Activating Developmental Reserve Capacity Via Cognitive Training or Non-invasive Brain Stimulation: Potentials for Promoting Fronto-Parietal and Hippocampal-Striatal Network Functions in Old Age

Passow, Susanne, Thurm, Franka, Li, Shu-Chen

24 July 2017

Existing neurocomputational and empirical data link deficient neuromodulation of the fronto-parietal and hippocampal-striatal circuitries with aging-related increase in processing noise and declines in various cognitive functions. Specifically, the theory of aging neuronal gain control postulates that aging-related suboptimal neuromodulation may attenuate neuronal gain control, which yields computational consequences on reducing the signal-to-noise-ratio of synaptic signal transmission and hampering information processing within and between cortical networks. Intervention methods such as cognitive training and non-invasive brain stimulation, e.g., transcranial direct current stimulation (tDCS), have been considered as means to buffer cognitive functions or delay cognitive decline in old age. However, to date the reported effect sizes of immediate training gains and maintenance effects of a variety of cognitive trainings are small to moderate at best; moreover, training-related transfer effects to non-trained but closely related (i.e., near-transfer) or other (i.e., far-transfer) cognitive functions are inconsistent or lacking. Similarly, although applying different tDCS protocols to reduce aging-related cognitive impairments by inducing temporary changes in cortical excitability seem somewhat promising, evidence of effects on short- and long-term plasticity is still equivocal. In this article, we will review and critically discuss existing findings of cognitive training- and stimulation-related behavioral and neural plasticity effects in the context of cognitive aging, focusing specifically on working memory and episodic memory functions, which are subserved by the fronto-parietal and hippocampal-striatal networks, respectively. Furthermore, in line with the theory of aging neuronal gain control we will highlight that developing age-specific brain stimulation protocols and the concurrent applications of tDCS during cognitive training may potentially facilitate short- and long-term cognitive and brain plasticity in old age.

Alterung

kognitives Training

Dopamin

fronto-parietales Netzwerk

hippocampal-striatales Netzwerk

neuronale Verstärkungsregelung

transkranielle elektrische Stimulation

Technische Universität Dresden

Publikationsfonds

aging

cognitive training

dopamine

fronto-parietal network

hippocampal-striatal network

neuronal gain control

transcranial electrical stimulation

Technische Universität Dresden

Publishing Fund

ddc:610

rvk:XA 10000

Activating Developmental Reserve Capacity Via Cognitive Training or Non-invasive Brain Stimulation: Potentials for Promoting Fronto-Parietal and Hippocampal-Striatal Network Functions in Old Age

Passow, Susanne, Thurm, Franka, Li, Shu-Chen

24 July 2017

Existing neurocomputational and empirical data link deficient neuromodulation of the fronto-parietal and hippocampal-striatal circuitries with aging-related increase in processing noise and declines in various cognitive functions. Specifically, the theory of aging neuronal gain control postulates that aging-related suboptimal neuromodulation may attenuate neuronal gain control, which yields computational consequences on reducing the signal-to-noise-ratio of synaptic signal transmission and hampering information processing within and between cortical networks. Intervention methods such as cognitive training and non-invasive brain stimulation, e.g., transcranial direct current stimulation (tDCS), have been considered as means to buffer cognitive functions or delay cognitive decline in old age. However, to date the reported effect sizes of immediate training gains and maintenance effects of a variety of cognitive trainings are small to moderate at best; moreover, training-related transfer effects to non-trained but closely related (i.e., near-transfer) or other (i.e., far-transfer) cognitive functions are inconsistent or lacking. Similarly, although applying different tDCS protocols to reduce aging-related cognitive impairments by inducing temporary changes in cortical excitability seem somewhat promising, evidence of effects on short- and long-term plasticity is still equivocal. In this article, we will review and critically discuss existing findings of cognitive training- and stimulation-related behavioral and neural plasticity effects in the context of cognitive aging, focusing specifically on working memory and episodic memory functions, which are subserved by the fronto-parietal and hippocampal-striatal networks, respectively. Furthermore, in line with the theory of aging neuronal gain control we will highlight that developing age-specific brain stimulation protocols and the concurrent applications of tDCS during cognitive training may potentially facilitate short- and long-term cognitive and brain plasticity in old age.

info:eu-repo/classification/ddc/610

ddc:610

Morphometric analysis of hippocampal subfields : segmentation, quantification and surface modeling

