Home

3D IN VITRO MODELS FOR BETTER PREDICTION OF CLINICAL OUTCOMES

WHO WE ARE

A passionate, rigorous and dedicated team of scientists who deliver the highest quality services and products. Your reliable and knowledgeable partner.

WHAT WE DO

Learning from structures in the body, we recreate functional 3D in vitro models through innovation and science. Our models incorporate the “best biology” and are predictive of new drugs’ in vivo safety and efficacy.

HOW WE DO IT

Using our expertise in induced pluripotent stem cells (iPSCs), cellular physiology and organoid technology, we build functional pre-clinical in vitro models of kidney, retina, liver and lung. We engineer them from patient samples and a range of pre-clinical species.

WHY WE DO IT

Our purpose is to bridge the gap between scientific discovery and patients. We make a difference by providing better predictions of clinical outcomes.

WHO WE ARE

A passionate, rigorous and dedicated team of scientists who deliver the highest quality services and products. Your reliable and knowledgeable partner.

WHAT WE DO

Learning from structures in the body, we recreate functional 3D in vitro models through innovation and science. Our models incorporate the “best biology” and are predictive of new drugs’ in vivo safety and efficacy.

HOW WE DO IT

Using our expertise in induced pluripotent stem cells (iPSCs), cellular physiology and organoid technology, we build functional pre-clinical in vitro models of kidney, retina, liver and lung. We engineer them from patient samples and a range of pre-clinical species.

WHY WE DO IT

Our purpose is to bridge the gap between scientific discovery and patients. We make a difference by providing better predictions of clinical outcomes.

 

RENAL DRUG SAFETY

aProximateTM is our state of the art in vitro proximal tubule cell model for renal safety and efficacy studies.

VIEW OUR MODEL

RENAL TRANSPORT AND DRUG-DRUG INTERACTION

aProximateTM is our state of the art in vitro proximal tubule cell model for renal transport investigations.

VIEW OUR MODEL

RENAL TRANSPORT AND DRUG-DRUG INTERACTION

aProximateTM is our state of the art in vitro proximal tubule cell model for renal transport investigations.

VIEW OUR MODEL

RETINA MODEL

An in vitro, iPSC-derived retinal organoid and companion retinal pigment epithelium for better prediction of in vivo outcomes.

VIEW OUR MODEL