycopene, 0404 agricultural biotechnology, food, Solanum lycopersicum, Phenols, Food science, Flavonoids, chemistry.chemical_classification, Volatile Organic Compounds, 0303 health sciences, business.industry, Polyphenols, 04 agricultural and veterinary sciences, 040401 food science, polyphenol, chemistry, whole tomato fruit, Polyphenol, Fruit, hexanal, Seeds, Plant Preparations, business, Food Science
Abstract

In this work, a new type of tomato puree was obtained from the whole fruit including seeds and skins without any waste. Currently, the food industry aims to develop products that both bring benefits to consumer health and are ecosustainable. Several efforts in fact have been carried out to revalue tomato by-products, such as seeds and skins, for human use. The physicochemical properties of the whole tomato puree immediately after production and after 6 months of storage were investigated and compared to the properties of a traditional tomato puree. Two tomato varieties were used in this study: Villa Literno and Piccadilly. pH, dry weight, water activity, titratable acidity, reducing sugars, soluble solid, lycopene, polyphenol, and volatile organic compound contents were evaluated. Tomato puree obtained from whole fruits mainly showed higher lycopene (90 to 150 mg/kg), flavonoid (39 to 41 mg/kg), and aldehyde (in particular hexanal) contents and a greater stability over time compared to those of the traditional puree. The proposed process allowed to obtain a tomato puree with a higher content of bioactive compounds, producing no waste. Practical Application: In this study, we proposed a new type of tomato puree made from the whole fruit. The whole tomato puree is richer in phenolic compounds and volatile organic compounds than the traditional puree that is made by removing skins and seeds. It can be an interesting product for the food industries because it is a source of bioactive compounds and reduces to zero the amount of waste.

Published
2020

30. Vibro-tactile stimulation of the neck reduces pain in people with cervical dystonia: a proof-of-concept study.

Author

Xu J, Costanzo M, Avanzino L, Martino D, Salehi P, Standal S, Manzo N, Alizadeh P, Terranova S, Bonassi G, Oh J, Conte A, and Konczak J

Subjects
Humans, Male, Female, Middle Aged, Adult, Aged, Physical Stimulation, Neck Muscles physiopathology, Pain Measurement methods, Touch physiology, Treatment Outcome, Torticollis therapy, Torticollis physiopathology, Torticollis complications, Proof of Concept Study, Neck Pain therapy, Neck Pain physiopathology, Vibration therapeutic use
Abstract

Background: Pain is a common non-motor symptom in patients with cervical dystonia (CD), severely impacting their quality of life. The pathophysiology of CD is incompletely understood but it involves altered processing of proprioceptive and pain signals., Objectives: The purpose of this proof-of-concept study was to determine if vibro-tactile stimulation (VTS)-a non-invasive form of neuromodulation targeting the somatosensory system-can modulate neck pain in people with CD., Methods: In a multi-center study, 44 CD patients received VTS to sternocleidomastoid and/or trapezius muscles for up to 45 min under 9 different stimulation conditions that either targeted a single or a pair of muscles. The primary outcome measure was a perceived pain score (PPS) rated by participants on a 100-point analogue scale., Results: During VTS, 29/44 (66%) of participants experienced a reduction in PPS of at least 10% with 17/44 (39%) reporting a reduction in pain of 50% or higher. After VTS cessation, 57% of participants still reported a 10% or higher reduction in PPS. Effects were significant at the group level and persisted for up to 20 min post-treatment. No distinct optimal stimulation profiles were identified for specific CD phenotypes. Clinical markers of disease severity or duration did not predict the degree of VTS-induced pain reduction., Conclusion: This proof-of-concept study demonstrates the potential of VTS as a new non-invasive therapeutic option for treating neck pain associated with CD. Further research needs to delineate optimal dosage and long-term effects., (© 2024. The Author(s).)

Published
2024
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31. A Novel Paired Somatosensory-Cerebellar Stimulation Induces Plasticity on Cerebellar-Brain Connectivity.

Author

Ginatempo F, Manzo N, Spampinato DA, Loi N, Burgio F, Rothwell JC, and Deriu F

Subjects
Humans, Male, Female, Adult, Young Adult, Electric Stimulation methods, Cross-Over Studies, Neural Pathways physiology, Neural Inhibition physiology, Electromyography, Neuronal Plasticity physiology, Evoked Potentials, Somatosensory physiology, Transcranial Magnetic Stimulation methods, Cerebellum physiology, Median Nerve physiology, Evoked Potentials, Motor physiology
Abstract

