Rapid, label-free histopathological diagnosis of liver cancer based on Raman spectroscopy and deep learning.

Journal: Nature communications
Published Date: Jan 4, 2023

Abstract

Biopsy is the recommended standard for pathological diagnosis of liver carcinoma. However, this method usually requires sectioning and staining, and well-trained pathologists to interpret tissue images. Here, we utilize Raman spectroscopy to study human hepatic tissue samples, developing and validating a workflow for in vitro and intraoperative pathological diagnosis of liver cancer. We distinguish carcinoma tissues from adjacent non-tumour tissues in a rapid, non-disruptive, and label-free manner by using Raman spectroscopy combined with deep learning, which is validated by tissue metabolomics. This technique allows for detailed pathological identification of the cancer tissues, including subtype, differentiation grade, and tumour stage. 2D/3D Raman images of unprocessed human tissue slices with submicrometric resolution are also acquired based on visualization of molecular composition, which could assist in tumour boundary recognition and clinicopathologic diagnosis. Lastly, the potential for a portable handheld Raman system is illustrated during surgery for real-time intraoperative human liver cancer diagnosis.

Authors

  • Liping Huang
    Department of Ultrasound, Shengjing Hospital of China Medical University, Shenyang, China.
  • Hongwei Sun
    The First Affiliated Hospital of Wenzhou Medical University, 325015, Wenzhou, PR China.
  • Liangbin Sun
    School of Biomedical Engineering, School of Ophthalmology and Optometry, Eye Hospital, Wenzhou Medical University, 325001, Wenzhou, PR China.
  • Keqing Shi
    The First Affiliated Hospital of Wenzhou Medical University, 325015, Wenzhou, PR China.
  • Yuzhe Chen
    Liver Surgery and NHC Key Lab of Transplant Engineering and Immunology, Regenerative Medical Research Center, Department of Clinical Research Management, West China Hospital, Sichuan University, Chengdu 610041, China.
  • Xueqian Ren
    School of Biomedical Engineering, School of Ophthalmology and Optometry, Eye Hospital, Wenzhou Medical University, 325001, Wenzhou, PR China.
  • Yuancai Ge
    School of Biomedical Engineering, School of Ophthalmology and Optometry, Eye Hospital, Wenzhou Medical University, 325001, Wenzhou, PR China.
  • Danfeng Jiang
    Engineering Research Center of Clinical Functional Materials and Diagnosis & Treatment Devices of Zhejiang Province, Wenzhou Institute, University of Chinese Academy of Sciences, 325001, Wenzhou, PR China.
  • Xiaohu Liu
  • Wolfgang Knoll
    Austrian Institute of Technology, Giefinggasse 4, Vienna, 1210, Austria.
  • Qingwen Zhang
    Engineering Research Center of Clinical Functional Materials and Diagnosis & Treatment Devices of Zhejiang Province, Wenzhou Institute, University of Chinese Academy of Sciences, 325001, Wenzhou, PR China. zhangqw@wiucas.ac.cn.
  • Yi Wang
    Department of Neurology, Children's Hospital of Fudan University, National Children's Medical Center, Shanghai, China.

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