Dec 13 2010
Provider of sophisticated laser systems, Hamilton Thorne has rolled out a new laser system that has wide applications in research and allows the company to enter new markets such as advanced cell biology.
The new Stiletto laser system has the ability to automate the process of removing and separating the unwanted cells. This process significantly saves money and time and revolutionizes the manner in which researchers approach therapeutic research applications.
Scoring an Embryonic Stem Cell Colony using Stiletto
The Stiletto laser system has the potential to sweep aside cells from the laser’s beam without cauterizing or burning. It also has the ability of destroy unnecessary cell colonies in a very less time. The laser system uses a unique approach for cell manipulation. It combines an automated stage, controller software, and a laser and objective, and enables researchers to perform high-speed stem cell colony separation.
The system’s automated stage enables high-speed cell separation and generates a uniform pattern for convenient cell transplantation into plates or dishes in the stem cell growth’s expansion phase.
Hamilton Thorne's range of laser products functions as robotic micro-surgeons, which quicken the vital processes in regenerative cell development and production.