The cerebellum receives and integrates a large amount of sensory information that is important for motor coordination and learning. The aim of the present work was to investigate whether peripheral nerve and cerebellum paired associative stimulation (cPAS) could induce plasticity in both the cerebellum and the cortex. In a cross-over design, we delivered right median nerve electrical stimulation 25 or 10 ms before applying transcranial magnetic stimulation over the cerebellum. We assessed changes in motor evoked potentials (MEP), somatosensory evoked potentials (SEP), short-afferent inhibition (SAI), and cerebellum-brain inhibition (CBI) immediately, and 30 min after cPAS. Our results showed a significant reduction in CBI 30 minutes after cPAS, with no discernible changes in MEP, SEP, and SAI. Notably, cPAS10 did not produce any modulatory effects on these parameters. In summary, cPAS25 demonstrated the capacity to induce plasticity effects in the cerebellar cortex, leading to a reduction in CBI. This novel intervention may be used to modulate plasticity mechanisms and motor learning in healthy individuals and patients with neurological conditions., (© 2023. The Author(s).)

Published
2024
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32. Changes in cerebellar output abnormally modulate cortical myoclonus sensorimotor hyperexcitability.

Author

Latorre A, Rocchi L, Paparella G, Manzo N, Bhatia KP, and Rothwell JC

Subjects
Humans, Aged, Transcranial Magnetic Stimulation methods, Evoked Potentials, Motor physiology, Cerebellum physiology, Transcranial Direct Current Stimulation methods, Myoclonus
Abstract

Cortical myoclonus is produced by abnormal neuronal discharges within the sensorimotor cortex, as demonstrated by electrophysiology. Our hypothesis is that the loss of cerebellar inhibitory control over the motor cortex, via cerebello-thalamo-cortical connections, could induce the increased sensorimotor cortical excitability that eventually causes cortical myoclonus. To explore this hypothesis, in the present study we applied anodal transcranial direct current stimulation over the cerebellum of patients affected by cortical myoclonus and healthy controls and assessed its effect on sensorimotor cortex excitability. We expected that anodal cerebellar transcranial direct current stimulation would increase the inhibitory cerebellar drive to the motor cortex and therefore reduce the sensorimotor cortex hyperexcitability observed in cortical myoclonus. Ten patients affected by cortical myoclonus of various aetiology and 10 aged-matched healthy control subjects were included in the study. All participants underwent somatosensory evoked potentials, long-latency reflexes and short-interval intracortical inhibition recording at baseline and immediately after 20 min session of cerebellar anodal transcranial direct current stimulation. In patients, myoclonus was recorded by the means of surface EMG before and after the cerebellar stimulation. Anodal cerebellar transcranial direct current stimulation did not change the above variables in healthy controls, while it significantly increased the amplitude of somatosensory evoked potential cortical components, long-latency reflexes and decreased short-interval intracortical inhibition in patients; alongside, a trend towards worsening of the myoclonus after the cerebellar stimulation was observed. Interestingly, when dividing patients in those with and without giant somatosensory evoked potentials, the increment of the somatosensory evoked potential cortical components was observed mainly in those with giant potentials. Our data showed that anodal cerebellar transcranial direct current stimulation facilitates-and does not inhibit-sensorimotor cortex excitability in cortical myoclonus syndromes. This paradoxical response might be due to an abnormal homeostatic plasticity within the sensorimotor cortex, driven by dysfunctional cerebello-thalamo-cortical input to the motor cortex. We suggest that the cerebellum is implicated in the pathophysiology of cortical myoclonus and that these results could open the way to new forms of treatment or treatment targets., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2024
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33. Prevalence, treatment, and neural correlates of apathy in different forms of dementia: a narrative review.

Author

Parrotta I, Cacciatore S, D'Andrea F, D'Anna M, Giancaterino G, Lazzaro G, Arcara G, and Manzo N

Subjects
Humans, Aged, Prevalence, Apathy physiology, Frontotemporal Dementia diagnostic imaging, Frontotemporal Dementia epidemiology, Frontotemporal Dementia therapy, Parkinson Disease, Alzheimer Disease
Abstract

Objectives: The aim of this review is to provide an overview on prevalence and clinical tools for the diagnosis of apathy, as well as on neurophysiological and neuroimaging findings obtained from studies in patients with apathy in different forms of dementia, including Alzheimer's disease (AD), vascular (VaD) and mixed dementia, frontotemporal dementia (FTD), and Parkinson's disease dementia (PDD)., Methods: Randomized controlled trials, non-randomized controlled trials, controlled before-after studies, and interrupted time series from four databases (WebOfScience, Scopus, Pubmed, and PsycINFO) addressing apathy in adults or older people aged over 65 years of age affected by dementia were included., Results: The prevalence of apathy was 26-82% for AD, 28.6-91.7 for VaD, 29-97.5% in PDD, and 54.8-88.0 in FTD. The assessment of apathy was not consistent in the reviewed studies. Methylphenidate was the most successful pharmacological treatment for apathy. Neurobiological studies highlighted the relationship between both structural and functional brain areas and the presence or severity of apathy., Conclusion: Apathy is a very common disorder in all types of dementia, although it is often underdiagnosed and undertreated. Further studies are needed to investigate its diagnosis and management. A consensus on the different evaluation scales should be achieved., (© 2023. The Author(s).)

