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Fighting Cancer

Explore the technology that allows IR-Hyperspectral Microscope to provide Label-Free Digital Pathology to fight cancer.
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IR-Hyperspectral Microscope allows Label-Free Digital Pathology, improving the medical diagnostics workflow. Advances…

Label-Free Digital Pathology is Here

What is Digital Pathology?

Digital Pathology is a rapidly expanding ecosystem of whole-slide scanning and bioinformatics solutions, which is revolutionizing the medical diagnostics workflow. Digital Pathology systems offer high-throughput, cost-effective solutions for collecting, storing, and interpreting digital images of stained (labelled) tissue specimens. With the number of new cancer cases predicted to increase steadily to over 20 million by 2030, digital pathology has been pivotal in increasing throughput with slide scanners, artificial intelligence, and machine learning.1 These techniques continue to be validated as the FDA approves new instruments and processes, such as the Phillips IntelliSite Pathology Solutions (PIPS).2 These powerful, well-established techniques continue to form the backbone of the pathology workflow but require substantial ongoing investments in high-quality sample preparation to maintain accuracy and efficiency. Find more information on Digital Pathology at https://digitalpathologyassociation.org/.

Until recently, chemical staining or labeling, by using IHC stains or fluorescent tags was the only viable option for a researcher or pathologist to visualize diagnostic markers present within the tissue sections. Furthermore, using labels limits the potential for discovering new biomarkers within the sample.

Label-Free Digital Pathology

The Digital Pathology community is working hard to offer a new class of powerful label-free digital imaging solutions which could greatly reduce healthcare costs while simplifying the histology workflow and accelerating discovery.

Second harmonic generation (SHG) and mid-infrared (MIR) microscopy are two examples of well-established optical techniques which have recently demonstrated viability as label-free digital pathology solutions due to advancements in technology and ease-of-use. For example, MIR digital imaging recently experienced a greater than 100-fold increase in throughput enabling single large-tissue specimens to be analyzed in minutes rather than days. This enhancement was made possible through the advent of new MIR quantum cascade laser (QCL) sources employed in a novel wide-field illumination mode.

The MIR spectral region, roughly spanning 3,000 to 12,000 nm, is rich in organic molecular information which can be analyzed to perform quantitative digital tissue classification, identify and track disease progression and study the tumor microenvironment. At the PURE Institute, a research team, led by Professor Dr. Klaus Gerwert, is using Spero-QT® MIR microscopes to perform fast, label-free, automated tissue classification of cancer tissues.3 By coupling quantitative MIR data with advanced machine learning and AI image analysis, the research group at PURE has demonstrated the ability to automate tissue image analytics and the rendering of differential diagnoses in multiple organ systems. To date, the team has analyzed 110 tissue samples from stage-2 colorectal cancer patients and results indicated 100% selectivity and 96% sensitivity compared to classical histopathology. The team also compared results from two different Spero-QT machines and found that results were independent of the machine or user, paving the way for its broader implementation of Spero-based digital pathology. Larger colon cancer studies and other primary organ studies are underway.

The Spero-QT microscope is the only commercially-available QCL-based, wide-field MIR digital imaging platform on the market.

References:

  1. World Health Organization – World Cancer Report 2014
  2. FDA – News Release
  3. Kuepper, Claus, et al. “Quantum Cascade Laser-Based Infrared Microscopy for Label-Free and Automated Cancer Classification in Tissue Sections.” Scientific Reports Volume 8, Article number: 7717 (2018): doi:10.1038/s41598-018-26098-w

Other Blogs/Articles that may be of interest:

  1. Why is Mid-IR Light so Important?
  2. Engineered Point Spread Functions (PSF) for Single Molecule Localisation Microscopy (SMLM)
  3. Nanoscopy for less than £100k?
  4. Understanding the jargon of LCOS Spatial Light Modulators (SLMs)
  5. Spatial Light Modulator Applications

To book a demonstration or loan of the Spero-QTand to speak to one of our engineers by contacting us here:

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