Disruptions to human speed perception induced by motion adaptation and transcranial magnetic stimulation.

Burton, Mark P., McKeefry, Declan J., Barrett, Brendan T., Vakrou, Chara, Morland, A.B.

11 1900

No / To investigate the underlying nature of the effects of transcranial magnetic stimulation (TMS) on speed perception, we applied repetitive TMS (rTMS) to human V5/MT+ following adaptation to either fast- (20 deg/s) or slow (4 deg/s)-moving grating stimuli. The adapting stimuli induced changes in the perceived speed of a standard reference stimulus moving at 10 deg/s. In the absence of rTMS, adaptation to the slower stimulus led to an increase in perceived speed of the reference, whilst adaptation to the faster stimulus produced a reduction in perceived speed. These induced changes in speed perception can be modelled by a ratio-taking operation of the outputs of two temporally tuned mechanisms that decay exponentially over time. When rTMS was applied to V5/MT+ following adaptation, the perceived speed of the reference stimulus was reduced, irrespective of whether adaptation had been to the faster- or slower-moving stimulus. The fact that rTMS after adaptation always reduces perceived speed, independent of which temporal mechanism has undergone adaptation, suggests that rTMS does not selectively facilitate activity of adapted neurons but instead leads to suppression of neural function. The results highlight the fact that potentially different effects are generated by TMS on adapted neuronal populations depending upon whether or not they are responding to visual stimuli. / BBSRC

Motor cortex excitability

Temporal visual area

Single-unit activity

Neural populations

Transparent motion

State-dependency

Parietal cortex

Perceived speed

MT neurons

Laser à semi-conducteur pour modéliser et contrôler des cellules et des réseaux excitables / Semiconductor laser for modelling and controlling spiking cells and networks

Dolcemascolo, Axel

14 December 2018

Les systèmes « excitables » sont omniprésents dans la nature, le plus paradigmatique d'entre eux étant le neurone, qui répond de façon « tout ou rien » aux perturbations externes. Cette particularité étant clairement établie comme l'un des points clé pour le fonctionnement des systèmes nerveux, son analyse dans des systèmes modèles (mathématiques ou physiques) peut d'une part aider à la compréhension de la dynamique d'ensembles de neurones couplés et d'autre part ouvrir des voies pour un traitement neuromimétique de l'information. C'est dans cette logique que s'inscrit la préparation de cette thèse de doctorat. Dans ce mémoire, nous utilisons des systèmes basés sur des lasers à semiconducteur pour d'une part modéliser des systèmes excitables ou des ensembles de systèmes neuromimétiques couplés et d'autre part pour contrôler (grâce à l'optogénétique) des canaux ioniques impliqués dans l'émission de potentiels d'action par des neurones de mammifères. Le long du premier chapitre, nous présentons de manière synthétique les concepts dynamiques sur lesquels nous nous appuierons dans la suite du manuscrit. Par la suite, nous décrivons brièvement le contexte de ce travail du point de vue de la synchronisation, notamment de cellules excitables. Enfin, nous discutons le contexte applicatif potentiel de ces travaux, c’est-à-dire l'utilisation de systèmes photoniques dits « neuromimétiques » dans le but de traiter de l'information. Dans le chapitre 2, nous analysons tout d'abord du point de vue théorique et bibliographique le caractère excitable d'un laser à semiconducteur sous l'influence d'un forçage optique cohérent. Par la suite, nous détaillons nos travaux expérimentaux d'abord, puis numériques et théoriques, sur la réponse de ce système « neuromimétique » à des perturbations répétées dans le temps. Tandis que le modèle mathématique simplifié prévoit un comportement de type intégrateur en réponse a des perturbations répétées, nous montrons que le comportement est en fait souvent résonateur, ce qui confère à ce système la propriété étonnante d'émettre une impulsion seulement s'il reçoit deux perturbations séparées d'un intervalle de temps bien précis. Nous montrons également que ce système peut convertir des perturbations de différente intensité en une série d'impulsions toutes identiques mais dont le nombre dépend de l'intensité de la perturbation incidente. Dans le chapitre 3, nous analysons (de nouveau expérimentalement, puis numériquement et théoriquement) le comportement dynamique d'un réseau de lasers à semiconducteur couplés dans un régime de chaos lent-rapide. Nous nous basons sur une étude antérieure montrant qu'un seul de ces éléments peut présenter une dynamique neuromimétique (en particulier l'émission chaotique d'impulsions originant du phénomène de canard). De façon surprenante pour un système ayant un si grand nombre de degrés de liberté, nous observons une dynamique qui semble chaotique de basse dimension. Nous examinons l'impact des propriétés statistiques de la population considérée sur la dynamique et relions nos observations expérimentales et numériques à l'existence d'une variété critique calculable analytiquement pour le champ moyen et près duquel converge la dynamique grâce au caractère lent-rapide du système. Dans le chapitre 4 enfin, nous présentons une brève étude expérimentale de la réponse de cellules biologiques à des perturbations lumineuses. En effet, les techniques optogénétiques permettent de rendre des cellules (en particulier des neurones) sensibles à la lumière grâce au contrôle optique de l'ouverture et de la fermeture de canaux ioniques. Ainsi, après avoir étudié dans les chapitres précédents des systèmes optiques sur la base de considérations provenant de systèmes biologiques, nous amenons matériellement un système laser vers un système biologique. / Excitable systems are everywhere in Nature, and among them the neuron, which responds to an external stimulus with an all-or-none type of response, is often regarded as the most typical example. This excitability behaviour is clearly established as to be one of the underlying operating mechanisms of the nervous system and its analysis in model systems (being them mathematical of physical) can, from one hand, shed some light on the dynamics of neural networks, and from the other, open novel ways for a neuro-mimetic treatment of information. The work presented in this PhD thesis was realized in this perspective. In this dissertation we will consider systems based on semiconductor lasers both for modelling excitable systems or coupled neuromorphic networks and for controlling (in an optogenetic outlook) ionic channels that are involved in the emission of action potentials of neurons in mammals. During the first chapter, we will briefly present the dynamical concepts on which we will build our understanding for the rest of the manuscript. Thereafter, we will describe the context of this work from the point of view of synchronized systems, in particular excitable cells. Finally, we will discuss in this context the applications potential of this work, namely the possibility of using “neuromimetic” photonic systems as a was to treat information. In chapter 2 we will firstly analyse from a theoretical and bibliographical standpoint the excitable character of a laser with coherent injection. Later, we will firstly detail our results, firstly experimental and subsequently numerical and theoretical, on the response of this “neuromimetic” system to perturbations repeated in time. Whereas the simplified mathematical model envisions an integrator behaviour in response to repeated perturbations, we will show that the system often acts as a resonator, thus imparting the remarkable property of being able to emit a single pulse only if it receives two perturbations that are separated by a specific time interval. We will also illustrate how this system can convert perturbations of different intensity in a series of all identical pulses whose number depends on the intensity of the incoming perturbation. In the third chapter we will analyse, first experimentally and later numerically and theoretically, the dynamical behaviour of a network of coupled semiconductor lasers in a slow-fast chaotic regime. We will rely on a previous study documenting that a single such element can present a neuromimetic dynamics (in particular, the emission of chaotic pulses originating from a canard phenomenon). Surprisingly for a system having such a large number of degrees of freedom, we observe a dynamics which seems low dimensional chaotic. We will examine the impact of statistical properties of the selected population on the dynamics, and we will link our experimental and numerical observations to the existence of a slow manifold for the mean field, computable analytically, and towards whom the dynamics converges thanks to the slow-fact nature of the system. Finally, in chapter 4 we will present a short experimental study on the response of biological cells to light perturbations. Indeed, optogenetic techniques enables to render the cells (in particular neurons) sensitive to light due to the optical control of the opening and closing of ionic channels. Hence, after having studied in the previous chapters optical systems on the basis of observations derived from biological systems, we will physically transfer an optical system towards a biological one. Here we lay the groundwork of a photonic system which allows, with a moderate complexity, to realize cell measurements in response to spatially localized optical perturbations.

