InSphero to Introduce GravityTRAP™ 384 Microtissue Platform at SLAS2017

The New platform includes two features that differentiate it from existing 384-well plates

Feb 1, 2017

InSphero AG, the leading supplier of advanced, yet easy-to-use 3D cell culture-based solutions for drug discovery and development, will debut the GravityTRAP™ 384 Microtissue Platform at the Society for Laboratory Automation and Screening (SLAS) 2017 Conference, February 4-8 in Washington, D.C.

Engineered specifically for 3D microtissue culture, the GravityTRAP™ 384 platform includes two features that differentiate it from existing 384-well plates: distinct microtissue culture and media chambers separated by a tapered SureXchange™ pipetting ledge, providing safe medium aspiration and exchange without accidental loss of microtissues; and a continuous flat-bottomed glass base plate combined with a black-walled body, ensuring superior confocal and high content imaging optics while reducing fluorescent cross-talk between wells. The platform conforms to Society for Biomolecular Screening (SBS) standards and is compatible with state-of-the-art high content imaging and automated liquid handling systems.

“More and more, industry is looking to leverage 3D models that better reflect in vivo...

InSphero will begin delivering microtissues in the GravityTRAP™ 384 format throughout the year, starting with human liver microtissues for early stage drug-induced liver injury (DILI) screening, and multicellular tumor spheroid (MCTS) co-culture models that recreate complex tumor microenvironments for cancer drug screening. In addition to providing assay-ready models in 96- and 384-well formats, Dr. Lichtenberg said that InSphero will offer contract model development services to screening groups that need custom microtissues for specific 384-well projects. “We can assist research teams by doing the 3D model development for them. Our scientific staff is highly experienced in evaluating which cell types readily form microtissues, and they can efficiently create simple, monoculture 3D models, for example from modified tumor cell lines, as well as more complex co-culture models. Our goal is to not only relieve the microtissue and assay development burden, but also long-term sourcing, production and QC costs.”

For more information about InSphero, visit

Interested in reading more?

The Scientist ARCHIVES

Become a Member of

Receive full access to more than 35 years of archives, as well as TS Digest, digital editions of The Scientist, feature stories, and much more!
Already a member?