Title :
Detection of Amyloid Beta Fibril Growth by Liposome-Immobilized Micro-Cantilever With NiCr Thin-Film Strain Gauge
Author :
Sohgawa, Masayuki ; Ziyang Zhang ; Akai, Toshio ; Takada, Keisuke ; Yamashita, Kaoru ; Noda, Minoru
Author_Institution :
Fac. of Eng., Niigata Univ., Niigata, Japan
Abstract :
A micro-cantilever with thermally stable strain gauge of a NiCr thin film and a self-assembled monolayer was fabricated by surface micromachining. Liposomes, as biosensing molecules, were immobilized on its surface. To prevent evaporation of the water solvent, a reservoir made of polydimethylsiloxane around the micro-cantilever was fabricated and covered with a glass plate. The resistance of the strain gauge increases with time in the amyloid beta (Aβ) solution, because the cantilever is bent downward caused by interaction between Aβ and liposomes immobilized on the micro-cantilever surface. Moreover, resistance change depends on the interaction ability of Aβ proteins with liposomes. It is therefore indicated that the fabricated static mode micro-cantilever sensor with immobilized liposomes can be used to detect Aβ proteins.
Keywords :
biosensors; cantilevers; chromium alloys; metallic thin films; micromachining; microsensors; monolayers; nickel alloys; proteins; self-assembly; strain gauges; Aβ proteins; NiCr; NiCr thin film; NiCr thin-film strain gauge; amyloid beta fibril growth detection; amyloid beta solution; biosensing molecules; liposome-immobilized microcantilever; liposomes; microcantilever sensor; microcantilever surface; polydimethylsiloxane around; self-assembled monolayer; surface micromachining; thermally stable strain gauge; water solvent evaporation; Proteins; Reservoirs; Sensors; Strain; Surface resistance; Surface treatment; Biological sensor; NiCr strain gauge; amyloid beta; biological sensor; liposome; micro-cantilever;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2015.2470108
