David W. Sutherland
YOU?
Author Swipe
View article: A Scalable Solution to Constant Potential Flow Electrochemistry
A Scalable Solution to Constant Potential Flow Electrochemistry Open
The burgeoning interest in new electrochemical methods holds promise to provide a plethora of strategic disconnections for pharmaceutical compounds, which are safer, less wasteful, and more streamlined than traditional chemical strategies.…
View article: A Clinical‐Scale Microfluidic Respiratory Assist Device with 3D Branching Vascular Networks
A Clinical‐Scale Microfluidic Respiratory Assist Device with 3D Branching Vascular Networks Open
Recent global events such as COVID‐19 pandemic amid rising rates of chronic lung diseases highlight the need for safer, simpler, and more available treatments for respiratory failure, with increasing interest in extracorporeal membrane oxy…
View article: Characterization of main pulmonary artery and valve annulus region of piglets using echocardiography, uniaxial tensile testing, and a novel non-destructive technique
Characterization of main pulmonary artery and valve annulus region of piglets using echocardiography, uniaxial tensile testing, and a novel non-destructive technique Open
Characterization of cardiovascular tissue geometry and mechanical properties of large animal models is essential when developing cardiovascular devices such as heart valve replacements. These datasets are especially critical when designing…
View article: Multilayer Scaling of a Biomimetic Microfluidic Oxygenator
Multilayer Scaling of a Biomimetic Microfluidic Oxygenator Open
Extracorporeal membrane oxygenation (ECMO) has been advancing rapidly due to a combination of rising rates of acute and chronic lung diseases as well as significant improvements in the safety and efficacy of this therapeutic modality. Howe…
View article: Toward Development of a Higher Flow Rate Hemocompatible Biomimetic Microfluidic Blood Oxygenator
Toward Development of a Higher Flow Rate Hemocompatible Biomimetic Microfluidic Blood Oxygenator Open
The recent emergence of microfluidic extracorporeal lung support technologies presents an opportunity to achieve high gas transfer efficiency and improved hemocompatibility relative to the current standard of care in extracorporeal membran…