The Advanced Cell Engineering and 3D Models (ACE-3M) Core provides established services offered previously by AIM and C-BASS cores plus new expanded capabilities for tumor organoids grown in 3D ...

the development of a pipeline to functionally evaluate 3D organoid models from patients with genitourinary tumors, and how to better understand your 3D cell models and make insightful discoveries.

His models primarily involve the use of 3D cultures and microphysiological systems generated from multi-species induced pluripotent stem cells. Here Szilagyi, reviews the utility of 3D cell models, ...

These images facilitate the mapping of 3D cell morphology in developing organisms ... to organisms that are not typically ...

Advanced 2D and 3D cell models can help researchers better understand the absorption, distribution, metabolism, excretion and toxicity (ADMET) of new drug compounds. In this webinar, our expert ...

Biomedical engineers at Duke University have developed a 3D imaging method to precisely map and categorize the social ...

Our platform integrates cutting-edge 3D cell model architectures, matrices, and precision drop-on-demand technology, facilitating a deeper understanding of complex biological systems. We also offer a ...

It contains up to 96 cell culture chambers that allow co-culture of 3D tissues under continuous perfusion. Highly physiologically relevant tissue and disease models are constructed by (co-)culturing ...

which is particularly important for 3D culture workflows and drug development. 3 This allows researchers to scale up their cell culture models, facilitating faster and more relevant discoveries.

However, to optimize their use, variability needs to be reduced, and technology pipelines must be developed to accurately image, monitor and quantify these complex 3D cell models. In this eBook, in ...