Spelling suggestions: "subject:"transcranial magnetic stimulation"" "subject:"transcrannial magnetic stimulation""
61 |
Amyotrophic lateral sclerosis (ALS) associated with superoxide dismutase 1 (SOD1) mutations in British Columbia, Canada : clinical, neurophysiological and neuropathological features /Stewart, Heather G., January 2005 (has links)
Diss. (sammanfattning) Umeå : Umeå universitet, 2005. / Härtill 6 uppsatser.
|
62 |
Efeitos da estimulação magnética transcraniana para sintomas obsessivo-compulsivos em pacientes com esquizofreniaMendes Filho, Vauto Alves January 2016 (has links)
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.
|
63 |
Cortical Sensorimotor Mechanisms for Neural Control of Skilled ManipulationJanuary 2017 (has links)
abstract: The human hand is a complex biological system. Humans have evolved a unique ability to use the hand for a wide range of tasks, including activities of daily living such as successfully grasping and manipulating objects, i.e., lifting a cup of coffee without spilling. Despite the ubiquitous nature of hand use in everyday activities involving object manipulations, there is currently an incomplete understanding of the cortical sensorimotor mechanisms underlying this important behavior. One critical aspect of natural object grasping is the coordination of where the fingers make contact with an object and how much force is applied following contact. Such force-to-position modulation is critical for successful manipulation. However, the neural mechanisms underlying these motor processes remain less understood, as previous experiments have utilized protocols with fixed contact points which likely rely on different neural mechanisms from those involved in grasping at unconstrained contacts. To address this gap in the motor neuroscience field, transcranial magnetic stimulation (TMS) and electroencephalography (EEG) were used to investigate the role of primary motor cortex (M1), as well as other important cortical regions in the grasping network, during the planning and execution of object grasping and manipulation. The results of virtual lesions induced by TMS and EEG revealed grasp context-specific cortical mechanisms underlying digit force-to-position coordination, as well as the spatial and temporal dynamics of cortical activity during planning and execution. Together, the present findings provide the foundation for a novel framework accounting for how the central nervous system controls dexterous manipulation. This new knowledge can potentially benefit research in neuroprosthetics and improve the efficacy of neurorehabilitation techniques for patients affected by sensorimotor impairments. / Dissertation/Thesis / Doctoral Dissertation Neuroscience 2017
|
64 |
The Role of Primary Motor Cortex in Second Language Word RecognitionJanuary 2018 (has links)
abstract: The activation of the primary motor cortex (M1) is common in speech perception tasks that involve difficult listening conditions. Although the challenge of recognizing and discriminating non-native speech sounds appears to be an instantiation of listening under difficult circumstances, it is still unknown if M1 recruitment is facilitatory of second language speech perception. The purpose of this study was to investigate the role of M1 associated with speech motor centers in processing acoustic inputs in the native (L1) and second language (L2), using repetitive Transcranial Magnetic Stimulation (rTMS) to selectively alter neural activity in M1. Thirty-six healthy English/Spanish bilingual subjects participated in the experiment. The performance on a listening word-to-picture matching task was measured before and after real- and sham-rTMS to the orbicularis oris (lip muscle) associated M1. Vowel Space Area (VSA) obtained from recordings of participants reading a passage in L2 before and after real-rTMS, was calculated to determine its utility as an rTMS aftereffect measure. There was high variability in the aftereffect of the rTMS protocol to the lip muscle among the participants. Approximately 50% of participants showed an inhibitory effect of rTMS, evidenced by smaller motor evoked potentials (MEPs) area, whereas the other 50% had a facilitatory effect, with larger MEPs. This suggests that rTMS has a complex influence on M1 excitability, and relying on grand-average results can obscure important individual differences in rTMS physiological and functional outcomes. Evidence of motor support to word recognition in the L2 was found. Participants showing an inhibitory aftereffect of rTMS on M1 produced slower and less accurate responses in the L2 task, whereas those showing a facilitatory aftereffect of rTMS on M1 produced more accurate responses in L2. In contrast, no effect of rTMS was found on the L1, where accuracy and speed were very similar after sham- and real-rTMS. The L2 VSA measure was indicative of the aftereffect of rTMS to M1 associated with speech production, supporting its utility as an rTMS aftereffect measure. This result revealed an interesting and novel relation between cerebral motor cortex activation and speech measures. / Dissertation/Thesis / Doctoral Dissertation Speech and Hearing Science 2018
|
65 |
Efeitos da estimulação magnética transcraniana para sintomas obsessivo-compulsivos em pacientes com esquizofreniaMendes Filho, Vauto Alves January 2016 (has links)
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.
