Periodic Reporting for period 1 - GRINP (Action-based routes for numbers: unveiling the core networks of reaching, grasping and number processing in brain damaged and healthy individuals.)
Berichtszeitraum: 2020-03-02 bis 2023-03-01
Understanding how motor and number processes are related substantiates the idea that cognition and action are highly interconnected. New protocols for the potentiation of numerical abilities can be implemented, based on the idea that it is possible to impact the understanding and use of number concepts through action-based interventions. Importantly, disclosing the common brain network between action and number triggers research on the degree of functional specificity of brain areas and networks, and on new approaches for education and rehabilitation of cognitive processes which take into account interindividual variability.
Overall, the GRINP project have succeeded in defining where in the brain the processing of number magnitude recruits the same sensorimotor network involved in planning and executing hand movements, as well as understanding how a brain lesion in these common areas lead to cognitive impairment in number processing and hand action.
Different methodological approaches from experimental psychology, neuropsychology, and cognitive neurosciences have been used in this project. With behavioural experiments I have investigated the effect of observing or performing hand action on number processing, and I have provided evidence for common cognitive processes between planning and execution of grasping and pointing actions, and number magnitude. Importantly, with these studies we implemented - for the first time in the numerical cognition research - paradigms based on motor adaptation, and we extended previous findings on number-action interactions describing interactions between pointing and number processing. I am currently investigating whether in is possible to observe the same interaction in tasks requiring judging numerical order instead of magnitude. Again, I have described the common brain network of reach, grasp, and number processing through meta-analyses of neuroimaging data, and through the use of neuroimaging methods (e.g. functional Near Infrared Spectroscopy - fNIRS): these studies allowed defining a consistent frontoparietal network common to grasping and number, involving areas in and around the intraparietal sulcus in both hemispheres, the left precentral gyrus, and the supplementary motor area. Further analyses on the collected data will allow defining associations between brain networks observed at rest and numerical abilities, such as mental calculation. Finally, I have implemented a short neuropsychological assessment for the detection of acalculia, number-grasping interactions, as well as action-related cognitive impairment such as apraxia, finger agnosia, and optic ataxia following stroke in the parietal lobe. The current results on the patients’ data indicate that number and action-related impairment following parietal stroke should be consistently integrated in standard neuropsychological assessment.
The project and its ongoing results have been documented in scientific peer-reviewed publications, to national (Italian) and international conferences, and through videos and interviews. Scientific articles, contributions at conferences, and dissemination activities associated to the GRINP project are open and can be found in the Research Padua Archive (IRIS, UNIPD).