Excitabilité

Laser à semiconducteur

Laser avec injection

Période réfractaire

Excitabilité multiple

Comportement résonateur

Réseau neuromorphique

Oscillateurs couplés par impulsions

Synchronisation

Impulsions chaotiques

Synchronisation du chaos

Mixed mode oscillations

Photo switch

Canaux TREK1

Optogénétique

Excitability

Semiconductor laser

Laser with injection

Refractory period

Multipulse excitability

Resonator behavior

Neuromorphic network

Pulse-coupled oscillators

Synchronization

Mixed mode oscillations

Photoswitch

TREK1 channels

Optogenetics

Validita testu "Škála svalové dráždivosti" pro hodnocení spasticity pacientů s míšní lézí / Validity of "Muscle excitability scale" for spasticity assessment in patients with spinal cord injury

Posseltová, Tereza

January 2016

The aim of the thesis was to assess a construct validity of "Muscle Excitability Scale" in assessment of spasticity in patients with spinal cord injury. The correlation between this scale and other clinical tests evaluating various aspects of spasticity was investigated. 48 participants with symptoms of a spasticity were included in the study. The Spearman rank correlation coefficient was used for quantification of correlation between each two tests. The most significant correlation was found between the Muscle Excitability Scale and the Modified Ashworth Scale (rs=0,26 - 0,35, p<0,05). Less significant correlation was found in comparison with the Clonus Scale (rs=0,27, p<0,05) and with the SCI-SET (rs=0,25 - 0,26, p<0,05). There was no correlation between the Muscle Excitability Scale and the Penn Spasm Frequency Scale. Additionally every test was compared to each other and then the outcomes was discussed and compared to results of other similar studies. Keywords Muscle Excitability Scale, validity, spasticity, spinal cord injury, Modified Ashworth Scale, Penn Spasm Frequency Scale, Clonus Scale, SCI-SET

Reliabilita testu "Škála svalové dráždivosti" pro hodnocení spasticity pacientů s míšní lézí / Reliability of "Muscle excitability scale" for spasticity assessment in patients with spinal cord injury

Kadrmanová, Ivana

January 2016

The aim of this paper was to define interrater reliability of "Muscle excitability scale" in assessment of lower extremities muscle spasticity in patiens with spinal cord injury. Raters were two students of 2nd grade of master study of physiotherapy. Testing was performed at Centrum Paraple o.p.s. and 48 patients took part in the research. Except the Muscle excitability scale, Modified Ashworth scale, Penn spasm frequency scale and Clonus scale were also assessed. Percentage rate of agreement and also value of kappa coefficient that state value of agreement between raters were assigned for each scale. Percent agreement for Muscle excitability scale was 54,2 % for right and 64,6 % for left lower extremity. Kappa coefficient and therefore interrater reliability of this test was assessed on 0,38 on the right side and 0,51 on the left. The results and thein comparison with other used scales are discussed in this thesis.

Caracterização do perfil de síndromes dolorosas, psicofísica e medidas de excitabilidade cortical em doentes com neuromielite óptica controlada / Characterization of pain, psychophysics and cortical excitability profile in patients with controlled neuromyelitis optica spectrum disorders

