Abstract
Translational network neuroscience aims to integrate advanced neuroimaging and data analysis techniques into clinical practice to better understand and treat neurological disorders. Despite the promise of technologies such as functional MRI and diffusion MRI combined with network analysis tools, the field faces several challenges that hinder its swift clinical translation. We have identified 9 key roadblocks that impede this process: (1) Theoretical and basic science foundations; (2) Network construction, data interpretation, and validation; (3) MRI access, data variability, and protocol standardization; (4) Data sharing; (5) Computational resources and expertise; (6) Interdisciplinary collaboration; (7) Industry collaboration and commercialization; (8) Operational efficiency, integration and training; and (9) Ethical and legal considerations. To address these challenges, we propose several possible solution strategies. By aligning scientific goals with clinical realities and establishing a sound ethical framework, translational network neuroscience can achieve meaningful advances in personalized medicine and ultimately improve patient care. We advocate for an interdisciplinary commitment to overcoming translational hurdles in network neuroscience and integrating advanced technologies into routine clinical practice.
Author notes
All authors contributed equally.
Handling Editor: Andrew Zalesky