Scientific Library

Transporters have become increasingly important in drug development due to the major role they play in absorption, distribution and excretion of

Sekisui XenoTech has just been issued U.S. Patent No. 9,642,355 for the “cryopreservation of cells and subcellular fractions,” specifically related to Sekisui XenoTech’s CryostaX®

Functionality and viability of primary cells can be impaired by incorrect thawing procedures, storage or culture conditions. It's generally admitted that applying the same protocols as

Over the years, Sekisui XenoTech has built up a strong expertise in preparing subcellular fractions for ADME applications.

There is

Sekisui XenoTech now offers human liver tissue microarrays (TMA) and a microsomal pool for studying and developing new treatments for fatty liver disease (FLD). The

In a few forthcoming posts, I'd like to share several short articles published by Dr Chris Bohl of Sekisui Xenotech, a technical expert in the field of ADME-Tox tools and applications. I feel they may

Following up on my series of posts based on Dr Chris Bohl's work at Sekisui Xenotech, in this post I invite you to take a look at the work he has published, together with Dr Christopher Seib, Maciej Czerwinski,

Pooled human hepatocytes are a preferred test system in many drug discovery and development applications requiring intact cellular systems for in vitro testing. Intact hepatocytes contain the

NADPH is a critical cofactor supporting numerous biochemical reactions. In ADME-Tox studies, NAD(P)H regeneration is strongly recommended when using drug metabolizing enzymes (ex. Cytochrome

Membrane transporters can have clinically relevant effects on the pharmacokinetics and pharmacodynamics of a drug in various organs and tissues by controlling its absorption, distribution and elimination.

I am following up on my series of posts based on the work done by Chris Bohl and collaborators at Sekisui Xenotech. Here, he looks at the effect of cryopreservation on pooled hepatocytes metabolic activities,

Kupffer primary cells are macrophages endogenous to the liver which have the ability to modulate hepatic inflammation and injury associated with various pathophysiologies and toxicities.