The Agency for Science, Technology and Research’s (A * STAR) Genome Institute of Singapore (GIS) and Bioinformatics Institute (BII), as well as the National Heart Center Singapore (NHCS), National University of Singapore (NUS), and pharmaceutical company Novo Nordisk have signed an agreement to study the mechanisms underlying cardiovascular disease progression-; especially the condition called heart failure with preserved ejection fraction (HFpEF).
Heart disease is a major cause of death globally and in Singapore. While HFpEF is a growing public health concern, particularly as a cause for serious debility in the growing elderly population in Singapore, therapies to improve patient outcomes are still lacking. Moreover, compared to Western populations, Asians have a younger age of onset of heart failure. The research collaboration is focused on understanding the underlying biology of HFpEF patients in Asia, and carrying out comprehensive studies of biomarkers that lead to the segmentation of these patients based on their pathologies, and in order to advance the development of therapeutics for heart failure.
The project leverages large and well-phenotyped heart failure patient cohorts from the Asian neTwork for Translational Research and Cardiovascular Trials (ATTRaCT), a translational cardiovascular research program led by A * STAR that integrates efforts from basic, translational, and clinical scientists from multiple institutes across Singapore.
Specifically, the project will support the integration of clinical imaging, as well as molecular biological and clinical phenotypes; and advance the development of novel treatments for heart failure.
GIS and NHCS are carrying out cellular studies to dissect mechanisms of disease using patient specific cells, while NUS runs additional complex proteomic analysis on ATTRaCT patient biosamples. BII serves as the data custodian for the aggregated ATTRaCT datasets from across the multiple institutions, offering project parties access and analysis of the multiple data types. This includes the provision of computing requirements to both industry and academic researchers, and the administrative role of ensuring proper governance over data usage.
Prof Roger Foo, Program Leader of ATTRaCT, Senior Group Leader of the Laboratory of Molecular Epigenomics and Chromatin Organization at A * STAR’s GIS, and Director of the Cardiovascular Disease Translational Research Program at NUS Medicine, said, “We are honored to be part of the collaboration that will build upon the multi-disciplinary efforts of scientists from A * STAR and NUS, as well as contributions by physicians from Singapore hospitals. the development of novel diagnostic tools to target therapies for Asian patients with cardiovascular disease. Research on HFpEF is urgently needed as it is a condition of growing public health importance, and yet, to date, there are no effective therapies. “
Prof Carolyn Lam, Founding Program Leader of ATTRaCT and Senior Consultant from Department of Cardiology at NHCS, said, “Through partnership across top clinical and research institutions in Singapore, ATTRaCT described a novel lean diabetic phenotype of HFpEF, unique to our Asian region. We are now very excited to deepen our understanding of the disease and develop potential new treatments for our patients. “
Prof Mark Richards, Director at the NUS ‘Cardiovascular Research Institute said, “This partnership allows sophisticated deep exploration of blood signals in heart failure. It opens doors to new methods of detecting and understanding this common and dangerous condition with the prospect of new tests and new treatments benefitting Singapore from both health and economic viewpoints. “
Dr Karin Conde-Knape, Senior Vice President at Novo Nordisk said, “We are excited about this new collaboration. In Novo Nordisk, we are always looking to partner up with the best in the world and we believe that collaborating with leading research centers in Singapore will help us identify new therapeutic targets and biomarkers to address unmet medical need within cardiovascular disease to the benefit of patients worldwide. “