SIPP International Industries has purchased an advanced technology called Cell Robotics Imaging Work Station. The purchase was done through the acquisition of a secured note, which soon went into default.
The Cell Robotics Imaging Work Station will be primarily used to deal with the growing rate of worldwide biological global violence by remotely detecting, separating single bacterium, and studying critical pathogenic agents such as botulism, small pox and anthrax. This latest technology will also be incorporated into SIPP’s Z-CAC Controlled Atmosphere Cargo Container.
The Cell Robotic Imaging Work Station offers a number of applications for physicians, pathologists, investigators who can use this technology for early identification of cancer and to observe patients during the course of their medical treatments.
SIPP International Industries’ Chairman, Gregg Pearson informed that the new technology further enhances the Cell Robotics Work Station with the inclusion of powerful laser scissors and an analytical imaging software package. The software offers high-tech data management and image analysis solution. The company is further planning to enhance these products, Pearson said.
The new imaging work station still features laser tweezers and optical trapping laser, but also comes with an option of three laser scissors modules or cutting lasers. The laser scissors module has increased power that will enable researchers to easily dissect frozen, fresh or fixed tissue sections and live cells, which are helpful for molecular analysis of biopsies. The Cell Robotics Imaging Work Station has been developed for investigators involved in basic and applied research, working on transgenic animal cloning and production, stem cells, and functional genomics. In addition, imaging upgrades are also available to integrate automated cell deconvolution and identification.
Pearson added that the technology will assist the medical community and investigators in fighting biological terrorism. The acquisition will also help the company to speed up its revenues in the near future. The technology further enhances the Cell Robotics Pathology Work Station, which assists in molecular analysis of biopsies.