63 resultados para tDCS
Resumo:
I sistemi BCI EEG-based sono un mezzo di comunicazione diretto tra il cervello e un dispositivo esterno il quale riceve comandi direttamente da segnali derivanti dall'attività elettrica cerebrale. Le features più utilizzate per controllare questi dispositivi sono i ritmi sensorimotori, ossia i ritmi mu e beta (8-30 Hz). Questi ritmi hanno la particolare proprietà di essere modulati durante l'immaginazione di un movimento generando così delle desincronizzazioni e delle sincronizzazioni evento correlate, ERD e ERS rispettavamente. Tuttavia i destinatari di tali sistemi BCI sono pazienti con delle compromissioni corticali e non sono sempre in grado di generare dei pattern ERD/ERS stabili. Per questo motivo, negli ultimi anni, è stato proposto l'uso di tecniche di stimolazione cerebrale non invasiva, come la tDCS, da abbinare al training BCI. In questo lavoro ci si è focalizzati sugli effetti della tDCS sugli ERD ed ERS neuronali indotti da immaginazione motoria attraverso un'analisi dei contributi presenti in letteratura. In particolare, sono stati analizzati due aspetti, ossia: i) lo studio delle modificazioni di ERD ed ERS durante (online) o in seguito (offline) a tDCS e ii) eventuali cambiamenti in termini di performance/controllo del sistema BCI da parte del soggetto sottoposto alla seduta di training e tDCS. Le ricerche effettuate tramite studi offline o online o con entrambe le modalità, hanno portato a risultati contrastanti e nuovi studi sarebbero necessari per chiarire meglio i meccanismi cerebrali che sottendono alla modulazione di ERD ed ERS indotta dalla tDCS. Si è infine provato ad ipotizzare un protocollo sperimentale per chiarire alcuni di questi aspetti.
Resumo:
To reach for a target, we must formulate a movement plan - a difference vector of the target position with respect to the starting hand position. While it is known that the medial part of the intraparietal sulcus (mIPS) and the dorsal premotor (PMd) activity reflects aspects of a kinematic plan for a reaching movement, it is unclear whether or how the two regions may differ. We investigated the functional roles of the mIPS and PMd in the planning of reaching movements using high definition transcranial direct current stimulation (HD-tDCS) and examined changes in horizontal endpoint error when participants were subjected to anodal and cathodal stimulation. The left mIPS and PMd were functionally localized with fMRI in each participant using an interleaved center-out pointing and saccade task and mapped onto the scalp using Brainsight. We adopted a randomized, single-blind design and applied anodal and cathodal stimulation (2mA for 20 min; 3cm radius 4x1 electrode placement) during 4 separate visits scheduled at least a week apart. Each participant performed 250 baseline, stimulation, and post-stimulation memory-guided reaches starting from one of two initial hand positions (IHPs) to one of 4 briefly flashed targets (20 cm distant, 5 cm apart horizontally) while fixating on a straight-ahead cross located at the target line. Separate 2-way repeated measures ANOVAs of horizontal endpoint error difference after cathodal tDCS at each stimulation site revealed a significant IHP by target position interaction effect at the left mIPS, and significant IHP and target main effects at the left PMd. Behaviorally, these effects corresponded to IHP-dependent contractions after cathodal mIPS tDCS and IHP-independent contractions after cathodal PMd tDCS. These results suggest that the movement vector is not yet formed at the input level of mIPS, but is encoded at the input of PMd. These results also indicate that tDCS is a viable, useful method in investigating movement planning properties through temporary perturbations of the system.
Resumo:
Nel corso degli ultimi decenni si è assistito a un aumento di malattie e disturbi che colpiscono il sistema nervoso,specialmente il cervello. Si è dunque resa necessaria la ricerca e l'analisi di tecniche di stimolazione transcranica a fini sperimentali, clinici e di diagnosi. Tra queste spiccano per la loro versatilità la TMS e la tDCS, le quali hanno già trovato e possono ancora trovare la loro applicazione in numerosi ambiti anche molto differenti tra loro, tra cui quello motorio, verbale, della memoria o per disturbi neurodegenerativi. L'analisi approfondita delle loro applicazioni può non solo portare a meglio comprendere i limiti che le due tecniche hanno al giorno d'oggi e quindi portare a un miglioramento delle stesse, ma anche ad una comprensione più accurata del funzionamento del sistema nervoso, tutt'ora ancora alquanto oscuro nella sua complessità. Infine, confrontando le due tecniche si può meglio definire anche quali possano essere gli ambiti in cui l'una e l'altra sono più vantaggiose o possano dare contributi più incisivi.
