Improving the Quality of Handheld Raman Spectroscopy with Adaptive Focus Probes
Researchers from Germany have developed a novel set up that uses a liquid lens, alongside a LS-785 spectrometer and PIXIS camera, to dynamically adjust the focus on a handheld Raman spectroscopy system. The improvement of the quality of this system will allow for handheld Raman spectroscopy to be used for multiple biological and clinical applications…Find out more
Jürgen Popp and Iwan Schie
Understanding the Quality of Vascular Grafts and Heart Valve Transplants using Raman Spectroscopy
Researchers, associated with Prof. Jeurgen Popp from Friedrich Schiller University in Jena and Prof. Laura Marcu from UC Davis, have been using a combination of Raman spectroscopy and fluorescence lifetime imaging (FLIM) to characterize and diagnose molecular changes in bovine pericardium (BP). BP is a biomaterial commonly used in heart valve reconstructive surgery and characterization will provide insight into the failure mechanisms of this material…Find out more
Direct Observation Of Glucose Fingerprint Using In Vivo Raman Spectroscopy
Researchers from MIT (USA) and Samsung (Korea) used a PIXIS-1024BRX and LS-785 spectrograph to monitor blood glucose levels non-invasively through optical detection, greatly enhancing the comfort of diabeters patients…Find out more.
Jeon Woong Kang, Peter So (MIT Spectroscopy Lab)
Samsung mobile Healthcare Laboratory (Korea)
Depth-Sensitive Raman Spectroscopy for Skin Wound Evaluation in Rodents
Researchers at Nanyang Technical University used an Acton LS-785 spectrograph and PIXIS camera to measure ex vivo rat skin. By using Raman scattering the researchers were able to determine how surfaces wounds heal at different depths…Find out more.
Biomedical Optics Express