Cong, Shan

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Object segmentation, quantification, and shape modeling are important areas inmedical image processing. By combining these techniques, researchers can find valuableways to extract and represent details on user-desired structures, which can functionas the base for subsequent analyses such as feature classification, regression, and prediction. This thesis presents a new framework for building a three-dimensional (3D) hippocampal atlas model with subfield information mapped onto its surface, with which hippocampal surface registration can be done, and the comparison and analysis can be facilitated and easily visualized. This framework combines three powerful tools for automatic subcortical segmentation and 3D surface modeling. Freesurfer and Functional magnetic resonance imaging of the brain's Integrated Registration and Segmentation Tool (FIRST) are employed for hippocampal segmentation and quantification, while SPherical HARMonics (SPHARM) is employed for parametric surface modeling. This pipeline is shown to be effective in creating a hippocampal surface atlas using the Alzheimer's Disease Neuroimaging Initiative Grand Opportunity and phase 2 (ADNI GO/2) dataset. Intra-class Correlation Coefficients (ICCs) are calculated for evaluating the reliability of the extracted hippocampal subfields. The complex folding anatomy of the hippocampus offers many analytical challenges, especially when informative hippocampal subfields are usually ignored in detailed morphometric studies. Thus, current research results are inadequate to accurately characterize hippocampal morphometry and effectively identify hippocampal structural changes related to different conditions. To address this challenge, one contribution of this study is to model the hippocampal surface using a parametric spherical harmonic model, which is a Fourier descriptor for general a 3D surface. The second contribution of this study is to extend hippocampal studies by incorporating valuable hippocampal subfield information. Based on the subfield distributions, a surface atlas is created for both left and right hippocampi. The third contribution is achieved by calculating Fourier coefficients in the parametric space. Based on the coefficient values and user-desired degrees, a pair of averaged hippocampal surface atlas models can be reconstructed. These contributions lay a solid foundation to facilitate a more accurate, subfield-guided morphometric analysis of the hippocampus and have the potential to reveal subtle hippocampal structural damage associated.

Hippocampal segmentation

Surface atlas modeling

Hippocampal subfields

Hippocampus (Brain) -- Imaging

Image segmentation -- Research

Imaging systems in medicine

Brain -- Imaging -- Data processing

Computer vision in medicine

Three-dimensional imaging

Spherical harmonics -- Research

Optical data processing

Medicine -- Data processing

Fourier analysis

Apports nutritionnels en acides gras polyinsaturés n-3 et action cellulaire de la vitamine A : effets sur la plasticité cérébrale et la mémoire spatiale chez le rat agé / N-3 polyunsaturated fatty acids intakes and cellular action of vitamin A : effects on cerebral plasticity and spatial memory in aged rats

Commere Oustric, Julie

17 December 2010

Les acides gras polyinsaturés à longue chaîne (AGPI-LC) de la série n-3 jouent des rôles essentiels dans le fonctionnement du cerveau et notamment dans les processus de plasticité synaptique et de mémoire, altérés au cours du vieillissement. Il est maintenant bien admis que ces AGPI peuvent réguler la transcription génique en se liant à des récepteurs nucléaires spécifiques, les PPAR (peroxisome proliferator-activated receptors), mais aussi aux récepteurs de l’acide 9-cis rétinoïque, les RXR (retinoid X receptors). En tant que partenaires communs d’hétérodimérisation des PPAR et des RAR (récepteurs de l’acide tout-trans rétinoïque), les RXR sont des acteurs clés de la modulation de l’expression génique par les acides gras et les rétinoïdes. Dans ce contexte, l’objectif de ce travail de thèse était d’étudier, au cours du vieillissement chez le rat, les effets d’une supplémentation en AGPI-LC n-3 sur l’activité des voies de signalisation des acides gras et des rétinoïdes, les processus de plasticité cérébrale (plasticité synaptique et neurogenèse) et la mémoire spatiale. Nos principaux résultats montrent qu’une supplémentation en AGPI-LC n-3, pendant 21 semaines chez des rats à mi-vie, maintient dans l’hippocampe les niveaux d’expression des ARNm codant pour RXRγ et GAP-43 (protéine synaptique) altérés au cours du vieillissement. De plus les rats âgés supplémentés en AGPI-LC n-3 présentent une augmentation du nombre de néo-neurones hippocampiques et une amélioration de la mémoire spatiale de travail, comparés aux rats âgés contrôle. Les résultats de cette étude plaident en faveur d’un effet bénéfique des AGPI-LC n-3 sur la mémoire de travail au cours du vieillissement via notamment, une action sur la plasticité cérébrale. De plus, nos travaux suggèrent l’implication des RXR dans l’effet neuroprotecteur des AGPI-LC n-3, qui réguleraient l’expression de certains gènes cibles impliqués dans la plasticité synaptique et les processus de neurogenèse hippocampique. / Long chain polyunsaturated fatty acids (LC-PUFA) of the n-3 series play essential roles in brain functions, including brain plasticity and memory processes which are altered during aging. It is now well accepted that these PUFA regulate gene transcription through binding and activating specific nuclear receptors such as PPAR (peroxisome proliferator-activated receptors) and RXR (retinoid X receptors, which also bind 9-cis retinoic acid). As a common heterodimeric partner of both PPAR and RAR (all-trans retinoic acid receptors), RXR is a key factor in the modulation of gene expression by fatty acids and retinoids. In this context, the purpose of this work was to study the effects of a n-3 LC-PUFA supplementation on fatty acid and retinoid signalling pathways and on cerebral plasticity and spatial memory processes. Our main results show that n-3 LC-PUFA supplementation for 21 weeks in mid-life rats, maintains the mRNA levels of RXRγ and GAP-43 (synaptic protein) which were altered in aged rat hippocampus. Besides, supplemented aged rats exhibited increased numbers of newly generated neurons and improved spatial working memory, when compared with control aged rats. To summarize, our results support the neuroprotective effects of n-3 LC-PUFA during aging, in particular on cerebral plasticity and working memory. Furthermore, our works suggest the implication of RXR in the set up of these effects through notably the regulation of some target genes involved in synaptic plasticity and hippocampal neurogenesis processes.

