Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka… - …, 2015 - content.iospress.com
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …
[PDF][PDF] Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulosa, G Kelesidisa, S Tsoukaa… - Biorheology, 2015 - academia.edu
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …
Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka… - …, 2015 - researchwithrutgers.com
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …
[PDF][PDF] Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka, GC Georgiou… - Biorheology, 2015 - mas.ucy.ac.cy
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …
Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells.
Y Dimakopoulos, G Kelesidis, S Tsouka… - …, 2015 - europepmc.org
Background In microcirculation, the non-Newtonian behavior of blood and the complexity of
the microvessel network are responsible for the high flow resistance and the large reduction …
the microvessel network are responsible for the high flow resistance and the large reduction …
Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka, GC Georgiou… - 2015 - gnosis.library.ucy.ac.cy
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …
[PDF][PDF] Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka… - …, 2015 - researchgate.net
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …
[PDF][PDF] Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka… - …, 2015 - scholar.archive.org
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …
Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka… - …, 2015 - pubmed.ncbi.nlm.nih.gov
Background In microcirculation, the non-Newtonian behavior of blood and the complexity of
the microvessel network are responsible for the high flow resistance and the large reduction …
the microvessel network are responsible for the high flow resistance and the large reduction …
[PDF][PDF] Hemodynamics in stenotic vessels of small diameter under steady state conditions: Effect of viscoelasticity and migration of red blood cells
Y Dimakopoulos, G Kelesidis, S Tsouka, GC Georgiou… - Biorheology, 2015 - mas.ucy.ac.cy
BACKGROUND: In microcirculation, the non-Newtonian behavior of blood and the
complexity of the microvessel network are responsible for the high flow resistance and the …
complexity of the microvessel network are responsible for the high flow resistance and the …