Title :
A symmetrical hyperbolic formatted microchip for rapid optimization of electroporation
Author :
Mengxi Wu ; Deyao Zhao ; Hao Yan ; Zicai Liang ; Zhihong Li
Author_Institution :
Nat. Key Lab. of Sci. & Technol. on Micro/Nano Fabrication, Peking Univ., Beijing, China
Abstract :
We have developed a novel microchip aiming to rapidly optimize of electric parameters for electroporation. The electrodes were designed as symmetrical hyperbolic formatted to generate linearly decrescent electric field. Cells were cultured on the microchip for adherent electroporation and in-situ observation. Exhibited diversely in cell viability and transfection efficiency, three areas were observed obviously since the intensity of electric field was varied. Assisted by markers designed on electrodes, the location of optimal electroporation performance area and the corresponding range of electric field intensity were determined. Using the proposed electroporation chip, we obtained the optimal electric field spectrum for electroporation of HEK-293A cell line, that was about 0.75 ~ 1.25 × 105 V/m. The diversity of electroporation performance was evaluated by the dependence of cell viability and transfection efficiency on electric field intensity. With the guidance of reference electric field value, we designed a specific annular-interdigitated microchip to testify the electroporation characteristics. At last, we achieved excellent electroporation performance under the optimal conditions using self-made electroporation microchip.
Keywords :
biomembranes; biotechnology; cellular biophysics; circuit optimisation; electric fields; microfabrication; HEK-293A cell line; adherent electroporation; annular-interdigitated microchip; cell viability; electric field intensity; electric parameters; in-situ observation; linearly decrescent electric field; optimal electric field spectrum; optimal electroporation performance area; rapid electroporation optimization; reference electric field value; self-made electroporation microchip; symmetrical hyperbolic formatted microchip; transfection efficiency; Educational institutions; Electric fields; Electrodes; Fabrication; Fluorescence; Materials; Optimization; electroporation; hyperbolic electrodes; microchip; optimization method;
Conference_Titel :
Nano/Micro Engineered and Molecular Systems (NEMS), 2013 8th IEEE International Conference on
Conference_Location :
Suzhou
Electronic_ISBN :
978-1-4673-6351-8
DOI :
10.1109/NEMS.2013.6559739