Resumo:
Résumé : Introduction: La douleur chronique et les problèmes de sommeil ont un impact significatif sur la qualité de vie. La prévalence de ces deux conditions augmente substantiellement avec l’âge. L’objectif de cette étude était d’évaluer la faisabilité d’une étude randomisée, contrôlée par placebo et de recueillir des données sur l’efficacité de la stimulation transcrânienne par courant direct (tDCS) pour réduire la douleur et améliorer le sommeil chez des aînés souffrant de douleur chronique d’origines musculo-squelettique. Méthodes: Quatorze patients souffrant de douleur chronique et de problèmes de sommeil ont reçu cinq séances quotidiennes consécutives de tDCS anodique appliquée au cortex moteur primaire (2 mA, 20 minutes) ou cinq séances de tDCS simulée de manière randomisée. L’intensité de la douleur était mesurée avec une échelle visuelle analogue et les paramètres de sommeil avec l’actigraphie. Pendant toute la durée de l’étude, des journaux de bord de douleur et de sommeil étaient aussi utilisés afin de mesurer l'effet de la tDCS sur la douleur et le sommeil du quotidien des participants. Résultats: Les résultats indiquent que la tDCS réelle engendre une analgésie de 59 %, alors que la tDCS simulée ne réduit pas la douleur (p < 0,05). Par contre, aucun changement n’a été observé au niveau des paramètres de sommeil (tous les p ≥ 0,18). Conclusion: Il appert que cinq séances de tDCS anodique appliquée au niveau du cortex moteur primaire seraient efficaces pour réduire la douleur des aînés souffrant de douleur chronique, mais pas pour améliorer leur sommeil. De futures études seront nécessaires afin de déterminer si d’autres paramètres de stimulation pourraient avoir un impact sur le sommeil et si ces résultats peuvent être reproduits en utilisant un plus grand nombre de patients.
Resumo:
Background: Single sessions of bihemispheric transcranial direct-current stimulation (bihemispheric-tDCS) with concurrent rehabilitation improves motor function in stroke survivors, which outlasts the stimulation period. However few studies have investigated the behavioral and neurophysiological adaptations following a multi-session intervention of bihemispheric-tDCS concurrent with rehabilitation. Objective: This pilot study explored the immediate and lasting effects of 3-weeks of bihemispheric-tDCS and upper limb (UL) rehabilitation on motor function and corticospinal plasticity in chronic stroke survivors. Methods: Fifteen chronic stroke survivors underwent 3-weeks of UL rehabilitation with sham or real bihemispheric-tDCS. UL motor function was assessed via the Motor Assessment Scale (MAS), Tardieu Scale and grip strength. Corticospinal plasticity was indexed by motor evoked potentials (MEPs), cortical silent period (CSP) and short-interval intracortical inhibition (SICI) recorded from the paretic and non-paretic ULs, using transcranial magnetic stimulation (TMS). Measures were taken at baseline, 48 h post and 3-weeks following (follow-up) the intervention. Results: MAS improved following both real-tDCS (62%) and sham-tDCS (43%, P < 0.001), however at 3-weeks follow-up, the real-tDCS condition retained these newly regained motor skills to a greater degree than sham-tDCS (real-tDCS 64%, sham-tDCS 21%, P = 0.002). MEP amplitudes from the paretic UL increased for real-tDCS (46%: P < 0.001) and were maintained at 3-weeks follow-up (38%: P = 0.03), whereas no changes were observed with sham-tDCS. No changes in MEPs from the non-paretic nor SICI from the paretic UL were observed for either group. SICI from the non-paretic UL was greater at follow-up, for real-tDCS (27%: P = 0.04). CSP from the non-paretic UL increased by 33% following the intervention for real-tDCS compared with sham-tDCS (P = 0.04), which was maintained at 3-weeks follow-up (24%: P = 0.04). Conclusion: bihemispheric-tDCS improved retention of gains in motor function, which appears to be modulated through intracortical inhibitory pathways in the contralesional primary motor cortex (M1). The findings provide preliminary evidence for the benefits of bihemispheric-tDCS during rehabilitation. Larger clinical trials are warranted to examine long term benefits of bihemispheric-tDCS in a stroke affected population.
