Proposed symposias

The list of proposed symposium titles

  • A universe beyond ROS and ATP – Novel mechanisms of mitochondria as secondary messengers in the microcirculation
  • Vasodilation with clinical relevance – Large animal models and mechanistic insights
  • Sex and microcirculation disease. Perspectives from basic science to clinical practice
  • The cerebral circulation: the vascular contribution to dementia
  • Systemic disease and coronary microcirculation: Bridging the gap
  • Vascular redox signalling and oxidative stress – From bench to bedside
  • Microcirculation: from pathophysiology to everyday practice
  • Microcirculatory responses to spreading depolarisation in patients and animals
  • Restoring microcirculation by natural compounds by improving cellular energy metabolism
  • Coronary endothelial dysfunction
  • Microvascular highpermeability and regulation of traditional Chinese medicine
  • Advances in cerebromicrovascular aging: Mechanisms and therapeutic interventions
  • Oxidative stress in microcirculation – dietary and environmental influences (a symposium of the Croatian Physiological Society)  
  • The post-stroke brain microcirculation: Integrating spatial omics and functional studies
  • Emerging models and mechanisms of barrier regulation
  • Brain microcirculation in ageing – Interventions for cognitive health and prevention of dementia
  • Novel insights into microcirculation: from analytical approach to clinical applicability (a symposium of the Slovenian Physiological Society)
  • Update on diagnosis and management of cardiovascular risk factors based on the microcirculatory evaluation
  • Organotypic control of endothelial barrier function
  • Retinal microvasculometry: the tool for prediction and follow up of disease
  • Microvascular research in Hungary presented by the Hungarian Physiological Society
  • The microvasculature in control of the cardiovascular system
  • Specialized functions of the brain microvessels: from development to aging
  • Unraveling the multiorgan consequences of vascular disease: Molecular mechanisms and phenotyping
  • Health and racial disparities in vascular physiology