411 results on '"Wu, Zhongjun J."'
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52. Models of Shear-Induced Platelet Activation and Numerical Implementation With Computational Fluid Dynamics Approaches.
53. An ex vivo comparison of partial thromboplastin time and activated clotting time for heparin anticoagulation in an ovine model.
54. Computational Model-Based Design of a Wearable Artificial Pump-Lung for Cardiopulmonary/Respiratory Support
55. Study of Flow-Induced Hemolysis Using Novel Couette-Type Blood-Shearing Devices
56. Model-Based Design and Optimization of Blood Oxygenators
57. Modeling Clot Formation of Shear-Injured Platelets in Flow by a Dissipative Particle Dynamics Method
58. Prediction of mechanical hemolysis in medical devices via a Lagrangian strain‐based multiscale model
59. Impact of high mechanical shear stress and oxygenator membrane surface on blood damage relevant to thrombosis and bleeding in a pediatric ECMO circuit
60. Computational characterization of flow and blood damage potential of the new maglev CH-VAD pump versus the HVAD and HeartMate II pumps
61. Evaluation of an autoregulatory ECMO system for total respiratory support in an acute ovine model
62. Computational Characterization of Flow and Hemolytic Performance of the UltraMag Blood Pump for Circulatory Support
63. The impact of shear stress on device‐induced platelet hemostatic dysfunction relevant to thrombosis and bleeding in mechanically assisted circulation
64. An Ultracompact Integrated Magnetically Levitated Pumplung for Cardiac / Cardiopulmonary Support: PE1
65. Computational Design and In Vitro Characterization of an Integrated Maglev Pump-Oxygenator
66. Functional and Biocompatibility Performances of an Integrated Maglev Pump-Oxygenator
67. Neutrophil dysfunction due to continuous mechanical shear exposure in mechanically assisted circulation in vitro.
68. Extracorporeal Membrane Oxygenation (ECMO) for Long-Term Support: Recent Advances
69. Computational and Experimental Evaluation of the Fluid Dynamics and Hemocompatibility of the CentriMag Blood Pump
70. Progress toward an ambulatory pump-lung
71. Neutrophil injury and function alterations induced by high mechanical shear stress with short exposure time.
72. Regional remodeling strain and its association with myocardial apoptosis after myocardial infarction in an ovine model
73. High-efficiency, high-flux in-line hemofiltration using a high blood flow extracorporeal circuit
74. Evaluation of in vitro hemolysis and platelet activation of a newly developed maglev LVAD and two clinically used LVADs with human blood
75. The role of PI3K/Akt signaling pathway in non‐physiological shear stress‐induced platelet activation
76. Device‐induced platelet dysfunction in mechanically assisted circulation increases the risks of thrombosis and bleeding
77. Sensorless Physiologic Control, Suction Prevention, and Flow Balancing Algorithm for Rotary Biventricular Assist Devices
78. Shear stress and blood trauma under constant and pulse-modulated speed CF-VAD operations: CFD analysis of the HVAD
79. Extracorporeal Membrane Oxygenation (ECMO) for Long-Term Support: Recent Advances
80. The impact of shear stress on device‐induced platelet hemostatic dysfunction relevant to thrombosis and bleeding in mechanically assisted circulation.
81. High-efficiency, high-flux in-line hemofiltration using a high blood flow extracorporeal circuit.
82. Association of Oxidative Stress and Platelet Receptor Glycoprotein GPIbα and GPVI Shedding During Nonsurgical Bleeding in Heart Failure Patients With Continuous-Flow Left Ventricular Assist Device Support
83. High shear induces platelet dysfunction leading to enhanced thrombotic propensity and diminished hemostatic capacity
84. Extracorporeal Respiratory Support with a Miniature Integrated Pediatric Pump-Lung device (PediPL) in an Acute Ovine Respiratory Failure Model
85. Flow features and device-induced blood trauma in CF-VADs under a pulsatile blood flow condition: A CFD comparative study
86. Oxidative stress induced modulation of platelet integrin α2bβ3 expression and shedding may predict the risk of major bleeding in heart failure patients supported by continuous flow left ventricular assist devices
87. Erratum to: Mechanistic insight of platelet apoptosis leading to non-surgical bleeding among heart failure patients supported by continuous-flow left ventricular assist devices
88. Continuous-Flow Left Ventricular Assist Device Support Improves Myocardial Supply:Demand in Chronic Heart Failure
89. Left Ventricular Unloading After Acute Myocardial Infarction Reduces MMP/JNK Associated Apoptosis and Promotes FAK Cell-Survival Signaling
90. Effects of Cardiopulmonary Support with a Novel Pediatric Pump-Lung (PediPL) in a Thirty-Day Ovine Animal Model
91. High shear induces platelet dysfunction leading to enhanced thrombotic propensity and diminished hemostatic capacity.
92. Extracorporeal Respiratory Support With a Miniature Integrated Pediatric Pump-Lung Device in an Acute Ovine Respiratory Failure Model
93. Paradoxical Effect of Nonphysiological Shear Stress on Platelets and von Willebrand Factor
94. Association of Oxidative Stress and Platelet Receptor Glycoprotein GPIb α and GPVI Shedding During Nonsurgical Bleeding in Heart Failure Patients With Continuous-Flow Left Ventricular Assist Device Support.
95. Flow features and device‐induced blood trauma in CF‐VADs under a pulsatile blood flow condition: A CFD comparative study.
96. Systemic Inflammatory Response Syndrome in End-Stage Heart Failure Patients Following Continuous-Flow Left Ventricular Assist Device Implantation: Differences in Plasma Redox Status and Leukocyte Activation
97. Oxidative Stress Induced Modulation of Platelet Integrin αIIbβ3 Expression and Shedding During Major Bleeding in Heart Failure Patients Supported By Continuous Flow Left Ventricular Assist Devices
98. Comparison of Intraplatelet Reactive Oxygen Species, Mitochondrial Damage, and Platelet Apoptosis After Implantation of Three Continuous Flow Left Ventricular Assist Devices
99. Shear-induced platelet receptor shedding by non-physiological high shear stress with short exposure time: Glycoprotein Ibα and glycoprotein VI
100. Mechanical Circulatory Support of a Univentricular Fontan Circulation with a Continuous Axial-Flow Pump in a Piglet Model
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