Rupesh Agrawal, Joseph Sherwood, Jay Chhablani, Ashutosh Ricchariya, Sangho Kim, Philip H. Jones, Stavroula Balabani, David Shima
Microvascular circulation plays a vital role in regulating physiological functions, such as vascular resistance, and maintaining organ health. Pathologies such as hypertension, diabetes, or hematologic diseases affect the microcirculation posing a significant risk to human health. The retinal vasculature provides a unique window for non-invasive visualisation of the human circulation in the vivo and retinal vascular image analysis has been established to predict the development of both clinical and subclinical cardiovascular, metabolic, renal and retinal disease in epidemiologic studies.
Blood viscosity which was otherwise thought to play a negligible role in determining blood flow based on Poiseuille's law till 1970s has now been shown to play equally if not more important role in controlling microcirculation and quantifying blood flow. Understanding the hemodynamics/rheology of the microcirculation and its changes in diseased states remains a challenging task; this is due to the particulate nature of blood, the mechanical properties of the cells (such as deformability and aggregability) and the complex architecture of the microvasculature.
In our review, we have tried to postulate possible role of red blood cell (RBC) biomechanical properties and laid down future framework for research related to hemorrheological aspects of blood in patients with retinal vascular disorders.
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