Resumo:
Research is being conducted on the use of transcranial direct current stimulation (tDCS) for therapeutic effects, and also on the mechanisms through which such therapeutic effects are mediated. A bottleneck in the progress of the research has been the large size of the existing tDCS systems which prevents subjects from performing their daily activities. To help research into the principles, mechanisms, and benefits of tDCS, reduction of size and weight, improvement in simplicity and user friendliness, portability, and programmability of tDCS systems are vital. This paper presents a design for a low-cost, light-weight, programmable, and portable tDCS device. The device is head-mountable and can be concealed in a hat and worn on the head by the subject while receiving the stimulation. The strength of the direct current stimulation can be selected through a simple user interface. The device is constructed and its performance evaluated through bench and in vivo tests. The tests validated the operation of the device in inducing neuromodulatory changes in primary motor cortex, M1, through measuring excitability of dominant M1 of resting right first dorsal interosseus muscle by transcranial magnetic stimulation induced motor evoked potentials. It was observed that the tDCS device induced comparable neuromodulatory effects in M1 as the existing bulky tDCS systems.
Resumo:
Transcranial direct current stimulation (tDCS) is a method of non-invasive brain stimulation widely used to modulate cognitive functions. Recent studies, however, suggests that effects are unreliable, small and often non-significant at least when stimulation is applied in a single session to healthy individuals. We examined the effects of frontal and temporal lobe anodal tDCS on naming and reading tasks and considered possible interactions with linguistic activation and selection mechanisms as well possible interactions with item difficulty and participant individual variability. Across four separate experiments (N, Exp 1A = 18; 1B = 20; 1C = 18; 2 = 17), we failed to find any difference between real and sham stimulation. Moreover, we found no evidence of significant effects limited to particular conditions (i.e., those requiring suppression of semantic interference), to a subset of participants or to longer RTs. Our findings sound a cautionary note on using tDCS as a means to modulate cognitive performance. Consistent effects of tDCS may be difficult to demonstrate in healthy participants in reading and naming tasks, and be limited to cases of pathological neurophysiology and/or to the use of learning paradigms.
Resumo:
Little is known about the neural mechanisms by which transcranial direct current stimulation (tDCS) impacts on language processing in post-stroke aphasia. This was addressed in a proof-of-principle study that explored the effects of tDCS application in aphasia during simultaneous functional magnetic resonance imaging (fMRI). We employed a single subject, cross-over, sham-tDCS controlled design, and the stimulation was administered to an individualized perilesional stimulation site that was identified by a baseline fMRI scan and a picture naming task. Peak activity during the baseline scan was located in the spared left inferior frontal gyrus and this area was stimulated during a subsequent cross-over phase. tDCS was successfully administered to the target region and anodal- vs. sham-tDCS resulted in selectively increased activity at the stimulation site. Our results thus demonstrate that it is feasible to precisely target an individualized stimulation site in aphasia patients during simultaneous fMRI, which allows assessing the neural mechanisms underlying tDCS application. The functional imaging results of this case report highlight one possible mechanism that may have contributed to beneficial behavioral stimulation effects in previous clinical tDCS trials in aphasia. In the future, this approach will allow identifying distinct patterns of stimulation effects on neural processing in larger cohorts of patients. This may ultimately yield information about the variability of tDCS effects on brain functions in aphasia.
Resumo:
Estimulação transcraniana por corrente contínua (ETCC) sobre áreas corticais pré-selecionadas, tem aumentado o desempenho físico de diferentes populações. Porém, lacunas persistem no tocante aos mecanismos subjacentes à estes efeitos. Assim, a presente tese objetivou: a) investigar os efeitos da ETCC anódica (aETCC) e placebo (Sham) no córtex motor (CM) de indivíduos saudáveis sobre o desempenho de força máxima; b) comparar os efeitos da ETCC sobre a produção de força máxima e estabilidadade da força durante exercícios máximo e submáximo em sujeitos hemiparéticos e saudáveis; c) investigar o efeito da ETCC sobre a conectividade funcional inter-hemisférica (coerência eletroencefalográfica cEEG) do córtex pré-frontal (CPF), desempenho aeróbio e dispêndio energético (EE) durante e após exercício máximo e submáximo. No 1 estudo, 14 adultos saudáveis executaram 2 sessões de exercício máximo de força (EMF) dos músculos flexores e extensores do joelho dominante (3 séries de 10 rep máximas), precedidos por aETCC ou Sham (2mA; 20 mim). aETCC não foi capaz de aumentar o trabalho total e pico de torque (PT), resistência à fadiga ou atividade eletromiográfica durante o EMF. No 2 estudo, 10 hemiparéticos e 9 sujeitos saudáveis receberam aETCC e Sham no CM. O PT e a estabilidade da força (coeficiente de variação - CV) foram avaliados durante protocolo máximo e submáximo de extensão e flexão unilateral do joelho (1 série de 3 reps a 100% do PT e 2 séries de 10 reps a 50% do PT). Nenhuma diferença no PT foi observada nos dois grupos. Diminuições no CV foram obervadas durante a extensão (~25-35%, P<0.001) e flexão de joelho (~22-33%, P<0.001) após a aETCC comparada com Sham nos hemiparéticos, entretanto, somente o CV na extensão de joelhos diminuiu (~13-27%, P<0.001) nos saudáveis, o que sugere que aETCC pode melhorar o CV, mas não o PT em sujeitos hemiparéticos. No 3 estudo, 9 adultos saudáveis realizaram 2 testes incrementais máximos precedidos por aETCC ou Sham sobre o CPF com as respostas cardiorrespiratórias, percepção de esforço (PSE) e cEEG do CPF sendo monitoradas. O VO2 de pico (42.64.2 vs. 38.23.3 mL.kg.min-1; P=0,02), potência total (252.776.5 vs. 23773.3 W; P=0,05) e tempo de exaustão (531.1140 vs. 486.7115.3 seg; P=0,04) foram maiores após aETCC do que a Sham. Nenhuma diferença foi encontrada para FC e PSE em função da carga de trabalho (P>0,05). A cEEG do CPF aumentou após aETCC vs. repouso (0.700.40 vs. 0.380.05; P=0,001), mas não após Sham vs. repouso (0.360.49 vs. 0.330.50; P=0,06), sugerindo que a aETCC pode retardar a fadiga aumentando a conectividade funcional entre os hemisférios do CPF e desempenho aeróbio durante exercício exaustivo. No 4 estudo, o VO2 e EE foram avaliados em 11 adultos saudáveis antes, durante a aETCC ou Sham no CPF e 30 min após exercício aeróbio submáximo isocalórico (~200kcal). Diferenças não foram observadas no VO2 vs. repouso durante aETCC e Sham (P=0.95 e P=0.85). Porém, a associação entre exercício e aETCC aumentou em ~19% o EE após ao menos, 30 min de recuperação após exercício quando comparada a Sham (P<0,05).
Resumo:
本论文制备了三类新型壳聚糖衍生物,并对其抑菌及抗氧化活性进行了筛选与研究,具体结果如下。 通过在不同分子量的壳聚糖上引入1,3,5-噻二嗪硫酮首次合成壳聚糖噻二嗪硫酮衍生物(N-2-对氨基苯磺酰噻二嗪硫酮-壳聚糖(SATTCS), N-2-邻甲基苯噻二嗪硫酮-壳聚糖(TITTCS), N-2-邻氯苯噻二嗪硫酮-壳聚糖(CITTCS));通过将羟丙基壳聚糖与不同的醛反应首次合成了羟丙基壳聚糖希夫碱(羟丙基壳聚糖水杨醛希夫碱(HHPCS), 羟丙基壳聚糖5-氯水杨醛希夫碱(HCHPCS), 羟丙基壳聚糖5-硝基水杨醛希夫碱(HNHPCS), 羟丙基壳聚糖5-溴水杨醛希夫碱(HBHPCS), 羟丙基壳聚糖糠醛希夫碱(FHPCS));通过将不同分子量的壳聚糖与乙酰芳香胺反应首次合成了壳聚糖乙酰芳香胺衍生物(壳聚糖乙酰苯胺(ABCS), 壳聚糖乙酰芳邻氯苯胺(ACCS),壳聚糖乙酰芳对甲苯胺(TDCS), 壳聚糖乙酰甲萘胺(MDACS))。采用红外、元素分析等方法进行了结构鉴定。 通过对金黄色葡萄球菌、八叠菌、大肠杆菌、绿脓杆菌,芦笋茎枯病菌等一些真菌的抑菌活性研究表明:壳聚糖噻二嗪硫酮衍生物、壳聚糖乙酰芳香胺衍生物具有较好的抑制细菌的活性,且衍生物对金黄色葡萄球菌的抑制效果最好。分子量不同,抑菌活性也不同。其中,SATTCS和 LMANCS对细菌的抑制效果最好, SATTCS和TDCS的对真菌的抑菌活性最为显著。 抗氧化活性筛选结果表明:壳聚糖噻二嗪硫酮衍生物和羟丙基壳聚糖希夫碱具有很强的清除羟自由基的能力,清除能力全部优于Vc: 壳聚糖噻二嗪硫酮衍生物还具有较强的还原能力,其中TITTCS的还原能力比Vc强;并且,低分子量的壳聚糖噻二嗪硫酮衍生物的清除羟自由基的能力以及还原能力略强于高分子量的壳聚糖噻二嗪硫酮衍生物。 通过本研究工作制备了三类新型壳聚糖衍生物;生物活性研究表明:壳聚糖噻二嗪硫酮衍生物和壳聚糖乙酰芳香胺衍生物在抑菌方面具有应用潜力。研究成果对深入开发利用甲壳质资源,促进我国海洋药物的发展具有重要的意义。
Resumo:
A systematic study of the ionization of atomic hydrogen by electron impact from 0.3 eV to a few eV above the ionization threshold has been carried out using a semiclassical-quantal calculation. Differential and integrated cross sections are presented at 0.3 eV above the energy threshold. Triple- differential cross sections (TDCS) are presented at constant theta(12) geometry where theta(12)=180degrees and 150degrees. Good agreement is achieved with the measurement [Roder, Phys. Rev. Lett. 79, 1666 (1997)] and calculations based on exterior complex scaling at 2 eV and 4 eV above threshold. Results of triple-differential cross sections are also presented at 0.3, 0.5, and 1.0 eV above threshold at both theta(12)=180degrees and 150degrees. At theta(12)=180degrees the small local maximum in the TDCS around theta(1)=90degrees reported by Pan and Starace [Phys. Rev. A 45, 4588 (1992)] at 0.5 eV above threshold is not observed in our calculation at energies down to 0.3 eV above threshold. The shape of our double differential cross sections seems to disagree qualitatively with the available calculations as we found two local maxima around 15degrees and 165degrees in our calculation. Single differential cross sections in our formulation appear naturally as a function of total excess energy E and, therefore, constant for all combinations of individual electron energies E-1 and E- 2 with E=E-1+E-2. Total ionization cross sections are also compared with measurement and available theoretical calculations and found to be in reasonably good agreement up to 10 eV above ionization threshold.
Resumo:
Near-threshold ionization of He has been studied by using a uniform semiclassical wavefunction for the two outgoing electrons in the final channel. The quantum mechanical transition amplitude for the direct and exchange scattering derived earlier by using the Kohn variational principle has been used to calculate the triple differential cross sections. Contributions from singlets and triplets are critically examined near the threshold for coplanar asymmetric geometry with equal energy sharing by the two outgoing electrons. It is found that in general the tripler contribution is much smaller compared to its singlet counterpart. However, at unequal scattering angles such as theta (1) = 60 degrees, theta (2) = 120 degrees the smaller peaks in the triplet contribution enhance both primary and secondary TDCS peaks. Significant improvements of the primary peak in the TDCS are obtained for the singlet results both in symmetric and asymmetric geometry indicating the need to treat the classical action variables without any approximation. Convergence of these cross sections are also achieved against the higher partial waves. Present results are compared with absolute and relative measurements of Rosel et al (1992 Phys. Rev. A 46 2539) and Selles et al (1987 J. Phys. B. At. Mel. Phys. 20 5195) respectively.
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Cluster scheduling and collision avoidance are crucial issues in large-scale cluster-tree Wireless Sensor Networks (WSNs). The paper presents a methodology that provides a Time Division Cluster Scheduling (TDCS) mechanism based on the cyclic extension of RCPS/TC (Resource Constrained Project Scheduling with Temporal Constraints) problem for a cluster-tree WSN, assuming bounded communication errors. The objective is to meet all end-to-end deadlines of a predefined set of time-bounded data flows while minimizing the energy consumption of the nodes by setting the TDCS period as long as possible. Sinceeach cluster is active only once during the period, the end-to-end delay of a given flow may span over several periods when there are the flows with opposite direction. The scheduling tool enables system designers to efficiently configure all required parameters of the IEEE 802.15.4/ZigBee beaconenabled cluster-tree WSNs in the network design time. The performance evaluation of thescheduling tool shows that the problems with dozens of nodes can be solved while using optimal solvers.
Resumo:
The simulation analysis is important approach to developing and evaluating the systems in terms of development time and cost. This paper demonstrates the application of Time Division Cluster Scheduling (TDCS) tool for the configuration of IEEE 802.15.4/ZigBee beaconenabled cluster-tree WSNs using the simulation analysis, as an illustrative example that confirms the practical applicability of the tool. The simulation study analyses how the number of retransmissions impacts the reliability of data transmission, the energy consumption of the nodes and the end-to-end communication delay, based on the simulation model that was implemented in the Opnet Modeler. The configuration parameters of the network are obtained directly from the TDCS tool. The simulation results show that the number of retransmissions impacts the reliability, the energy consumption and the end-to-end delay, in a way that improving the one may degrade the others.