Published
2024
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34. Abnormalities in the face primary motor cortex in oromandibular dystonia.

Author

Ginatempo F, Manzo N, Loi N, Belvisi D, Cutrona C, Conte A, Berardelli A, and Deriu F

Subjects
Humans, Neural Inhibition physiology, Evoked Potentials, Motor physiology, Transcranial Magnetic Stimulation methods, Dystonia, Motor Cortex physiology, Dystonic Disorders diagnosis
Abstract

Objective: To comprehensively investigate excitability in face and hand M1 and sensorimotor integration in oromandibular dystonia (OMD) patients., Methods: Short-interval intracortical inhibition (SICI), intracortical facilitation (ICF), short (SAI) and long (LAI) afferent inhibition were investigated in face and hand M1 using transcranial magnetic stimulation protocols in 10 OMD patients. Data were compared with those obtained in 10 patients with focal hand dystonia (FHD), in 10 patients with blepharospasm (BSP), and 10 matched healthy subjects (HS)., Results: Results demonstrated that in OMD patients SICI was reduced in face M1 (p < 0.001), but not in hand M1, compared to HS. In FHD, SICI was significantly impaired in hand M1 (p = 0.029), but not in face M1. In BSP, SICI was normal in both face and hand M1 while ICF and LAI were normal in all patient groups and cortical area tested. SAI was significantly reduced (p = 0.003) only in the face M1 of OMD patients., Conclusions: In OMD, SICI and SAI were significantly reduced. These abnormalities are specific to the motor cortical area innervating the muscular district involved in focal dystonia., Significance: In OMD, the integration between sensory inflow and motor output seem to be disrupted at cortical level with topographic specificity., (Copyright © 2023 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2023
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35. White and gray matter alterations in de novo PD patients: which matter most?

Author

Pietracupa S, Belvisi D, Piervincenzi C, Tommasin S, Pasqua G, Petsas N, De Bartolo MI, Fabbrini A, Costanzo M, Manzo N, Berardelli A, and Pantano P

Subjects
Humans, Magnetic Resonance Imaging, Diffusion Magnetic Resonance Imaging, Corpus Callosum, Brain diagnostic imaging, Gray Matter diagnostic imaging, White Matter diagnostic imaging
Abstract

Objectives: This paper aimed to identify white matter (WM) and gray matter (GM) abnormalities in a sample of early PD patients, and their correlations with motor and non-motor symptom severity., Methods: We enrolled 62 de novo PD patients and 31 healthy subjects. Disease severity and non-motor symptom burden were assessed by the Unified Parkinson's Disease Rating Scale part III and the Non-Motor Symptoms Scale, respectively. Cognitive performance was assessed using Montreal Cognitive Assessment and Frontal Assessment Battery. All subjects underwent a 3-Tesla MRI protocol. MRI analyses included tract-based spatial statistics, cortical thickness, and subcortical and cerebellar volumetry., Results: In comparison to control subjects, PD patients exhibited lower fractional anisotropy and higher mean, axial, and radial diffusivity in most WM bundles, including corticospinal tracts, the internal and external capsule, the anterior and posterior thalamic radiations, the genu and body of the corpus callosum, cerebellar peduncles, and superior and inferior longitudinal and fronto-occipital fasciculi. Correlations between Montreal Cognitive Assessment scores and fractional anisotropy values in the right posterior thalamic radiation, left superior corona radiata, right inferior-fronto-occipital fasciculus, left inferior longitudinal fasciculus, bilateral anterior thalamic radiations, and bilateral superior longitudinal fasciculi were found. Smaller cerebellar volumes in early PD patients in the left and right crus I were also found. No GM changes were present in subcortical or cortical regions., Conclusion: The combined evaluation of WM and GM in the same patient sample demonstrates that WM microstructural abnormalities precede GM structural changes in early PD patients., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.)

Published
2023
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36. Investigating the Effects of a Focal Muscle Vibration Protocol on Sensorimotor Integration in Healthy Subjects.

Author

Manzo N, Ginatempo F, Belvisi D, Arcara G, Parrotta I, Leodori G, Deriu F, Celletti C, Camerota F, and Conte A

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
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37. A Combined Panel of Salivary Biomarkers in de novo Parkinson's Disease.

