|Integrated separation of blood plasma from whole blood for microfluidic paper-based analytical devices|
X Yang, O Forouzan, TP Brown, SS Shevkoplyas
Lab on a Chip 12 (2), 274-280, 2012
|Spontaneous oscillations of capillary blood flow in artificial microvascular networks|
O Forouzan, X Yang, JM Sosa, JM Burns, SS Shevkoplyas
Microvascular research 84 (2), 123-132, 2012
|Traffic of leukocytes in microfluidic channels with rectangular and rounded cross-sections|
X Yang, O Forouzan, JM Burns, SS Shevkoplyas
Lab on a Chip 11 (19), 3231-3240, 2011
|Artificial microvascular network: a new tool for measuring rheologic properties of stored red blood cells|
JM Burns, X Yang, O Forouzan, JM Sosa, SS Shevkoplyas
Transfusion 52 (5), 1010-1023, 2012
|Non-invasive measurement using cardiovascular magnetic resonance of changes in pulmonary artery stiffness with exercise|
O Forouzan, J Warczytowa, O Wieben, CJ François, NC Chesler
Journal of Cardiovascular Magnetic Resonance 17 (1), 1-10, 2015
|Passive recruitment of circulating leukocytes into capillary sprouts from existing capillaries in a microfluidic system|
O Forouzan, JM Burns, JL Robichaux, WL Murfee, SS Shevkoplyas
Lab on a Chip 11 (11), 1924-1932, 2011
|Increased red blood cell stiffness increases pulmonary vascular resistance and pulmonary arterial pressure|
DA Schreier, O Forouzan, TA Hacker, J Sheehan, N Chesler
Journal of biomechanical engineering 138 (2), 2016
|Pulmonary artery relative area change is inversely related to ex vivo measured arterial elastic modulus in the canine model of acute pulmonary embolization|
L Tian, HB Kellihan, J Henningsen, A Bellofiore, O Forouzan, ...
Journal of biomechanics 47 (12), 2904-2910, 2014
|Pulmonary arterial strain-and remodeling-induced stiffening are differentiated in a chronic model of pulmonary hypertension|
MJ Golob, DM Tabima, GD Wolf, JL Johnston, O Forouzan, AM Mulchrone, ...
Journal of biomechanics 55, 92-98, 2017
|The unusual symmetric reopening effect induced by pulmonary surfactant|
E Yamaguchi, MJ Giannetti, MJ Van Houten, O Forouzan, ...
Journal of Applied Physiology 116 (6), 635-644, 2014
|PDMS well platform for culturing millimeter‐size tumor spheroids|
SH Ratnayaka, TE Hillburn, O Forouzan, SS Shevkoplyas, ...
Biotechnology progress 29 (5), 1265-1269, 2013
|Low cost magnetic resonance imaging-compatible stepper exercise device for use in cardiac stress tests|
O Forouzan, E Flink, J Warczytowa, N Thate, A Hanske, T Lee, ...
Journal of medical devices 8 (4), 2014
|A large animal model of right ventricular failure due to chronic thromboembolic pulmonary hypertension: a focus on function|
A Mulchrone, HB Kellihan, O Forouzan, TA Hacker, ML Bates, ...
Frontiers in cardiovascular medicine 5, 189, 2019
|Effects of dapagliflozin on congestion assessed by remote pulmonary artery pressure monitoring|
W Mullens, P Martens, O Forouzan, J Dauw, J Vercammen, E Luwel, ...
ESC Heart Failure 7 (5), 2071-2073, 2020
|Exercise-induced changes in pulmonary artery stiffness in pulmonary hypertension|
O Forouzan, E Dinges, JR Runo, JG Keevil, JC Eickhoff, C Francois, ...
Frontiers in physiology 10, 269, 2019
|Histamine reduces GPIbα-mediated adhesion of platelets to TNF-α-activated vascular endothelium|
TP Brown, O Forouzan, SS Shevkoplyas, DB Khismatullin
Thrombosis research 131 (2), 150-157, 2013
|MRI assessment of aortic flow in patients with pulmonary arterial hypertension in response to exercise|
JA Macdonald, CJ Franҫois, O Forouzan, NC Chesler, O Wieben
BMC medical imaging 18 (1), 1-8, 2018
|MRI assessment of aortic flow and pulse wave velocity in response to exercise|
J Macdonald, O Forouzan, J Warczytowa, O Wieben, CJ Francois, ...
Journal of Cardiovascular Magnetic Resonance 17 (1), 1-3, 2015
|P612Feasibility and safety of a wireless pulmonary artery pressure monitoring system in chronic porcine models of pulmonary hypertension|
A Rothman, N Arnold, J Abou Hanna, H Rowland, B Poff, K Macdonald, ...
European Heart Journal 38 (suppl_1), 2017
|Anchoring system for a catheter delivered device|
T Royer, T Panian, D Schaller, O Forouzan, T Wilschke
US Patent 10,993,669, 2021