ClearLight Closes Lab Services and Offers Expert Consulting Services Learn More

ClearLight Diagnostics and the OHSU Center for Spatial Systems Biomedicine Collaborate to Define Tumor Microenvironment in Pancreatic Cancer

Posted on Oct 05, 2016

source: PRNewswire

SUNNYVALE, Calif., October 3, 2016 (PR NEWSWIRE)

ClearLight Diagnostics, LLC (ClearLight) announced today that it has signed a collaboration agreement with the Oregon Health & Science University Center for Spatial Systems Biomedicine (OCSSB) to study the tumor microenvironment in patients with cancer.

“As we launch our first academic collaboration, we are excited to have the unique opportunity to work with researchers at OHSU to leverage their expertise in cancer biology,” said Laurie Goodman, Ph.D., Chief Scientific Officer of ClearLight Diagnostics. “We will apply ClearLight’s next-generation tissue processing and imaging technology to this work to make new discoveries in the understanding of pancreatic cancer.”

Working with researchers at OCSSB, ClearLight will utilize proprietary methods for tissue processing and 3D light-sheet microscopy to develop biomarkers to map key aspects of the microenvironment of human pancreatic cancer. Stromal-immune interactions are poorly defined in malignancies, due to the loss of 3D spatial information by standard 2D immunohistochemistry methods. Pancreatic tumors are an excellent model for this study because they characteristically exhibit a reactive stroma and strong immune infiltration and yet have poor clinical outcomes. Recent discoveries in pancreatic cancer drug development have elevated the importance of precisely defining this microenvironment to develop therapies and diagnostics that are more predictive of clinical outcome. Current technologies have limited capability to spatially characterize tumor microenvironments.

“Pancreatic cancers are notoriously difficult to treat,” said Joe Gray, Ph.D., Director, OCSSB and Associate Director for Biophysical Oncology, OHSU Knight Cancer Institute. “We believe that tumor-microenvironment interactions strongly influence therapeutic response. We look forward to working with ClearLight Diagnostics to identify resistance-associated interactions through 3D analysis of pancreatic cancers. We hope to use this information to devise therapeutic approaches that counter microenvironmental mediated resistance.”

The collaboration between ClearLight and OHSU demonstrates a commitment to convert research discovery to clinical application.

Founded by Karl Deisseroth M.D., Ph.D., ClearLight is developing a tissue processing platform based on the CLARITY lipid-clearing technique developed by Dr. Deisseroth and colleagues at Stanford University. This technique enables the transformation of tissue into a nanoporous, hydrogel-hybridized form that is cross-linked to a three-dimensional network of hydrophilic polymers. The process produces a fully assembled, intact tissue, which is permeable to macromolecules and optically transparent, thus allowing for robust three-dimensional imaging of subcellular components (DNA, RNA and protein) and heterogeneous cellular interactions within the tumor microenvironment. This technology, paired with the development of a tissue imaging platform that includes the revolutionary microscopy method, COLM (CLARITY Optimized Light-sheet Microscopy) will enable unprecedented depth and acceleration of image collection from lipid-cleared samples interrogated with biomolecules.

About ClearLight Diagnostics

ClearLight Diagnostics is a technology development company focused on the discovery, development, and commercialization of innovative technologies to significantly improve the diagnosis and treatment of a wide range of diseases with an initial focus in oncology.

View the full press release at PR Newswire

For immediate release: ClearLight Diagnostics, LLC




Analysis can be performed for select biomarkers, please contact us to find out if your target of interest is one of them. Imaging is currently performed on select fields of view instead of the entire sample.

Submission Guidelines

Tissue Sample Requirements: