Ns3 project in Oregon:
Ns3 project in Oregon The main drawbacks of using these excitation low wavelengths are mutagenic risks for ns3 project in Oregon the irradiated tissues and the need of specific endoscopic imaging systems allowing for low UVA and UVA light transmissions.
Schmidbauer . described the efficiency of flexible fluorescent cystoscopy in a study on human bladder lesions. ns3 project in Oregon Fluorescent flexible cystoscopy had a higher detection rate of than standard flexible or standard rigid cystoscopy Wu and Qu found that the
AF excited at nm is sensitive to the cellular metabolism and can be used to sense the metabolic status of epithelial ns3 project in Oregon The multiple scattering of photons carries information linked to morphological and structural characteristics of the tissue constituents.
The shape and amplitude of the backscattered intensity spectra are modified by the corresponding wavelengthdependent optical properties of absorption and diffusion. Statistical and empirical analysis of spectral features extracted from the DR ns3 project in Oregon spectra can be performed for finding out their correlations with some pathological states of the tissue.
DR spectroscopy has already been applied to in vivo diagnosis in clinics, especially in cancerology for classifying healthy and precancerous or cancerous tissues on oesophagus, ns3 project in Oregon breast, bladder, and skin Main DR spectroscopy studies on
human bladder carcinomas indicate that very high sensitivity and specificity values may be obtained ns3 project in Oregon by exploiting theDRspectra slopes in the UVA region Much lower values are reported by considering only the visible wavelength band of the spectrum
The interest in combining AF and DR spectroscopies to increase the efficiency of in vivo diagnosis ns3 project in Oregon clinical studies on cervix, oral cavity, breast, and skin. For instance,
spatially colocalized AF and DR measurements can be exploited to correct the measured AF spectra from ns3 project in Oregon absorption and diffusion by using the information brought by DR data.