AI Article Synopsis
- - The authors introduce a new histological imaging technique called CHAMP (computational high-throughput autofluorescence microscopy by pattern illumination) that allows for quick, label-free imaging of thick tissue samples at a speed of 10 mm every 10 seconds and with a lateral resolution of 1.1 µm.
- - CHAMP can rapidly convert raw images into virtually stained histological images (Deep-CHAMP) using advanced computing methods, enabling the extraction of important cellular features in just 15 seconds.
- - The method has been successfully tested on various tissues, including mouse brain, kidney, and human lung, showing its potential for facilitating fast and accurate pathological examinations during surgeries without the need for traditional tissue processing or staining
Article Abstract
Rapid and high-resolution histological imaging with minimal tissue preparation has long been a challenging and yet captivating medical pursuit. Here, the authors propose a promising and transformative histological imaging method, termed computational high-throughput autofluorescence microscopy by pattern illumination (CHAMP). With the assistance of computational microscopy, CHAMP enables high-throughput and label-free imaging of thick and unprocessed tissues with large surface irregularity at an acquisition speed of 10 mm /10 s with 1.1-µm lateral resolution. Moreover, the CHAMP image can be transformed into a virtually stained histological image (Deep-CHAMP) through unsupervised learning within 15 s, where significant cellular features are quantitatively extracted with high accuracy. The versatility of CHAMP is experimentally demonstrated using mouse brain/kidney and human lung tissues prepared with various clinical protocols, which enables a rapid and accurate intraoperative/postoperative pathological examination without tissue processing or staining, demonstrating its great potential as an assistive imaging platform for surgeons and pathologists to provide optimal adjuvant treatment.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8805566 | PMC |
| http://dx.doi.org/10.1002/advs.202102358 | DOI Listing |
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