[en] EXPERIMENTAL CHARACTERIZATION OF TRANSCRANIAL MAGNETIC STIMULATOR / [pt] CARACTERIZAÇÃO EXPERIMENTAL DE ESTIMULADOR MAGNÉTICO TRANSCRANIANO

CARLOS VINICIUS NASCIMENTO BARBOSA

20 February 2019

[pt] A estimulação magnética transcraniana (EMT) é uma técnica não-invasiva utilizada no tratamento de distúrbios de origem neuropsiquiátrica, como transtornos de humor e alucinações auditivas. Por meio de uma técnica conhecida como neuromodulação, a atividade bioelétrica cerebral é estimulada a partir de correntes elétricas induzidas pela emissão de campo magnético alternado, em região anatômica cerebral previamente estabelecida segundo protocolos terapêuticos definidos, utilizando bobinas eletromagnéticas acopladas ao EMT, com modelos em forma de anel (ring), forma de oito (figure-of-eight), duplo cone (double cone), entre outros. A garantia da eficácia do tratamento e da segurança tanto dos pacientes quanto dos operadores do dispositivo depende da distribuição espacial da densidade de fluxo magnético emitida nas proximidades do equipamento de EMT, de acordo com o projeto da bobina de indução empregada. Um sistema multicanal de medição magnética (SMM) foi desenvolvido para avaliar a configuração da densidade de fluxo magnético gerada por dispositivos de estimulação magnética e em suas proximidades. Com o SMM é realizado o mapeamento magnético ao longo de um plano XY, sob as bobinas de modelos figure-of-eight e double cone, que inclui estudo de respostas, quando estimuladas com diferentes intensidades de saída e distâncias. Os resultados permitem caracterizar o decaimento da magnitude do campo, para os modelos de bobina figure-of-eight e double cone, em direção à região mais próxima da posição da mão do operador; e identificar, de forma preliminar, a distribuição da densidade de fluxo magnético em regiões mais superfíciais e o alcançe da penetração do estímulo destinado ao efeito terapêutico. / [en] Transcranial magnetic stimulation (TMS) is a noninvasive technique used in the treatment of disorders of neuropsychiatric origin, such as mood disorders and auditory hallucinations. By means of a technique known as neuromodulation, cerebral bioelectrical activity is stimulated from electrical currents induced by the emission of an alternating magnetic field, in an anatomical region previously established according to defined therapeutic protocols, using electromagnetic coils coupled to EMT, with models in the form of ring, figure-of-eight, double cone, among others. The assurance of treatment and safety efficacy for both the patients and the device operators depends on the spatial distribution of the magnetic flux density emitted in the vicinity of the EMT equipment, according to the design of the induction coil employed. A multichannel magnetic measurement system (SMM) has been developed in order to evaluate the configuration of magnetic flux density generated by and around magnetic stimulation devices. With the SMM the magnetic mapping along an XY plane was performed under the coils of figure-of-eight and double cone models, which includes study of responses, when stimulated with varying output intensities and distances. The results allow to characterize the decay of the magnitude of the field for the figure-of-eight and double cone coil models towards the region closest to the position of the operator s hand and to identify, in a preliminary way, the distribution of the flux density magnetic properties in more superficial regions and the extent of penetration of the stimulus intended for the therapeutic effect.

[pt] CONFIABILIDADE METROLOGICA

[en] RELIABLE MEASUREMENT PRACTICES

[pt] SISTEMAS DE MEDICAO

[en] MEASUREMENT SYSTEMS

[pt] ESTIMULADOR MAGNETICO TRANSCRANIANO

[en] TRANSCRANIAL MAGNETIC STIMULATION

Eficácia da estimulação magnética transcraniana em pacientes com zumbido e audiometria normal: avaliação clínica e por neuroimagem / Transcranial magnetic stimulation efficiency in patients with tinnitus and normal pure-tone audiometry: clinical and neuroimaging evaluation.