Acide rétinoïque

Récepteurs nucléaires

Vieillissement

Plasticité synaptique

Neurogenèse hippocampique

Mémoire spatiale

Retinoic acid

Nuclear receptors

Aging

Synaptic plasticity

Hippocampal neurogenesis

Spatial memory

Neurální substrát magnetické kompasové orientace u myši C57BL/6J / Neural Basis of magnetic compass orientation in C57BL/6J mice

Bláhová, Veronika

January 2014

The ability to perceive the Earth's magnetic field has been demonstrated in a variety of animals, including representatives of all five classes of vertebrates. The physiological mechanisms underlying magnetic field sensation, however, remain largely unknown. Behavioral, physiological, neuroethological studies and studies using early response genes as neuronal activation markers indicated that a major role in the perception and processing of magnetic information play trigeminal, vestibular and visual systems. Subsequently, magnetic information seem to be integrated with multimodal sensory and motor information within the hippocampal-entorhinal system. In the majority of studies, however, birds have been used as model organisms. In this work I analyzed the neural substrate of magnetic compass orientation in the mouse strain C57BL/6J using markers c-Fos and Egr1. I found that all the aforementioned systems contain neurons responsive to the experimental magnetic fields. This finding demonstrates a complex processing of the magnetic information at level of the central nervous system.

Implication de la protéine kinase C dans les troubles bipolaires : vers de nouvelles cibles thérapeutiques / Role of protein kinase C in bipolar disorders : towards novel therapeutic targets

Abrial, Erika

05 February 2013

Le trouble bipolaire est une maladie invalidante caractérisée par une alternance d’épisodes maniaques et dépressifs. Malgré des efforts de recherche notables, la physiopathologie et les mécanismes d’action des traitements du trouble bipolaire demeurent peu connus. La protéine kinase C (PKC) est récemment apparue comme une cible moléculaire potentielle pour le traitement du trouble bipolaire. Dans ce travail de thèse, nous avons cherché à étudier le rôle de la PKC dans les phases maniaque et dépressive du trouble bipolaire. Nous avons montré que l’inhibition de la PKC a un effet antimaniaque non seulement chez le rat naïf, mais aussi dans un modèle de manie basé sur une privation de sommeil, que nous avons validé au cours de notre étude. De plus, les inhibiteurs de la PKC sont capables de rétablir les déficits de prolifération cellulaire hippocampique que présentent les rats privés de sommeil. Ces effets prolifératifs et antimaniaques seraient indépendants, puisque le blocage de la prolifération cellulaire n’abolit pas l’efficacité antimaniaque des inhibiteurs de la PKC dans le modèle de privation de sommeil. En parallèle, nous avons montré que l’activation de la PKC a un effet antidépresseur chez le rat naïf, alors que son inhibition provoque un phénotype pseudodépressif qui s’accompagne d’une diminution de la prolifération cellulaire hippocampique. L’ensemble de ces données révèle une implication de la PKC dans les deux phases du trouble bipolaire, et soutient l’hypothèse qu’une suractivation du système PKC serait à l’origine des perturbations de neuroplasticité associées à la manie. / Bipolar disorder is a devastating long-term disease characterized by alternate episodes of mania and depression. Despite extensive research, the molecular and cellular underpinnings of bipolar disorder remain to be fully elucidated. Protein kinase C (PKC) has emerged as a potential molecular target for the treatment of bipolar disorder. The present study investigated the role of PKC in manic- and depressive-like behaviors. Our results showed that PKC inhibition produced an antimanic-like effect not only in naive rats, but also in an animal model of mania based on sleep deprivation, that we have validated in our study. Interestingly, PKC inhibitors rescued the hippocampal cell proliferation deficits displayed by sleep-deprived animals. These proliferative and antimanic effects were independent, since blockade of cell proliferation did not abolish the antimanic efficacy of PKC inhibitors in the sleep deprivation model. At the same time, we showed that PKC activation had an antidepressant-like effect in naive rats, whereas its inhibition caused a depressive-like phenotype accompanied by a decrease in hippocampal cell proliferation. Taken together, our results demonstrate the involvement of the PKC system in regulating opposite facets of bipolar disorder, and support the hypothesis that an overactivation of the PKC signaling system may be crucial for the deficits of neuroplasticity associated with mania.

