Characterization of neonatal aortic cannula jet flow regimes for improved cardiopulmonary bypass

Keyphrases

• Cardiopulmonary Bypass 100%
• Aortic Cannula 100%
• Flow Regime 100%
• Outflow Cannula 100%
• Jet Flow 100%
• Cannula Tip 100%
• Computational Fluid Dynamics 66%
• Cannula 66%
• Hemodynamic Performance 66%
• Blood Damage 66%
• Jet-wake 66%
• Microcomputed Tomography 33%
• Pediatric 33%
• Reynolds number 33%
• Volume Flow Rate 33%
• Flow Control 33%
• Particle Image Velocimetry 33%
• Flow Visualization 33%
• Pressure Drop 33%
• Rate Characteristics 33%
• Flow Condition 33%
• Inflammatory Cytokines 33%
• Blood Flow Velocity 33%
• Subject-specific 33%
• Device-independent 33%
• Postsurgical 33%
• Neurological Complications 33%
• Platelet Activation 33%
• Physiologically Relevant 33%
• Outflow Rate 33%
• Direct numerical Simulation 33%
• Design Paradigms 33%
• Blood Volume 33%
• Pediatric Cardiopulmonary Bypass 33%
• Young Patients 33%
• Orientation Parameters 33%
• Visualization Image 33%
• Device Simulation 33%
• Aorta Model 33%
• Tip Design 33%
• Diffuser 33%
• Developmental Defects 33%
• Blood Damage Index 33%
• Neonatal Cardiopulmonary Bypass 33%
• Jet Flow Control 33%
• Insertion Depth 33%
• Cerebral Perfusion 33%
• Turbulent Reynolds number 33%
• Flow Design 33%

Engineering

• Flow Regime 100%
• Flow Rate 66%
• Computational Fluid Dynamics 66%
• Hemodynamic Performance 66%
• Blood Volume 66%
• Microscale 33%
• Platelet 33%
• Reynolds' Number 33%
• Particle Image Velocimetry 33%
• Flow Visualization 33%
• Pressure Drop 33%
• Flow Condition 33%
• Test Rig 33%
• Design Paradigm 33%
• Diffusers 33%
• Inflammatory Cytokine 33%

Medicine and Dentistry

• Cardiopulmonary Bypass 100%
• Cannula 100%
• Pediatrics 20%
• Hemodynamic 20%
• Particle Image Velocimetry 10%
• Inflammatory Cytokine 10%
• Neurological Complication 10%
• Thrombocyte Activation 10%
• Brain Perfusion 10%
• Hemolytic 10%
• Blood Flow Velocity 10%