Fluorescence and reflectance spectroscopy for detection of oral dysplasia and cancer
RA Schwarz, RR Richards-Kortum… - Biomedical optics in …, 2016 - Springer
RA Schwarz, RR Richards-Kortum, AM Gillenwater
Biomedical optics in otorhinolaryngology: head and neck surgery, 2016•SpringerThe development and progression of neoplasia in the oral cavity lead to measurable
changes in the optical properties of oral tissue. These alterations can be detected using
noninvasive optical techniques, potentially aiding in early detection and diagnosis. Various
spectroscopic methods have been reported for detection of oral dysplasia and cancer. This
chapter focuses on fluorescence spectroscopy, in which narrowband illumination light is
used to excite endogenous fluorophores, and reflectance spectroscopy, in which broadband …
changes in the optical properties of oral tissue. These alterations can be detected using
noninvasive optical techniques, potentially aiding in early detection and diagnosis. Various
spectroscopic methods have been reported for detection of oral dysplasia and cancer. This
chapter focuses on fluorescence spectroscopy, in which narrowband illumination light is
used to excite endogenous fluorophores, and reflectance spectroscopy, in which broadband …
Abstract
The development and progression of neoplasia in the oral cavity lead to measurable changes in the optical properties of oral tissue. These alterations can be detected using noninvasive optical techniques, potentially aiding in early detection and diagnosis. Various spectroscopic methods have been reported for detection of oral dysplasia and cancer. This chapter focuses on fluorescence spectroscopy, in which narrowband illumination light is used to excite endogenous fluorophores, and reflectance spectroscopy, in which broadband (white) illumination light is used to interrogate the elastic scattering properties and absorption properties of tissue.
Springer
以上显示的是最相近的搜索结果。 查看全部搜索结果