ILLUMISONICS IS A COMPANY BASED ON NEW PHYSICS (PARS®)
TO ILLUMINATE DEEP DATA
The Technology
PARS® MLI (Microcellular Laser Imaging) is a Transformative Imaging Device
for Life Science Research, Digital Pathology, Fresh Tissue Diagnostics and Eye Imaging
PARS® MLI is the most advanced optical absorption imaging device to date. It captures optical absorption from radiative contrast (e.g., autofluorescence), non-radiative relaxation (e.g., temperature, pressure) and scattering channels (indirect optical absorption measurement) simultaneously without contact with the tissue.
* PARS stands for Photon Absorption Remote Sensing AKA PhotoAcoustic Remote Sensing*
for Life Science Research, Digital Pathology, Fresh Tissue Diagnostics and Eye Imaging
PARS® MLI is the most advanced optical absorption imaging device to date. It captures optical absorption from radiative contrast (e.g., autofluorescence), non-radiative relaxation (e.g., temperature, pressure) and scattering channels (indirect optical absorption measurement) simultaneously without contact with the tissue.
* PARS stands for Photon Absorption Remote Sensing AKA PhotoAcoustic Remote Sensing*
HOW PARS® WORKS
A picosecond scale pulsed excitation laser is focused into biological tissues to generate radiative (i.e., optical emissions), non-radiative (i.e., heat and pressure), and scattering effects in the sample.
Absorbed photons are captured and converted into different forms of emission from the sample (non-radiative and radiative), while scattered photons continue moving through and interacting with other portions of the sample. |
Non-radiative effects are recorded using a secondary confocal detection beam, enabling the detection of temperature and pressure changes as close to the source as possible. These changes are registered as modulations in backscattering intensity, which are then directly correlated to the local non-radiative absorption contrast.
The unperturbed backscatter (pre-excitation event) simultaneously captures the optical scattering contrast. |
All captured contrasts can then be combined or visualized separately.
Prof. Dr. med. Danny Jonigk, FRCPath
University RWTH Aachen Chairman Institute of Pathology "PARS provide a unique opportunity for hands-on diagnostics, as well as for translational research in Life Sciences to analyze diseases like never before. In clinical pathology PARS paves the way for faster and more precise medicine, very likely improving diagnostic modalities and patients outcome." |
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PARS Multiplex Video of Normal Skin Tissue
Dr. Ally-Khan Somani, MD, PhD, EMBA, a board-certified dermatologist and micrographic surgeon presents PARS multiplex imaging from a single unstained slide.