Human epicardial adipose tissue-secreted miR-92a-3p regulates myocardial redox state via paracrine signalling: implications for cardiovascular clinical outcomes

Documents similaires

• Role of human epicardial adipose tissue–derived miR-92a-3p in myocardial redox state
  par: Carena, MC, et autres
  Publié: (2023)
• Effects of canagliflozin on human myocardial redox signalling: clinical implications
  par: Kondo, H, et autres
  Publié: (2021)
• A human arterial transcriptomic signature predicts major adverse cardiac events and identifies novel, redox-related therapeutic targets within the vascular wall
  par: Kotanidis, CP, et autres
  Publié: (2021)
• Direct effects of canagliflozin on human myocardial redox signalling: a novel role for SGLT1 inhibition
  par: Kondo, H, et autres
  Publié: (2020)
• Wnt5a contributes to human atherosclerosis via novel USP17 redox signalling
  par: Akoumianakis, I, et autres
  Publié: (2019)