Renata de Almeida Marcondes

11 March 2009

INTRODUÇÃO: O zumbido é um sintoma muito freqüente e de difícil tratamento. Atualmente, algumas evidências mostraram que o zumbido está associado a alterações funcionais do sistema nervoso central. Nos últimos anos, a modulação da atividade cortical relacionada ao zumbido por meio da estimulação magnética transcraniana repetitiva (EMT) tem sido proposta como um tratamento promissor. Entretanto, nenhum estudo avaliou sua eficácia no controle do zumbido em pacientes sem perda auditiva concomitante, nem seu efeito de longa duração. O objetivo do trabalho foi investigar os efeitos imediatos e a longo prazo da estimulação magnética transcraniana repetitiva de baixa freqüência (1 Hz) em pacientes com zumbido e audiometria normal. MÉTODOS: Utilizando um ensaio clínico aleatorizado, duplo cego e paralelo, foram randomizados 20 pacientes para receber a EMT ativa ou placebo. A estimulação foi aplicada no córtex têmporo-parietal esquerdo por cinco dias consecutivos. A avaliação clínica foi feita por meio do Tinnitus Handicap Inventory e da escala análogo-visual. A avaliação por neuroimagem foi feita por meio do SPECT, o qual foi realizado antes e 14 dias após o período de estimulação. RESULTADOS: Clinicamente, o grupo submetido à estimulação magnética transcraniana ativa apresentou uma melhora significativa do zumbido, mantida por até seis meses, quando comparado ao grupo que recebeu a estimulação placebo. A avaliação por SPECT demonstrou redução do fluxo sanguíneo no lobo temporal esquerdo após o período de estimulação ativa. CONCLUSÃO: Os resultados revelam o potencial terapêutico da estimulação magnética transcraniana como nova ferramenta no tratamento do zumbido, proporcionando redução significativa do incômodo provocado pelo zumbido por até seis meses e reduzindo a atividade neuronal no córtex temporal. / INTRODUCTION: Tinnitus is a frequent disorder which is very difficult to treat. There is compelling evidence that tinnitus is associated with functional alterations in the central nervous system. Recently, the targeted modulation of tinnitus-related cortical activity through repetitive transcranial magnetic stimulation (rTMS) has been proposed as a promising new treatment approach. However, its efficacy in patients without hearing loss has never been studied, as well as the long-term duration of its effect. The objective of this study was to investigate both immediate and long-term effect of low frequency (1 Hz) rTMS in patients with tinnitus and normal hearing. METHODS: Using a randomized double-blind and parallel clinical trial, 20 patients were divided to receive either active or placebo transcranial magnetic stimulation over the left temporoparietal cortex for 5 consecutive days. The clinical evaluation was performed by using the Tinnitus Handicap Inventory and the visual analogue scale. The neuroimage evaluation included and ECD-SPECT imaging, which was performed before and 14 days after rTMS. RESULTS: From the clinical point of view, the group submitted to active rTMS presented significant improvement of the tinnitus score, which was sustained up to six months, when compared to the group that received the sham rTMS. SPECT measurements demonstrated a reduction of metabolic activity in the left temporal lobe after active rTMS. CONCLUSION: These results support the potential of rTMS as a new therapeutic tool for the treatment of chronic tinnitus, by demonstrating a significant reduction of tinnitus complaints over a period of at least six months and a significant reduction of neural activity in the temporal cortex.

Estimulação magnética transcraniana

Zumbido

Tinnitus

Transcranial magnetic stimulation

Efeito eletrofisiológico e cognitivo da estimulação transcraniana por corrente contínua (ETCC) combinada ao treinamento da memória de trabalho na fibromialgia : ensaio clínico randomizado

