High Definition Infrared Spectroscopic Imaging for Lymph Node Histopathology

L Suzanne Leslie,Rohit Bhargava,Tomasz P Wrobel,Rajyasree Emmadi,Snehal Bindra,David Mayerich,Jonathan A Coles

doi:10.1371/journal.pone.0127238

L Suzanne Leslie, Rohit Bhargava + Show 5 more

Open Access

https://doi.org/10.1371/journal.pone.0127238

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Abstract

Chemical imaging is a rapidly emerging field in which molecular information within samples can be used to predict biological function and recognize disease without the use of stains or manual identification. In Fourier transform infrared (FT-IR) spectroscopic imaging, molecular absorption contrast provides a large signal relative to noise. Due to the long mid-IR wavelengths and sub-optimal instrument design, however, pixel sizes have historically been much larger than cells. This limits both the accuracy of the technique in identifying small regions, as well as the ability to visualize single cells. Here we obtain data with micron-sized sampling using a tabletop FT-IR instrument, and demonstrate that the high-definition (HD) data lead to accurate identification of multiple cells in lymph nodes that was not previously possible. Highly accurate recognition of eight distinct classes - naïve and memory B cells, T cells, erythrocytes, connective tissue, fibrovascular network, smooth muscle, and light and dark zone activated B cells was achieved in healthy, reactive, and malignant lymph node biopsies using a random forest classifier. The results demonstrate that cells currently identifiable only through immunohistochemical stains and cumbersome manual recognition of optical microscopy images can now be distinguished to a similar level through a single IR spectroscopic image from a lymph node biopsy.

Highlights

Fourier transform infrared (FT-IR) spectroscopic imaging uses molecular contrast measured by vibrational spectroscopy to create label-free images of biological samples [1,2,3,4]
Inspecting the magnified regions of the three images suggests that HD IR imaging may be able to distinguish the individual lymphocytes that are clearly apparent in the Hematoxylin and Eosin (H&E) images and that appear only as unrecognizable pixels in the conventional low-definition IR image that is similar to previous reports
It is notable that such high performance was achieved with a desktop system, since this has only previously been reported for microscopy with high intensity sources such as a synchrotron [35] or quantum cascade laser [36,37]

Summary

Introduction

Fourier transform infrared (FT-IR) spectroscopic imaging uses molecular contrast measured by vibrational spectroscopy to create label-free images of biological samples [1,2,3,4]. Further, process the acquired information into a visual format potentially usable by pathologists for clinical diagnoses, and research scientists for detailed molecular insight. HD Infrared Spectroscopic Imaging for Lymph Node Histopathology collection and analysis, decision to publish, or preparation of the manuscript

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