Title :
Biochemical IC chip for pretreatment in biochemical experiments
Author :
Ikuta, Koji ; Sasaki, Yasuhiro ; Maegawa, Hiroyuki ; Maruo, Shoji
Author_Institution :
Dept. of Micro Syst. Eng., Nagoya Univ., Japan
Abstract :
The world\´s first micro ultrasonic homogenizer chip, a new type of biochemical IC chip, is proposed and developed successfully. The homogenizer chip utilizes ultrasonic cavitation to disrupt cells. Both a piezoelectric element and an exponential horn to generate ultrasonic cavitation are hybridized in the chip by using our original microstereolithography technique named "hybrid-IH process". We succeeded to disrupt cells (PC 12) within only 3 seconds by using this chip. The efficiency of cell homogenization was almost 100%. The proteins extracted from PC 12 cells were separated and detected by using SDS gel-electrophoresis and silver staining. The micro homogenizer chip is useful for pretreatment of various biochemical and biological analyses in microscale.
Keywords :
biosensors; electrophoresis; micromachining; micromechanical devices; photolithography; piezoelectric devices; proteins; ultrasonic devices; 3 s; SDS gel-electrophoresis; biochemical IC chip; biochemical analysis; biochemical experiments; biological analysis; cell disruption; cell homogenization efficiency; exponential horn; extracted PC12 cell proteins; hybrid-IH process microstereolithography technique; micro ultrasonic homogenizer chip; piezoelectric element; pretreatment; silver staining; ultrasonic cavitation; Aluminum; Hybrid integrated circuits; Hybrid power systems; Laboratories; Piezoelectric actuators; Polymers; Proteins; Prototypes; Systems engineering and theory; Temperature sensors;
Conference_Titel :
Micro Electro Mechanical Systems, 2003. MEMS-03 Kyoto. IEEE The Sixteenth Annual International Conference on
Print_ISBN :
0-7803-7744-3
DOI :
10.1109/MEMSYS.2003.1189756