Silva, Fernanda Valerio da

03 April 2019

Introdução: Neuromielite óptica (NMO) é uma doença inflamatória desmielinizante do sistema nervoso central associado com auto anticorpo anti-aquaporina 4 (AQP4-Ab) em até 90% dos casos e com anticorpo anti glicoproteína de mielina oligodendrocítica (MOG-IgG) em cerca de 20% dos indivíduos negativos para AQP4-Ab. A apresentação clínica típica do NMO inclui neurite óptica grave (ON), mielite transversa longitudinalmente extensa (MTLE) e lesões do tronco encefálico conhecidas por causar náuseas,vômitos e soluços intratáveis. A dor é um dos sintomas mais frequentes e incapacitantes dessa síndrome. Sabe-se que afeta até 85% dos indivíduos, que é mais intensa e responde menos aos tratamentos usuais quando comparados aos pacientes com esclerose múltipla. O objetivo deste estudo foi caracterizar as síndromes dolorosas em indivíduos na fase crônica livre de recidiva da NMO. A doença também foi considerada um bom modelo para estudar os mecanismos de dor após lesão medular. Métodos: Trata-se de um estudo longitudinal, composto por duas avaliações. A avaliação para entrada no estudo consistiu em um exame neurológico complete padronizado, a fim de determinar as síndromes dolorosas principal e secundária de acordo com seu mecanismo e nível. Os pacientes foram convidados a preencher questionários avaliando a dor (Inventário breve de dor [BPI], Questionário de dor McGill [MPQ], inventário de sintomas de dor neuropática [NPSI]), espasmos tônicos dolorosos, sinal de Lhermitte, incapacidade (EDSS, Barthel ADL), ansiedade e depressão (escala hospitalar de ansiedade e depressão [HADS]), catastrofização (escala de pensamentos catastróficos na dor [PCTS]), disfunção urinária e fecal (questionário de bexiga hiperativa [OABV8], escore de sintomas prostáticos internacionais [IPSS]). Também foram realizados teste quantitativo sensitivo (QST) em área controle (com sensibilidade normal) e área de maior dor e medidas de excitabilidade cortical bilaterais (CE). Imagens prévias de ressonância magnética de encéfalo e medula espinhal foram revistos. Foi realizada uma consulta de acompanhamento entre 6 e 18 meses após a primeira visita, na qual a síndrome dolorosa principal foi reavaliada e os pacientes foram solicitados a preencher questionários (DN-4, BPI, MPQ, BPI, NPSI) sobre a dor. Resultados: Setenta e dois pacientes foram incluídos. Foram identificados 53 (73,6%) indivíduos com dor crônica e 19 (26,3%) sem dor. Quarenta (55,6%) pacientes apresentaram dor neuropática (NP) e 13 (18,1%) dor não neuropática (não-NP). Entre os 53 indivíduos com dor crônica, 38 (71,7%) tinham mais de uma síndrome dolorosa. Dor neuropática no nível sensitivo foi a síndrome dolorosa mais prevalente, sendo observada em 31 doentes (58,5% do total de pacientes com dor). O grupo com dor não-neuropática teve dor lombar como a síndrome mais comum, afetando 8 (61,5%) indivíduos. O grupo com dor neuropática teve um número significativamente maior de dermátomos afetados por alodínea dinâmica (0,8 ± 1,6, comparado a zero dermátomos nos outros 2 grupos, p = 0,004) e estática (0,7 ± 1,3 comparado a 0 no grupo com dor não-neuropática e 0,1 ± 0,5 dermátomos no grupo sem dor). A hiperpatia em nível foi significativamente mais prevalente no grupo com dor neuropática: 39 (97,5%) nesse grupo, contra 10 (76,9%) e 12 (68,4%) nos grupos dor não-neuropática e sem dor (p = 0,013). Os pacientes com dor neuropática apresentaram desempenho significativamente pior quando comparados aos sem dor, no PCS-12 (componente físico do SF-12), (32,5 ± 8 e 43,3 ± 11, respectivamente). O PCS-12 correlacionou-se com a intensidade da dor no BPI nos grupos dor neuropática (r = -0,387, p = 0,014) e não-neuropática (r = -0,734, p = 0,004). Dentro do grupo com dor neuropática, 16 (80%) pacientes relataram prurido na área de dor, enquanto apenas 1 (33,3%) paciente com dor não neuropática relatou o mesmo (p < 0,001). O QST apresentou maiores limiares para a detecção de estímulos quentes dentre aqueles com dor neuropática, quando comparado ao grupo com dor não-neuropática (41,3 ± 5,6 e 36,9 ± 3, respectivamente, p = 0,045). As amplitudes do potencial evocado motor a 120 e 140% foram significativamente menores nos dois grupos com dor quando comparados aos pacientes sem dor. A avaliação de acompanhamento foi realizada em 68 pacientes e 50 (73,5%) relataram dor. A dor neuropática do nível foi novamente a síndrome dolorosa mais prevalente, afetando 29 (58%) indivíduos. Três pacientes inicialmente sem dor relataram na o sintoma na segunda visita. A taxa de incidência de dor foi de 17,7 por 100 pessoas-ano. Onze pacientes que haviam relatado dor na entrada do estudo tinham uma síndrome de dor diferente na segunda avaliação (20,8% da amostra original). O grupo com dor neuropática teve uma diminuição significativa na intensidade do BPI (de 5,6 ± 1,9 para 4,8 ± 2, p = 0,039). O escore total do MPQ diminuiu significativamente em ambos os grupos com dor neuropática (de 9 ± 2,4 para 8 ± 3,1, p = 0,014) e naqueles com dor não-neuropática (9,2 ± 2,5 a 7 ± 4, p = 0,031). Conclusão: A dor é prevalente em pacientes com NMO e a dor neuropática de nível é a síndrome mais comum. A incidência de novas dores e alterações nas síndromes dolorosas não está relacionada à nova atividade inflamatória, mas ao dano estrutural permanente crônico