Author

De Bartolo MI, Vivacqua G, Belvisi D, Mancinelli R, Fabbrini A, Manzo N, Costanzo M, Leodori G, Conte A, Fabbrini G, Morini S, and Berardelli A

Subjects
Humans, alpha-Synuclein metabolism, Tumor Necrosis Factor-alpha, tau Proteins, Biomarkers, Parkinson Disease diagnosis
Abstract

Objective: To investigate molecular biomarkers of a-synuclein and tau aggregation, autophagy, and inflammation in the saliva of de novo Parkinson's disease (PD) patients in comparison to healthy subjects (HS), and to correlate molecular data with clinical features of PD patients, in order to establish whether abnormalities of these parameters are associated with specific clusters of de novo PD patients, and their potential diagnostic power in differentiating PD patients from HS., Methods: We measured total and oligomeric a-synuclein, total-tau and phosphorylated-tau, microtubule-associated protein light chain 3 beta (MAP-LC3beta), and tumor necrosis factor alpha (TNFalpha) in the saliva of 80 de novo PD patients and 62 HS, using quantitative enzyme-linked immunosorbent Assay analysis., Results: Oligomeric a-synuclein, total-tau, MAP-LC3beta, and TNFalpha levels resulted significantly higher in patients with respect to HS, while no significant differences were detected for total a-synuclein or phosphorylated-tau. Phosphorylated-tau directly correlated with MAP-LC3beta, whereas it inversely correlated with TNFalpha in PD patients. An inverse correlation was detected between MAP-LC3beta and non-motor symptoms severity. Principal Component Analysis showed that molecular and clinical parameters were independent of each other in de novo PD patients. Receiver operating characteristic curve analysis reported an accurate diagnostic performance of oligomeric a-synuclein and MAP-LC3beta. The diagnostic accuracy of total a-synuclein increased when it was combined with other salivary biomarkers targeting different molecular pathways., Interpretation: Our study proposes a novel biomarker panel using saliva, a non-invasive biofluid, in de novo PD patients, with implications in understanding the molecular pathways involved in PD pathogenesis and the relevance of different molecular pathways in determining clinical PD subtypes. ANN NEUROL 2023;93:446-459., (© 2022 American Neurological Association.)

Published
2023
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38. Combining Transcranial Magnetic Stimulation and Deep Brain Stimulation: Current Knowledge, Relevance and Future Perspectives.

Author

D'Onofrio V, Manzo N, Guerra A, Landi A, Baro V, Määttä S, Weis L, Porcaro C, Corbetta M, Antonini A, and Ferreri F

Abstract

Deep brain stimulation (DBS) has emerged as an invasive neuromodulation technique for the treatment of several neurological disorders, but the mechanisms underlying its effects remain partially elusive. In this context, the application of Transcranial Magnetic Stimulation (TMS) in patients treated with DBS represents an intriguing approach to investigate the neurophysiology of cortico-basal networks. Experimental studies combining TMS and DBS that have been performed so far have mainly aimed to evaluate the effects of DBS on the cerebral cortex and thus to provide insights into DBS's mechanisms of action. The modulation of cortical excitability and plasticity by DBS is emerging as a potential contributor to its therapeutic effects. Moreover, pairing DBS and TMS stimuli could represent a method to induce cortical synaptic plasticity, the therapeutic potential of which is still unexplored. Furthermore, the advent of new DBS technologies and novel treatment targets will present new research opportunities and prospects to investigate brain networks. However, the application of the combined TMS-DBS approach is currently limited by safety concerns. In this review, we sought to present an overview of studies performed by combining TMS and DBS in neurological disorders, as well as available evidence and recommendations on the safety of their combination. Additionally, we outline perspectives for future research by highlighting knowledge gaps and possible novel applications of this approach.

Published
2023
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39. Cortical mechanisms of sensory trick in cervical dystonia.

Author

Manzo N, Leodori G, Ruocco G, Belvisi D, Merchant SHI, Fabbrini G, Berardelli A, and Conte A

Subjects
Humans, Movement physiology, Parietal Lobe, Electroencephalography methods, Electromyography, Torticollis, Sensorimotor Cortex, Movement Disorders
Abstract

Patients with cervical dystonia (CD) often show an improvement in dystonic posture after sensory trick (ST), though the mechanisms underlying ST remain unclear. In this study, we aimed to investigate the effects of ST on cortical activity in patients with CD and to explore the contribution of motor and sensory components to ST mechanisms. To this purpose, we studied 15 CD patients with clinically effective ST, 17 without ST, and 14 healthy controls (HCs) who mimicked the ST. We used electroencephalographic (EEG) recordings and electromyography (EMG) data from bilateral sternocleidomastoid (SCM) muscles. We compared ST-related EEG spectral changes from sensorimotor and posterior parietal areas and EMG power changes between groups. To better understand the contribution of motor and sensory components to ST, we tested EEG and EMG correlates of three different conditions mimicking ST, the first without skin touch ("no touch" condition), the second without voluntary movements ("passive" condition), and finally without arm movements ("examiner touch" condition). Results showed ST-related alpha desynchronization in the sensorimotor cortex and theta desynchronization in the sensorimotor and posterior parietal cortex. Both spectral changes were more significant during maneuver execution in CD patients with ST than in CD patients without ST and HCs who mimicked the ST. Differently, the "no touch", "passive", or "examiner touch" conditions did not show significant differences in EEG or EMG changes determined by ST execution/mimicking between CD patients with or without ST. A higher desynchronization within alpha and theta bands in the sensorimotor and posterior parietal areas correlated with a more significant activity decrease in the contralateral SCM muscle, Findings from this study suggest that ST-related changes in the activity of sensorimotor and posterior parietal areas may restore dystonic posture and that both motor and sensory components contribute to the ST effect., 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 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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40. Electroencephalographic hallmarks of Alzheimer's disease.

