Background
Early gastric cancer is associated with a much better prognosis than advanced disease, and strategies to improve prognosis is strictly dependent on earlier detection and accurate diagnosis. Therefore, a label-free, non-invasive imaging technique that allows the precise identification of morphologic changes in early gastric cancer would be of considerable clinical interest.
Methods
In this study, multiphoton microscopy (MPM) using two-photon excited fluorescence combined with second-harmonic generation was used for the identification of early gastric cancer.
Results
This microscope was able to directly reveal improved cellular detail and stromal changes during the development of early gastric cancer. Furthermore, two features were quantified from MPM images to assess the cell change in size and stromal collagen change as gastric lesion developed from normal to early cancer.
Conclusions
These results clearly show that multiphoton microscopy can be used to examine early gastric cancer at the cellular level without the need for exogenous contrast agents. This study would be helpful for early diagnosis and treatment of gastric cancer, and may provide the groundwork for further exploration into the application of multiphoton microscopy in clinical practice.
Dirty necrosis within glandular lumina is often considered as a characteristic of colorectal carcinomas (CRCs) that is a diagnostically useful feature of CRCs with DNA microsatellite instability (MSI). Multiphoton microscopy (MPM), which is based on the second-harmonic generation and two-photon excited fluorescence signals, was used to identify dirty necrosis. Our results demonstrated that MPM has the ability to exhibit the microstructure of dirty necrosis and the signal intensity as well as an emission spectrum that can help to differentiate dirty necrosis from cancer cells. These findings indicate that MPM may be helpful in distinguishing MSI colorectal carcinoma via the identification of dirty necrosis.
The monitoring and evaluation of colorectal adenoma–carcinoma sequence during endoscopy are important for endoscopic resection of precursor lesions to disrupt the adenoma–carcinoma sequence and halt progression to invasive neoplastic disease. In this study, multiphoton microscopy (MPM) was used to identify different stages during the development of colorectal adenocarcinoma including adenoma with low-grade and high-grade dysplasia, and adenocarcinoma invading the submucosa. It was found that by combining two-photon excited fluorescence (TPEF) imaging and second harmonic generation (SHG) imaging, MPM can reveal the morphological changes of the epithelial cells and glands, identify the invasive position and depth of atypical glands and quantitatively describe the change of the cellular nucleus and the nuclear-to-cytoplasmic ratio during the stepwise progression of colorectal adenocarcinoma. These are important pathological findings for pathologists when diagnosing colorectal lesions. With the advancement of a compact and flexible multiphoton endoscope for in vivo imaging and clinical applications, MPM has the potential to provide immediate histological diagnosis for the monitoring and evaluation of the colorectal adenoma–carcinoma sequence during endoscopy.
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