Recognition of emotional and non-emotional biological motion in individuals with autistic spectrum disorders

This study aimed to explore the perception of different components of biological movement in individuals with autism and Asperger syndrome. The ability to recognize a person’s actions, subjective states, emo-tions, and objects conveyed by moving point-light displays was assessed in 19 participants with autism and 19 comparable typical control participants. Results showed that the participants with autism were as able as controls to name point-light displays of non-human objects and human actions. In contrast, they were significantly poorer at labeling emotional displays, suggesting that they are specifically impaired in attending to emotional states. Most studies have highlighted an emotional deficit in facial expression perception; our results extend this hypothesized deficit to the perception and interpretation of whole-body biological movements

The neuropsychology of consumer behavior and marketing

Insights and tools from neuroscience are of great value to marketers. Neuroscientific techniques allow consumer researchers to understand the fundamental neural underpinnings of psychological processes that drive consumer behavior, and elucidate the “black box” that is the consumer’s mind. In the following review, we provide an overview of the fundamental tenets of consumer neuroscience, selectively outline key areas of marketing that consumer neuroscience has contributed to, compare and contrast neuroscientific tools and methods, and discuss future directions for neurophysiological work in marketing. In doing so, we illustrate the broad substantive landscape that neuroscience can add value to within marketing.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/141563/1/arcp1006.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/141563/2/arcp1006_am.pd

The emotional brain in autism: Effective connectivity analysis of brain regions involved in explicit facial emotion processing

International audienc

The emotional brain in autism: Effective connectivity analysis of brain regions involved in explicit facial emotion processing

International audienc

The emotional brain in autism: Effective connectivity analysis of brain regions involved in explicit facial emotion processing

International audienc

Brief report: recognition of emotional and non-emotional biological motion in individuals with autistic spectrum disorders.

This study aimed to explore the perception of different components of biological movement in individuals with autism and Asperger syndrome. The ability to recognize a person's actions, subjective states, emotions, and objects conveyed by moving point-light displays was assessed in 19 participants with autism and 19 comparable typical control participants. Results showed that the participants with autism were as able as controls to name point-light displays of non-human objects and human actions. In contrast, they were significantly poorer at labeling emotional displays, suggesting that they are specifically impaired in attending to emotional states. Most studies have highlighted an emotional deficit in facial expression perception; our results extend this hypothesized deficit to the perception and interpretation of whole-body biological movements

Brief report: recognition of emotional and non-emotional biological motion in individuals with autistic spectrum disorders.

This study aimed to explore the perception of different components of biological movement in individuals with autism and Asperger syndrome. The ability to recognize a person's actions, subjective states, emotions, and objects conveyed by moving point-light displays was assessed in 19 participants with autism and 19 comparable typical control participants. Results showed that the participants with autism were as able as controls to name point-light displays of non-human objects and human actions. In contrast, they were significantly poorer at labeling emotional displays, suggesting that they are specifically impaired in attending to emotional states. Most studies have highlighted an emotional deficit in facial expression perception; our results extend this hypothesized deficit to the perception and interpretation of whole-body biological movements

Abnormal cerebral effective connectivity during explicit emotional processing in adults with autism spectrum disorder

Several recent studies suggest that autism may result from abnormal communication between brain regions. We directly assessed this hypothesis by testing the presence of abnormalities in a model of the functional cerebral network engaged during explicit emotion processing in adults with high functioning autism or Asperger syndrome. Comparison of structural equation models revealed abnormal patterns of effective connectivity, with the prefrontal cortex as a key site of dysfunction. These findings provide evidence that abnormal long-range connectivity between structures of the ‘social brain’ could explain the socio-emotional troubles that characterize the autistic pathology