Creating New Standards Of

Fibrosis, Steatosis and Inflammation

Imaging and Quantification

Genesis Imaging Services provideS NOVEL LABEL FREE AND FULLY AUTOMATED FIBROSIS IMAGING AND QUANTIFICATION services FOR clinical and pre-clinical pharmaceutical development PROJECTS

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TWo PHOTON IMAGING

Based on the breakthrough Two-Photon imaging solutions, our imaging systems and services have opened doors to new medical standards that benefit clinical and preclinical research and speed up pharmaceutical drug development.

MID-THROUGHPUT CAPABILITIES

Our bench-top Genesis200 system can process up to 10 slides per batch (10 to 30 tissues) while our tabletop single-slide Laennec system provides pathologists with a fast imaging solution

Dynamic FF-OCT IMAGING

Full Field, High-resolution Dynamic OCT imaging (D-FFOCT), is a revolutionary label-free, non-destructive imaging modality to provide exceptional images on both fresh and fixed tissues.

Stain Free Collagen Imaging and Quantification

We provide services to image and quantify fibrosis in several organs, both for pre-clinical and clinical applications. Our projects range from 5 to 10 slides exploratory projects to 100 / 150 tissue studies for anti-fibrotic compounds screening or validation, or patient tissue characterization. We can do routine biopsy quality control (pre-biobanking) or fibrotic animal model quality assurance (pre-study biopsy and fibrosis quantification). 

We welcome typical non-stained FFPE - 5 micron -  or frozen section slides, which are returned after the study for further characterization (usually biochemistry). 

Our expertise includes LIVER models (TAA, CCl4, BDL, Fat Diets, AMILIN, MDR2 etc), LUNG IPF models (Bleomycin), KIDNEY Models (UUO) and GI Models

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Step 1: Imaging

High Resolution Second Harmonic Generation (SGH) is a gold standard to image non centro-symmetric molecules like Collagen I and Collagen III specifically.

Label Free Two Photon intrinsic fluorescence (2PE) is the second optical method used to image cellular-level components, such as NADPH which translates to mitochondrial / cell health.

Genesis is is a mid-throughput fully automated imaging system (10 slides per batch) to image both Collagen (SHG) and NADPH (2PE) in high resolution in 2D and 3D (0.4x0.4x1 micron at 20X).

Tissues are prepared following conventional pathology protocols (5 micron sections of FFPE blocs) or frozen sections. For 3D, we can use 50 to 300 microns-think tissues.

In Low Resolution for web: Left : NASH Liver Model shows collagen strings (green, SHG) overlapping the Fluorescence Signal from NADPH (cells).  Right : the corresponding SHG / collagen image alone, that offers a great deal of information on the collagen content and structure, which is later quantified by our tools.

In Low Resolution for web:

Left : NASH Liver Model shows collagen strings (green, SHG) overlapping the Fluorescence Signal from NADPH (cells). 

Right : the corresponding SHG / collagen image alone, that offers a great deal of information on the collagen content and structure, which is later quantified by our tools.

Side by side comparison of SHG & 2PE imaging of non-strained 5 micron FFPE slide with conventional PSR staining. Credits to Beth Israel Deaconess Medical Center, 2016.

Step 2: Image Analysis and quantification

Each image analysis algorithm is tissue/dependent. See our pipeline here.

Images are treated with clinically validated algorithms to quantify the amount and features of Collagen, including Total Collagen, Distributed Collagen, strings count and topological distributions including nodes/cross links. Our algorithms are "machine learning" with pathologists inputs and then validated against conventional stained and quantified H&E images.

LIVER Fibrosis Imaging and Quantification

Fibro-C-Index: is a comprehensive, morphology-based quantification of liver fibrosis using second harmonic generation and two-photon microscopy. Fibro-C index performs as well as F-Scores (below, see "science")

Above: Validation of Fibro-C Index with conventional histopathology scoring (liver fibrosis). Jour. Biomed. Optics 14(4), 2009

Above: (A) Changes of qFibrosis with fibrosis progression between the various stages in Thioacetamide (TAA)-treated animals (p<0.001) and (B) Changes of collagen proportionate area (CPA) with fibrosis progression in TAA-treated animals.  F0 = without TAA treatment, F1 = 4 weeks, F2 = 8 weeks, F3 = 10 weeks & F4 = 12 weeks.

qFibrosis: is  fully quantitative score incorporating both fibrosis (SGH) and NADPH (2PE) Signal. qFibrosis is show to perform as well as Metavir Scores, and is more robust ( less operator drive variance such as staining artifacts or pathologist scoring errors) ( see "science") histological features to facilitate accurate fibrosis scoring.

More information about Fibro-C-Index and qFibrosis in Science.

Applications to Drug Discovery

As shown below, antifibrotic drug candidates are easily evaluated using our 2DFibrosis Charts. They summarize the effect of a compound on both the collagen content (Collagen Fibers Area% or even better our Collagen Fiber Density %) and the collagen matrix structure (Collagen Network Reticulation Index or Collagen Reticulation Density), with robust data obtain with N=4 or 5 only.

