Microfluidic Blood Separation: Key Technologies and Critical Figures of Merit

Abstract: Blood is a complex sample comprised mostly of plasma, red blood cells (RBCs), and other cells whose concentrations correlate to physiological or pathological health conditions. There are also many blood-circulating biomarkers, such as circulating tumor cells (CTCs) and various pathogens, that can be used as measurands to diagnose certain diseases. Microfluidic devices are attractive analytical tools for separating blood components in point-of-care (POC) applications. These platforms have the potential advantag… Show more

“…It is a pivotal technique in microscopic systems for various applications such as clinical research [3], diagnostics [4], and bioanalysis [5]. This technique offers several advantages, such as cost-effectiveness, portability, and simplicity [6], enabling the enrichment and separation of particles or cells by controlling their lateral migration and ordering [7]. Various microchannel designs, including linearity, cylindrical obstacles, serpentine, or spiral shapes, have been developed and evaluated to achieve these objectives.…”

Study on inertial migration behaviours under secondary flow patterns using a fluid-structure interaction approach

“…It is a pivotal technique in microscopic systems for various applications such as clinical research [3], diagnostics [4], and bioanalysis [5]. This technique offers several advantages, such as cost-effectiveness, portability, and simplicity [6], enabling the enrichment and separation of particles or cells by controlling their lateral migration and ordering [7]. Various microchannel designs, including linearity, cylindrical obstacles, serpentine, or spiral shapes, have been developed and evaluated to achieve these objectives.…”

Study on inertial migration behaviours under secondary flow patterns using a fluid-structure interaction approach