Observation of another person’s actions and feelings activates brain areas that support similar functions in the observer, thereby facilitating inferences about the other’s mental and bodily states. In real life, events eliciting this kind of vicarious brain activations are intermingled with other complex, ever-changing stimuli in the environment. One practical approach to study the neural underpinnings of real-life vicarious perception is to image brain activity during movie viewing. Here the goal was to find out how observed haptic events in a silent movie would affect the spectator’s sensorimotor cortex. The functional state of the sensorimotor cortex was monitored by analyzing, in 16 healthy subjects, magnetoencephalographic (MEG) respo...
Complex, sustained, dynamic, and naturalistic visual stimulation can evoke distributed brain activit...
For successful communication, we need to understand the external world consistently with others. Thi...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
Observation of another person’s actions and feelings activates brain areas that support similar func...
Humans experience dynamical variations of cognitive and emotional states while watching a movie. Rec...
AbstractThe investigation of brain activity using naturalistic, ecologically-valid stimuli is becomi...
When we observe the actions of others, certain areas of the brain are activated in a similar manner ...
Camera movements are considered a key element for the intersubjective relation between viewer and sc...
According to recent functional magnetic resonance imaging (fMRI) studies, spectators of a movie may ...
Our brains are arguably the most crucial organ in our body, comprehending what we see and sense. Yet...
One key feature of film consists in its power to bodily engage the viewer. Previous research has sug...
In neuroscience, empathy is often conceived as relatively automatic. The voluntary control that peop...
Contains fulltext : 201725.pdf (publisher's version ) (Open Access)One key feature...
AbstractAccording to recent functional magnetic resonance imaging (fMRI) studies, spectators of a mo...
One key feature of film consists in its power to bodily engage the viewer. Previous research has sug...
Complex, sustained, dynamic, and naturalistic visual stimulation can evoke distributed brain activit...
For successful communication, we need to understand the external world consistently with others. Thi...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
Observation of another person’s actions and feelings activates brain areas that support similar func...
Humans experience dynamical variations of cognitive and emotional states while watching a movie. Rec...
AbstractThe investigation of brain activity using naturalistic, ecologically-valid stimuli is becomi...
When we observe the actions of others, certain areas of the brain are activated in a similar manner ...
Camera movements are considered a key element for the intersubjective relation between viewer and sc...
According to recent functional magnetic resonance imaging (fMRI) studies, spectators of a movie may ...
Our brains are arguably the most crucial organ in our body, comprehending what we see and sense. Yet...
One key feature of film consists in its power to bodily engage the viewer. Previous research has sug...
In neuroscience, empathy is often conceived as relatively automatic. The voluntary control that peop...
Contains fulltext : 201725.pdf (publisher's version ) (Open Access)One key feature...
AbstractAccording to recent functional magnetic resonance imaging (fMRI) studies, spectators of a mo...
One key feature of film consists in its power to bodily engage the viewer. Previous research has sug...
Complex, sustained, dynamic, and naturalistic visual stimulation can evoke distributed brain activit...
For successful communication, we need to understand the external world consistently with others. Thi...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...