Empatía por defecto: correlatos en el cerebro en reposo

Background: Empathy, defined as the ability to access and respond to the inner world of another person, is a multidimensional construct involving cognitive, emotional and self-regulatory mechanisms. Neuroimaging studies report that empathy recruits brain regions which are part of the social cognition network. Among the different resting state networks, the Default Mode Network (DMN) may be of particular interest for the study of empathy since it has been implicated in social cognition tasks. Method: The current study compared the cognitive and emotional empathy scores, as measured by the Interpersonal Reactivity Index, with the patterns of activation within the DMN, through the neuroimaging methodology of resting-state functional magnetic resonance. Results: Results suggest a significant positive correlation between cognitive empathy and activation of the bilateral superior medial frontal cortex nodes of the DMN. Contrastingly, a negative correlation was found between emotional empathy and the same brain region. Conclusions: Overall, this data highlights a critical role of the medial cortical regions of the DMN, specifically its anterior node, for both cognitive and emotional domains of the empathic process.Antecedentes: la empatía, defi nida como la capacidad de acceder y responder al mundo interior de otra persona, es un constructo multidimensional que implica mecanismos cognitivos, emocionales y autorreguladores. Los estudios de neuroimagen informan que la empatía recluta regiones cerebrales que forman parte de la red de cognición social. Entre las diferentes redes de estado de reposo, la Red Neuronal por Defecto (Default Mode Network; DMN) puede ser de particular interés para el estudio de la empatía, ya que ha sido implicada en tareas de cognición social. Método: el presente estudio comparó los valores de empatía cognitiva y emocional, medidos por medio del Índice de Reactividad Interpersonal, con los patrones de activación dentro de la DMN, a través de la metodología de neuroimagen por resonancia magnética funcional en estado de reposo. Resultados: los resultados sugieren una correlación positiva signifi cativa entre la empatía cognitiva y la activación bilateral de los nodos de la región frontomedial superior de la DMN. En contraste, se encontró una correlación negativa entre la empatía emocional y la misma región del cerebro. Conclusiones: en general, estos datos destacan un papel crítico de las regiones corticales mediales de la DMN, específi camente su nodo anterior, para los dominios cognitivo y emocional del proceso empático.This study was supported by the Bial Foundation, under the fellowship numbers 89/08 and 87/12 and by the PFST Ref. UID/CED/04872/2016, Ref. SFRH/BD/65892/2009, Ref. PTDC/PSIPCL/115316/2009, and FEDER funds. Ref. POCI-01-0145-FEDER-007653.info:eu-repo/semantics/publishedVersio

Electrostimulation Contingencies and Attention, Electrocortical Activity and Neurofeedback

There is a growing body of evidence for diverse ways of modulating neuronal processing to improve cognitive performance. These include brain-based feedback, self-regulation techniques such as EEG-neurofeedback, and stimulation strategies, alone or in combination. The thesis goal was to determine whether a combined strategy would have advantages for normal cognitive function; specifically operant control of EEG activity in combination with transcutaneous electro-acustimulation. In experiment one the association between transcutaneous electroacustimulation (EA) and improved perceptual sensitivity was demonstrated with a visual GO/NOGO attention task (Chen et al, 2011). Furthermore reduced commission errors were related to an electrocortical motor inhibition component during and after alternating high and low frequency EA, whereas habituation in the control group with sham stimulation was related to different independent components. Experiment two applied frequency-domain ICA to detect changes in EEG power spectra from the eyes-closed to the eyes-open state (Chen et al, 2012). A multiple step approach was provided for analysing the spatiotemporal dynamics of default mode and resting state networks of cerebral EEG sources, preferable to conventional scalp EEG data analysis. Five regions were defined, compatible with fMRI studies. In experiment three the EA approach of Exp I was combined with sensorimotor rhythm (SMR) neurofeedback. SMR training improved perceptual sensitivity, an effect not found in a noncontingent feedback group. However, non-significant benefits resulted from EA. With ICA spectral power analysis changes in frontal beta power were associated with contingent SMR training. Possible long-term effects on an attention network in the resting EEG were also found after SMR training, compared with mock SMR training. In conclusion, this thesis has supplied novel evidence for significant cognitive and electrocortical effects of neurofeedback training and transcutaneous electro-acustimulation in healthy humans. Possible implications of these findings and suggestions for future research are considered

Fluctuations of attention network activation during the resting state reflect fluctuations in subjective attentional state.

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