Troubles bipolaires

Manie

Dépression

Protéine kinase C

Modèles animaux

Comportement

Prolifération cellulaire hippocampique

Potentialisation à long terme

Bipolar disorder

Mania

Depression

Protein kinase C

Animal models

Behavior

Hippocampal cell proliferation

Long-term potentiation

612.8

Caracterização das vias de morte celular induzida pela metilecgonidina, produto da pirólise da cocaína / Neurotoxicity of anydroecgonine methyl ester, a crack cocaine pyrolysis product

Dati, Livia Mendonça Munhóz

26 October 2012

A cocaína é considerada a principal droga de abuso utilizada na América do Sul, sendo que o crack é a via de administração que mais cresceu nos últimos anos. Cabe salientar que o usuário do crack sofre ação tanto da cocaína quanto das substâncias advindas da sua pirólise, dentre elas a metilecgonidina (AEME). Trabalho publicado pelo nosso grupo demonstrou que a AEME é mais neurotóxica que a cocaína em cultura primária de hipocampo. Além disso, dados da literatura têm mostrado uma possível ação da AEME em receptores colinérgicos muscarínicos no sistema nervoso periférico. Na tentativa de elucidar se essa ação ocorre no sistema nervoso central, a AEME foi incubada na presença e na ausência de atropina, um antagonista de receptores colinérgicos muscarínicos. Nossos resultados em cultura primária de hipocampo mostraram que a atropina foi capaz de prevenir os efeitos neurotóxicos causados pela AEME, sugerindo uma afinidade aos receptores colinérgicos muscarínicos. Contudo, o mesmo efeito não foi observado após a incubação com a cocaína e a associação (AEME 1 mM /cocaína 2 mM). Pode-se pressupor que a AEME age preferencialmente em receptores colinérgicos muscarínicos subtipos M1, M3 e M5, uma vez que houve a formação de IP3 e aumento de cálcio intracelular, sendo esse último observado também nos grupos incubados com cocaína e associação (AEME 1 mM /cocaína 2 mM). Com a finalidade de verificar se a apoptose era uma das vias de morte neuronal, foi avaliada a expressão das proteínas mitoncondriais (Bax e Bcl-2), a atividade da caspase-3 e a análise da fragmentação do DNA, bem como a integridade da membrana celular. Foi observado que a AEME aumentou a razão das proteínas mitocondriais Bax/Bcl-2, a atividade da caspase-3 e o DNA fragmentado, bem como a perda da integridade da membrana. A cocaína aumentou a atividade da caspase 3, a fragmentação do DNA e a perda da integridade da membrana celular, mas não alterou a razão da expressão das proteínas mitocondriais Bax/Bcl-2. Apesar de apresentar uma diminuição da atividade da caspase-3, a associação (AEME 1 mM /cocaína 2 mM) apresentou um aumento do DNA fragmentado e do rompimento da membrana, bem como um aumento da razão Bax/Bcl-2. Estes dados sugerem que estas substâncias estimulam vias de morte neuronal tanto de apoptose quanto de necrose. Mais ainda, nas vias estudas neste trabalho, parece que a associação (AEME 1 mM /cocaína 2 mM) desencadeia os efeitos neurotóxicos mais rápido, estimulando, possivelmente, vias diferentes das encontradas com as substâncias isoladamente. / Cocaine is the main illicit drug used in South America, and the crack cocaine is the administration route that grown more than any other route in the last years. The user of crack cocaine suffers the action of both cocaine and its pyrolysis products, which methylecgonidine (AEME) is the main compound. Published work by our group demonstrated that AEME is more neurotoxic than cocaine in rat primary hippocampal cell culture. Moreover, published data have shown a possible muscarinic cholinergic action of AEME in the peripheral nervous system. To verify if this action occurs in the central nervous system, AEME was incubated in the presence and absence of atropine, a muscarinic cholinergic receptor antagonist. Our results in rat primary hippocampal cell culture showed that atropine was able to prevent AEME-induced neurotoxic effects, suggesting its affinity for muscarinic cholinergic receptors. However, this effect was not observed after incubation with cocaine and association (AEME 1 mM /cocaine 2 mM). It is suggestive that AEME acts, with preference, on subtypes M1, M3 and M5 muscarinic cholinergic receptors, once there was the formation of IP3 and the increase of intracellular calcium. It is important to mention that the intracellular calcium was also increased in both cocaine and association (AEME 1 mM /cocaine 2 mM) groups. In order to know whether apoptosis was a neuronal death pathway, it was evaluated the expression of mitochondrial proteins (Bax and Bcl-2), the capase-3 activity and the DNA fragmentation, as well as the loss of membrane integrity. It was observed that AEME increased the ratio of mitochondrial proteins Bax/Bcl-2, the activity of caspase-3, the fragmentation of DNA and the loss of membrane integrity. Cocaine increased the activity of caspase-3, the DNA fragmentation and the loss of cell membrane integrity, but did not affect the ratio expression of mitochondrial proteins Bax/Bcl-2. Although it was observed a decrease in caspase-3 activity, the association (AEME 1 mM / cocaine 2 mM) showed an increase in the DNA fragmentation and the cell membrane disruption, as well as an increase in Bax/Bcl-2 ratio. These data suggest that these substances stimulate neuronal death pathways of both apoptosis and necrosis. Moreover, in the pathways studied in this work, it seems that the association (AEME 1 mM /cocaine 2 mM) has the fastest neurotoxic effects, stimulating, possibly, different neuronal death pathways when compared to substances isolated.