|
66 |
Neuromodulação por estimulação não invasiva do sistema nervoso central associada ao exercício físico: Estudo da excitabilidade medularLIMA, Mayara Fernanda Campêlo Borba de 07 March 2016 (has links)
Submitted by Irene Nascimento (irene.kessia@ufpe.br) on 2017-02-02T17:18:33Z
No. of bitstreams: 2
license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5)
Mayara Campêlo_Dissertação de mestrado_pós banca_versão Mônica_04.09.16.pdf: 2549632 bytes, checksum: 64ce0b1fe03a64305e5570dde8abb4e0 (MD5) / Made available in DSpace on 2017-02-02T17:18:33Z (GMT). No. of bitstreams: 2
license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5)
Mayara Campêlo_Dissertação de mestrado_pós banca_versão Mônica_04.09.16.pdf: 2549632 bytes, checksum: 64ce0b1fe03a64305e5570dde8abb4e0 (MD5)
Previous issue date: 2016-03-07 / CNPQ / O exercício físico e as estimulações não invasivas do sistema nervoso central (SNC) são capazes de promover neuroplasticidade do SNC. Dentre as estimulações não invasivas destaca-se a estimulação transcraniana magnética repetitiva (EMTr) e, mais recentemente, a estimulação transcutânea medular por corrente contínua (ETMCC). O uso associado do exercício físico com a EMT ou com a ETMCC parece modular reflexos medulares. Contudo, não há evidência sistemática quanto aos efeitos da ETMCC sobre a excitabilidade da medula espinal, nem evidência comparativa das associações da ETMCC e da EMTr com o exercício físico. Portanto, essa dissertação apresenta dois artigos originais. O primeiro estudo é uma revisão sistemática com meta-análise que teve por objetivo sumarizar e avaliar o nível de evidência da eficácia da ETMCC em modificar a atividade medular. Dos sete estudos da revisão sistemática, cinco foram incluídos na meta-análise do efeito da ETMCC anódica e quatro na meta-análise do efeito da ETMCC catódica. Não houve efeito significante da ETMCC anódica e catódica, quando comparadas à ETMCC sham. Com isso, o estudo 1 conclui que não há evidência da eficácia da ETMCC em modular a excitabilidade medular. O segundo estudo é um crossover, triplo-cego, sham controlado, randomizado e contrabalanceado realizado com adultos saudáveis. Seu objetivo foi investigar as repercussões, nas excitabilidades medular e cortical, da associação da EMTr e da ETMCC com o exercício físico. Doze voluntários (24,75±2,77) foram submetidos a seis sessões experimentais, intercaladas por um período de 5 a 7 dias. Em cada sessão, um tipo de estimulação não invasiva do SNC (ETMCC anódica, ETMCC catódica, ETMCC sham, EMTr 20 Hz, EMTr1 Hz e EMTr sham) foi isoladamente associado a 20 minutos de exercício físico na esteira (EFE), em intensidade moderada. As repercussões das associações foram investigadas por meio de dois desfechos, avaliados antes (baseline), imediatamente (T0), 30 (T1) e 60 minutos (T2) após as intervenções. A excitabilidade medular (desfecho primário) e a excitabilidade cortical (desfecho secundário) foram mensuradas, respectivamente, por meio do componente doloroso do reflexo de retirada da perna (RIII) e de potenciais evocados motores (PEM). O estudo dois revelou que as intervenções ETMCC catódica/EFE (baseline/T0) e ETMr 20Hz/EFE (baseline/T0) aumentaram a excitabilidade medular, enquanto a aplicação da ETMr 1Hz/EFE (baseline/T2) e da ETMr 20Hz/EFE (baseline/T0, baseline/T1, e baseline/T2 ) aumentaram os níveis de excitabilidade cortical. Com isso, o estudo crossover demonstra que as associações EMTr/EFE e ETMCC/EFE podem interferir na atividade do SNC, mas apenas a ETMr 20Hz/EFE foi capaz de, simultaneamente, modular
as excitabilidades cortical e medular. Portanto, a associação de estimulações não invasivas/EFE é capaz de modular o SNC e os efeitos decorrentes parecem depender do tipo de estimulação não invasiva aplicada. / Physical exercise and central nervous system (CNS) non invasive stimulation techniques, including repetitive transcranial magnetic stimulation (rTMS) and transcutaneous spinal direct current stimulation (tsDCS), are able to promote CNS plasticity. Furthermore, the association between physical exercise and rTMS or tsDCS appears to promote spinal reflexes modulation. However, there are not systematic evidence about tsDCS effects on spinal reflexes. Similarly, there are no comparative study about an associative intervention of physical exercise and rTMS or tsDCS.Thus, this masters dissertation presents two originals articles. The first one is a systematic review with meta-analysis aimed to summarize and evaluate the level of evidence of tsDCS efficacy to modify spinal cord excitability. Seven studies were included on this systematic review. From these, five using anodal tsDCS and four using cathodal tsDCS were included on meta-analysis. The results indicated that there were not significant effects of anodal and cathodal tsDCS, when compared to sham tsDCS. Therefore, the first article concluded that there are not evidence of tsDCS efficacy to modulate spinal cord excitability. The second article is a crossover, triple-blind, sham