Nath, MintuRomaine, Simon P.R.Koekemoer, AndreaHamby, StephenWebb, Thomas R.Nelson, Christopher P.Castellanos-Uribe, MarcosPapakonstantinou, ManoloAnker, Stefan D.Lang, Chim C.Metra, MarcoZannad, FaiezFilippatos, Gerasimosvan Veldhuisen, Dirk J.london, ImperialNg, Leong L.May, Sean T.Marelli-Berg, FedericaVoors, Adriaan A.Timmons, James A.Samani, Nilesh J.2022-12-212022-12-212022-06Nath, M, Romaine, S P R, Koekemoer, A, Hamby, S, Webb, T R, Nelson, C P, Castellanos-Uribe, M, Papakonstantinou, M, Anker, S D, Lang, C C, Metra, M, Zannad, F, Filippatos, G, van Veldhuisen, D J, london, I, Ng, L L, May, S T, Marelli-Berg, F, Voors, A A, Timmons, J A & Samani, N J 2022, 'Whole blood transcriptomic profiling identifies molecular pathways related to cardiovascular mortality in heart failure', European Journal of Heart Failure, vol. 24, no. 6, pp. 1009-1019. https://doi.org/10.1002/ejhf.25401388-9842RIS: urn:46876B4DC50F83C78CE08F74D536C317ORCID: /0000-0002-0753-0464/work/161797546https://hdl.handle.net/2164/19772Acknowledgement We acknowledge the contribution of members of the BIOSTAT-CHF consortium. Funding The BIOSTAT-CHF project was funded by a grant from the European Commission (FP7-242209-BIOSTAT-CHF). Development of the gene-chip informatics methodologies were supported by the Medical Research Council UK (G1100015) to JAT. Dr Hamby is funded by the UK National Institute for Health Research and Drs Webb, Nelson, Timmons and Marelli-Berg by the British Heart Foundation.112381610engChronic heart failureRNAT-cellsInterleukinsFibroblast growth factor 23IronDrug-repurposingR MedicineEuropean CommissionFP7-242209-BIOSTAT-CHFMedical Research Council (MRC)G1100015Supplementary DataRJournal article10.1002/ejhf.2540246