Anhydroecgonine methyl ester

Apoptose

Apoptosis

Caspase/efeitos de drogas

Cocaína crack

Crack cocaine

Necrose

Necroses

Neurotoxicity

Proteínas mitocondriais

Rat primary hippocampal cell culture

Ratos Wistar

Receptores muscarínicos

Síndromes neurotóxicas

Sobrevivência celular/efeitos de drogas

Avaliação por imagem por tensor de difusão do corpo caloso em pacientes com epilepsia mesial temporal e esclerose hipocampal / Diffusion tensor imaging of the CC of patients with mesial temporal epilepsy and hippocampal sclerosis

Lyra, Katarina Paz de

23 June 2015

INTRODUÇÃO: Epilepsia do lobo temporal mesial (ELTM) por esclerose hipocampal (EH) é a forma de epilepsia focal mais comum na idade adulta e a causa mais frequente de refratariedade ao tratamento clínico. Apesar de se tratar de uma patologia da substância cinzenta, alguns estudos, por meio da imagem por tensor de difusão (diffusion tensor imaging-DTI), têm demonstrado alteração da substância branca temporal e extratemporal nestes pacientes. O corpo caloso (CC) é a maior comissura cerebral conectando áreas corticais homólogas de ambos os hemisférios cerebrais e tem sido implicado na propagação da atividade epiléptica. O objetivo principal do presente estudo foi avaliar possíveis alterações no CC de pacientes com ELTM-EH pela técnica de DTI e verificar se essas dependem da lateralidade da EH e da concordância entre os exames de ressonância magnética (RM) e os exames de vídeo-eletroencefalograma (EEG). Como objetivo secundário, também avaliou-se se estas alterações se correlacionavam com alguma variável clínica ou com as medidas volumétricas do CC. MÉTODOS: 42 pacientes com ELTM-EH (idades: 20-54 anos) e 30 voluntários saudáveis como grupo controle (idades: 18-53 anos) realizaram exame de RM de crânio, sendo obtidas sequências de DTI com 32 direções de gradiente e imagens volumétricas ponderadas em T1. Os pacientes foram também divididos em subgrupos: EH à direita e EH à esquerda, e em pacientes concordantes e discordantes. Os valores de anisotropia fracionada (AF), difusividade média (DM), difusividade axial (DA), difusividade radial (DR) e os dados volumétricos foram extraídos a partir de cinco segmentos obtidos automaticamente na secção sagital do CC. Foram realizadas comparações dos parâmetros de DTI no CC entre os grupos de pacientes e controles, e entre os subgrupos de pacientes. Foram investigadas correlações entre os parâmetros do tensor de difusão e as variáveis clínicas. As alterações volumétricas no CC dos pacientes com ELTM-EH bem como a correlação dessas alterações com as anormalidades de difusão também foram avaliadas. Considerou-se um valor de p < 0,05 como estatisticamente significativo. RESULTADOS: Nas regiões anterior, médio-posterior e posterior do CC dos pacientes, observaram-se redução da AF e aumento da DM e da DR, em relação aos controles. A DA manteve-se inalterada. Não foram demonstradas diferenças nos padrões de alteração de difusão entre os pacientes com EH à direita e com EH à esquerda, nem entre pacientes concordantes e discordantes. Não foram observadas correlações significativas entre os parâmetros do tensor de difusão com a idade ao evento inicial, idade de início da epilepsia, tempo de doença, tempo de epilepsia, período de latência e frequência de crises. No entanto, pacientes que apresentaram crise febril como evento precipitante inicial exibiram maior intensidade e extensão das alterações de difusão. Observou-se redução volumétrica difusa do CC, sendo demonstrada correlação negativa significativa entre DM e DR, e o volume nos segmentos central, médio-posterior e posterior, e, ainda, entre DA e volume do segmento posterior. Nós observamos, ainda, correlação negativa significativa entre o volume e o tempo de epilepsia, e o tempo de