Author

Ferreri F, Miraglia F, Vecchio F, Manzo N, Cotelli M, Judica E, and Rossini PM

Subjects
Aged, Brain physiology, Electroencephalography methods, Evoked Potentials physiology, Humans, Transcranial Magnetic Stimulation methods, Alzheimer Disease
Abstract

In the human brain, physiological aging is characterized by progressive neuronal loss, leading to disruption of synapses and to a degree of failure in neurotransmission and information flow. However, there is increasing evidence to support the notion that the aged brain has a remarkable level of resilience (i.s. ability to reorganize itself), with the aim of preserving its physiological activity. It is therefore of paramount interest to develop objective markers able to characterize the biological processes underlying brain aging in the intact human, and to distinguish them from brain degeneration associated to age-related neurological progressive diseases like Alzheimer's disease. EEG, alone and combined with transcranial magnetic stimulation (TMS-EEG), is particularly suited to this aim, due to the functional nature of the information provided, and thanks to the ease with which it can be integrated in ecological scenarios including behavioral tasks. In this review, we aimed to provide the reader with updated information about the role of modern methods of EEG and TMS-EEG analysis in the investigation of physiological brain aging and Alzheimer's disease. In particular, we focused on data about cortical connectivity obtained by using readouts such graph theory network brain organization and architecture, and transcranial evoked potentials (TEPs) during TMS-EEG. Overall, findings in the literature support an important potential contribution of such neurophysiological techniques to the understanding of the mechanisms underlying normal brain aging and the early (prodromal/pre-symptomatic) stages of dementia., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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41. State-dependent tDCS modulation of the somatomotor network: A MEG study.

Author

Masina F, Montemurro S, Marino M, Manzo N, Pellegrino G, and Arcara G

Subjects
Humans, Models, Statistical, Magnetoencephalography, Motor Cortex physiology, Transcranial Direct Current Stimulation methods
Abstract

Objective: Transcranial direct current stimulation (tDCS) is a non-invasive technique widely used to investigate brain excitability and activity. However, the variability in both brain and behavioral responses to tDCS limits its application for clinical purposes. This study aims to shed light on state-dependency, a phenomenon that contributes to the variability of tDCS., Methods: To this aim, we investigated changes in spectral activity and functional connectivity in somatomotor regions after Real and Sham tDCS using generalized additive mixed models (GAMMs), which allowed us to investigate how modulation depends on the initial state of the brain., Results: Results showed that changes in spectral activity, but not connectivity, in the somatomotor regions depend on the initial state of the brain, confirming state-dependent effects. Specifically, we found a non-linear interaction between stimulation conditions (Real vs Sham) and initial state: a reduction of alpha and beta power was observed only in participants that had higher alpha and beta power before Real tDCS., Conclusions: This study highlights the importance of considering state-dependency to tDCS and shows how it can be taken into account with appropriate statistical models., Significance: Our findings bear insight into tDCS mechanisms, potentially leading to discriminate between tDCS responders and non-responders., (Copyright © 2022 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2022
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43. Transcranial alternating current stimulation modulates cortical processing of somatosensory information in a frequency- and time-specific manner.

Author

Fabbrini A, Guerra A, Giangrosso M, Manzo N, Leodori G, Pasqualetti P, Conte A, Di Lazzaro V, and Berardelli A

Subjects
Electroencephalography, Evoked Potentials, Somatosensory physiology, Humans, Reflex, Somatosensory Cortex physiology, Transcranial Direct Current Stimulation methods
Abstract