controlled, randomized and counterbalanced study with healthy individuals. The aim of this study was to investigate the repercussions of the association between rTMS or tsDCS and physical exercise over CNS excitability. Twelve volunteers performed six experimental sessions. On each session, one type of CNS non invasive stimulation technique (anodal tsDCS, cathodal tsDCS, sham tsDCS, rTMS 20 Hz, rTMS 1 Hz or rTMS sham) was associated with 20 minutes of treadmill. An interval between five and seven days was assumed as washout period. The physical exercise (treadmill) was perfomed on moderate intensity and the CNS excitability was investigated by two outcomes measures, assessed at four different time points: before (baseline), immediately (T0), 30 (T1) and 60 (T2) minutes after the interventions. Spinal cord (primary outcome) and cortical (secondary outcome) excitabilities were assessed by the painful component of withdrawal reflex (RIII) and by motor evoked potentials (MEP), respectively. The result reveled that cathodal tsDCS/treadmill (baseline/T0) and rTMS 20HZ/treadmill (baseline/T0) increased spinal cord excitability. Additionally, rTMS1 Hz/treadmill (baseline/T2) and rTMS 20Hz/treadmill (baseline/T0, baseline/T1 and baseline/T2) increased cortical excitability. Thereby, the crossover study demonstrated that rTMS/treadmill and TsDCS/treadmill associative intervention are able to interfere on CNS excitability. However, only rTMS 20Hz/treadmill was able to modulate cortical and spinal cord activity. Therefore, CNS non invasive technique and physical exercise associative
intervention can modify CNS excitability and the after effects seems to be dependent on the type of stimulation.
|
67 |
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 subjectsSuzete Nascimento Farias da Guarda 29 July 2013 (has links)
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
|
68 |
Time Course of Corticospinal Excitability in Simple Reaction Time TasksKennefick, Michael January 2014 (has links)
The process of movement execution can be separated into two sections; the foreperiod and the response time. The foreperiod represents the time between the warning signal (WS) and the presentation of the imperative “go” signal, and the response time incorporates both the reaction time (RT) and the movement time (Schmidt & Lee, 2011). Transcranial magnetic stimulation (TMS) was used to probe corticospinal excitability (CE) which has been measured in a variety of RT tasks during both the foreperiod and the response time periods. The purpose of the two studies in this thesis was to measure when and at what rate changes in CE occur in both simple and complex tasks. The results of the first experiment indicated that CE levels quickly increased from baseline with the presentation of the WS. This was followed by a holding period in which CE was held constant until a decline in CE occurred prior to the presentation of the IS. This decline was followed by a rapid increase in CE as the movement was initiated and released. Importantly, even though levels of CE were decreasing relative to the start of the decline, participants were still in a heightened state as they prepared to release their movements. Furthermore, it is suggested that selective inhibitory control mechanisms were at least partly responsible for the decline prior to the IS. The results of the second experiment indicated that MEP amplitudes in a simple task were significantly larger compared to those in a complex task relative to both the IS and the onset of electromyography. These findings suggest that simple and complex tasks achieve differing levels of corticospinal excitability, and it is suggested that the complex requires the use of the cerebellum, which suppresses excitatory projections to the thalamus, and consequently to the motor cortex.
|
69 |
The Ipsilateral Silent Period as a Measure of Transcallosal Inhibition: An Investigation of Individual and Methodological Factors Influencing Interhemispheric Inhibition between Motor CorticesDavidson, Travis January 2016 (has links)
The corpus callosum provides a physical and functional connection between the two hemispheres of the brain allowing interactions between homologous cognitive, sensory and motor areas. In humans, the integrity of transcallosal connections between motor cortices can be evaluated quickly and non-invasively using transcranial magnetic stimulation (TMS) via the ipsilateral silent period (iSP). While the technique has been known for 20 years, many issues remain unsolved regarding which methods are best to elicit the iSP as an index of transcallosal inhibition. In addition, there is still limited information regarding the influence of individualized factors such as age on iSP measurements. This thesis investigates how common physiological and methodological factors influence the iSP in order to establish this method as a reliable index to assess the integrity of the transcallosal pathway linking primary motor cortices.