Santos, Vinícius Souza dos

January 2017

Introdução: A fibromialgia é uma síndrome complexa que envolve componentes sensorial-discriminativo, afetivo-motivacional, cognitivo-avaliativo e social. O modelo fisiopatológico mais aceito atualmente engloba mecanismos centrais de modulação e amplificação da dor juntamente com a sensibilização periférica. Além da dor, déficits de memória e atenção são encontrados em cerca de 50-80% destes pacientes, os quais podem aumentar a vulnerabilidade a novos sintomas e prejudicar o enfrentamento da doença. Terapias atuais buscam contra- regular esse processo mal adaptativo, entretanto com relativo sucesso terapêutico. Diante disso, são necessárias novas possibilidades terapêuticas para tratar esses déficits cognitivos, bem como para um melhor entendimento da fisiopatologia. O desenvolvimento deste estudo originou dois artigos, os quais constituem esta tese. Estudo I Objetivos: Avaliar as mudanças neurofisiológicas intra e entre grupos induzidas pela estimulação transcraniana de corrente continua (ETCC) combinada a um treino da memória de trabalho nos sinais eletrofisiológicos das pacientes com fibromialgia. Métodos: Foi realizado um estudo piloto com 14 pacientes com idade ente 18 e 65 anos com diagnóstico de FM de acordo com os critérios da colégio Americano de Reumatológia 2010, alocadas aleatoriamente em dois grupos de intervenção: ETCC-ativa combinada com treino de memória de trabalho (MT) (n=5;2 participantes excluídas por dados inconsistentes) e ETCC-sham combinada com treino de MT (n=7). A intervenção consistiu em oito sessões de ETCC-ativa aplicadas sobre o córtex pré-frontal dorsolateral esquerdo (CPFDLE), na intensidade de 2mA durante 20 min. Avaliou-se pré e pós-intervenção o sinal eletrofisiológico através do eletroencefalograma (EEG), percepção do nível da dor, pensamento catastrófico sobre a dor, sintomas de ansiedade e de depressão. Resultados: Observou-se uma mudança estatisticamente significativa na área sob a curva (AUC) da amplitude da onda do P300, um componente de potencial relacionado aevento (ERP), na condição ETCC-sham + treino de MT comparada à linha de base, no canal Pz (p=0.016). Esta diferença não foi observada para o grupo ETCC-ativa + treino de MT. No entanto, houve reduções significativas nos níveis de dor, ansiedade, depressão e catastrofismo após o tratamento com ETCC-ativa. Além disso, os níveis de dor após o tratamento correlacionaram-se inversamente com a AUC da onda do P300, independente do grupo de tratamento, o que indica que quanto maior este sinal eletrofisiológico menor o nível de dor. Conclusões: Estes resultados indicam que o tratamento ativo pode contra-regular a hiperexcitabilidade das redes neurais envolvidas no processamento da dor em pacientes com FM e reduzir a dor e outros sintomas clínicos correlatos Estudo II Objetivos: Foi avaliado se a combinação da ETCC-ativa combinada a um treino de memória de trabalho poderiam produzir um efeito de maior magnitude comparada a ETCC-sham combinada a um treino de memória de trabalho no desempenho da memória episódica, de curto e longo prazo. Métodos: Neste ensaio clínico randomizado participaram 40 pacientes com idade ente 18 e 65 anos com diagnóstico de FM de acordo com os critério do Colégio Americano de Reumatologia 2010, dividas randomicamente em dois grupos: ETCC-ativo combinada a um treino de memória (n=19;1participante foi excluída porque quebrou a perna ) e ou ETCC-sham combinada a um treino de memória de trabalho (n=20). A ETCC consistiu em oito sessões de estimulação aplicadas sobre o córtex pré-frontal dorsolateral esquerdo (DLPFC), na intensidade de 2mA durante 20 min. Avaliou-se pré e pós o desempenho da memória episódica imediata e tardia, fluência verbal, memória de trabalho e o nível do fator neurotrófico derivado do cérebro (BDNF). Resultados: Observou-se que a ETCC-ativa combinada a um treino de memória de trabalho melhorou de forma significativa (p=0,02) o desempenho da memória de curto prazo no teste de Rey A1-A5(desfecho primário), considerando a média (17,30) e desvio padrão (15,01) do delta (Δ), quando comparado ao grupo sham Assim como, melhorou de forma significativa o desempenho no teste de fluência verbal ortográfica (p=0,02) e semântica (p=0,03), considerando as médias (23,46 e 14,08) e desvio dos Δ (27,94 e 23,78) respectivamente. Esses dados significativos foram encontrados quando controlado pelo índice ajustado do BDNF e anos de estudo. O efeito do tratamento ativo sobre a memória de curto prazo foi dependente dos níveis de fator neurotrófico do cérebro basal para o teste de Rey A1-A5, no entanto, os níveis séricos desta neurotrofina não se correlacionaram com o desempenho nos testes de fluência verbal. Conclusões estudo: Este estudo mostrou que o efeito da ETCC-ativa combinada a um treino de memória de trabalho melhorou a função de redes envolvidas na memória de curto prazo e fluência verbal. Também sugerem que o efeito da ETCC-ativa combinada a um treino de memória de trabalho, nos