RFLSI-ZW laser speckle imaging system is an even better tool for microcirculation research based on laser speckle contrast imaging technology (LSCI).
With the advanced optical design and improved image processing algorithm, RFLSI-ZW shows greater performance in imaging field size, image quality, full-field frame rate and optical resolution, and provides a powerful and efficient means for human and animal tissue blood flow measurement.
Overview
The LSCI technology advantages are its non-contact, no contrast agent required, high frame-rate, high spatial resolution. They can be used to observe and record blood perfusion of any exposed tissues or organs for microcirculation study or pre-clinical researches like ischemic stroke, lower limbs, mesentery, etc. Multi-Output includes blood perfusion images and videos (500+ million pixels), quantified data for perfusion unit and vessel diameter.
Since 2019, our imaging system has been adopted by more than 200 colleges, universities, and research institutes worldwide such as Stanford University School of Medicine, Yale University, University of Manchester, Duke university, University College London, University of Tasmania, Universitaet Gesamthochschule Essen, Korea University. What’s more, it has contributed to publishing more than 200 reputed research papers in magazines like Nature Neuroscience、Gut、Brain、Blood、Circulation Research、Nano Today、Nature Communications、 Advanced Functional Materials and Diabetes.
Applications:
Cerebral blood perfusion monitoring
MCAO model assessment
Cortical spreading depression observation
Hind-limb ischemia research
Skin burn/skin flap transplantation
Organ microcirculation observation