na medula espinhal e tronco cerebral secundário à atividade autoimune prévia. A avaliação das síndromes dolorosas é importante para o tratamento correto desse sintoma e deve ser reavaliada regularmente, mesmo em pacientes sem novas recidivas clínicas / Introduction: Neuromyelitis optica (NMO) is an inflammatory demyelinating disease of the central nervous system. It is associated with anti-aquaporin 4 autoantibody (AQP4-Ab) in up to 90% of cases and with anti-myelin oligodendrocyte glycoprotein (MOG-IgG) in around 20% of subjects negative to AQP4-Ab. The typical clinical presentation of NMOSD includes severe optic neuritis (ON), longitudinally extensive transverse myelitis (LETM) and brainstem lesions known to cause intractable nausea, vomiting and hiccups. Pain is one of the most frequent and disabling symptoms in this syndrome. It is known to affect up to 85% of subjects with NMO which is more intense and less responsive to usual treatments when compared to multiple sclerosis patients. The aim of this study was to fully characterise all pain syndromes in individuals in the chronic relapse-free phase of NMO. The disease was also deemed a good model to study pain mechanisms in spinal cord injuries. Methods: This is a longitudinal study, comprised by 2 evaluations. The Baseline study entry visit consisted of a full standardized neurological examination, in order to determine the main and secondary pain syndrome according to its mechanism and level. Patients were requested to fill questionnaires evaluating pain (Douleur Neuropathique-4 [DN-4], brief pain inventory [BPI], Short-form McGill Pain Questionnaire [MPQ], Neuropathic pain symptoms inventory [NPSI]), painful tonic spasms, Lhermitte sign, hiccups, orthostatic intolerance, persistent nausea, pruritus, fatigue (modified fatigue scale), Uhthoff phaenomenon, quality of life (SF-12), disability (EDSS, Barthel ADL), anxiety and depression (Hospital anxiety and depression scale [HADS]), catastrophizing (PCTS), urinary and faecal dysfunction(OABV8,IPSS). Quantitative sensory test (QST) and measures of cortical excitability (CE) were performed. Previous brain and spinal cord MRIs were reviewed. A follow up visit was done between 6 and 18 months after the first visit, in which the main pain syndrome was reassessed and patients again were requested to fil pain questionnaires (DN-4, BPI, MPQ, BPI, NPSI) and report painful tonic spasms and Lhermitte sign. Results: Seventy-two patients were included. We identified 53 (73.6%) patients with chronic pain and 19 (26.3%) without any chronic pain syndrome. Forty (55.6%) patients had neuropathic pain (NP) and 13 (18.1%) had non-neuropathic pain (non-NP). Amongst those 53 subjects with chronic pain, 38 (71.7%) had more than one pain syndrome. NP at the sensory level was the most prevalent pain syndrome, being observed in 31 patients (58.5% of the total pain patients). Amid the non-NP patients, low back pain was the most common pain syndrome, affecting 8 (61.5%) subjects. NP group had a significantly higher number of dermatomes affected by allodynia to brush (0.8 ± 1.6, compared to zero dermatomes in the other 2 groups, p = 0.004) and to pressure (0.7 ± 1.3 compared to no 0 in the non-NP group and 0.1 ± 0.5 dermatomes in the no pain group). At-level hyperpathia affected a significantly proportion of patients with NP: 39 (97.5%) in this group, versus 10 (76.9%) and 12 (68.4%) in the non-NP and no pain groups (p= 0.013). Patients with NP had significantly worse performance when compared to those without pain, in the PCS-12 (physical component of the SF-12), (32.5 ± 8 and 43.3 ± 11, respectively). PCS-12 correlated with BPI intensity pain amid NP (r= -0.387, p= 0.014) and non-NP (r= -0.734, p= 0.004) groups. Within the group with neuropathic pain, 16 (80%) of patients reported itching on the pain area, whereas only 1 (33.3%) patient with non-neuropathic pain reported the same (p < 0.001). QST showed higher thresholds for warm stimuli detection within NP group, when compared to non-NP (41.3 ± 5.6 and 36.9 ± 3, respectively, p= 0.045) group. Motor evoked potential amplitudes at 120 and 140% were significantly lower in both groups with pain when compared to those without pain. The follow up assessment was done in 68 patients and 50 (73.5%) reported pain. At-level NP was the most prevalent syndrome, affecting 29 (58%) subjects. Three patients initially without pain reported it in the follow up visit. Incidence rate of pain was 17.7per 100 persons-year. Eleven patients who had reported pain upon study entry had a different pain syndrome on the second evaluation (20.8% of the original sample). NP group had a significant decrease in BPI intensity (from 5.6± 1.9 to 4.8±2, p= 0.039). MPQ total score significantly decreased in both groups with NP (from 9±2.4 to 8±3.1, p=0.014) and in those with non-NP (9.2±2.5 to 7±4, p=0.031). Conclusion: Pain is prevalent in patients with NMO and at-level NP is the most common syndrome. The incidence of new pain and changes in its syndromes is not related to new inflammatory activity but to the permanent chronic structural damage in the spinal cord and brainstem secondary to previous autoimmune activity. Assessment of pain syndromes is important for its treatment and they should be re-evaluated regularly even in patients without new clinical relapses