testes de memória de curto prazo, são dependentes das condições de plasticidade do sistema na linha de base. / ABSTRACT Introduction: Fibromyalgia is a complex syndrome that involves sensory-discriminative, affective-motivational, cognitive-evaluative, and social components. The most accepted pathophysiological model currently focuses on central mechanisms of modulation and amplification of pain together with peripheral sensitization. In addition to pain, memory and attention deficits are found in about 50-80% of these patients, which can increase vulnerability and impair the search for resources to cope with the disease. The current therapies of fibromyalgia seek against regular this maladaptive process, however with relative therapeutic success. Due to this, new therapeutic possibilities are necessary to treat these cognitive deficits as well as the better understanding of the pathophysiology. The development of this study originated two articles which constitute this thesis. Study I Objectives: We evaluated intra and intergroup neurophysiological changes induced by transcranial direct-current stimulation (tDCS) combined with work memory training in the electrophysiological signs of patients with fibromyalgia. Methods: A pilot study was conducted with 14 patients aged 18 and 65 years with FM diagnosis according to the criteria of the American College of Rheumatology 2010, divided randomly into two groups: tDCS-active combined with a work memory training(WM) (n = 5; 2 participants excluded for inconsistent data) and tDCS-sham combined with a WM training (n = 7). The tDCS consisted of eight stimulation sessions applied on the left dorsolateral prefrontal cortex (DLPFC), at 2mA intensity for 20 min. The electrophysiological signal through electroencephalogram (EEG), perception of pain level, catastrophic thinking about pain, anxiety and depression symptoms were evaluated before and after intervention. Results: A statistically significant change was observed in the area under the curve (AUC) of the P300 wave amplitude as a measure of the event-related potential (ERP) in the sham -tDCS combined with a work-memory training compared to the baseline, in the Pz channel (p = 0.016), however, this difference in effect was not observed for active-tDCS combined with work-memory training. However, there were significant reductions in levels of pain, anxiety, depression and catastrophism after treatment with active-tDCS. In addition, pain levels after treatment correlated inversely with P300 wave AUC, regardless of treatment group, indicating that the higher this electrophysiological signal the lower the level of pain. Conclusions: These results indicate that active treatment may counter-regulate the hyperexcitability of neural networks involved in pain management in patients with FM and reduce pain and other related clinical symptoms. Study II Objectives: We assessed whether the combination of active -tDCS combined with a working memory training could produce a comparative magnitude greater effect sham- tDCS combined with a working memory training in the performance in episodic memory performance, short and long term. Methods: In this randomized clinical trial, 40 patients aged 18 to 65 years with FM diagnosis according to the criteria of the American College of Rheumatology 2010 were randomly divided into two groups: Active-tDCS combined with a memory training (n = 19; 1 participant was excluded because broke their leg) and or sham-tDCS combined with a working memory training (n = 20). The tDCS consisted of eight stimulation sessions applied on the left dorsolateral prefrontal cortex (DLPFC), at 2 mA intensity for 20 min. Episodic memory performance, verbal fluency, working memory and the level of brain-derived neurotrophic factor (BDNF) were evaluated before and after treatment. Results: It was observed that the Active-tDCS combined with a working memory training improved significantly (p = 0.02) the performance of the short term memory test in the delta (Δ) Rey A1-A5 (primary outcome), considering the mean (17.30) and standard deviation (15.01) compared to the sham group. As well as, it significantly improved performance in the Δ orthographic fluency test (p = 0.02) and semantics (p = 0.03), considering the means (23.46 and 14.08) and standard deviation (27. 94 and 23.78) respectively. These significant data were found when controlled by the adjusted BDNF index and years of study. The effect of active treatment on short-term memory was dependent on basal levels BDNF for the Rey A1-A5 test, however, serum levels of this neurotrophin did not correlate with performance on verbal fluency tests. Conclusions: This study showed that the effect of active- tDCS combined with a working memory training improved the function of networks involved in short-term memory and verbal fluency. They also suggest that the effect of active- tDCS combined with a working memory training in short-term memory tests are dependent on baseline system plasticity conditions.

