Mirror neurons: imitation and emotional differences among males and females

Unknown Date

The mirror neuron system consists of a specific class of visuomotor neurons, which fire for both observation and execution of an action (di Pellegrino et al., 1992), as well as showing differences for empathy and gender. Fifty males (M = 25.94) and fifty females (M = 25.48) watched short clips of a hand tapping fingers in a sequence in neutral and emotional settings. Participants were asked to imitate emotions while watching and repeating the finger sequences. A univariate ANOVA discovered significant differences in response times for males and females in the emotion trials, which were eliminated when empathy was included in the analysis. Findings show those higher in empathy are faster at imitation of a motor task in emotional settings. / Includes bibliography. / Thesis (M.A.)--Florida Atlantic University, 2014. / FAU Electronic Theses and Dissertations Collection

Affective neuroscience

Emotions -- Psychological aspects

Form perception -- Physiological aspects

Perception -- Physiological aspects

Sex differences

Bilateral distribution of face- and object-selective neurones in the adult vervet monkey inferotemporal cortex : a molecular mapping study

Zangenehpour, Shahin

January 2003

A series of studies is described here which explore the functional organisation of face- and object-processing neurones in the adult vervet monkey brain. This fundamental issue in high-level vision is addressed by the use of a novel molecular mapping technique that was developed for this purpose. / In the first study, the temporal dynamics of c-fos and zif268 expression were delineated in detail in the rat visual cortex. Knowing the precise temporal parameters of up-regulation (after onset of sensory stimulation) and down-regulation (after offset of sensory stimulation) of these genes was integral to optimising the temporal aspects of the stimuli to be used for subsequent mapping experiments. This study provided the critical information for devising stimuli with corresponding temporal parameters to those of c-fos or zif268 so that one could take advantage of the disparity between the expression of their mRNA and protein products in order to visualise activated neurones. / In the second study, the newly developed molecular mapping technique was validated in the rat auditory, visual and multisensory systems. First, bimodal audiovisual stimuli were designed using the data obtained from the first study. Then, through the combined histological detection of the mRNA and protein products of zif268, discrete populations of neurones responsive to either component of the bimodal stimulus were visualised. It was also observed that a third population of neurones was found that responded to the stimulation through both sensory modalities. The combined results from these two studies set the stage for addressing the issue of the organisation of face- and object-selective neurones of the inferior temporal cortex in the vervet monkey brain. / In the third study, the functional organisation of face- and object-selective neurones was examined using the molecular mapping technique. Based on the data gathered from the first two studies, suitable stimuli containing two distinct object classes (conspecific faces and non-face familiar objects) were designed with appropriate temporal parameters. / Finally, the last study provided an opportunity to address the issue of hemispheric asymmetry of function in the context of face processing in the non-human primate brain. Results support the notion that there may indeed be phylogenetic explanations for the hemispheric asymmetry observed in the human brain.

Cercopithecus aethiops -- Physiology.

Visual cortex -- Physiology.

Brain mapping.

Molecular neurobiology.

Bilateral distribution of face- and object-selective neurones in the adult vervet monkey inferotemporal cortex : a molecular mapping study

Zangenehpour, Shahin

January 2003

No description available.

Molecular neurobiology.

Cercopithecus aethiops -- Physiology.

Visual cortex -- Physiology.

Brain mapping.