Cortical excitability

Demyelinating autoimune diseases CNS

Dor

Dor musculoesquelética

Excitabilidade cortical

Limiares sensoriais

Musculoskeletal pain

Neuralgia

Neuralgia

Neuromielite óptica

Neuromyelitis optica

Pain

Sensory thresholds

Spinal cord injuries

Traumatismos da medula espinal

Avaliação da excitabilidade cortical em pacientes com lesão axonial difusa tardia / Cortical excitability assessment on patients with chronic diffuse axonal injury

Hayashi, Cintya Yukie

17 August 2018

Introdução: Ativação exacerbada de processos excitatórios mediados por NMDA e excesso de inibição mediada por GABA são descritos, respectivamente, nas fases agudas e subagudas após o traumatismo cranioencefálico (TCE). No entanto, existem poucos estudos a respeito do funcionamento desses circuitos na fase crônica do TCE. Objetivo: Avaliar a excitabilidade cortical (EC) de pacientes em fase crônica que sofreram TCE, especificamente diagnosticados com lesão axonial difusa (LAD). Métodos: Todos os 31 pacientes adultos foram avaliados após 1 ano, pelo menos, do TCE moderado ou grave. Inicialmente, os pacientes foram submetidos à avaliação de funções executivas - atenção, memória, fluência verbal e velocidade de processamento de informação - por meio de bateria neuropsicológica. Em seguida, a avaliação da EC foi realizada utilizando-se uma bobina circular para aplicar pulsos simples e pareados de estimulação magnética transcraniana na região cortical representativa do abdutor curto do polegar (pollicis brevis) na área M1 de ambos hemisférios. Os parâmetros de EC medidos foram: Limiar Motor de Repouso (LMR), Potenciais Evocados Motores (PEM), Inibição Intracortical de Intervalo Curto (IICIC) e Facilitação Intracortical (FIC). Todos os dados foram comparados aos dados normativos de EC já descritos na literatura e também aos de um grupo controle de pessoas saudáveis. Resultados: Não houve diferença significativa entre os hemisférios direto e esquerdo. Desta forma, os dados foram analisados de forma agrupada (\"pooled data\"). Os valores de LMR e FIC dos pacientes com LAD estavam dentro dos valores de normalidade. No entanto, os valores de PEMs a 120% do LMR, a 140% do LMR e IICIC estavam aumentados (respectivamente p=0,013; p=0,012; p < 0,001): PEM-120% LAD 524,95 [365,42 ; 616,66] versus Controles 303,50 [241,49 ; 399,19]; PEM-140% LAD 1150,00 [960,56 ; 1700,00] vs Controles 670,5 [575,43 ; 1122,78] e IICIC LAD 1,09 [0,82 ; 1,35] vs Controles 0,34 [0,28 ; 0,51]; pp02-Rel LAD 0,85 [0,64 ; 1,36] vs Controles 0,28 [0,20 ; 0,37]; pp04-Rel LAD 1,03 [0,88 ; 1,34] vs Controles 0,38 [0,29 ; 0,62] - sugerindo um possível desarranjo no sistema inibitório (p < 0.001). Os achados neuropsicológicos mostraram alterações na memória, atenção e velocidade de processamento de informação, mas possuíam correlação fraca com os dados de EC. Conclusão: Como os processos inibitórios envolvem circuitos mediados por GABA, além de outros, existe a possível inferência de que a própria fisiopatologia do LAD (rompimento de axônios) possa depletar GABA contribuindo com a desinibição do sistema neural na fase crônica do LAD / Background: Overactivation of NMDA-mediated excitatory processes and excess of GABA-mediated inhibition are described after a brain injury on the acute and subacute phases, respectively. Nevertheless, there are few studies regarding the circuitry on the chronic phase of brain injury. Objective: To evaluate the cortical excitability (CE) on the chronic phase of Traumatic Brain Injury (TBI) victims, specifically diagnosed with Diffuse Axonal Injury (DAI). Method: All 31 adult patients were evaluated after one year, at least, from the moderate and severe TBI. First, all patients underwent a broad neuropsychological assessment to evaluate executive functions - attention, memory, verbal fluency and information processing speed. Then, subsequently, the CE assessment was performed with a circular coil applying single-pulse and paired-pulse transcranial magnetic stimulation over the cortical representation of the abductor pollicis brevis muscle on M1 of both hemispheres. The CE parameters measured were: Resting Motor Threshold (RMT), Motor-Evoked Potentials (MEP), Short Interval Intracortical Inhibition (SIICI), and Intracortical Facilitation (ICF). All data were compared to normative data previously described on literature and to a control group that consisted of healthy subjects. Results: No significant difference between Left and Right hemispheres were found on these DAI patients. Therefore, parameters were analyzed as pooled data. Values of RMT and ICF from DAI patients were found within the normality. However, MEPs and SIICI values were higher on DAI patients (respectively p=0,013; p=0,012; p < 0,001): MEP-120% DAI 524,95 [365,42 ; 616,66] versus Control 303,50 [241,49 ; 399,19]; MEP-140% DAI 1150,00 [960,56 ; 1700,00] vs Control 670,5 [575,43 ; 1122,78] and SIICI DAI 1,09 [0,82 ; 1,35] vs Control 0,34 [0,28 ; 0,51]; pp02-Rel DAI 0,85 [0,64 ; 1,36] vs Control 0,28 [0,20 ; 0,37]; pp04-Rel DAI 1,03 [0,88 ; 1,34] vs Control 0,38 [0,29 ; 0,62] - suggesting a disarranged inhibitory system (p < 0.001). The neuropsychological findings had weak correlation with CE data. Conclusion: As inhibition processes also involve GABA-mediated circuitry, it is likely to infer that DAI pathophysiology itself (disruption of axons) may deplete GABA contributing to a disinhibition of the neural system on the chronic phase of DAI

Brain injuries

Córtex motor

Cortical excitability

Craniocerebral trauma

Diffuse axonal injury

Estimulação magnética transcraniana

Excitabilidade cortical

Lesão axonal difusa

Lesões encefálicas

Motor cortex

Neurofisiologia

Neurophysiology

Transcranial magnetic stimulation

Traumatismos craniocerebrais

Efeito da estimulação transcraniana de corrente contínua e da eletroestimulação intramuscular na dor, na capacidade funcional e na excitabilidade cortical de pacientes com osteoartrite

