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Embodied cognitive flexibility and neuroplasticity following Quadrato Motor Training.

Tal D Ben-soussan, Aviva Berkovich-Ohana, Claudia Piervincenzi, Joseph Glicksohn, Filippo Carducci

Frontiers in psychology January 1, 2015 Peer reviewed DOI: 10.3389/fpsyg.2015.01021 via PubMed

Summary

Four weeks of daily Quadrato Motor Training (QMT), a whole-body movement contemplative practice, increased cognitive flexibility and ideational fluency more than verbal or simple motor training alone in 27 participants randomly assigned to groups. A pilot MRI study after four weeks of QMT showed gray matter volume and fractional anisotropy changes in several brain regions, including the cerebellum, that correlated with cognitive flexibility scores. The findings support a connection between creativity and the motor system.

Study at a glance

Design randomized controlled trial with two control groups and a pilot longitudinal structural MRI and diffusion tensor imaging study
Sample size 27
Population human participants
Key finding Four weeks of daily Quadrato Motor Training increased cognitive flexibility and ideational fluency, and gray matter volume and fractional anisotropy changes in the cerebellum and other regions correlated with cognitive flexibility.

Abstract

Quadrato Motor Training (QMT) is a whole-body movement contemplative practice aimed at increasing health and well-being. Previous research studying the effect of one QMT session suggested that one of its means for promoting health is by enhancing cognitive flexibility, an important dimension of creativity. Yet, little is known about the effect of a longer QMT practice on creativity, or the relative contribution of the cognitive and motor aspects of the training. Here, we continue this line of research in two inter-related studies, examining the effects of prolonged QMT. In the first, we investigated the effect of 4-weeks of daily QMT on creativity using the Alternate Uses (AUs) Task. In order to determine whether changes in creativity were driven by the cognitive or the motor aspects of the training, we used two control groups: Verbal Training (VT, identical cognitive training with verbal response) and Simple Motor Training (SMT, similar motor training with reduced choice requirements). Twenty-seven participants were randomly assigned to one of the groups. Following training, cognitive flexibility significantly increased in the QMT group, which was not the case for either the SMT or VT groups. In contrast to one QMT session, ideational fluency was also significantly increased. In the second study, we conducted a pilot longitudinal structural magnetic resonance imaging and diffusion tensor imaging (4-weeks QMT). We report gray matter volume and fractional anisotropy changes, in several regions, including the cerebellum, previously related to interoceptive accuracy. The anatomical changes were positively correlated with cognitive flexibility scores. Albeit the small sample size and preliminary nature of the findings, these results provide support for the hypothesized creativity-motor connection. The results are compared to other contemplative studies, and discussed in light of theoretical models integrating cognitive flexibility, embodiment and the motor system.

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