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European project InSPECT develops miniature photonics spectrometers for tissue diagnostics

first_imgMay 8 2018TISSUE DIAGNOSTICS SUCCESSFULLY TESTEDToday physicians are still severely hampered by the lack of precision of the needle tip location during a biopsy. Looking at lung cancers, 25% of the diagnoses suffer a false negative outcome through traditional biopsy methods. In the future, this can be avoided: for the first time, the European project InSPECT developed miniature spectrometers with integrated light sources enabling guided sensing. Further, a new class of broadband light source has been developed based on solid state laser excitation of luminescent materials. For this, new luminescent materials have been developed covering the spectral range from 400 to 1700 nm and a prototype light source incorporating these materials has been realized.Eliminate delays in diagnose and treatmentPhysicians will be able to perform a precise and instant diagnoses, with the compact cubic-inch broadband spectrometers that can be developed at high volume and low-cost.The new generation of very compact and more cost-effective spectrometry solutions generate viable business models bringing spectral sensing inside the operating theatre, at general practitioners in their consultation rooms and to remote healthcare centers. By integrating an optical fiber inside a biopsy needle,  cancerous and non-cancerous tissue can be illuminated and differentiated by spectral analysis. Backscattered light is collected and led to a spectrometer that identifies spectral fingerprints like water, fat and hemoglobin. The different concentrations, collected by a second optical fiber, give real-time feedback to the physician during the medical intervention.This method for tissue detection allows a fast and accurate diagnoses that can significantly accelerate the start of the cancer treatment, vital to increase the survival rate and recovery of each patient.The photonics spectrometers pave the way for ultimate miniaturization of biophotonic and medical applications.   Prof. dr. Theo Ruers, Professor of Surgical Oncology at the Netherlands Cancer Institute comments:  ​There is possibility to use those technologies in smart surgical devices so the surgeon knows exactly if he/she is cutting into tumorous or into normal tissue. Another application could be to develop implantable tissue sensors. a compact cubic-inch like broadband spectrometer based on diffractive optics, and a spectrometer system based on Si-based TriPleX waveguide technology integrating the spectrometer onto a photonic integrated circuit. Source:http://www.b-phot.org/www/InSPECT-FIRST-MINIATURE-PHOTONICS-SPECTROMETERS-FOR-REAL-TIME-TISSUE-DIAGNOSTICS-SUCCESSFULLY-TESTED Miniaturized light sources and spectrometers at full spectrumRelated StoriesCombining expansion microscopy with VR allows researchers to ‘step inside’ biological dataSpotlight on ECCMID 2019: Detecting Disease & Managing InfectionsMaking Laboratories More Efficient with the Most Modern LIMS on the MarketThe DRS (Diffuse Reflectance Spectroscopy) systems today use a commercial halogen-type light source and two spectrometer devices, one for the visible and near infrared region of the spectrum (using silicon based sensors) and one for the short wave infrared region above 1 um wavelength (using indium-gallium-arsenide sensors).Within the European Horizon 2020 project InSPECT, two new classes of spectrometer systems have been developed:last_img read more