Fibromialgia

Memória de curto prazo

Memória

Fibromyalgia, memory

Transcranial direct-current stimulation

Working memory training

Working

Estudo do efeito neuroprotetor da estimulação magnética transcraniana e hipotermia em modelo de isquemia cerebral induzida / Study of the neuroprotective effect of the Transcranial Magnetic Stimulation and hypothermia in a animal model of induced cerebral ischemia

Macri, Fábio Teixeira

03 August 2011

Introdução: Muitos estudos veem sendo realizados com a finalidade de identificar agentes que possam ter efeito benéfico no tratamento ou prevenção das lesões causadas nos neurônios devido à isquemia. A hipotermia já demonstrou resultados consistentes em estudos experimentais e a Estimulação Magnética Transcraniana (EMTr) já foi usada visando reduzir danos em neurônios hipocampais de animais submetidos a isquemia cerebral. Com a propriedade de aumentar ou diminuir a excitabilidade cortical a partir do estímulo magnético, estima-se que ocorra uma interferência na produção de alguns neurotransmissores e receptores de membrana, que promoveriam efeito protetor a estas células. Neste estudo avaliamos a capacidade da EMTr de proteger os neurônios de uma lesão por hipóxia, e sua possível interferência no efeito protetor da hipotermia, tentando identificar alguns mecanismos que possivelmente estariam envolvidos neste fenômeno. Métodos: Como modelo de isquemia, foram utilizados Gerbils previamente submetidos a uma avaliação de comportamento e memória por meio do teste de esquiva. O protocolo de EMTr foi a partir de sessões diárias com 25 séries de 5 segundo a 25Hz, com um intervalo de 45 segundos entre as séries, por sete dias consecutivos, com um total de 21 875 pulsos com uma intensidade de 100% do limiar motor, e sendo realizada a indução da isquemia logo após o término da última sessão, ou na isquemia após a EMTr, em sessões diárias com 25 séries de 5 segundos a 25Hz, com um intervalo de 45 segundos entre as séries, durante 3 dias consecutivos, começando imediatamente após a cirurgia. Foi mantida a temperatura de 36 °C durante o período de oclusão do vaso e os 30 minutos consecutivos, ou 31 a 32 °C quando em hipotermia. O preparo das lâminas teve cortes envolvendo a região do hipocampo, corados com hematoxilina e eosina, além de outros preparos, a marcação de TUNEL e Caspase, que visam evidenciar a ocorrência de apoptose. Resultados: Embora sem significância estatística, os animais que receberam EMTr aparentemente tiveram uma melhor performance no teste da esquiva, principalmente se aplicado após a indução da isquemia. A hipotermia demonstrou uma eficiência significativa, tanto na análise histológica quanto no teste da esquiva, associado ou não à EMTr, e nestes animais submetidos a isquemia durante a hipotermia, os que receberam EMTr tiveram área de sobrevida no hipocampo significativamente maior na análise histológica com hematoxilina e eosina. Nos animais submetidos à isquemia durante a temperatura normal, a EMTr não demonstrou aumentar a área de sobrevida das células do hipocampo. Conclusões: A EMTr (ativa ou placebo, prévia ou posterior à isquemia) pareceu ter um efeito positivo no teste de esquiva. O procedimento de estimulação pareceu bastante traumático e estressante para os animais, tendo ocorrido alguns óbitos durante a imobilização, provavelmente por asfixia. A EMTr apresentou efeito protetor significativo apenas nos animais submetidos a isquemia durante hipotermia / Introduction: Over the time many researches have been conducted with the aim of identifying agents that may have beneficial effects in the treatment or prevention of cerebral ischemia, hypothermia has shown consistent results in experimental trials and Repetitive Trans Cranial Magnetic Stimulation (rTMS) has been used in a study attempting to reduce damage in hippocampal neurons. With the property to increase or decrease cortical excitability from the repetitive magnetic stimulus, it is estimated that an interference occurs in the production of some neurotransmitters and receptors of neuronal membrane, which therefore protects these cells from hypoxia. In this study we evaluated the ability of rTMS to protect neurons from injury due to hypoxia, and its possible interference in the protective effect of hypothermia and we tried to identify some mechanisms that possibly are involved in this phenomenon. Methods: Ischemia model was performed using Gerbil that was subsequently submitted to an evaluation of behavior and memory through passive avoidance task. The rTMS protocol was daily sessions with 25 series of 5 seconds at 25Hz with an interval of 45 seconds between series, for 7 consecutive days, with a total of 21 875 pulses with an intensity of 100% of motor threshold, and being carried through the induction of ischemia soon after the end of the last session, or rTMS after ischemia, in daily sessions with 25 series of 5 seconds at 25Hz with an interval of 45 seconds between series, for 3 consecutive days, starting immediately after surgery. The temperature of 36 °C was maintained during the period of vessel occlusion and subsequent 30 minutes, or 31 °C to 32 °C when in hypothermia. The preparation of the slices had sections of the region involving the hippocampus, stained with hematoxylin and eosin in addition to other preparations, TUNEL and caspase, which aim to evidence the occurrence of apoptosis. Results: Although not statistically significant, animals that received rTMS, apparently had better performance in passive avoidance task especially when applied after ischemia. The hypothermia demonstrated a significant efficiency, both in the histological analysis and in the passive avoidance task, associated or not to applications of rTMS and, in these animals undergoing ischemia during hypothermia, the ones who received rTMS had survival area in hippocampus significantly higher in histological analysis with hematoxylin and eosin. In animals undergone to ischemia during normal temperature, the rTMS has not shown to increase the area of hippocampal cell survival. Conclusions: rTMS (placebo or active, after or before the ischemia) seems to have a positive effect on passive avoidance task. The stimulation procedure appeared to be very traumatic and stressful for the animal, in which a few deaths occurred during the procedure, probably from asphyxiation due to restraint. The rTMS had a significant protective effect only in animals undergoing ischemia during hypothermia, as demonstrated in the histological analysis with hematoxylin and eosin