Neural oscillations can be modulated by non-invasive brain stimulation techniques, including transcranial alternating current stimulation (tACS). However, direct evidence of tACS effects at the cortical level in humans is still limited. In a tACS-electroencephalography co-registration setup, we investigated the ability of tACS to modulate cortical somatosensory information processing as assessed by somatosensory-evoked potentials (SEPs). To better elucidate the neural substrates of possible tACS effects we also recorded peripheral and spinal SEPs components, high-frequency oscillations (HFOs), and long-latency reflexes (LLRs). Finally, we studied whether changes were limited to the stimulation period or persisted thereafter. SEPs, HFOs, and LLRs were recorded during tACS applied at individual mu and beta frequencies and at the theta frequency over the primary somatosensory cortex (S1). Sham-tACS was used as a control condition. In a separate experiment, we assessed the time course of mu-tACS effects by recording SEPs before (T0), during (T1), and 1 min (T2) and 10 min (T3) after stimulation. Mu-tACS increased the amplitude of the N20 component of SEPs compared to both sham and theta-tACS. No differences were found between sham, beta-, and theta-tACS conditions. Also, peripheral and spinal SEPs, P25, HFOs, and LLRs did not change during tACS. Finally, mu-tACS-induced modulation of N20 amplitude specifically occurred during stimulation (T1) and vanished afterwards (i.e., at T2 and T3). Our findings suggest that TACS applied at the individual mu frequency is able to modulate early somatosensory information processing at the S1 level and the effect is limited to the stimulation period., Competing Interests: Declarations of Competing Interest None., (Copyright © 2022. Published by Elsevier Inc.)

Published
2022
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44. Pathophysiological mechanisms of oromandibular dystonia.

Author

Manzo N, Ginatempo F, Belvisi D, Defazio G, Conte A, Deriu F, and Berardelli A

Subjects
Humans, Brain Stem physiopathology, Cerebral Cortex physiopathology, Dystonia physiopathology, Dystonic Disorders physiopathology, Mandible physiopathology
Abstract

Oromandibular dystonia (OMD) is a rare form of focal idiopathic dystonia. OMD was clinically identified at the beginning of the 20th century, and the main clinical features have been progressively described over the years. However, OMD has several peculiarities that still remain unexplained, including the high rate of oral trauma, which is often related to the onset of motor symptoms. The purpose of this paper was to formulate a hypothesis regarding the pathophysiology of OMD, starting from the neuroanatomical basis of the masticatory and facial systems and highlighting the features that differentiate this condition from other forms of focal idiopathic dystonia. We provide a brief review of the clinical and etiological features of OMD as well as neurophysiological and neuroimaging findings obtained from studies in patients with OMD. We discuss possible pathophysiological mechanisms underlying OMD and suggest that abnormalities in sensory input processing may play a prominent role in OMD pathophysiology, possibly triggering a cascade of events that results in sensorimotor cortex network dysfunction. Finally, we identify open questions that future studies should address, including the effect of abnormal sensory input processing and oral trauma on the peculiar neurophysiological abnormalities observed in OMD., 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 © 2021 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2022
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45. Brainstem Reflexes in Idiopathic Cervical Dystonia: Does Medullary Dysfunction Play a Role?

Author

Manzo N, Tocco P, Ginatempo F, Bertolasi L, and Rocchi L

Abstract

Background: Neurophysiological markers in dystonia have so far not been sistematically applied in clinical practice due to limited reproducibility of results and low correlations with clinical findings. Exceptions might be represented by the blink reflex (BR), including its recovery cycle (BRRC) and the trigemino-cervical reflex (TCR) which, compared to other neurophysiological methods, have shown more consistent alterations in cervical dystonia (CD). However, a comparison between the two techniques, and their possible correlation with disease symptoms, have not been thoroughly investigated., Objectives: To assess the role of BR, BRCC and TCR in the pathophysiology of idiopathic cervical dystonia., Methods: Fourteen patients and 14 age-matched healthy controls (HC) were recruited. Neurophysiological outcome measures included latency of R1 and R2 components of the BR, R2 amplitude, BRRC, latency and amplitude of P19/N31 complex of TCR. Clinical and demographic features of patients were also collected, including age at disease onset, disease duration, presence of tremor, sensory trick and pain. The Toronto Western Spasmodic Torticollis Rating Scale was used to characterize dystonia., Results: Compared to HC, CD patients showed increased latency of the BR R2 and decreased suppression of the BRRC. They also showed increased latency of the P19 and decreased amplitude of P19/N31 complex of TCR. The latency of P19 component of TCR was positively correlated with disease duration., Conclusions: We propose that the increased latency of R2 and P19 observed here might be reflective of brainstem dysfunction, mediated either by local interneuronal excitability changes or by subtle structural damage., Competing Interests: No specific funding was received for this work. The authors declare that there are no conflicts of interest relevant to this work., (© 2021 The Authors. Movement Disorders Clinical Practice published by Wiley Periodicals LLC. on behalf of International Parkinson and Movement Disorder Society.)

Published
2021
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46. The Pathophysiological Correlates of Parkinson's Disease Clinical Subtypes.

