UCCS BioFrontiers Center, University of Colorado at Colorado Springs, 1420 Austin Bluffs Parkway, Colorado Springs, CO 80918, USA.
Gigascience. 2020 Apr 1;9(4). doi: 10.1093/gigascience/giaa035.
Structured illumination microscopy (SIM) is a method that can be used to image biological samples and can achieve both optical sectioning and super-resolution effects. Optimization of the imaging set-up and data-processing methods results in high-quality images without artifacts due to mosaicking or due to the use of SIM methods. Reconstruction methods based on Bayesian estimation can be used to produce images with a resolution beyond that dictated by the optical system.
Five complete datasets are presented including large panoramic SIM images of human tissues in pathophysiological conditions. Cancers of the prostate, skin, ovary, and breast, as well as tuberculosis of the lung, were imaged using SIM. The samples are available commercially and are standard histological preparations stained with hematoxylin-eosin.
The use of fluorescence microscopy is increasing in histopathology. There is a need for methods that reduce artifacts caused by the use of image-stitching methods or optical sectioning methods such as SIM. Stitched SIM images produce results that may be useful for intraoperative histology. Releasing high-quality, full-slide images and related data will aid researchers in furthering the field of fluorescent histopathology.
结构光照明显微镜(SIM)是一种可以用于对生物样本成像的方法,它可以实现光学切片和超分辨率效果。优化成像设置和数据处理方法可以得到高质量的图像,没有由于拼接或使用 SIM 方法而产生的伪影。基于贝叶斯估计的重建方法可以产生分辨率超过光学系统限制的图像。
本文提供了五个完整的数据集,包括人体组织在病理生理条件下的大全景 SIM 图像。使用 SIM 对前列腺癌、皮肤癌、卵巢癌、乳腺癌和肺结核进行了成像。这些样本可从商业途径获得,并且是经过苏木精-伊红染色的标准组织学切片。
荧光显微镜在组织病理学中的应用正在增加。需要开发方法来减少由于使用图像拼接方法或像 SIM 这样的光学切片方法而导致的伪影。拼接的 SIM 图像产生的结果可能对术中组织学有用。发布高质量的全幻灯片图像和相关数据将有助于研究人员进一步发展荧光组织病理学领域。
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