In the first series of experiments, we used a previously described TMS protocol to elicit iSPs [1] to investigate changes in motor transcallosal inhibition in relation to individual factors linked to age, hand preference and history of concussions. A second series of methodological experiments examined the effects of stimulation intensity on the iSP and to determine its inter-session reliability.
Our first series of experiments provided evidence that advancing age and history of concussions in young athletes were each independently associated with alterations in transcallosal inhibition. This was evidenced by changes in the duration of transcallosal inhibition (DTI) and in the latency of transcallosal inhibition (LTI) derived from iSP measurements. These experiments also revealed that the degree of hand preference in young adults was reflected in measures of transcallosal inhibition, so that mixed-handed individuals (i.e., ambidextrous) exhibited evidence of more efficient transcallosal transmission than either strong right or left handed individuals.
The second series of experiments focusing on methodological aspects showed that the iSP duration (though not its onset) was influenced by stimulation intensity, increasing linearly with intensity up to 140% of the resting motor threshold (RMT). Our analysis further revealed that the probability of eliciting detectable iSP also increased with increasing intensity up to 130% RMT before reaching a plateau. A stimulation intensity of 130% of RMT appears to be optimal to elicit iSPs in healthy participants. In a subsequent study, we showed that iSP elicited at this stimulation intensity (i.e., 130% RMT) had good inter-session reliability. In light of these investigations, we recommend for future studies that, in addition to contraction of the homologous muscles of the opposite hand as proposed by Giovannelli et al 2009, that an intensity of 130% RMT should be used to elicit the iSP when assessing transcallosal inhibition between motor cortices.
|
70 |
Corticospinal Facilitation During Hand Laterality Judgments?Ferron, Lucas January 2017 (has links)
Observing others performing actions is a common way to learn new motor skills. Such ability appears to be linked with one’s ability to imagine actions (motor imagery) (Wang et al. 2014). While motor imagery has been widely used in the context of athletic performance, the same approach has also been advocated in rehabilitation settings, where they often target populations with chronic pain using mobile health applications (de la Vega and Miro 2014). However, we still have very limited information as to how the ability to perform motor imagery addresses this rehabilitation application (Johnson et al. 2012). In the present study, we examined this question by looking at modulation in corticospinal excitability in the context of a motor imagery task. The imagery task itself consisted of judging whether images depicting hands in different postures represented either right or left hands. Based on prior neuroimaging and chronometric studies, such laterality judgments about hand postures are thought to involve mental rotations of one’s own hand (i.e., a form of implicit motor imagery) and thus provided an ideal context to evaluate if advocating such strategy is a valid approach to elicit motor activation in rehabilitation patients (Butson et al. 2014; Goble and Brown 2008; Parsons 1987). To this end, we used non-invasive transcranial magnetic stimulation (TMS) to probe the excitability of the motor system while young healthy participants performed mental rotations in the hand judgment task. Corticospinal excitability was tested in both hemispheres separately (target muscle: first dorsal interosseous) with participants (n=18) seated in front of a computer screen while they performed hand laterality judgments using a commercial set of pictures depicting bare hands in different postures. Excitability was tested also under two other conditions to contrast with variations measured during the hand laterality task, i.e. a mental counting task and a control task (looking at the image of a static foot). In all conditions, TMS (110% resting motor threshold) was set to trigger at ~half of the mean response time in the hand laterality task measured prior to testing with TMS. Comparison of task-related variations in MEP amplitude revealed no significant hemispheric main effect or interaction, although MEPs tended to be larger in general in response to left TMS. A “task condition” effect was observed owing to the large MEP facilitation elicited during the mental counting task, which was significantly different (p<0.001) from either the control “Foot” task or the hand rotation task. In fact, the latter task tended to be associated with MEP depression. A secondary experiment involving a subset of participants (n=6) to examine the influence of image contents (i.e. hand performing actions instead of bare hands) and probing more proximal muscles produced similar results as the main experiment. These results indicate that the general assumption that laterality tasks involving body parts will lead to internal mental rotation and motor activation and enhanced excitability is not necessarily true. In fact, our observations suggest that participants may rely on non-motor strategies based on visual cues when making laterality judgments about body parts. As well, no evidence for hemispheric asymmetry was found with the hand laterality task which is in line with other recent reports. Collectively, these results highlight the need to exert caution when using laterality tasks for rehabilitation purposes. One cannot simply assume that such tasks will translate into motor simulation and facilitation of the motor system. More research should be undertaken before recommending the hand mental rotation task as a viable rehabilitation option for chronic pain.
|
Page generated in 0.1692 seconds