Agentes neuroprotetores

Cerebral ischemia

Estimulação magnética transcraniana

Gerbillinae

Gerbillinae

Hipotermia

Hypothermia

Isquemia cerebral

Neuroprotective agents

Transcranial magnetic stimulation

Enhancing speech fluency using transcranial direct current stimulation

Chesters, Jennifer

January 2016

Producing speech is a highly complex task, involving the integration of sensory and linguistic information, with the precise, high-speed, co-ordination of muscles controlling breathing and the movement of the vocal folds and articulators. In spite of this complexity, producing fluent speech - moving smoothly from one speech sound to the next - can appear effortless. Speech fluency is highly socially valued, and the personal and societal costs of living with a disorder of fluency, such as developmental stuttering, are considerable. The outcomes of behavioural therapies to increase fluency are limited, however, especially for those seeking treatment in adulthood. The overarching aim of this thesis was to investigate how anodal transcranial direct current stimulation (A-TDCS) can be used to increase speech fluency, with a particular focus on the potential application to developmental stuttering. A-TDCS is a noninvasive brain stimulation technique that can enhance the effects of motor, speech, and language training. First, in a series of single-session experiments in typically fluent speakers, I demonstrated that applying A-TDCS over the left IFC increased speech motor learning relative to a sham control, but did not improve consolidation of this learning (chapter 2). Furthermore, I found that neither increasing stimulation intensity from 1 mA to 2 mA, nor changing from a unihemispheric to a bihemispheric configuration, had an additional effect on learning. Next, in single-session study with adults who stutter, I assessed the feasibility of using A-TDCS to improve fluency (chapter 3). Fluency was temporarily induced, by speaking in unison with another person, but the concurrent application of 1-mA unihemispheric A-TDCS over left inferior frontal cortex did not significantly prolong this fluency. Nevertheless, a trend towards stuttering reduction gave some indication that fluency might be increased using a multiple-session approach. Furthermore, I gained a number of important insights from these single-session studies, which I used to inform the design of the final multiple-session trial. In this final study, I completed a randomised controlled trial in 30 adult males with moderate to severe stuttering. Participants were randomized to receive either 1-mA A-TDCS or sham stimulation over left inferior frontal cortex combined with temporary fluency inducing behavioural techniques, for 20 minutes a day over 5 days (chapter 4). A-TDCS significantly reduced disfluency for at least 5 weeks following this intervention. The effect was specific to the speech impairment of development stuttering, as measures of the psycho-social consequences of stuttering were not modulated by A-TDCS. The findings of these studies offer significant promise for the future application of non-invasive stimulation as an adjunctive therapy for adults who stutter. In the concluding chapter, I discuss the important implications of my findings for the future use of this technique.

150

Neuronavigation-Guided Transcranial Ultrasound: Development towards a Clinical System and Protocol for Blood-Brain Barrier Opening

Wu, Shih-Ying

January 2016

Brain diseases including neurological disorders and tumors remain undertreated due to the challenge in accessing the brain, and blood-brain barrier (BBB) restricting drug delivery, which also profoundly limits the development of pharmacological treatment. Focused ultrasound (FUS) with acoustic agents including microbubbles and nanodroplets remains as the only method to open the BBB noninvasively, locally, and transiently to assist drug delivery. For an ideal medical system to serve a broad patient population, it requires precise and flexible targeting with simulation to personalize treatment, real-time monitoring to ensure safety and effectiveness, and rapid application, as repetitive pharmacological treatment is often required. Since none of current systems fulfills all the requirements, here we designed a neuronavigation-guided FUS system with protocol assessed in in vivo mice, in vivo non-human primates, and human skulls from in silico preplanning, online FUS treatment and real-time acoustic monitoring and mapping, to post-treatment assessment using MRI. Both sedate and awake non-human primates were evaluated with total treatment time averaging 30 min and 3-mm targeting accuracy in cerebral cortex and subcortical structures. The FUS system developed would enable transcranial FUS in patients with high accuracy and independent of MRI guidance.

Blood-brain barrier

High-intensity focused ultrasound

Transcranial Doppler ultrasonography

Brain--Diseases

Biomedical engineering

Nanoscience

Electrical engineering

Inhibitory mechanisms for visual learning in the human brain

Frangou, Polytimi

January 2018

Identifying targets in cluttered scenes is critical for our interactions in complex environments. Our visual system is challenged to both detect elusive targets that we may want to avoid or chase and discriminate between targets that are highly similar. These tasks require our visual system to become an expert at detecting distinctive features that help us differentiate between indistinguishable targets. As the human brain is trained on this type of visual tasks, we observe changes in its function that correspond to improved performance. We use functional brain imaging, to measure learning-dependent modulations of brain activation and investigate the processes that mediate functional brain plasticity. I propose that dissociable brain mechanisms are engaged when detecting targets in clutter vs. discriminating between highly similar targets: for the former, background clutter needs to be suppressed for the target to be recognised, whereas for the latter, neurons are tuned to respond to fine differences. Although GABAergic inhibition is known to suppress redundant neuronal populations and tune neuronal representations, its role in visual learning remains largely unexplored. Here, I propose that GABAergic inhibition plays an important role in visual plasticity through training on these tasks. The purpose of my PhD is to investigate the inhibitory mechanisms that mediate visual perceptual learning; in particular, learning to detect patterns in visual clutter and discriminate between highly similar patterns. I show that BOLD signals as measured by functional Magnetic Resonance Imaging (fMRI) do not differentiate between the two proposed mechanisms. In contrast, Magnetic Resonance Spectroscopy (MRS) provides strong evidence for the distinct involvement of GABAergic inhibition in visual plasticity. Further, my findings show GABA changes during the time-course of learning providing evidence for a distinct role of GABA in learning-dependent plasticity across different brain regions involved in visual learning. Finally, I test the causal link between inhibitory contributions and visual plasticity using a brain stimulation intervention that perturbs the excitation-inhibition balance in the visual cortex and facilitates learning.

