Efeito da estimulação transcraniana de corrente contínua nos sintomas vasomotores do climatério : ensaio clínico randomizado, cego, em paralelo, controlado com placebo-sham

Bianchi, Mônia Steigleder

January 2015

Introdução: Climatério é definido como o período de tempo onde ocorre a mudança de vida reprodutiva para não reprodutiva, com extensão de duração variável. Durante esse período e após o estabelecimento da menopausa, é comum o surgimento de diversos sintomas que expressam o esgotamento dos folículos ovarianos. Dentre os sintomas, o mais comumente relatado pelas mulheres são os sintomas vasomotores ou fogachos. Além da Terapia de Reposição Hormonal (TRH), outras medicações como os Inibidores Seletivos da Recaptação da Serotonina (ISRS) têm sido empregadas na tentativa de melhorá-los. Justificativa: TRH não pode ser aplicado a todas as mulheres com sintomas. As medicações não hormonais, apesar de apresentarem melhores respostas que placebo, ainda demonstram pouco impacto clínico na redução dos sintomas vasomotores. Esta lacuna permite avaliar outras alternativas terapêuticas, como a Estimulação Transcraniana por Corrente Direta (ou tDCS, do inglês transcranial direct current stimulation). O racional para estudar o efeito desta técnica neste contexto, é o seu possível efeito modulatório autonômico. O que reforça a escolha desta técnica é o fato de ter eficácia demonstrada em outras patologias como depressão, dor, doença Parkinson dentre outras. A tDCS é um método de neuromodulação transcraniana não invasivo, que se baseia na aplicação de correntes contínuas de baixa intensidade, através de eletrodos colocados sobre o escalpo, de forma simples e indolor. Objetivo: Avaliar o efeito da tDCS (tratamento ativo) comparada ao tDCS-sham (placebo) nos sintomas vasomotores de mulheres na pós- menopausa como objetivo primário; e como objetivo secundário, seus efeitos na qualidade de vida. Método: Ensaio Clínico Randomizado realizado em 30 pacientes pós-menopáusicas com queixa de pelo menos 05 episódios de fogachos/dia. Participantes foram selecionadas no ambulatório de Climatério do Serviço de Ginecologia e Obstetrícia do Hospital de Clínicas de Porto Alegre e via chamamento de jornal. Estas foram randomizadas para um dos grupos: tDCS ou placebo-sham. A intervenção consistiu na aplicação de sessões diárias de estimulação com corrente elétrica de 02 mili Ampere, pelo período de 10 dias consecutivos, à exceção dos finais de semana. Por uma semana anterior à intervenção e por 30 dias após, as participantes registravam o número e intensidade dos fogachos ao dia. Responderam ao Women´s Health Questionaire (WHQ) antes e ao termino da intervenção. Resultados: A média de fogachos/dia se comportou de forma semelhante nos dois grupos havendo uma redução do número de fogachos nas três primeiras semanas após intervenção com retorno ao basal a partir da quarta semana pós-aplicação. No grupo tDCS, se observou uma tendência a uma transferência dos fogachos intensos para leves sugerindo uma melhora clínica. Os resultados, apesar de não apresentarem significância estatística, reforçam