Tarragó, Maria da Graça Lopes

January 2017

Introdução: A osteoartrite de joelhos (KOA) apresenta alta prevalência, principalmente em mulheres. Com o envelhecimento da população esta prevalência irá aumentar. Os tratamentos conservadores apresentam limitada eficácia em expressivo número de pacientes no curso do tratamento . A cirurgia de protetização apresenta altos custos, possibilidade de complicações pós-operatórias graves e ainda que a correção anatômica seja perfeita, em torno de 20% dos pacientes persistem com dor crônica pós-operatória. Portanto, é preciso avançar no conhecimento dos mecanismos fisiopatológicos e estudar novas abordagens terapêuticas para agregar às existentes, visando melhor manejo da dor e para restabelecer a função de maneira mais efetiva. Estas questões motivaram três questões centrais que origiram os três estudos que compõem esta tese. Estudo I: No primeiro estudo avaliamos os mecanismos pelos quais há perpetuação da dor na KOA. Para responder a esta questão buscou respostas aos seguintes objetivos: I) Comparar se a função da via da dor inibitório descendente está associada com o estado de inibição no sistema corticospinal, indexado pelo potencial evocado motor (MEP) e o período de silêncio cortical (CSP) em pacientes com KOA e controles saudáveis. II) Determinar se há correlação entre as medidas de inibição intracortical (CSP, MEP) com alterações na escala de dor numérica (NPS 0-10) na KOA durante a tarefa de modulação condicionada de dor (CPM-task) considerando o efeito da capacidade funcional auto-relatada avaliada pelo Western Ontário and McMaster Universities Index (WOMAC) e uso de analgésicos. Métodos: Estudo transversal, foram incluídas 21 pacientes femininas com KOA e 10 controles saudáveis com idade entre 19 a 75 anos. Os parâmetros de excitabilidade do córtex motor (MEP e CSP) foram avaliados utilizando a estimulação magnética trasncraniana (EMT). Avaliação de dor e a incapacidade pelo WOMAC e a NPS (0-10) durante a CPM-task. Resultados: A média ajustada (DP) do CSP observada em pacientes com OA foi 23,43% menor do que em indivíduos saudáveis [54,54 (16,10) vs. 70,94 (22,87)], respectivamente (P = 0,01). A função do sistema modulador descendente de dor avaliado pela alteração do NPS (0-10) durante o CPM-task foi negativamente correlacionada com o parâmetro de excitabilidade cortical indexado pelo CSP (P = 0,001). O CSP foi negativamente correlacionado com a dor e incapacidade avaliada pelo índice WOMAC. Conclusão: Foi observado um sistema inibitório descendente de dor enfraquecido, corroborando com os achados em outras patologias de dor crônica. Estudo II O segundo estudo buscou determinar se na KOA, uma sessão de IMS (eletroestimulação intramuscular) ativa comparada com sham promove um efeito nos parâmetros de excitabilidade do córtex motor [MEP, inibição intracortical curta - SICI, facilitação intracortical (ICF) e CSP] e nas medidas de dor [limiar de dor a pressão (PPT); escala visual analógica de dor (VAS) e mudança na escala de dor numérica (NPS0-10) durante a CPM-task]. Esse estudo também se propôs a determinar se o fator neurotrófico derivado do cérebro (BDNF) sérico medeia o efeito desta estimulação no sistema cortico-espinhal, tal como avaliado pelo MEP e pelo PPT. Métodos: Foram incluídas 26 mulheres com KOA, com idade entre 50 a 75 anos. Elas foram divididas randomicamente para receber uma sessão de 30 minutos de IMS ativa (n = 13) ou IMS sham (n = 13) por meio de eletroestimulação com frequência de 2 Hz. As agulhas foram inseridas paravertebrais em nível da saída das raízes lombares de L1 a S2 e nos músculos cuja inervação corresponde a essas raízes e que sustentam a articulação do joelho (vasto medial, reto anterior, vasto lateral, tibial anterior e inserção da pata anserina). Os desfechos foram as medidas de dor (VAS, PPT, NPS durante CPM-task) e parâmetros de excitabilidade (MEP, CSP, SICI, ICF) realizados antes e imediatamente após a intervenção. Resultados: a IMS ativa comparado com sham diminuiu o MEP em 31,61% [intervalo de confiança (IC) 95%, 2,34-60,98]. Para os resultados secundários, IMS reduziu o ICF e aumentou o CSP. A IMS melhorou a dor relatada no VAS, o PPT e a pontuação do NPS (0-10) durante a CPM-task. O BDNF foi negativamente correlacionado com o PPT (r = 20,56). Conclusão: Obtivemos resultados demonstrando melhora da dor e reforço do sistema cortico-espinhal inibitório comparado ao tratamento sham com IMS. Estudo III O terceiro estudo buscou: 1) Avaliar se a utilização da ETCC (estimulação transcraniana de corrente contínua) combinada a IMS pode promover um resultado melhor de modulação da via cortico-espinhal de dor através da potenciação dos efeitos dos dois tratamentos; comparado a cada um deles isoladamente e ao tratamento sham. 2) Avaliar a capacidade da ETCC em reforçar o sistema inibitório descendente de dor e modular a excitabilidade neuronal através da VAS, PPT e NPS durante CPM-task. Além disso, avaliamos se o BDNF sérico poderia prever o efeito da terapia no final do tratamento. Métodos: 60 mulheres de 50 a 75 anos. Randomizadas em um de quatro grupos: ETCC+IMS, ETCC+IMS sham, ETCC sham+IMS, ETCC sham+IMS sham. Receberam 5 sessões de tratamento: ETCC anodal, lado contrário ao joelho acometido, 2mA, 30 min. IMS: estimulação com freqüência de 2Hz, 30 min; agulhas colocadas a 2cm de L1 á S2, nos músculos vasto medial, vasto lateral, reto anterior, tibial anterior e na inserção da pata anserina. Resultados: O a-tDCS + a-IMS mostrou os melhores resultados com diferença significativa na dor (VAS) [média (DP) relacionadas ao tratamento (pós e pré): 0.46 (0.04) vs. 6.32 (1.97); 95%CI -5.42 (-8.24 to -4.36), p=.003] e funcionalidade. Esse resultado iniciou na primeira sessão e manteve-se ao longo do estudo. A-tDCS+a-IMS foi o único capaz de modificar o sistema inibitório descendente de dor. Conclusão: Obtivemos melhora da dor e capacidade funcional com IMS, ETCC e ETCC+IMS. Mas somente o grupo de tratamento