Author

Belvisi D, Fabbrini A, De Bartolo MI, Costanzo M, Manzo N, Fabbrini G, Defazio G, Conte A, and Berardelli A

Subjects
Fingers, Humans, Movement, Transcranial Magnetic Stimulation, Motor Cortex, Parkinson Disease
Abstract

Background: Possible pathophysiological mechanisms underlying Parkinson's disease (PD) clinical subtypes are unknown. The objective of this study was to identify pathophysiological substrate of PD subtypes using neurophysiological techniques., Methods: One hundred de novo PD patients participated. We collected patient demographic and clinical data, which were used to perform a hierarchical cluster analysis. The neurophysiological assessment tested primary motor cortex excitability and plasticity using transcranial magnetic stimulation. To evaluate motor performance, we performed a kinematic analysis of fast index finger abduction. To investigate sensory function and sensorimotor mechanisms, we measured the somatosensory temporal discrimination threshold at rest and during movement, respectively., Results: Hierarchical cluster analysis identified 2 clinical clusters. Cluster I ("mild motor-predominant") included patients who had milder motor and nonmotor symptoms severity than cluster II patients, who had a combination of severe motor and nonmotor manifestations (diffuse malignant). We observed that the diffuse malignant subtype had increased cortical excitability and reduced plasticity compared with the mild motor-predominant subtype. Kinematic analysis of motor performance demonstrated that the diffuse malignant subtype was significantly slower than the mild motor-predominant subtype. Conversely, we did not observe any significant differences in sensory function or sensorimotor integration between the two PD subtypes., Conclusions: De novo PD subtypes showed different patterns of motor system dysfunction, whereas sensory function and sensorimotor integration mechanisms did not differ between subtypes. Our findings suggest that the subtyping of PD patients is not a mere clinical classification but reflects different pathophysiological mechanisms. Neurophysiological parameters may represent promising biomarkers to evaluate PD subtypes and their progression. © 2020 International Parkinson and Movement Disorder Society., (© 2020 International Parkinson and Movement Disorder Society.)

Published
2021
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47. Investigating the effects of transcranial alternating current stimulation on primary somatosensory cortex.

Author

Manzo N, Guerra A, Giangrosso M, Belvisi D, Leodori G, Berardelli A, and Conte A

Subjects
Adult, Dystonic Disorders physiopathology, Female, Humans, Male, Sensory Thresholds physiology, Time Perception physiology, Touch Perception physiology, Transcranial Direct Current Stimulation methods, Evoked Potentials, Somatosensory physiology, Somatosensory Cortex physiology
Abstract

Near-threshold tactile stimuli perception and somatosensory temporal discrimination threshold (STDT) are encoded in the primary somatosensory cortex (S1) and largely depend on alpha and beta S1 rhythm. Transcranial alternating current stimulation (tACS) is a non-invasive neurophysiological technique that allows cortical rhythm modulation. We investigated the effects of tACS delivered over S1 at alpha, beta, and gamma frequencies on near-threshold tactile stimuli perception and STDT, as well as phase-dependent tACS effects on near-threshold tactile stimuli perception in healthy subjects. In separate sessions, we tested the effects of different tACS montages, and tACS at the individualised S1 μ-alpha frequency peak, on STDT and near-threshold tactile stimuli perception. We found that tACS applied over S1 at alpha, beta, and gamma frequencies did not modify STDT or near-threshold tactile stimuli perception. Moreover, we did not detect effects of tACS phase or montage. Finally, tACS did not modify near-threshold tactile stimuli perception and STDT even when delivered at the individualised μ-alpha frequency peak. Our study showed that tACS does not alter near-threshold tactile stimuli or STDT, possibly due to the inability of tACS to activate deep S1 layers. Future investigations may clarify tACS effects over S1 in patients with focal dystonia, whose pathophysiology implicates increased STDT.

Published
2020
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48. A new type of tomato puree with high content of bioactive compounds from 100% whole fruit.

Author

Romano R, De Luca L, Manzo N, Pizzolongo F, and Aiello A

Subjects
Antioxidants analysis, Flavonoids analysis, Food Handling, Lycopene analysis, Phenols analysis, Polyphenols analysis, Seeds chemistry, Volatile Organic Compounds analysis, Fruit chemistry, Solanum lycopersicum chemistry, Plant Preparations analysis
Abstract

In this work, a new type of tomato puree was obtained from the whole fruit including seeds and skins without any waste. Currently, the food industry aims to develop products that both bring benefits to consumer health and are ecosustainable. Several efforts in fact have been carried out to revalue tomato by-products, such as seeds and skins, for human use. The physicochemical properties of the whole tomato puree immediately after production and after 6 months of storage were investigated and compared to the properties of a traditional tomato puree. Two tomato varieties were used in this study: Villa Literno and Piccadilly. pH, dry weight, water activity, titratable acidity, reducing sugars, soluble solid, lycopene, polyphenol, and volatile organic compound contents were evaluated. Tomato puree obtained from whole fruits mainly showed higher lycopene (90 to 150 mg/kg), flavonoid (39 to 41 mg/kg), and aldehyde (in particular hexanal) contents and a greater stability over time compared to those of the traditional puree. The proposed process allowed to obtain a tomato puree with a higher content of bioactive compounds, producing no waste. PRACTICAL APPLICATION: In this study, we proposed a new type of tomato puree made from the whole fruit. The whole tomato puree is richer in phenolic compounds and volatile organic compounds than the traditional puree that is made by removing skins and seeds. It can be an interesting product for the food industries because it is a source of bioactive compounds and reduces to zero the amount of waste., (© 2020 Institute of Food Technologists®.)