a ideia de ampliar a investigação, com maior número de pacientes e com maior tempo de duração além do caráter inovador da pesquisa. / Introduction: Menopause is defined as a period where there is a change from the reproductive stage to a nonreproductive phase, with variable duration. During this period and following the establishment of menopause, there is usually an onset of several symptoms indicating the depletion of ovarian follicles. Among the symptoms, the ones that are more frequently reported by women are vasomotor symptoms or hot flashes. In addition to Hormone Replacement Therapy (HRT), other medications such as Selective Serotonin Reuptake Inhibitors (SSRIs) have been employed to treat them. Justification: HRT may not be applied to all women with symptoms. Non-hormonal medications, despite having better responses than placebo, have still shown little clinical impact on the reduction of vasomotor symptoms. This gap allows other therapeutic alternatives to be considered, such as Transcranial Direct Current Stimulation (tDCS). The rationale for studying the effect of this technique in this context is its possible autonomic modulatory effect. What reinforces the choice of this technique is the efficacy which it has demonstrated in other disorders such as depression, pain, Parkinson's disease, among others. tDCS is a non-invasive transcranial neuromodulation method based on the application of continuous low-intensity currents through electrodes placed to the scalp, in a simple and painless way. Goal: To evaluate the effect of tDCS (active treatment) compared to tDCS-sham (placebo) on vasomotor symptoms in postmenopausal women as a primary endpoint and its effects on quality of life as a secondary endpoint. Method: Randomized Clinical Trial conducted in 30 postmenopausal patients complaining of at least five episodes of hot flashes per day. Participants were selected at the Gynecology and Obstetrics Service Menopause Outpatient Clinic, Hospital de Clínicas de Porto Alegre and via a newspaper call. These were randomized to one of the groups: tDCS or placebo-sham. The intervention consisted of daily sessions in which stimulation was applied with an electric current of 02 milliamperes for 10 consecutive days, except on weekends. Participants recorded the number and intensity of hot flashes per day for one week before and for 30 days after the intervention. They answered the Women’s Health Questionnaire (WHQ) before and after the intervention completion. Results: The mean of hot flashes/day behaved in a similar way in both groups, and there was a reduction in hot flashes in the first three weeks following the intervention with a return to baseline starting in the fourth week after the administration. In the tDCS group, a trend towards a conversion of intensive hot flashes into mild ones was noted, which suggested a clinical improvement. The results, despite not showing statistical significance, supported the idea of extending the investigation with a larger number of patients and longer duration, in addition to the innovating nature of the research.

