Synchrotron X-ray Microscopic Imaging of Thyroid Tissues / 대한내분비외과학회지

PURPOSE: X-ray microscopy with synchrotron radiation will soon be a useful tool for innovative x-ray imaging in clinical and laboratory settings. It enables us to observe the detailed internal structure of human tissue samples with great magnification power and excellent resolution. So, it has the possibility to be used for the clinical and research purposes to investigate thyroid diseases if it can effectively evaluate the various conditions of thyroid tissue. To determine the relation with their optical microscopic features, we compared the synchrotron X-ray images of unstained normal and thyroid cancer tissue samples with the histopathologic findings of their adjacent, stained thyroid tissue sections. METHODS: An x-ray microscope was installed on a 1B2 beamline with a Pohang Light Source, which is a 3rd generation synchrotron radiation facility with an operating energy of 2.5 GeV at Pohang, Korea. The x-ray energy was set at 11.1 keV and the x-ray beam was monochromatized using a W/B4C monochromator. Formalin-fixed 10µm-thick female thyroid tissues from normal cases and carcinoma cases were attached on Kapton film for the imaging. The sample was positioned 25 m away from the beam source. The x-ray image of the sample was converted into a visual image on the CsI (TI) scintillation crystal, and it was magnified 20 times by the microscopic objective lens. After an additional 10 times digital magnification, this visual image was captured by a full frame CCD camera. RESULTS: The monochromated x-ray microscopic images of the female thyroid tissues of the normal cases and carcinoma cases were obtained with good resolution. These synchrotron images showed the normal follicular structures in the normal thyroid tissue sections and the characteristic severe stromal fibrosis with collagen fiber accumulation in the cancer tissue sections. CONCLUSION: Owing to the great magnification and excellent resolution, the synchrotron x-ray microscopic images of the normal and cancerous thyroid tissues showed good correspondence with the histopathologic findings of their adjacent, stained tissue sections. So, the x-ray microscopic imaging of thyoid tissue using synchrotron radiation has good potential for use in various clinical and research settings in the future.

Evaluation of Phase-Contrast Microscopic Imaging with Synchrotron Radiation in the Diagnosis of Breast Cancer and Differentiation of Various Breast Diseases: Preliminary Results / 한국유방암학회지

PURPOSE: A significant improvement of imaging using synchrotron radiation (SR) is obtained by introducing phase-contrast technique. This technique provides greatly enhanced contrast and good soft tissue discrimination with high spatial resolution. The aim of this study was to observe microstructures of pathologic breast specimens including invasive breast cancer using phase-contrast technique with SR and to evaluate the feasibility of phase-contrast imaging in clinical application. METHODS: Phase-contrast microscopic image of normal breast tissue and the images of various breast diseases such as fibrocystic change, ductal carcinoma in situ, invasive ductal carcinoma, Paget's disease were obtained using hard X-ray microscopy with an 11.1 keV monochromatic beam from SR source and CsI (TI) scintillation crystal. Zernike phase-shifter was adapted for phase-contrast hard X-ray microscopy. The visual image was magnified 20 times by microscopic objective lens and captured using a full frame charge-coupled device camera. Obtained images were compared with corresponding histopathologic findings in the optical microscopy. RESULTS: The SR images of various breast diseases were obtained with a good contrast and high visibility by phase-contrast technique. It was possible to observe the microstructures with high spatial resolution down to the micron region. The characteristic features of each disease were consistent with the histopathologic findings of corresponding sample and the images of breast cancer and the other diseases were distinct from each other. CONCLUSION: Using phase-contrast technique, SR images of various breast diseases including breast cancer were obtained. These images were comparable with standard histopathologic findings and showed different features for each disease. The results suggest that phase-contrast microscopic imaging with SR has potential as a diagnostic tool and also its clinical application is feasible, especially in breast imaging.