Eficácia da estimulação magnética transcraniana em pacientes com zumbido e audiometria normal: avaliação clínica e por neuroimagem / Transcranial magnetic stimulation efficiency in patients with tinnitus and normal pure-tone audiometry: clinical and neuroimaging evaluation.

Marcondes, Renata de Almeida

11 March 2009

INTRODUÇÃO: O zumbido é um sintoma muito freqüente e de difícil tratamento. Atualmente, algumas evidências mostraram que o zumbido está associado a alterações funcionais do sistema nervoso central. Nos últimos anos, a modulação da atividade cortical relacionada ao zumbido por meio da estimulação magnética transcraniana repetitiva (EMT) tem sido proposta como um tratamento promissor. Entretanto, nenhum estudo avaliou sua eficácia no controle do zumbido em pacientes sem perda auditiva concomitante, nem seu efeito de longa duração. O objetivo do trabalho foi investigar os efeitos imediatos e a longo prazo da estimulação magnética transcraniana repetitiva de baixa freqüência (1 Hz) em pacientes com zumbido e audiometria normal. MÉTODOS: Utilizando um ensaio clínico aleatorizado, duplo cego e paralelo, foram randomizados 20 pacientes para receber a EMT ativa ou placebo. A estimulação foi aplicada no córtex têmporo-parietal esquerdo por cinco dias consecutivos. A avaliação clínica foi feita por meio do Tinnitus Handicap Inventory e da escala análogo-visual. A avaliação por neuroimagem foi feita por meio do SPECT, o qual foi realizado antes e 14 dias após o período de estimulação. RESULTADOS: Clinicamente, o grupo submetido à estimulação magnética transcraniana ativa apresentou uma melhora significativa do zumbido, mantida por até seis meses, quando comparado ao grupo que recebeu a estimulação placebo. A avaliação por SPECT demonstrou redução do fluxo sanguíneo no lobo temporal esquerdo após o período de estimulação ativa. CONCLUSÃO: Os resultados revelam o potencial terapêutico da estimulação magnética transcraniana como nova ferramenta no tratamento do zumbido, proporcionando redução significativa do incômodo provocado pelo zumbido por até seis meses e reduzindo a atividade neuronal no córtex temporal. / INTRODUCTION: Tinnitus is a frequent disorder which is very difficult to treat. There is compelling evidence that tinnitus is associated with functional alterations in the central nervous system. Recently, the targeted modulation of tinnitus-related cortical activity through repetitive transcranial magnetic stimulation (rTMS) has been proposed as a promising new treatment approach. However, its efficacy in patients without hearing loss has never been studied, as well as the long-term duration of its effect. The objective of this study was to investigate both immediate and long-term effect of low frequency (1 Hz) rTMS in patients with tinnitus and normal hearing. METHODS: Using a randomized double-blind and parallel clinical trial, 20 patients were divided to receive either active or placebo transcranial magnetic stimulation over the left temporoparietal cortex for 5 consecutive days. The clinical evaluation was performed by using the Tinnitus Handicap Inventory and the visual analogue scale. The neuroimage evaluation included and ECD-SPECT imaging, which was performed before and 14 days after rTMS. RESULTS: From the clinical point of view, the group submitted to active rTMS presented significant improvement of the tinnitus score, which was sustained up to six months, when compared to the group that received the sham rTMS. SPECT measurements demonstrated a reduction of metabolic activity in the left temporal lobe after active rTMS. CONCLUSION: These results support the potential of rTMS as a new therapeutic tool for the treatment of chronic tinnitus, by demonstrating a significant reduction of tinnitus complaints over a period of at least six months and a significant reduction of neural activity in the temporal cortex.