doença. CONCLUSÕES: Houve alteração dos parâmetros de DTI em áreas específicas do CC e redução volumétrica difusa desta estrutura. Tais anormalidades parecem ser secundárias à propagação das crises epilépticas ao longo de vias específicas anatômica ou funcionalmente relacionadas aos lobos temporais promovendo alterações secundárias na substância branca cerebral. O histórico de crise febril está relacionado a maior intensidade e extensão de acometimento do CC / INTRODUCTION: Mesial temporal lobe epilepsy (MTLE) with hippocampal sclerosis (HS) is the most common form of focal epilepsy in adults and it is frequently associated with refractoriness to medical treatment. Although epilepsy is considered a grey-matter disease, abnormalities in the temporal and extra-temporal white matter have been identified in these patients with diffusion tensor imaging (DTI). The corpus callosum (CC) is the major white matter tract connecting both cerebral hemispheres and has been implicated as an important route of spread of epileptic activity. The first goal of this study was to detect DTI abnormalities in specific areas of the CC in patients with MTLE-HS and to verify if these abnormalities depend on the laterality of the HS and on the concordance between the magnetic resonance imaging (MRI) and video-electroencephalogram (EEG). As a second goal we assessed if DTI results were correlated with any clinical variable or volumetric changes of the CC. METHODS: 42 patients (age: 20-54 years) and 30 healthy controls (age:18-53 years) were submitted to brain MRI. DTI sequences with 32 gradient encoding directions and volumetric T1-weighted images were obtained. Additionally, we grouped the patients in left sided and right sided HS and in concordant and discordant HS. Mean values of fractional anisotropy (FA), mean diffusivity (MD), axial diffusivity (AD), radial diffusivity (RD) and volumetric results were extracted from five segments at the midsagittal section of the CC obtained through automatic segmentation. Comparisons of DTI parameters of the CC were performed between patients and controls and between subgroups of patients. Correlations between DTI parameters and clinical findings were calculated. We also evaluated volume abnormalities of the CC in MTLE-HS patients and the correlations between these abnormalities and DTI changes. We considered a value of p <0.05 statistically significant. RESULTS: Our study showed that, when HS patients was compared to controls, the FA was lowest in the anterior, mid-posterior and posterior subregions of the CC. MD and RD were higher in these same segments. No changes were observed in AD. No differences in the CC DTI parameters were detected between right-sided HS and left-sided HS or between concordant and discordant HS patients. Age at initial event, age at epilepsy onset, duration of disease, duration of epilepsy, latency period and seizure frequency were not significantly correlated with the DTI parameters. However, patients who had febrile seizures as initial event exhibited greater intensity and extent of DTI changes. All segments demonstrated volume reduction compared to controls. Significant negative correlation was demonstrated between MD and RD and the volume in the central, midposterior and posterior segments of the CC, and between AD and volume of the posterior segment. We also demonstrated negative correlation between volume and duration of disease and duration of epilepsy. CONCLUSIONS: This study showed diffusion abnormalities in specific areas of the CC and diffuse atrophy in patients with unilateral HS, which may be secondary to seizures propagation along specific pathways leading to secondary changes in brain white matter. The history of febrile seizure is related to greater involvement of the CC