Menopausa

Fogachos

Menopause

Transcranial direct current stimulation

Vasomotor symptoms/hot flashes

Nova metodologia de Doppler transcraniano funcional durante tarefa motora unimanual / New methodology for functional transcranial Doppler during an unimanual

Haratz, Salo Semelmann

30 June 2014

INTRODUÇÃO: O Doppler Transcraniano funcional pode avaliar mudanças na velocidade do fluxo sanguíneo encefálico associadas a tarefas cognitivas e/ou sensitivo-motoras. Mede de maneira indireta a atividade metabólica de regiões cerebrais, segundo o princípio do acoplamento neurovascular. Os objetivos deste estudo foram: desenvolver um novo método de análise de Doppler transcraniano funcional para análise da lateralização hemisférica e verificar a capacidade deste novo método em diferenciar a lateralização hemisférica durante a execução de uma tarefa motora unimanual por indivíduos saudáveis. Adicionalmente, a lateralização hemisférica foi correlacionada com a preferência manual nestes indivíduos. MÉTODOS: Treze indivíduos saudáveis foram submetidos a um exame de Doppler transcraniano funcional durante uma prova de ativação motora manual (oposição de dedos). As sessões de Doppler transcraniano funcional foram realizadas com aparelho Doppler-Box Transcranial Doppler Unit. A prova manual compreendeu uma sequência de movimentos de oposição do primeiro e segundo dedos (thumb-tofinger opposition movement) realizado por uma mão e depois pela outra, em uma frequência de 1 movimento por segundo (1Hz) fornecida por um metrônomo digital. Durante a execução dos movimentos, foram insonadas simultaneamente as artérias cerebrais médias direita e esquerda. Para interpretação dos dados de Doppler transcraniano funcional desenvolvemos um novo programa de análise denominado FDAT, que tem vantagens de sofrer mínima influência de artefatos de ruído no sinal e de não assumir um formato pré-determinado da resposta hemodinâmica cerebral. Foi calculado um índice de lateralização (IL) como a diferença entre a velocidade relativa média da época de ativação e a velocidade relativa média da época de repouso para cada prova motora. Foi calculada a diferença dos valores de IL (ILe - ILd) provenientes da análise com cada método, obtendo-se um índice de ativação, próprio de cada sujeito. A comparação do índice de ativação durante a movimentação da mão direita, e durante a movimentação da mão esquerda, foi feita com o teste de Wilcoxon. A correlação entre o índice de ativação e a preferência manual avaliada pelo Inventário de Edimburgo foi avaliada pelo coeficiente rho de Spearman. RESULTADOS: Houve uma diferença estatisticamente significante entre o IA obtido durante a movimentação da mão direita ou da mão esquerda (p=0,02). Houve correlação estatisticamente significante entre a preferência manual e a assimetria na lateralização hemisférica identificada pelo Doppler Transcraniano funcional (rho = 0.85, p < 0.001). CONCLUSÕES: A análise do Doppler Transcraniano funcional mostrou-se viável pelo método proposto, capaz de avaliar o grau de lateralização hemisférica em uma prova de ativação motora, com boa correlação com a preferência manual. Trata-se de uma ferramenta prática, não invasiva e de baixo custo para a avaliação da lateralização hemisférica em determinadas provas funcionais / INTRODUCTION: Functional transcranial Doppler is a method for the assessment of changes in blood flow velocity of the middle cerebral artery. An asymmetric increase in blood flow velocity is a marker of hemispheric lateralization during unimanual motor task performance. The aims of this study were to propose a novel and efficient method for functional transcranial Doppler analysis based on cubic smoothing splines, and to verify the ability of this method to identify hemispheric lateralization during unimanual motor task performance in healthy subjects. In addition, hemispheric lateralization was correlated with handedness in these subjects. METHODS: Thirteen healthy subjects participated in the study. Blood flow velocities in the right and left middle cerebral arteries were recorded using functional transcranial Doppler during a finger-tapping task with either the right or left hand. Data were analyzed with a multi-step new method that included: baseline determination, raw data normalization, smoothing, lateralization Index calculation, definition of rest and motor task epochs and activation Index calculation. A positive activation Index reflects right-hemisphere lateralization and a negative activation index, left hemisphere lateralization. RESULTS: There was a statistically significant difference between the activation index obtained during right or left hand movements (p=0.02). Hand dominance was significantly correlated with asymmetry in hemispheric lateralization assessed with functional transcranial Doppler (rho = 0.85, p<0.001). CONCLUSIONS: This novel method for functional transcranial Doppler analysis was capable to assess the hemispheric lateralization during motor task performance, and correlated well with handedness. It is a practical, non-invasive and unexpensive tool for the assessment of hemispheric lateralization.

Functional Laterality

Functional Neuroimaging

Lateralidade funcional

Neuroimagem funcional

Transcranial Doppler Ultrasonography

Ultrassonografia Doppler transcraniana

Excitabilidade do córtex motor em indivíduos com infarto cerebelar na fase crônica e em controles saudáveis / Asymmetry in cortical excitability of patients with cerebellar infarcts and healthy subjects

