Title :
Single-cell level continuous observation of microorganism galvanotaxis using high-speed vision
Author :
Ogawa, Naoko ; Oku, Hiromasa ; Hashimoto, Koichi ; Ishikawa, Masatoshi
Author_Institution :
Graduate Sch. of Inf. Sci. & Technol., Tokyo Univ., Japan
Abstract :
A novel system for measurement of motile microorganism galvanotaxis using high-speed vision is presented. Our goal is to construct a smart microsystem composed of many controlled microorganisms called "Organized Bio-Modules" (OBM). The OBM system utilizes galvanotaxis (intrinsic reaction to electrical stimulus) of microorganisms for actuation. For evaluation of taxis, continuous observation of a moving single cell in a sufficiently large working area without fixation is needed. Using high-speed vision, we developed a system for continuous evaluation of galvanotaxis of freely swimming cells in a large area at the single-cell level. Experimental results demonstrate the continuous measurement of galvanotaxis of a Paramecium caudatum cell moving in a 3.5-mm-square area for 18 s with 1 μs precision.
Keywords :
bioelectric phenomena; biological techniques; cell motility; microorganisms; 18 s; Paramecium caudatum cell; controlled microorganisms; electrical stimulus; freely swimming cells; high-speed vision; intrinsic reaction; microorganism actuation; motile microorganism galvanotaxis measurement; organised bio-modules; single-cell level continuous observation; smart microsystem; taxis evaluation; Actuators; Application software; Area measurement; Biosensors; Control systems; Information science; Machine vision; Microorganisms; Microscopy; Target tracking;
Conference_Titel :
Biomedical Imaging: Nano to Macro, 2004. IEEE International Symposium on
Print_ISBN :
0-7803-8388-5
DOI :
10.1109/ISBI.2004.1398792
