Introduction to the Photoconductive Stimulation Device
Photoconductive stimulation allows
the rapid, non-invasive depolarization of excitable cells, such as
neurons. Neurosilicon's Photoconductive Stimulation Device or (PSD)
depolarizes cells at user-definable frequencies and intensities with
high spatial and temporal resolution. The PSD puts the power of
non-invasive, optical targeted, cellular depolarization at your
control.
Set Up of the Photoconductive Stimulation Device
Easy to use and designed to integrate
seamlessly with existing laboratory equipment and space constraints,
Neurosilicon's Photoconductive Stimulation Device or (PSD) can be quickly
employed toward advancing the frontiers of your biomedical research and
drug discovery efforts.
Advantages of the Photoconductive Stimulation Device
New data is the life blood of every research
lab, whether used in high impact publications or in support for funding
opportunities. Neurosilicon's Photoconductive Stimulation Device or (PSD)
enables life science research through:
Non-invasive cell depolarization of excitable cells
Depolarize cells at user-definable frequencies and intensities
with high spatial and temporal resolution
Optical targeting process allows greater cell excitation
specificity
Excitation of single cells as well as large groups of cells
interchangeably
Extended experimental protocols possible as mechanical
perturbation and excitotoxicity is greatly reduced
Ease of use allows the rapid application complex
excitation protocols