Guarda, Suzete Nascimento Farias da

29 July 2013

INTRODUÇÃO: Há evidências de modulação da excitabilidade do córtex motor por informações cerebelares, em animais e humanos. O objetivo deste estudo foi comparar a assimetria inter-hemisférica de excitabilidade cortical entre indivíduos com infarto cerebelar na fase crônica e controles saudáveis, através de estimulação magnética transcraniana. MÉTODOS: Foram incluídos sete indivíduos com infarto cerebelar (> 4 meses pós-infarto) e sete controles saudáveis. Cada participante foi submetido a uma sessão de estimulação magnética transcraniana do córtex motor no hemisfério direito e no hemisfério esquerdo, para a realização de medidas de excitabilidade e a determinação de assimetrias entre os hemisférios cerebrais. Os seguintes parâmetros de excitabilidade cortical foram avaliados: limiar motor de repouso, facilitação intracortical, inibição intracortical, relação entre amplitudes de potenciais evocados motores e amplitudes de ondas M, com intensidade de estimulação correspondendo ao limiar motor de repouso, a 130% do limiar motor de repouso, e a 100% da capacidade máxima do estimulador. RESULTADOS: Houve diferença significante na assimetria inter-hemisférica da inibição intracortical entre os grupos (teste de Mann-Whitney, p=0,048). Em todos os indivíduos com infartos cerebelares, a inibição intracortical foi menor no córtex motor primário contralateral ao infarto cerebelar, em comparação ao córtex motor ipsilateral. Houve ainda correlação significante entre o tempo de ocorrência do infarto cerebelar e a assimetria da inibição intracortical (r=0,91, p=0,004). Os demais parâmetros avaliados não apresentaram diferença significante entre os dois hemisférios em ambos os grupos. CONCLUSÕES: Estes resultados indicam que, em indivíduos com infarto cerebelar na fase crônica, ocorre desinibição do córtex motor contralateral. Avaliados em conjunto com estudos realizados em indivíduos com infartos cerebelares na fase subaguda, apoiam a hipótese de que alterações na inibição intracortical passam por modificações dinâmicas em diversas fases após um infarto cerebelar / INTRODUCTION: There is evidence of modulation of excitability of the motor cortex by cerebellar and somatosensory input in animals and humans. The goal of this study was to compare the inter-hemispheric asymmetry of cortical excitability in humans with cerebellar infarcts and healthy controls. METHODS: In order to evaluate inter-hemispheric asymmetry, seven individuals with cerebellar infarcts (> 4 months post-infarct) and seven healthy subjects were evaluated. There were no significant differences in age or gender between the groups. Each participant was submitted to one session of transcranial magnetic stimulation of the motor cortex of the right and left hemispheres, to determine asymmetries in excitability between the cerebral hemispheres. The following parameters of cortical excitability were evaluated: resting motor threshold, intracortical facilitation, intracortical inhibition, the relationship between motor evoked potential amplitudes and M-wave amplitudes. Three stimulation intensities were used: resting motor threshold, 130% of the resting motor threshold, and the stimulator\'s maximum output. RESULTS: There was a significant difference in inter-hemispheric asymmetry of intracortical inhibition between the groups (Mann-Whitney test, p=0.048). For all individuals with cerebellar infarcts, intracortical inhibition was lower in the primary motor cortex contralateral to the cerebellar infarction, compared to the ipsilateral motor cortex. There was also a significant correlation between the time elapsed since the cerebellar infarction and asymmetry of intracortical inhibition (r=0.91, p=0.004). The other variables evaluated were not significantly different between the two hemispheres in either group. CONCLUSIONS: These results indicate that disinhibition of the contralateral motor cortex occurs in individuals with chronic cerebellar infarcts. Taken together with studies performed in individuals with cerebellar infarcts in the subacute phase, these results support the hypothesis that changes in intracortical inhibition undergo dynamic changes over time, after a cerebellar infarct

Acidente vascular cerebral

Cerebellum

Cerebelo

Estimulação magnética transcraniana

Stroke

Transcranial magnetic stimulation

Efeitos da estimulação magnética transcraniana para sintomas obsessivo-compulsivos em pacientes com esquizofrenia