ETCC+IMS demonstrou capacidade de modificação do sistema inibitório descendente de dor. / Background: Knee osteoarthritis (KOA) has a high prevalence, especially in women. With the aging of the population this prevalence will increase. Conservative treatments have limited efficacy in expressive number of patients in the course of the treatment. The total knee replacement surgery presents high costs, possibility of serious postoperative complications and although the anatomical correction is perfect, around 20% persist with chronic postoperative pain. Therefore, it’s necessary to advance in the knowledge of pathophysiological mechanisms and to study new therapeutic approaches to add to the existing ones, aiming to better manage pain and to restore function more effectively. These questions motivated three central questions that originated the three studies that compose this thesis. Study I In the first study we evaluated the mechanisms by which there is perpetuation of pain in knee osteoarthritis and to answer this question sought to answer the following objectives: I) To compare if the function of the descending inhibitory pain pathway is associated with the state of inhibition in the corticospinal system, indexed by the motor evoked potential (MEP) and the cortical silent period (CSP) in patients with KOA and healthy controls. II) To determine if there is a correlation between the intracortical inhibition measures (CSP, MEP) with changes in the numerical pain scale (NPS 0-10) in the KOA during the task of conditioned pain modulation (CPM-task) considering the effect of the self-reported function evaluated by the Western Ontario and McMaster Universities Index (WOMAC) and the use of analgesics. Methods: A cross-sectional study included 21 female patients with KOA and 10 healthy controls aged 19-75 years old. Motor cortex excitability parameters (MEP and CSP) were assessed using transcranial magnetic stimulation (TMS). Pain assessment and disability by WOMAC and NPS (0-10) during the CPM-task. Results: The adjusted mean (SD) of CSP observed in patients with OA was 23.43% lower than in healthy subjects [54,54 (16,10) vs 70.94 (22.87)], respectively (P = 0.01). The function of the descending pain modulatory system evaluated by the NPS (0-10) change during the CPM-task was negatively correlated with the cortical excitability parameter indexed by CSP (P = 0.001). CSP was negatively correlated with pain and disability assessed by the WOMAC index. Conclusion: It was observed a descending pain inhibitory system weakened, corroborating the findings of other chronic pain conditions. Study II The second study sought to determine if one active IMS session compared to sham promoted an effect on motor cortex excitability (MEP, short intracortical inhibition - SICI, intracortical facilitation (ICF) and CSP and in the pain measures [pressure pain threshold (PPT); Visual analogue pain scale (VAS) and numerical pain scale change (NPS0-10) during the CPM-task]. This study also aimed to determine whether serum brain-derived neurotrophic factor (BDNF) mediates the effect of this stimulation on the cortico-spinal system, as assessed by MEP and PPT. Methods: Twenty-six women with KOA, aged 50-75 years old, were included. They were randomly divided to receive a 30-minute session of active IMS (n = 13) or IMS sham (n = 13) by electrostimulation with a frequency of 2 Hz. The needles were inserted paravertebral at the level of the lumbar roots exit from L1 to S2 and in the muscles whose innervation corresponds to these roots and which support the knee joint (vastus medialis, rectus anterior, vastus lateral, tibialis anterior and insertion of the anserine paw). The outcomes were pain measures (VAS, PPT, NPS during CPM-task) and excitability parameters (MEP, CSP, SICI, ICF) performed before and immediately after the intervention. Results: the active IMS compared with sham decreased the MEP by 31.61% [confidence interval (CI) 95%, 2.34-60.98]. For the secondary outcomes, IMS reduced ICF and increased CSP. IMS improved pain reported in VAS, PPT, and NPS score (0-10) during the CPM-task. BDNF was negatively correlated with PPT (r = 20.56). Conclusion: We obtained results demonstrating improvement of pain and enhancement of the inhibitory corticospinal system compared to sham treatment with IMS. Study III The third study aimed to: 1) Evaluate if the use of the combined tDCS (transcranial direct current stimulation) to IMS can promote a better result of modulation of the corticospinal pain pathway through the potentiation of the effects of the two treatments; compared to each of them alone, and with the sham treatment. 2) To evaluate the ability of the tDCS to strengthen the descending inhibitory pain system and to modulate neuronal excitability through VAS, PPT and NPS during CPM-task. In addition, we evaluated whether serum BDNF could predict the effect of therapy at the end of treatment. Methods: 60 women aged 50 to 75 years old. Randomized in one of four groups: tDCS + IMS, tDCS + IMS sham, tDCS sham + IMS, tDCS sham + IMS sham. They received 5 sessions of treatment: anodal tDCS, opposite side to affected knee, 2mA, 30 min. IMS: stimulation with frequency of 2Hz, 30 min; needles placed at 2 cm from L1 to S2, in the vastus medialis, vastus lateralis, rectus anterior, tibialis anterior and insertion of the anserine paw. Results: a-tDCS + a-IMS showed the best results with significant difference in pain (VAS) [mean (SD) related to treatment (post and pre): 0.46 (0.04) vs. 6.32 (1.97); 95% CI -5.42 (-8.24 to -4.36), p = .003] and functionality. This result started in the first session and was maintained throughout the study. A-tDCS + a-IMS was the only one able to modify the descending inhibitory pain system. Conclusion: We achieved improved pain and functional capacity with IMS, tDCS and tDCS + IMS. But only the tDCS + IMS treatment group demonstrated ability to modify the descending inhibitory pain system.

