In the last decade, medical imaging technologies, such as magnetic resonance imaging (MRI), have undergone remarkable advancements. These technologies empower researchers to acquire detailed information about both the structure and function of the brain. In parallel, collaborative efforts by researchers worldwide have amassed large-scale population brain-imaging data. This invaluable data resource holds hundreds of thousands of individual brain imaging scans. However, the sheer volume and complexity of the data necessitates the use of powerful computational capabilities and substantial storage capacity.
This is where the supercomputing resources provided by the National Supercomputing Centre (NSCC) Singapore proved indispensable. By utilising NSCC’s high-performance computing (HPC) resources, CBIG researchers were equipped to process and analyse the vast troves of brain imaging data. Through such computational investigations, the team was able to uncover biologically relevant biomarkers of mental health, offering a direct link between changes in the brain and psychiatric symptoms. These biomarkers, in turn, fostered a deeper knowledge about the diverse nature of mental illnesses. Furthermore, advanced machine learning algorithms allowed for the development of personalised treatments, offering targeted brain stimulation to individuals suffering from mental disorders.
Data Processing: Leveraging NSCC’s HPC resources, immense volumes of raw MRI imaging data (often measuring in hundreds of terabytes) were processed. These pre-processed data repositories served as inputs for multiple subsequent investigations.
Machine Learning: Employing complex machine learning and deep learning tools, CBIG developed pipelines to map the structural and functional organisation of the brain. These pipelines enabled the prediction of how changes in brain structure and function relate to various pathologies, providing critical insights into mental health.
Artificial Intelligence (AI): Using AI techniques, specific brain regions can be identified as targets for transcranial magnetic stimulation. The development of such precise targeting methods promises a potential enhancement of treatment responses in patients.
BIG’s research is a significant step towards the collective aspiration of exploring new frontiers in understanding mental disorders. The derived knowledge will pave the way for improved prevention and treatment strategies, mitigating the impact of mental illness on society and families and ultimately providing a brighter future for those impacted by these conditions.
To find out more about how NSCC’s HPC resources can help you, please contact [email protected].
NSCC NewsBytes October 2023