Mendes Filho, Vauto Alves

January 2016

Em pacientes com esquizofrenia, sintomas obsessivo-compulsivos (SOC) são associados com taxas mais baixas de qualidade de vida e polifarmácia. Não há estudos controlados anteriores testando a eficácia da estimulação magnética transcraniana repetitiva (EMTr) para o tratamento de SOC nesta população. Este trabalho examinou os efeitos terapêuticos da EMTr aplicadas à Área Motora Suplementar (1 Hz, 20 min, 20 sessões) em SOC e sintomas gerais em pacientes com esquizofrenia ou transtorno esquizoafetivo, e se esta intervenção pode produzir alterações nos níveis plasmáticos do fator neurotrófico derivado do cérebro (BDNF). Inicialmente, foi realizado um relato de três casos, com o objetivo de fornecer uma evidência inicial de eficácia. Dois dos três pacientes que participaram apresentaram redução da Escala de Sintomas Obsessivo-Compulsivos de Yale-Brown (Y-BOCS), com retorno aos valores iniciais 4 semanas após o término do tratamento. Foi realizado então um estudo duplo-cego randomizado controlado por placebo para confirmação dos efeitos terapêuticos. EMTr ativa e placebo foram entregues para 12 pacientes (6 em cada grupo). Os escores da Escala de Sintomas Obsessivo-Compulsivos de Yale-Brown (Y-BOCS) e da Escala Breve de Avaliação Psiquiátrica (BPRS), bem como os níveis de BDNF, foram avaliados antes, depois, e 4 semanas após as intervenções. A EMTr não alterou significativamente os resultados após o tratamento e no follow-up (Y-BOCS: Χ2 = 3,172; p = 0,205; BPRS: X2 = 1.629; p = 0,443; BDNF: X2 = 2.930; p = 0,231). Parece haver uma tendência para a melhoria da pontuação BPRS 4 semanas após o tratamento no grupo ativo comparando com placebo (d de Cohen = 0,875, com 32,9% de poder estatístico). Não foram relatados efeitos colaterais. São necessários estudos futuros com amostras maiores. / In patients with schizophrenia, obsessive-compulsive symptoms (OCS) are associated with lower rates of quality of life and polypharmacy. No previous controlled studies have tested the efficacy of repetitive transcranial magnetic stimulation (rTMS) on the treatment of OCS in this population. The present study examined the therapeutic effects of rTMS applied to the supplementary motor area (1 Hz, 20 min, 20 sessions) on OCS and general symptoms in patients with schizophrenia or schizoaffective disorder, and whether this intervention can produce changes in plasma levels of brain-derived neurotrophic factor (BDNF). Initially, there was a report of three cases with the aim of providing initial evidence of efficacy. Two patients showed a reduction on the Yale-Brown Obsessive-Compulsive Symptoms Scale (Y-BOCS) scores, with return to baseline 4 weeks after completion of treatment. Then, a double-blind randomized controlled trial was conducted. Active and sham rTMS were delivered to 12 patients (6 on each group). Yale-Brown Obsessive-Compulsive Scale (Y-BOCS) and Brief Psychiatric Rating Scale (BPRS) scores, as well as BDNF levels, were assessed before, after, and 4 weeks after treatment. rTMS did not significantly change the outcomes after treatment and on the follow-up (Y-BOCS: Wald’s Χ2=3.172; p=0.205; BPRS: X2=1.629; p=0.443; BDNF: X2=2.930; p=0.231). There seemed to be a trend towards improvement of BPRS scores 4 weeks after rTMS treatment comparing with sham (Cohen’s d=0.875, with 32.9% statistical power). No side effects were reported. Future studies with larger sample sizes are needed.

Transtorno obsessivo-compulsivo

Esquizofrenia

Estimulação magnética transcraniana

Transcranial magnetic stimulation

Schizophrenia

Obsessive behavior

Neuromodulation

Efeito da terapia combinada da EMTr com fluoxetina na reabilitação da função motora de pacientes pós AVE isquêmico / Effects of contralesional repetitive magnetic stimulation combined with fluoxetine on motor recovery in stroke patients

