AI Article Synopsis
- Recent advancements in noninvasive brain interaction have opened new diagnostic and therapeutic opportunities, but most current methods rely on general anatomical landmarks, limiting their effectiveness.
- The study developed a target search algorithm that uses Network Control Theory (NCT) and whole brain connectomics to identify optimal stimulation targets tailored to individuals, aiming for better network engagement.
- Computational simulations indicate that using NCT for brain stimulation can lead to significantly enhanced network engagement compared to traditional methods, highlighting the need for individualized targeting in neuromodulation.
Article Abstract
Background: In recent years, the possibility to noninvasively interact with the human brain has led to unprecedented diagnostic and therapeutic opportunities. However, the vast majority of approved interventions and approaches still rely on anatomical landmarks and rarely on the individual structure of networks in the brain, drastically reducing the potential efficacy of neuromodulation.
Objective: Here we implemented a target search algorithm leveraging on mathematical tools from Network Control Theory (NCT) and whole brain connectomics analysis. By means of computational simulations, we aimed to identify the optimal stimulation target(s)- at the individual brain level- capable of reaching maximal engagement of the stimulated networks' nodes.
Results: At the model level, in silico predictions suggest that stimulation of NCT-derived cerebral sites might induce significantly higher network engagement, compared to traditionally employed neuromodulation sites, demonstrating NCT to be a useful tool in guiding brain stimulation. Indeed, NCT allows us to computationally model different stimulation scenarios tailored on the individual structural connectivity profiles and initial brain states.
Conclusions: The use of NCT to computationally predict TMS pulse propagation suggests that individualized targeting is crucial for more successful network engagement. Future studies will be needed to verify such prediction in real stimulation scenarios.
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| http://dx.doi.org/10.1016/j.brs.2022.09.011 | DOI Listing |
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