Movement, Synchronization, and Partnering in Dance

2021 ◽  
pp. 195-198
Author(s):  
Steven Brown
Keyword(s):  
Parietal Cortex ◽  
Joint Action ◽  
Posterior Parietal Cortex ◽  
Spatial Navigation ◽  
Dance Movement ◽  
Motor Processes ◽  
Posterior Parietal ◽  
Neuroimaging Study ◽  
Sensory Processes ◽  
Movement Synchronization

In a neuroimaging study of tango dancers, the authors attempted to address two fundamental issues about dance: movement patterning (i.e., navigation of the legs in space) and synchronization of movement to the beat of music. The results of the study revealed the importance of the posterior parietal cortex to spatial navigation of movement and the cerebellum to synchronization to the beat. In a later two-person study of leading and following in dance, the author found that leaders accentuate motor processes, while followers accentuate sensory processes in their partnership. Dance is an interesting marriage of movement patterning, timing, and joint action.

scholarly journals Reconsidering the Border between the Visual and Posterior Parietal Cortex of Mice

2020 ◽  
Author(s):  
Sara R J Gilissen ◽  
Karl Farrow ◽  
Vincent Bonin ◽  
Lutgarde Arckens
Keyword(s):  
Parietal Cortex ◽  
Posterior Parietal Cortex ◽  
Spatial Navigation ◽  
Thalamic Nuclei ◽  
Anterior Cortex ◽  
Detailed Understanding ◽  
Cortical Input ◽  
Visual Areas ◽  
Posterior Parietal ◽  
Cortical Map

Abstract The posterior parietal cortex (PPC) contributes to multisensory and sensory-motor integration, as well as spatial navigation. Based on primate studies, the PPC is composed of several subdivisions with differing connection patterns, including areas that exhibit retinotopy. In mice the composition of the PPC is still under debate. We propose a revised anatomical delineation in which we classify the higher order visual areas rostrolateral area (RL), anteromedial area (AM), and Medio-Medial-Anterior cortex (MMA) as subregions of the mouse PPC. Retrograde and anterograde tracing revealed connectivity, characteristic for primate PPC, with sensory, retrosplenial, orbitofrontal, cingulate and motor cortex, as well as with several thalamic nuclei and the superior colliculus in the mouse. Regarding cortical input, RL receives major input from the somatosensory barrel field, while AM receives more input from the trunk, whereas MMA receives strong inputs from retrosplenial, cingulate, and orbitofrontal cortices. These input differences suggest that each posterior PPC subregion may have a distinct function. Summarized, we put forward a refined cortical map, including a mouse PPC that contains at least 6 subregions, RL, AM, MMA and PtP, MPta, LPta/A. These anatomical results set the stage for a more detailed understanding about the role that the PPC and its subdivisions play in multisensory integration-based behavior in mice.

Posterior parietal cortex mediates encoding processes in change blindness

2009 ◽  
Author(s):  
Philip Tseng ◽  
Cassidy Sterling ◽  
Adam Cooper ◽  
Bruce Bridgeman ◽  
Neil G. Muggleton ◽  
...  
Keyword(s):  
Parietal Cortex ◽  
Posterior Parietal Cortex ◽  
Change Blindness ◽  
Posterior Parietal

The Grasp Cell Hypothesis: Near-miss effect points to common neurological machinery in posterior parietal cortex for controllable objects and concepts

2018 ◽  
Author(s):  
Imogen M Kruse
Keyword(s):  
Parietal Cortex ◽  
Posterior Parietal Cortex ◽  
Near Miss ◽  
Illusion Of Control ◽  
Gambling Behaviour ◽  
Drug Seeking ◽  
Spatial Influence ◽  
Reward Probability ◽  
Posterior Parietal ◽  
Action Value

The near-miss effect in gambling behaviour occurs when an outcome which is close to a win outcome invigorates gambling behaviour notwithstanding lack of associated reward. In this paper I postulate that the processing of concepts which are deemed controllable is rooted in neurological machinery located in the posterior parietal cortex specialised for the processing of objects which are immediately actionable or controllable because they are within reach. I theorise that the use of a common machinery facilitates spatial influence on the perception of concepts such that the win outcome which is 'almost complete' is perceived as being 'almost within reach'. The perceived realisability of the win increases subjective reward probability and the associated expected action value which impacts decision-making and behaviour. This novel hypothesis is the first to offer a neurological model which can comprehensively explain many empirical findings associated with the near-miss effect as well as other gambling phenomena such as the ‘illusion of control’. Furthermore, when extended to other compulsive behaviours such as drug addiction, the model can offer an explanation for continued drug-seeking following devaluation and for the increase in cravings in response to perceived opportunity to self-administer, neither of which can be explained by simple reinforcement models alone. This paper therefore provides an innovative and unifying perspective for the study and treatment of behavioural and substance addictions.

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