Pinto, Camila Bonin

11 December 2018

O AVC está entre a principais causas de mortalidade e disfuncionalidade no mundo. A recuperação da função motora pós-AVC é normalmente incompleta; uma vez que as terapias atuais tem impacto limitado na promoção da plasticidade cerebral. Novas abordagens que podem intensificar a plasticidade cerebral têm sido estudadas para melhorar a reabilitação motora pós- AVC, entre eles a fluoxetina e a estimulação magnética transcraniana (EMTr) alcançaram resultados promissores. Portanto, nós conduzimos um ensaio clínico exploratório randomizado, duplo-cego, placebo controlado, avaliando os efeitos da combinação da EMTr em baixa frequência com a fluoxetina para aumentar a função motora do membro superior em pacientes com AVC. Vinte e sete pacientes hemiplégicos secundários a AVC isquêmico que apresentaram o evento nos últimos 2 anos foram randomizados em três grupos: EMTr ativa + fluoxetina, sham EMTr + fluoxetina e placebo (sham EMTr + fluoxetina placebo). Os participantes receberem 18 sessões (10 sessões diárias seguidas de 8 sessões semanais) de EMTr a 1 Hz sobre o córtex motor primário (M1) do hemisfério não afetado, combinadas com 90 dias de fluoxetina (20 mg/dia). As escalas de Jebsen Taylor (JTHF) e Fugl-Myer (FMA) foram utilizadas. Além disso, desfechos secundários incluíram questionário de segurança e comportamentais. Nossos resultados demonstraram melhora significativa na FMA e JTHF após o tratamento nos três grupos. Após ajustar para o tempo desde o evento isquêmico houve um aumento significativo na melhora da função motora de acordo com o JTHF no grupo que combinou EMTr ativa + fluoxetina quando comparados os grupos placebo ou fluoxetina exclusivamente. Essa análise mostrou uma melhora menos significativa na função motora no grupo fluoxetina quando comparada com o grupo placebo quando avaliada pelo JTHF (p=0.038) e pelo FMA (p=0.039), sugerindo um efeito potencialmente prejudicial da medicação ativa quando comparada com o placebo. Por fim, observamos que os desfechos de humor, função cognitiva e a segurança não foram significativos. A combinação da EMTr com a fluoxetina demonstrou melhoras significativas na função motora pós-AVC quando comparada com placebo, a terapia exclusiva com fluoxetina parece causar um efeito negativo / Stroke is among the leading causes of mortality and disability worldwide. Post stroke recovery of motor function is usually incomplete; these poor effects are believed to be due to the limited impact of current therapies in promoting brain plasticity. Novel approaches that can enhance brain plasticity have been studied to improve motor rehabilitation after stroke, among them fluoxetine and repetitive transcranial magnetic stimulation (rTMS) yielded promising results. Therefore, we conducted a randomized, double-blinded, sham-controlled, exploratory trial evaluating the effects of the combination of low-frequency rTMS and fluoxetine to increase upper limb motor function in stroke patients. Twenty-seven hemiplegic ischemic stroke patients within 2 years post event were randomized into three groups: active rTMS+fluoxetine, sham rTMS+fluoxetine, or placebo (sham rTMS+ placebo fluoxetine). Participants received 18 sessions (10 daily sessions followed by 8 weekly sessions) of 1Hz rTMS applied over the primary motor cortex (M1) over the unaffected hemisphere combined with 90 days of fluoxetine (20 mg/day). A blinded rater assessed motor function as indexed by Jebsen Taylor hand function (JTHF) and Fugl-Myer (FMA) scales. Additional secondary outcomes included safety and behavioral questionnaires. Our results showed a significant improvement in FMA and JTHF post treatment in all three groups. After adjusting for time since stroke there was a significantly larger improvement in motor function as indexed by JTHF seen in the combined active rTMS+fluoxetine group when compared to placebo and fluoxetine only groups. Additionally, this analysis showed significant less improvement in motor function in the fluoxetine group when compared to placebo group as indexed by JTHF (p=0.038) and FMA (p=0.039); consequently, suggesting a potential detrimental effect of the active medication when compared to placebo. Lastly, we observed that mood, cognitive performance and safety outcomes were not significantly. Despite establishing that the combination of TMS and fluoxetine leads to higher/greater improvements in motor function post stroke when compared to placebo, solely therapy with fluoxetine seemed to lead to a negative effect and thus it is plausible to believe that the benefit observed in the combined group is more likely due to the effects of TMS intervention

Acidente vascular cerebral

Estimulação magnética transcraniana

Fluoxetina

Fluoxetine

Função motora

Motor function

Stroke

Transcranial magnetic stimulation

Effects of Expectations on Cognitive Enhancement Interventions in Young and Older Adults