Anisotropia fracionada

Axial diffusivity

Corpo caloso

Corpus callosum

Diffusion tensor imaging

Difusividade axial

Difusividade média

Difusividade radial

Epilepsia do lobo temporal

Esclerose hipocampal

Fractional anisotropy

Hippocampal sclerosis

Imagem por tensor de difusão

Mean diffusivity

Radial diffusivity

Temporal lobe epilepsy

BDNF/TRKB, volume hippocampique et réponse aux antidépresseurs dans le trouble dépressif unipolaire / BDNF/TRKB, hippocampal volume and antidepressant reponse in major depressive disorder

Colle, Romain

05 January 2016

Introduction : Issus des données animales, les modèles neurotrophiniques du mécanisme d’action des médicaments antidépresseurs pourraient permettre d’identifier chez l’Homme des biomarqueurs prédictifs de la réponse et de la rémission sous antidépresseurs. Nous évaluons l’intérêt clinique, chez les patients souffrant de trouble dépressif caractérisé unipolaire, de 11 biomarqueurs : polymorphismes nucléotidiques simples (SNP) du Brain Derived Neurotrophic Factor (BDNF) et de son récepteur, le Récepteur Tyrosine-Kinase B (TRKB), taux plasmatiques de BDNF et volume hippocampique sur la réponse/rémission sous antidépresseurs. Méthode : Les données originales de ce travail sont issues de la cohorte METADAP. Il s’agit d’une cohorte, prospective, multicentrique incluant 624 patients présentant un épisode dépressif caractérisé dans le cadre d’un trouble dépressif caractérisé unipolaire et nécessitant l’introduction d’un traitement antidépresseur. Le traitement antidépresseur est prescrit de façon naturaliste (tous antidépresseurs commercialisés en France). Les patients sont évalués 1, 3 et 6 mois après l’introduction du traitement antidépresseur. Les biomarqueurs étudiés sont les polymorphismes Val66Met du BDNF et 8 SNP du TRKB et les dosages de BDNF plasmatiques. Une étude ancillaire est menée à partir de 63 patients ayant bénéficié d’Imagerie par Résonnance Magnétique cérébrale réalisée en pratique courante à l’inclusion de cette cohorte afin d’évaluer les volumes hippocampiques. Résultats : 1) Une revue de la littérature met en évidence une association entre la réponse aux antidépresseurs et 12 SNP du BDNF/TRKB sur 242 étudiés, ainsi qu’une association entre allèle Met du polymorphisme Val66Met du BDNF et meilleure réponse sous antidépresseurs chez les patients asiatiques. 2) Nos données ne mettent pas en évidence d’impact de 8 SNP du TRKB sur la réponse/rémission après traitement antidépresseur, mais un effet différentiel du Val66Met du BDNF selon la classe de traitement antidépresseur. 3) L’étude des dosages de BDNF plasmatiques n’est pas concluante. 4) Concernant les volumes hippocampiques, notre méta-analyse montre que des volumes hippocampiques moindres prédisent une moindre réponse/rémission après traitement antidépresseur. 5) Concernant les liens entre les biomarqueurs étudiés, nous ne mettons pas en évidence d’association. Conclusion : Sur les 11 biomarqueurs étudiés, seuls 2 pourraient présenter une utilité en pratique clinique. Si nos travaux étaient répliqués, le polymorphisme Val66Met du BDNF et le volume hippocampique pourraient conduire à orienter le choix des antidépresseurs dans le traitement des épisodes dépressifs caractérisés. Malgré une littérature cohérente chez l’Animal, nous n’avons pas mis en évidence, dans l’échantillon étudié, de lien entre les biomarqueurs génétiques étudiés et les volumes hippocampiques. Nous poursuivons ce travail d’évaluation des biomarqueurs neurotrophiniques et neurogéniques avec des méthodes d’évaluations nouvelles : séquençage nouvelle génération pour la génétique et imagerie multimodale (acquisition répétée d’IRM structurelle, fonctionnelle et de diffusion) de l’hippocampe. Nous évaluerons également de nouveaux biomarqueurs. / Introduction: developed with Animal preclinical approachs, neurtrophinic and neurogenic models of antidepressant mechanism of action lead to identify biomarkers in Human which could be predict antidepressant response and remission in depressed patients. We assess the clinical benefit of 11 biomarkers in depressed patients: Brain Derived Neurotrophic Factor (BDNF) and its receptor Tyrosine Receptor -Kinase B (TRKB), Plasma BDNF and Hippocampal volumes to predict antidepressant response/remission. Methods: The original research data of this work are from METADAP cohort. It is a prospective, multicentric cohort including 624 patients with a diagnosis of major depressive disorder and a current major depressive episode at the start of the index antidepressant treatment. Antidepressant treatment is prescribed in naturalistic conditions (all commercialized antidepressant in France). Patient are assessed 1, 3 and 6 months after the start of antidepressant treatment. Studied biomarkers are BDNF Val66Met polymorphism, 8 TRKB SNP and plasma BDNF. Ancillary study are done with 63 patients which benefit in clinical practice of Magnetic Resonnance (MRI) at the inclusion of the cohort. Results: 1) A review of literature reports associations between antidepressant efficacy and 12 BDNF/TRKB SNP on 242 studied SNP and an association with Met allele of Val66Met BDNF polymorphism and a best antidepressant efficacy in Asian patients. 2) Our original data show no impact of 8 TRKB SNP on antidepressant response remission but a differential effect of Val66Met BDNF polymorphism depending on antidepressant treatment class. 3) Plasma BDNF study is not conclusive. 4) Concerning hippocampal volumes, our meta-analysis show that smaller hippocampal volumes predict lower response/remission rate after antidepressant treatment. 5) No association is found between studied biomarkers. Conclusion: 2 of the 11 studied biomarkers could be useful in clinical practice. After replication of our results, Val66Met polymorphism could lead to personalized antidepressant prescription in major depressive disorder. Although the animal prelinical littérature appar strong, we dont report association between genetic biomarker and hippocampal volume in ours ample. We will assess neurotrophinic and neurogenic biomarkers with new methods: next generation sequencing for genetic, multimodal imaging (repeated structural, functional and diffusion MRI) of hippocampus. We also will assess new biomarkers.

Trouble dépressif caractérisé

Episode dépressif caractérisé

Antidépresseur

Réponse

Rémission

Bio-marqueurs

BDNF

TRKB

Volume hippocampique

Génétique

Neuroimagerie

IRM

Major depressive disorder

Major depressive episode

Predictor

Antidepressant

Response

Remission

Biomarker

BDNF

TRKB

Hippocampal volume

Genetic

Neuroimaging

MRI

616.079

Enriquecimento ambiental como estratégia neuroprotetora em ratos submetidos à hipóxia-isquemia neonatal