Published
2020
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49. Botulinum Toxin Effects on Sensorimotor Integration in Focal Dystonias.

Author

De Bartolo MI, Manzo N, Ferrazzano G, Baione V, Belvisi D, Fabbrini G, Berardelli A, and Conte A

Subjects
Acetylcholine Release Inhibitors adverse effects, Adolescent, Adult, Aged, Biomechanical Phenomena, Blepharospasm diagnosis, Blepharospasm physiopathology, Botulinum Toxins, Type A adverse effects, Brain physiopathology, Dystonic Disorders diagnosis, Dystonic Disorders physiopathology, Female, Humans, Male, Middle Aged, Recovery of Function, Time Factors, Torticollis diagnosis, Torticollis physiopathology, Treatment Outcome, Young Adult, Acetylcholine Release Inhibitors therapeutic use, Blepharospasm drug therapy, Botulinum Toxins, Type A therapeutic use, Brain drug effects, Dystonic Disorders drug therapy, Motor Activity drug effects, Proprioception drug effects, Torticollis drug therapy
Abstract

(1) Background: In dystonia, the somatosensory temporal discrimination threshold (STDT) is abnormally increased at rest and higher and longer-lasting during movement execution in comparison with healthy subjects (HS), suggesting an abnormal sensorimotor integration. These abnormalities are thought to depend on abnormal proprioceptive input coming from dystonic muscles. Since Botulinum toxin-A (BT-A) reduces proprioceptive input in the injected muscles, our study investigated the effects of BT-A on STDT tested at rest and during voluntary movement execution in patients with focal dystonia. (2) Methods: We enrolled 35 patients with focal dystonia: 14 patients with cervical dystonia (CD), 11 patients with blepharospasm (BSP), and 10 patients with focal hand dystonia (FHD); and 12 age-matched HS. STDT tested by delivering paired stimuli was measured in all subjects at rest and during index finger abductions. (3) Results: Patients with dystonia had higher STDT values at rest and during movement execution than HS. While BT-A did not modify STDT at rest, it reduced the abnormal values of STDT during movement in CD and FHD patients, but not in BSP patients. (4) Conclusions: BT-A improved abnormal sensorimotor integration in CD and FHD, most likely by decreasing the overflow of proprioceptive signaling from muscle dystonic activity to the thalamus.

Published
2020
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50. Happy faces selectively increase the excitability of cortical neurons innervating frowning muscles of the mouth.

Author

Ginatempo F, Manzo N, Ibanez-Pereda J, Rocchi L, Rothwell JC, and Deriu F

Subjects
Adult, Facial Muscles physiology, Female, Humans, Male, Neural Inhibition physiology, Neurons physiology, Transcranial Magnetic Stimulation, Young Adult, Cortical Excitability physiology, Emotions physiology, Facial Expression, Facial Recognition physiology, Hand physiology, Motor Cortex physiology, Mouth physiology, Muscle, Skeletal physiology
Abstract

Although facial muscles are heavily involved in emotional expressions, there is still a lack of evidence about the role of face primary motor cortex (face M1) in the processing of facial recognition and expression. This work investigated the effects of the passive viewing of different facial expressions on face M1 and compared data with those obtained from the hand M1. Thirty healthy subjects were randomly assigned to two groups undergoing transcranial magnetic stimulation (TMS) of face or hand M1. In both groups, short-latency intracortical inhibition (SICI) and intracortical facilitation (ICF) were probed in the depressor anguli oris (DAO) and first dorsal interosseous (FDI) muscles 300 ms after presentation of a picture of a face that expressed happy, sad or neutral emotions. Statistical analysis of SICI showed a non-significant effect of muscle (F 1,28  = 1.903, p = 0.179), but a significant effect of emotion (F 2,56  = 6.860, p = 0.004) and a significant interaction between muscle and emotion (F 2,56  = 5.072, p = 0.015). Post hoc analysis showed that there was a significant reduction of SICI in the DAO muscle after presentation of a face with a happy expression compared with a neutral face (p < 0.001). In the FDI, a significant difference was observed between neutral and sad expressions (p = 0.010) No clear differences in ICF were detected. The different responses of face and hand muscles to emotional stimuli may be due to their functional roles in emotional expression versus protection of the body.

Published
2020
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