Spectroscopic characterization of oral epithelial dysplasia and squamous cell carcinoma using multiphoton autofluorescence micro‐spectroscopy

Abstract: Objective Multiphoton autofluorescence microscopy (MPAM) has shown potential in identifying features that are directly related to tissue microstructural and biochemical changes throughout epithelial neoplasia. In this study, we evaluate the autofluorescence spectral characteristics of neoplastic epithelium in dysplasia and oral squamous cell carcinoma (OSCC) using multiphoton autofluorescence spectroscopy (MPAS) in an in vivo hamster model of oral neoplasia in order to identify unique signatures that could be … Show more

“…These include confocal imaging, multiphoton imaging, optical coherence tomography, Raman spectroscopy, and photoacoustic imaging [18,29]. Recent advances in optical spectroscopy have demonstrated promising results as sensitive and specific means of in vivo identification of nerve tissue [30], colorectal liver metastases [31], and oral squamous cell carcinoma [32]. Although a comprehensive review is outside the scope of this article, the imaging techniques listed in general are able to provide a high resolution tomographic view of the lesion of interest, using either endogenous or exogenous contrast.…”

Noninvasive optical spectroscopy for identification of non‐melanoma skin cancer: Pilot study

“…These include confocal imaging, multiphoton imaging, optical coherence tomography, Raman spectroscopy, and photoacoustic imaging [18,29]. Recent advances in optical spectroscopy have demonstrated promising results as sensitive and specific means of in vivo identification of nerve tissue [30], colorectal liver metastases [31], and oral squamous cell carcinoma [32]. Although a comprehensive review is outside the scope of this article, the imaging techniques listed in general are able to provide a high resolution tomographic view of the lesion of interest, using either endogenous or exogenous contrast.…”

Noninvasive optical spectroscopy for identification of non‐melanoma skin cancer: Pilot study

“…Another way to detect the transformation of normal epithelium to pre-cancerous and cancerous states in early stages is non-linear optical microscopy for direct characterization of the epithelial-connective tissue interface (35). Multispectral fluorescence lifetime imaging in vivo and in vivo 33: 1751-1755 (2019) multiphoton autofluorescence micro-spectroscopy methods were used to delineate normal oral mucosa from neoplasia and differentiate between low-and high-risk oral lesions depending on the histological type (36,37).…”

The Hamster Model of Sequential Oral Carcinogenesis: An Update

“…Pal et al 51 reported the use of multiphoton autofluorescence microscopy in a hamster model of oral neoplasia. They were able to visualize cytoplasm, nuclei, and keratin at a depth of 30 µm in the epithelium and identified emission peaks for the same epithelial fluorophores (NADH, FAD, and protoporphyrin IX) that contribute to AFI signal.…”

Noninvasive diagnostic adjuncts for the evaluation of potentially premalignant oral epithelial lesions: current limitations and future directions