The Antifibrotic effect of Pirfenidone on a CCl4 Rodent Model is easily show on our 2DFibrosis Chart ( above). The data is extracted from our SHG Images (below). Credits: Genesis Imaging Service and GenScript, 2016.

LUNG Fibrosis Imaging and Quantification

Our machine-learning algorithms are able to automatically identify the three main functional areas of the lung : the "lesional" or "Inflamatory" areas ( in red below), the "Parenchymal" or "functional" areas ( in blue below) and the "Structural" areas (in green). The segmentation of these regions is automatic and the algorithms are based on the analysis of the texture of the collagen matrix, and have been trained by pathologists.

IPF Bleomycin mouse lung model at 20 days

IPF Bleomycin mouse lung model at 20 days

In each region, we routinely quantify collagen content and collagen structure (including collagen fibers reticulation index - CRI), as well as a plethora of fibers morphometrics. With both Collagen content and Collagen structure information, we can stratify the fibrosis on our 2DFibrosis Charts, which are very practical tools to study the effect of a compound and / or stratify study groups as shown below: 

The full study, including comparison to conventional Fibrosis outcomes is presented here.

Credits: Genesis Imaging Services and GenScript, May 2016

KIDNEY Fibrosis Imaging and Quantification

As for Lung/IPF, our machine-learning algorithms identify the cortical and medulla regions on a typical Kidney "wedge" biopsy. In each region, collagen content and collagen structure / reticulation are automatically quantified, and can also be displayed on our 2D fibrosis Charts (see below the progression of Fibrosis on a Kidney UUO Model from Day 0 to Day 28). Such capabilities are not limited to "wedge"biopsies: they can be performed on any kid of tissue, including human frozen sections biopsies.

Additional custom quantification capabilities can be developed, for instance to evaluate and substantiate a mechanism of action.

Credits : HistoIndex, A*Star Singapore, Genesis Imaging Services, May 2016

Credits : HistoIndex, A*Star Singapore, Genesis Imaging Services, May 2016

The full study, including comparison to conventional Fibrosis outcomes is presented here. Credits : GenScript, A*STAR Singapore, Genesis Imaging Services, September 2016

The full study, including comparison to conventional Fibrosis outcomes is presented here.

Credits : GenScript, A*STAR Singapore, Genesis Imaging Services, September 2016

Above: SHG and 2PE imaging (20X) of the Cortex Region in a mouse UUO Model, at different Stages ( stdy describe above) Below: Corresponding SHG Image, showing the sensitivity and level of details of our imaging methods. Hypothesis-driven imaging tools can be applied to substantiate specific MOA.

Above: SHG and 2PE imaging (20X) of the Cortex Region in a mouse UUO Model, at different Stages ( stdy describe above)

Below: Corresponding SHG Image, showing the sensitivity and level of details of our imaging methods. Hypothesis-driven imaging tools can be applied to substantiate specific MOA.

...and in 3D:

Small areas of interest ( L200 x W200 x H50 to 300 microns) can easily be imaged. Two-photon optical methods have the unique property of collecting photons from a very small and confined "excitation volume" - in yellow in the drawing above - which enables a very good optical sectioning capability (when compared to single photon methods, even confocal methods). As a result, 1 micron x 1 micron x 1 micron 3D resolution is achieved on Genesis, allowing 3D visualization of collagen fibers as shown below:

3D rendering of the SGH (collagen) signal, showing collagen fibers organization in a 200x200x50 micron volume.

Genesis Technology Dedicated To Liver Analyses

The Genesis Imaging System can be used with many organs, and is a 10-slide Batch automated system for Mid-throughput R&D.

Laennec has been designed and defined to scan microscopic slides, one at a time, to capture and display SGH and 2PE signals of liver tissue samples. Laennec requires small footprint and can run qFibrosis and Fibro-C scores. One day in the future, Laennec will be on every liver pathology or liver transplant practice for rapid and automated liver evaluation. Laennec is used as a ROU instrument for now.

High-resolution imaging technology for cellular-level biological tissue imaging.

The Light-CT optical coherence tomography system combines white light interferometry principles with microscope resolution capabilities, in order to provide en-face images below the surface of biological samples.

Light-CT is the only technology enabling one micron cellular resolution imaging in all 3 dimensions at significant depths. It does not require tissue preparation, nor modification, nor staining of any kind, unlike conventional histology slide preparation.

 

Light-CT performs non-invasive and non-destructive real-time optical biopsy. This technology is particularly suitable for:

  • fast tumorous tissue assessment
  • triage, biobanking
  • embryology, neurology, small animal (rodents, drosophila, C. Elegans, etc.)
  • 3D imaging of matrigel scaffolds
  • precious or fragile tissue (stem cells, ophtalmic samples)
  • cosmetology

 

The Light-CT Scanner is intended to acquire, store, retrieve, display, and transfer optical coherence tomography images of unsectioned excised surgical tissue for review by physicians to assist in forming a clinical judgment. The Light-CT Scanner is not intended as a primary means of diagnosis. The Light-CT Scanner is certified for research use only.

More information about the Light-CT Scanner in Science.