Abstract A027: A novel two-step tumor cell isolation system, combining acoustophoresis and negative selection of white blood cells using CD45-conjugated elastomeric particles

Abstract: Introduction: Circulating tumor cells (CTCs) are a promising tool for disease monitoring and for better-targeted therapies for patients with disseminating tumors. However, isolation of CTCs is challenging, due to their scarcity, heterogeneous size, and lack of universal expression markers. We employ a novel ultrasonic standing wave-based microfluidic technique (acoustophoresis) to enable unbiased, label-free isolation of circulating tumor cells (CTCs). The cell separation is based on intrinsic c… Show more

“…By introduction of bulk acoustic waves or surface acoustic waves into a microfluidic channel/chamber, the acoustofluidic technique normally uses acoustic radiation force and Stokes drag force induced by acoustic streaming to manipulate biological particles or fluids. − Because of the unique nature of acoustic waves, the acoustofluidic technique can achieve various biomanipulations in a label-free, contactless, and highly biocompatible manner. The acoustic radiation force has been used to pattern, transport, separate, and sort cells and particles − for broad application in tissue engineering, regenerative medicine, drug screening, and disease detection and treatment. Recently, acoustic radiation force has also been used to profile cell adhesion strength.…”

Profiling Cell–Matrix Adhesion Using Digitalized Acoustic Streaming

“…By introduction of bulk acoustic waves or surface acoustic waves into a microfluidic channel/chamber, the acoustofluidic technique normally uses acoustic radiation force and Stokes drag force induced by acoustic streaming to manipulate biological particles or fluids. − Because of the unique nature of acoustic waves, the acoustofluidic technique can achieve various biomanipulations in a label-free, contactless, and highly biocompatible manner. The acoustic radiation force has been used to pattern, transport, separate, and sort cells and particles − for broad application in tissue engineering, regenerative medicine, drug screening, and disease detection and treatment. Recently, acoustic radiation force has also been used to profile cell adhesion strength.…”

Profiling Cell–Matrix Adhesion Using Digitalized Acoustic Streaming