Rabipour, Sheida

20 September 2018

With increasing life expectancy and global population of older adults, preserving cog- nitive function throughout life represents a growing priority. Numerous approaches to cognitive enhancement exist, but few have scientific merit. Among the most preva- lent – and commercialized – approaches are cognitive training (“brain training”) and non-invasive brain stimulation through electric currents applied at the surface of the scalp. The present dissertation describes a collection of work contextualizing the appeal of these cognitive enhancement methods and addressing some of the most pervasive limitations of research in this field thus far. One largely ignored issue in cognitive intervention research pertains to people’s expectations of programs and their relationship with intervention outcomes. In a series of initial studies, we developed and validated the Expectation Assessment Scale (EAS), a tool created to measure as well as prime expectations of outcomes in the context of cognitive enhancement interventions. In our first two studies, we probed expectations of cognitive training or non-invasive brain stimulation in over 1,000 young, middle-aged, and older adults. Ratings on the EAS suggested that older adults may have particularly high expectations of cognitive training, but that expectations can be primed to increase or decrease – at least in hypothetical scenarios. We used these data to assess the psychometric properties of the EAS with item-response theory, and confirmed its internal consistency. Next, we incorporated the EAS into two cognitive enhancement trials, one in- vestigating a computerized cognitive training intervention in nearly 100 older adults and another examining non-invasive brain stimulation in nearly 100 young adults. Both trials had a double-blind balanced-placebo design in which participants were assigned to the intervention or control condition, and then subdivided to receive ei- ther high or low expectation priming (i.e., primed to have high or low expectations of the program’s effectiveness). Although expectation ratings replicated our previous findings, results from these trials suggest little, if any, effect of either expectations or the intervention on performance outcomes. We nevertheless found that participants enjoyed their assigned program and that those who received high expectation prim- ing tended to report a more positive experience. Our findings put into question the effectiveness of such interventions and support the need for more rigorous trials of cognitive enhancement.

Expectations

Cognitive enhancement

Brain training

Non-invasive brain stimulation

Placebo effects

Cortical Stimulation Mapping of Heschl’s Gyrus in the Auditory Cortex for Tinnitus Treatment

Huang, Austin

01 January 2019

Tinnitus is the perception of sound in the absence of an actual sound stimulus. Recent developments have shifted the focus to the central nervous system and the neural correlate of tinnitus. Broadly, tinnitus involves cortical map rearrangement, pathological neural synchrony, and increased spontaneous firing rates. Various cortical regions, such as Heschl’s gyrus in the auditory cortex, have been found to be associated with different aspects of tinnitus, such as perception and loudness. I propose a cortical stimulation mapping study of Heschl’s gyrus using a depth and subdural electrode montage to conduct electrocorticography. This study would provide high-resolution data on abnormal frequency band oscillations characteristic of tinnitus and pinpoint regions where they occur. The validity of the neural synchrony model would also be tested in this study.

tinnitus

coordinated reset

ECoG

electrocorticography

tDCS

transcranial direct current stimulation

Computational Neuroscience

Speech and Hearing Science

Development of Novel Models to Study Deep Brain Effects of Cortical Transcranial Magnetic Stimulation

Syeda, Farheen

01 January 2018

Neurological disorders require varying types and degrees of treatments depending on the symptoms and underlying causes of the disease. Patients suffering from medication-refractory symptoms often undergo further treatment in the form of brain stimulation, e.g. electroconvulsive therapy (ECT), transcranial direct current stimulation (tDCS), deep brain stimulation (DBS), or transcranial magnetic stimulation (TMS). These treatments are popular and have been shown to relieve various symptoms for patients with neurological conditions. However, the underlying effects of the stimulation, and subsequently the causes of symptom-relief, are not very well understood. In particular, TMS is a non-invasive brain stimulation therapy which uses time-varying magnetic fields to induce electric fields on the conductive parts of the brain. TMS has been FDA-approved for treatment of major depressive disorder for patients refractory to medication, as well as symptoms of migraine. Studies have shown that TMS has relieved severe depressive symptoms, although researchers believe that it is the deeper regions of the brain which are responsible for symptom relief. Many experts theorize that cortical stimulation such as TMS causes brain signals to propagate from the cortex to these deep brain regions, after which the synapses of the excited neurons are changed in such a way as to cause plasticity. It has also been widely observed that stimulation of the cortex causes signal firing at the deeper regions of the brain. However, the particular mechanisms behind TMS-caused signal propagation are unknown and understudied. Due to the non-invasive nature of TMS, this is an area in which investigation can be of significant benefit to the clinical community. We posit that a deeper understanding of this phenomenon may allow clinicians to explore the use of TMS for treatment of various other neurological symptoms and conditions. This thesis project seeks to investigate the various effects of TMS in the human brain, with respect to brain tissue stimulation as well as the cellular effects at the level of neurons. We present novel models of motor neuron circuitry and fiber tracts that will aid in the development of deep brain stimulation modalities using non-invasive treatment paradigms.

