BioIVT Acquires Ascendance Biotechnology, Expanding its Drug Safety Testing and Toxicology Portfolios

March 27, 2018

BioIVT now offers unique and proprietary bioengineered micro-liver platforms for use in environmental testing, preventive care, and product development in the pharmaceutical and biopharmaceutical, diagnostic, cosmetics, and chemical industries

PRINCETON, NJ - Mar 27, 2018 - BioIVT, a leading provider of biospecimens and related services, today announced that it has acquired Ascendance Biotechnology, Inc. Ascendance was formed in November 2015 from the merger of Hepregen Corporation and the ESI BIO products division of BioTime Inc. to form a multinational cell-based assay company.

As a result, BioIVT is adding Hepregen’s HepatoPac®, HepatoMune™ and HepatoStem™ liver cell and stem cell product lines to its drug safety testing and toxicology portfolios.

“We are delighted to have acquired Hepregen’s proprietary technology and product lines. They dovetail beautifully with BioIVT’s in vitro hepatic models and service offerings,” said BioIVT Chief Executive Officer Jeffrey Gatz. “We anticipate that expanded use of Hepregen’s highly functional, in vitro liver models will lead to greater understanding of the toxicity resulting from long-term exposure to chemical compounds.”

“We have found the ideal new home for our Hepregen products,” said John (Jack) McGeehan, Ascendance Vice President, ADME-Tox Product Development. “BioIVT shares our commitment to excellent customer service and rigorous product quality assurance and quality control. Customers can rest assured that they will continue to receive the highest levels of consistency and reproducibility that they have come to expect from Hepregen products.” 

Hepregen’s products employ a patented cell micropatterning technology in which different cell types are plated on industry-standard microwell plates in proprietary patterns. The plates provide in vitro cellular co-cultures that have a longer life and improved function.

Its HepatoPac products feature primary hepatocytes and fibroblasts that have been micropatterned to create hepatocyte ‘islands’ surrounded by supportive stromal cells. This approach closely mimics the function of a human liver and allows the hepatocytes to maintain normal metabolic activity for several weeks.

With HepatoMune, the micropatterned primary hepatocytes and fibroblasts are supplemented with primary Kupffer cells, creating highly functional human liver tissue that models inflammation-mediated hepatotoxicity. HepatoMune tri-cultures remain viable for at least 10 days, retaining both liver cell and Kupffer cell functionality, and can be used for predicting clinical outcomes.
 
HepatoStem applies that same micropatterning technology to stem cells.

Financial details about the transaction were not disclosed.

About BioIVT

BioIVT, formerly BioreclamationIVT, is a leading global provider of high-quality biological specimens and value-added services. We specialize in control and disease-state samples including human and animal tissues, cell products, blood and other biofluids. Our unmatched portfolio of clinical specimens directly supports precision medicine research and the effort to improve patient outcomes by coupling comprehensive clinical data with donor samples. Our PHASEZERO® Research Services team works collaboratively with clients to provide target and biomarker validation, phenotypic assays to characterize novel therapeutics, clinical assay development and in vitro hepatic modeling solutions. And as the premier supplier of ADME-toxicology model systems, including hepatocytes and subcellular fractions, BioIVT enables scientists to better understand the pharmacokinetics and drug metabolism of newly-discovered compounds and their effects on disease processes. By combining our technical expertise, exceptional customer service, and unparalleled access to biological specimens, BioIVT serves the research community as a trusted partner in elevating science. For more information, please visit www.bioivt.com or follow the company on Twitter @BioIVT.