Optimizing Immunofluorescence with High-Dynamic-Range Imaging to Enhance PD-L1 Expression Evaluation for 3D Pathology Assessment from NSCLC Tumor Tissue

Author:

Huang Hsien-Neng1,Kuo Chun-Wei1,Hung Yu-Ling2,Yang Chia-Hung2,Hsieh Yu-Han2,Lin Yu-Chieh2,Chang Margaret Dah-Tsyr2,Lin Yen-Yin2,Ko Jen-Chung1

Affiliation:

1. National Taiwan University Hospital Hsin-Chu Branch

2. JelloX Biotech Inc

Abstract

Abstract Assessing programmed death ligand 1 (PD-L1) expression through immunohistochemistry (IHC) is the golden standard in predicting immunotherapy response of non-small cell lung cancer (NSCLC). However, observation of heterogeneous PD-L1 distribution in tumor space is a challenge using IHC only. Meanwhile, immunofluorescence (IF) could support both planar and three-dimensional (3D) histological analyses by combining tissue optical clearing with confocal microscopy. We optimized clinical tissue preparation for the IF assay focusing on staining, imaging, and post-processing to achieve quality identical to traditional IHC assay. To overcome limited dynamic range of the fluorescence microscope’s detection system, we incorporated a high dynamic range (HDR) algorithm to restore the post imaging IF expression pattern and further 3D IF images. Following HDR processing, a noticeable improvement in the accuracy of diagnosis (85.7%) was achieved using IF images by pathologists. Moreover, 3D IF images revealed a 25% change in tumor proportion score for PD-L1 expression at various depths within tumors. We have established an optimal and reproducible process for PD-L1 IF images in NSCLC, yielding high quality data comparable to traditional IHC assays. The ability to discern accurate spatial PD-L1 distribution through 3D pathology analysis could provide more precise evaluation and prediction for immunotherapy targeting advanced NSCLC.

Publisher

Research Square Platform LLC

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