Rojas, Joseane Jiménez

January 2015

A hipóxia-isquemia (HI) é a principal causa de mortalidade no período perinatal e, nos sobreviventes, a incidência de comorbidades neurológicas é elevada. O encéfalo imaturo, altamente susceptível ao insulto hipóxico-isquêmico, é bastante sensível a estímulos ambientais tais como o enriquecimento ambiental (EA). Os objetivos deste estudo foram: 1) investigar o desempenho comportamental em um novo teste de memória e aprendizagem, o Ox-maze; 2) analisar a atividade das enzimas Na+,K+-ATPase, catalase (CAT) e glutationaperoxidase (GPx) no hipocampo; 3) caracterizar os neurônios piramidais da região CA1 hipocampal quanto à arborização dendrítica; 4) analisar alterações astrocíticas e sinápticas pela avaliação da imunoreatividade das proteínas GFAP e sinaptofisina usando a técnica de imunofluorescência e, 5) quantificar a densidade celular por meio de cortes semifinos da região CA1 do hipocampo de animais hipóxico-isquêmicos expostos a um ambiente enriquecido. Ratos com sete dias de idade foram divididos em quatro grupos e submetidos ou não ao procedimento cirúrgico de acordo com o grupo experimental ao qual pertenciam: controle mantido em ambiente padrão (CTAP), controle em ambiente enriquecido (CTAE), HI em ambiente padrão (HIAP) e HI em ambiente enriquecido (HIAE). Passado o período de EA (1h/dia, 6 dias/semana, 9 semanas iniciando após o desmame), os parâmetros mencionados foram avaliados nos animais. Os dados indicaram que a HI causou um prejuízo na memória e no aprendizado no teste do “OX-maze”, o qual foi revertido pelo efeito do ambiente enriquecido. A HI causou diminuição da atividade enzimática da Na+,K+-ATPase no hipocampo contralateral, assim como uma redução na imunorreatividade à sinaptofisina e nadensidade neuronal, sendo que o EA foi efetivo na recuperação da atividade da enzima Na+,K+-ATPase e dos níveis de sinaptofisina no hipocampo contralateral à lesão. As atividades de CAT e GPX não foram alteradas pela HI em nenhum dos grupos avaliados, mesmo resultado encontrado nas análises de GFAP e de padrão de arborização dendrítica. Por fim, neste estudo foi observado o importante efeito lesivo causado pela HI neonatal e o papel do EA como estratégia neuroprotetora na recuperação funcional, na atividade da Na+,K+-ATPase e na expressão de sinaptofisina. Este estudo traz avanços em busca dos mecanismos pelos quais a melhora funcional ocorre em animais HI expostos ao EA, mas pode-se verificar que não fica totalmente esclarecido como esta estratégia atua. Outros estudos são necessários para a identificação de possíveis mecanismos que atuem como mediadores da resposta funcional do EA após um evento isquêmico. / Hypoxia-ischemia (HI) is the main mortality cause in perinatal period and, in survivors, the incidence of neurological disabilities is elevated. The immature brain, highly susceptible to hypoxic-ischemic insult, is sensible to environmental stimuli, as environmental enrichment (EE). The aims of this study were to investigate: 1) behavioral performance in a new memory and learning task, the oxmaze task; 2) evaluate Na+,K+-ATPase, catalase (CAT) and glutathione peroxidase (GPx) activities in the hippocampus; 3) characterizes dendritic arbor in pyramidal neurons from CA1 region from hippocampus; 4) analyze alterations in hippocampal synaptophysin and GFAP immmunoreactivity and, 5) analyze neuronal density alterations in hippocampus of hypoxic-ischemic rats exposed to enriched environment. Seven-day-old rats were divided into four groups: controlmaintained in standard environment (CTSE), control submitted to EE (CTEE), HI in standard environment (HISE) and HI in EE (HIEE). Past the end of EE period (1 hour/day, 6 days/week, 9 weeks), mentioned parameters were evaluated in animals. Present results indicate learning and memory in the “OXmaze” task were impaired in HI rats and this effect was recovered after EE. On the contralateral hemisphere, HI caused a decrease in Na+,K+-ATPase activity that was recovered by EE. Results also indicate that HI damage decreases hippocampal synaptophysin immunoreactivity and neuronal density, moreover EE was effective in recovering synaptophysin levels on contralateral to the lesion hippocampus. The activities of GPx and CAT were not changed by HI in any group evaluated, some result founded on GFAP immunoreactivity and dendritic arborization characterization analysis. In conclusion, the important effect of HI lesion and the role of EE like neuroprotective strategy on functional impairment and on Na+,K+-ATPase activity and synaptophysin immunoreactivity was proven. Although this study have important advances in search of mechanisms by which the functional enhancement occurs in the animals submitted to HI and exposed to EE, it can be seen that it is not completely clear how this approach works. Further studies are needed to identify possible mechanisms that act as mediators of EE functional response after an ischemic event.

Enriquecimento ambiental

Hipóxia-isquemia encefálica

Neuroproteção

Hipocampo

Memória

Proteína glial fibrilar ácida

ATPase trocadora de sódio-potássio

Sinaptofisina

Neonatal hypoxia-ischemia

Environmental stimulation

Plasticity

Neuronal density

CA1 activity

Antioxidant enzymes

Hippocampal area

Synaptophysin

GFAP

Na+

K+-ATPase