Join us for @EU_METAHEART WG4 Webinar! 🫀
Tomorrow 13.00 London Time, 14.00 Berlin Time
Link 👉🏻 ukw-de.zoom.us/j/9107037780...
Honoured to be invited by the Rector of the University of Sarajevo to speak in my homeland alongside Luke O’Neill.Looking forward to discussions on science, research, and innovation with students and colleagues in🇧🇦
Some mornings in the lab are just better than others. 💙💛🇧🇦 🥼👩🏻🔬🧪
Join us for the EU_METAHEART WG4 Webinar! “From Omics to Mechanisms: Mechano-Energetic Uncoupling in Heart Failure”📆22 April 🕚12:00 (London) / 13:00 (Berlin) Hear from leading experts in cardiovascular research on proteomics, redox biology & cardiometabolic disease
Two fantastic days in Manchester at #BSCR and #BCS meetings, combining science, networking, and Trustee duties. So proud of my group: Dr Ivana Iveljic (cardiooncology), Sanushe Dambure (CKD HFpEF genetics) Megan Young (NLRP3 inflammasome in HFpEF). Outstanding work from all! 👏🔬❤️
Thank you @qmulfmd.bsky.social for focus on our #immunometabolism study published earlier this week in @natureportfolio.nature.com Nature Cardiovascular Research 🫀
www.qmul.ac.uk/media/news/2...
Nature’s extremes can teach us so much about human biology. By studying bats, animals with extraordinary metabolic demands, we can gain new insights into cardiovascular health and disease. Our latest paper is out👉🏻🦇 journals.plos.org/plosone/arti...
Grateful for the opportunity to contribute to the new scientific statement from the European Society of Cardiology on metabolic dysfunction and cardiovascular disease.A great collaborative effort across ESC Basic Science Council and Working Groups. #ESC
academic.oup.com/eurheartj/ad...
Excited to share our latest paper in Nature Cardiovascular Research showing #diabetic #cardiomyopathy is driven by aberrant #immunometabolism Enhancing Treg migratory capacity restores immune balance and improves🫀dysfunction a promising new therapeutic direction in T2D
www.nature.com/articles/s44...
Aim The present study aimed to elucidate which pathways contribute to cardiometabolic adaptation in Egyptian fruit bats. Methods Utilising cardiac tissues from Egyptian fruit bats (Rousettus aegypti...
Anderson et al. demonstrate that the glucokinase activator AZD1656 reduces inflammation and reverses cardiac dysfunction and metabolic remodeling in mice with diabetic cardiomyopathy.
Abstract. Metabolic disorders such as obesity, type 2 diabetes, and dyslipidaemia are major drivers of cardiovascular risk and have reached epidemic levels
