Issue 15, 2021

Multi-modal image sharpening in fourier transform infrared (FTIR) microscopy

Abstract

Mid-infrared Spectroscopic Imaging (MIRSI) provides spatially-resolved molecular specificity by measuring wavelength-dependent mid-infrared absorbance. Infrared microscopes use large numerical aperture objectives to obtain high-resolution images of heterogeneous samples. However, the optical resolution is fundamentally diffraction-limited, and therefore wavelength-dependent. This significantly limits resolution in infrared microscopy, which relies on long wavelengths (2.5 μm to 12.5 μm) for molecular specificity. The resolution is particularly restrictive in biomedical and materials applications, where molecular information is encoded in the fingerprint region (6 μm to 12 μm), limiting the maximum resolving power to between 3 μm and 6 μm. We present an unsupervised curvelet-based image fusion method that overcomes limitations in spatial resolution by augmenting infrared images with label-free visible microscopy. We demonstrate the effectiveness of this approach by fusing images of breast and ovarian tumor biopsies acquired using both infrared and dark-field microscopy. The proposed fusion algorithm generates a hyperspectral dataset that has both high spatial resolution and good molecular contrast. We validate this technique using multiple standard approaches and through comparisons to super-resolved experimentally measured photothermal spectroscopic images. We also propose a novel comparison method based on tissue classification accuracy.

Graphical abstract: Multi-modal image sharpening in fourier transform infrared (FTIR) microscopy

Article information

Article type
Paper
Submitted
17 Jan 2021
Accepted
12 Apr 2021
First published
13 Apr 2021

Analyst, 2021,146, 4822-4834

Author version available

Multi-modal image sharpening in fourier transform infrared (FTIR) microscopy

R. Mankar, C. C. Gajjela, F. F. Shahraki, S. Prasad, D. Mayerich and R. Reddy, Analyst, 2021, 146, 4822 DOI: 10.1039/D1AN00103E

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