Microfluidic chips (mu FC) are emerging as powerful tools in chemistry, biochemistry, nanotechnology and biotechnology. The microscale size, possibility of integration and high-throughput present huge technical potential to facilitate the research of cell behavior by creating in vivo-like microenvironments. Here, we have developed a new method for rapid fabrication of mu FC with Norland Optical Adhesive 81 (NOA81) for multiple cell culture with high efficiency. The proposed method is more suitable for the early structure exploration stage of mu FC than existing procedures since no templates are needed and fast fabrication methods are presented. Simple PDMS-NOA81-linked microvalves were embedded in the mu FC to control or block the fluid flow effectively, which significantly broadened the applications of mu FC. Various types of cells were integrated into the chip and normal viabilities were maintained up to 1 week. Besides, concentration gradient was generated to investigate the cells in the mu FC responded to drug stimulation. The cells appeared different in terms of shape and proliferation that strongly demonstrated the potential application of our mu FC in online drug delivery. The high biocompatibility of NOA81 and its facile fabrication (mu FC) promise its use in various cell analyses, such as cell-cell interactions or tissue engineering.

• 出版日期2016-4
• 单位北京理工大学; 北京大学