Estimulacao eletrica

Estimulação magnética transcraniana

Excitabilidade cortical

Limiar da dor

Intramuscular electrical stimulation

Conditioned pain modulation

Pain pressure threshold

Cortical excitability

Transcranial magnetic stimulation

Transcranial direct current stimulation

Implication du système nerveux central dans la faiblesse musculaire périphérique du patient atteint de broncho-pneumopathie chronique obstructive / Involvement of central nervous system in peripheral muscle weakness of patients with chronic obstructive pulmonary disease

Alexandre, François

03 July 2015

La faiblesse des muscles périphériques, définie par une diminution de la force maximale volontaire en dehors de tout état de fatigue neuromusculaire, est une complication fréquente de la broncho-pneumopathie chronique obstructive (BPCO). La force maximale volontaire dépend à la fois des propriétés musculaires périphériques (i.e. volume et architecture musculaire, qualités contractiles) et de la capacité du système nerveux à activer le muscle maximalement. Dans la BPCO, plusieurs travaux ont souligné l'existence paradoxale d'une perte de force maximale volontaire sans altérations musculaires périphériques et sans qu'un déficit d'activation volontaire n'ait clairement été identifié. Pourtant, les patients atteints de BPCO présentent de nombreuses altérations du système nerveux, compatibles avec une capacité d'activation volontaire altérée.L'objectif de ce travail de thèse était donc de tester l'implication du système nerveux dans la faiblesse musculaire de la BPCO et d'en déterminer les mécanismes sous-jacents. Au cours de nos travaux, nous avons mis en évidence une activité corticale diminuée dans la BPCO lors de contractions maximales et sous-maximales volontaires. Nous avons par ailleurs rapporté une perte d'excitabilité du cortex moteur et un déficit d'activation volontaire spécifique aux patients atteints de faiblesse musculaire. Ces résultats sont en accord avec une implication des altérations cérébrales dans la faiblesse musculaire périphérique de la BPCO. Nous sommes ensuite parvenus à identifier une origine potentielle des altérations cérébrales : les désaturations en O2 au cours du sommeil avec mouvements non-rapides des yeux (NREM). Cette hypothèse a été corroborée par l'observation d'un niveau d'activation volontaire réduit chez les patients désatureurs en sommeil NREM. En revanche, aucune répercussion significative n'a pu être observée sur la force maximale volontaire de ces patients, suggérant l'existence d'un mécanisme compensatoire. In fine, nos résultats constituent une avancée importante dans la compréhension du phénomène de faiblesse musculaire, classiquement attribué à la seule perte de masse musculaire. L'implication du système nerveux central dans la faiblesse musculaire ouvre notamment la voie à de nouvelles modalités de prise en charge par des approches spécifiques, dans l'optique de lutter contre la faiblesse musculaire et ses multiples répercussions négatives dans la vie du patient atteint de BPCO. / Peripheral muscle weakness, as defined by a reduced voluntary strength outside any state of neuromuscular fatigue, is a common complication of chronic obstructive pulmonary disease (COPD). Maximal voluntary strength is determined by both peripheral muscle properties (i.e. muscle volume and architecture, contractile quality) and the nervous system's ability to activate the muscle maximally. In COPD, many studies highlighted the paradoxical existence of maximal voluntary strength loss without any peripheral muscle impairment, and without a clearly identified voluntary activation deficit. However, patients with COPD exhibited several nervous system alterations compatible with a reduced maximal voluntary activation capacity. The aim of this thesis was to test the nervous system implication in COPD muscle weakness and to determine the involved mechanisms. As major results, we found a reduced cortical activity in COPD during maximal and sub-maximal voluntary contractions. Furthermore, we reported reduced motor cortex excitability and voluntary activation deficit, specifically in patients with muscle weakness. These results are in accordance with an involvement of cortical alterations in COPD muscle weakness. Then, we indentified a potential origin for cortical alterations: O2 desaturation during non-rapid eye movement (NREM) sleep. This hypothesis has been corroborated by the observation of a reduced voluntary activation in patients with NREM sleep desaturation. However, no significant repercussion could have been observed on maximal voluntary strength in these patients, suggesting a compensatory mechanism.Our results are an important step forward in understanding the COPD muscle weakness that was classically attributed to loss of muscle mass only. The involvement of the central nervous system in COPD muscle weakness also brings about new patient care opportunities via tailored approaches, in order to fight against muscle weakness and its deleterious consequences on a patient's life.

Excitabilité cortico-spinale

Commande motrice volontaire

Dysfonction cérébrale

Stimulation magnétique transcrânienne

Spectroscopie proche infrarouge

Réhabilitation respiratoire

Corticospinal excitability

Central motor drive

Brain impairment

Magnetic transcranial stimulation

Near infrared spectroscopy

Respiratory rehabilitation

Inducing Neuroplastic Changes in the Human Cortex using External Transcranial Electrical Stimulation Techniques / Induzierung neuroplastischer Veränderungen des menschlichen Kortex mittels externer transkranieller Elektrostimulationstechniken

Chaieb, Leila

29 November 2010

No description available.

610 Medizin

Gesundheit

Kortex

transkraniellen Magnetstimulation

neuroplastische Induktion

Kortikale exzitabilität

Human cortex

transcranial electrical stimulation

transcranial magnetic stimulation

neuroplasticity

cortical excitability

RA

Pathological synchronization in neuronal populations : a control theoretic perspective

Franci, Alessio

06 April 2012

In the first part of this thesis, motivated by the development of deep brain stimulation for Parkinson's disease, we consider the problem of reducing the synchrony of a neuronal population via a closed-loop electrical stimulation. This, under the constraints that only the mean membrane voltage of the ensemble is measured and that only one stimulation signal is available (mean-field feedback). The neuronal population is modeled as a network of interconnected Landau-Stuart oscillators controlled by a linear single-input single-output feedback device. Based on the associated phase dynamics, we analyze existence and robustness of phase-locked solutions, modeling the pathological state, and derive necessary conditions for an effective desynchronization via mean-field feedback. Sufficient conditions are then derived for two control objectives: neuronal inhibition and desynchronization. Our analysis suggests that, depending on the strength of feedback gain, a proportional mean-field feedback can either block the collective oscillation (neuronal inhibition) or desynchronize the ensemble.In the second part, we explore two possible ways to analyze related problems on more biologically sound models. In the first, the neuronal population is modeled as the interconnection of nonlinear input-output operators and neuronal synchronization is analyzed within a recently developed input-output approach. In the second, excitability and synchronizability properties of neurons are analyzed via the underlying bifurcations. Based on the theory of normal forms, a novel reduced model is derived to capture the behavior of a large class of neurons remaining unexplained in other existing reduced models.

Synchronization control

Deep brain stimulation

Mean-field feedback

Kuramoto model

Phase desynchronization

Oscillation inhibition

Neuronal excitability

Reduced neuronal modeling

Input-output neuronal modeling