Brain Stimulation

Transcranial Magnetic Stimulation

Modeling

Simulations

Parkinson's Disease

Bioelectrical and Neuroengineering

Neurology

Other Mechanical Engineering

Use-dependent plasticity of the human central nervous system: the influence of motor learning and whole body heat stress

Littmann, Andrew Edwards

01 May 2012

The human central nervous system (CNS) is capable of significant architectural and physiological reorganization in response to environmental stimuli. Novel sensorimotor experiences stimulate neuronal networks to modify their intrinsic excitability and spatial connectivity within and between CNS structures. Early learning-induced adaptations in the primary motor cortex are thought to serve as a priming stimulus for long term CNS reorganization underlying long-lasting changes in motor skill. Recent animal and human studies suggest that whole body exercise and core temperature elevation as systemic stressors also recruit activity-dependent processes that prime the motor cortex, cerebellum, and hippocampus to process sensorimotor stimuli from the environment, enhancing overall CNS learning and performance. A primary goal of rehabilitation specialists is to evaluate and design activity-based intervention strategies that induce or enhance beneficial neuroplastic processes across the lifespan. As such, an investgation of the influence of physical, non-pharmacological interventions on cortical excitability, motor learning, and cognitive function provide the central theme of this dissertation. The first study investigated the effects of a visually-guided motor learning task on motor cortex excitability at rest and during voluntary activation measured via transcranical magnetic stimulation (TMS). Motor learning significantly increased resting cortical excitability that was not accompanied by changes in excitability as a function of voluntary muscle activation. The cortical silent period, a measure of inhibition, increased after learning and was associated with the magnitude of learning at low activation. These findings suggest that separate excitatory and inhibitory mechanisms may influence motor output as a function of learning success. The following studies investigated the influence of systemic whole-body thermal stress on motor cortex excitability, motor learning and cognitive performance. We established the reliability of a novel TMS cortical mapping procedure to study neurophysiological responses after whole-body heat stress. Heat stress significantly potentiated motor cortex excitability, though acute motor learning and cognitive test performance did not differ between subjects receiving heat stress and control subjects. Future research is needed to delineate the potential of whole body heat stress as a therapeutic modality to influence central nervous system plasticity and performance.

Cortical Excitability

Heat Stress

Motor Learning

Plasticity

Transcranial Magnetic Stimulation

Rehabilitation and Therapy

The effect of transcranial direct current stimulation on the behavioral and neurophysiological performance of healthy subjects during reaching

Chapman, Ryan Michael

01 May 2013

It is well established that cathodal transcranial direct current stimulation (tDCS) can decrease the excitability of the primary motor cortex (M1) in humans. Despite the cortical inhibition caused by cathodal tDCS, it remains unknown how this intervention alters unrestrained dynamic reaching movements qualitatively. Accordingly, we designed this study to examine how cathodal tDCS impacts unrestrained dynamic reaching as measured by qualitative kinematic features and electromyography (EMG). Ten young, healthy adult subjects were recruited to participate in a two day protocol involving repetitively reaching to two different targets (large and small) both before and following cathodal tDCS applied over the contralateral M1 during one session and before and following sham tDCS over the same brain region during another session. We discovered that cathodal tDCS was not able to alter the kinematic features of reaching in these subjects but did degrade the EMG performance, specifically by increasing the amount of co-contraction between muscle pairs. Because co-contraction is an indicator of relatively unskilled performance, these results seem to indicate that cathodal tDCS of M1 preferentially disrupts the learning or execution of highly coordinated muscle firing patterns during dynamic reaching. This work adds to the growing body of knowledge about how tDCS applied over M1 affects our movements. Moreover, it leads us to believe that tDCS can be utilized to assist in rehabilitation of patient populations who suffer from neurological dysfunctions but EMG assessments may need to be included in order to more effectively assess the patient performance.

Biomechanics

Electromyography

Kinematics

Reaching

Transcranial Direct Current Stimulation