Estimulação magnética transcraniana

Tinnitus

Transcranial magnetic stimulation

Zumbido

Auditory processing and motor systems: EEG analysis of cortical field potentials

January 2013

Contemporary research has been examining potential links existing among sensory, motor and attentional systems. Previous studies using TMS have shown that the abrupt onset of sounds can both capture attention and modulate motor cortex excitability, which may reflect the potential need for a behavioral response to the attended event. TMS, however, only quantifies motor cortex excitability immediately following the deliverance of a TMS pulse. Therefore, the temporal development of how the motor cortex is modulated by sounds can’t be quantified using TMS. Thus, the purpose of the present study is to use time frequency analysis of EEG to identify the time course of cortical mechanisms underlying increased motor cortex excitability after sound onset. Subjects sat in a sound attenuated booth with their hands outstretched at 45-degree angles while frequency modulated sounds were intermittently presented from a speaker either in the left and right hemispace. Our results indicated a transient reduction in EEG power from 18-24 Hz (300-600 ms latency) and then a long lasting increase in EEG power that began at ~800 ms and continued until at least 1.7 sec. The latency of EEG power changes was shorter for sounds presented from the right speaker at both time periods. When sounds were presented from the right speaker the contralateral hemisphere over motor regions also showed greater power increases after 800 ms relative to the ipsilateral hemisphere. In addition, power increases were greater in the left-handed subjects (8-12 Hz). Results showed that sounds increased EEG power at the time of a previously observed increase in motor cortex excitability. Findings also suggest an increased attentional salience to the right hemispace in neurologically normal subjects and asymmetrical hemispheric activations in right and left-handers. / acase@tulane.edu

Electroencephalography(EEG)

Transcranial Magnetic Stimulation (TMS)

School of Science & Engineering

Neuroscience

Masters

Motor Control and Perception during Haptic Sensing: Effects of Varying Attentional Demand, Stimuli and Age

Master, Sabah

28 November 2012

This thesis describes a series of experiments in human observers using neurophysiological and behavioural approaches to investigate the effects of varying haptic stimuli, attentional demand and age on motor control and perception during haptic sensing (i.e., using the hand to seek sensory information by touch). In Experiments I-IV, transcranial magnetic stimulation (TMS) was used to explore changes in corticomotor excitability when participants were actively engaged in haptic sensing tasks. These studies showed that corticospinal excitability, as reflected in motor evoked potential (MEP) amplitude, was greatly enhanced when participants were engaged in different forms of haptic sensing. Interestingly, this extra corticomotor facilitation was absent when participants performed finger movements without haptic sensing or when attention was diverted away from haptic input by a concurrent cognitive task (Exp I). This provided strong evidence that the observed corticomotor facilitation was likely central in origin and related to haptic attention. Neuroimaging has shown activation of the parieto-frontal network likely subserves this aspect of haptic perception. Further, this haptic-specific corticomotor facilitation was finely modulated depending on whether participants focused attention on identifying material (texture) as opposed to geometric properties of scanned surfaces (Exp II). With regards to aging effects, haptic-related corticomotor facilitation was associated with higher recognition accuracy in seniors (Exp III). In line with this, seniors exhibited similar levels of haptic-related corticomotor facilitation to young adults when task demands were adjusted for age (Exp IV). Interestingly, both young and senior adults also showed substantial corticomotor facilitation in the ‘resting’ hand when the ipsilateral hand was engaged in haptic sensing (Exp IV). Simply touching the stimulus without being required to identify its properties (no attentional task demands) produced no extra corticomotor facilitation in either hand or age group, attesting again to the specificity of the effects with regards to haptic attention. In Experiments V-VI, the ability to recognise 2-D letters by touch was investigated using kinematic and psychophysical measures. In Experiment V, we characterized how age affected contact forces deployed at the fingertip. This investigation showed that older adults exhibited lower normal force and increased letter-to-letter variability in normal force when compared to young adults. This difference in contact force likely contributed to longer contact times and lower recognition accuracy in older adults, suggesting a central contribution to age-related declines in haptic perception. Consistent with this interpretation, Experiment VI showed that haptic letter recognition in older adults was characterized not only by lower recognition accuracy but also by substantial increases in response times and specific patterns of confusion between letters. All in all, these investigations highlight the critical interaction of central factors such as attentional demand with aging effects on motor and perceptual aspects of haptic sensing. Of particular significance is the clear demonstration that corticomotor excitability is greatly enhanced when a haptic sensing component (i.e., attending to specific haptic features) is added to simple finger movements performed at minimal voluntary effort levels (typically <15 % of the maximal effort). These observations underline the therapeutic potential of active sensory training strategies based on haptic sensing tasks for the re-education of motor and perceptual deficits in hand function (e.g., subsequent to a stroke). The importance of adjusting attentional demands and stimuli is highlighted, particularly with regards to special considerations in the aging population.

haptic

tms

transcranial magnetic stimulation

sensing

aging

perception

motor control

attention

touch

tactile

discrimination

corticospinal

excitability

motor cortex

hand