Using TheWell Bioscience’s complete xeno-free 3D cell culture platform, we offer customized services that help reduce setup time, lower development costs, and accelerate your research. We work with your goals and budget to establish an optimized workflow, so you can focus on generating reliable and reproducible results. In addition, our scientists can work with you […]
Monmouth Junction, NJ — May 19, 2026 — TheWell Bioscience, a biotechnology pioneering advanced 3D cell culture technologies, today announced the launch of its RocketCell™ Organoid Xeno-Free Essential-Core Medium, a chemically defined, universal foundation medium designed to streamline organoid culture workflows while enhancing reproducibility, scalability, and cost efficiency. As organoid models continue to expand across […]
Batch-to-batch variability and difficult handling associated with animal-derived matrices like Matrigel remain persistent challenges in organoid research, affecting reproducibility, translatability, and scalability. At TheWell Bioscience, we’ve built a fully xeno-free, end-to-end ecosystem specifically designed to help researchers standardize and simplify organoid development without sacrificing performance. Key products for organoid culture
Join us at Microphysiological Systems (MPS) World Summit 2026 from May 26-29, 2026, at the Walter E. Washington Convention Center Explore a more advanced and adaptable approach to cell culture with VitroGel® hydrogels, RocketCell™ media, CytoGrow™ growth factors, VitroPrime™ cultureware, and Cyto3D® analysis. Together, these integrated solutions enable reproducible and scalable workflows for organoids, xenografts, […]
We were thrilled to welcome researchers from around the world to Booth #1941, where conversations centered on advancing cancer research through scalable, consistent, and clinically relevant models. A key highlight was the strong interest in our end-to-end xeno-free 3D cell culture platform—featuring VitroGel® hydrogels, RocketCell™ media, CytoGrow™ growth factors, VitroPrime™ cultureware, and Cyto3D® analysis. Built […]
Join us at AACR 2026 Annual Meeting from April 19–22, 2026, at the San Diego Convention Center. Discover a smarter, more flexible approach to advanced cell culture with VitroGel® hydrogels, RocketCell™ media, CytoGrow™ growth factors, VitroPrime™ cultureware, and Cyto3D® analysis. Together, these solutions support reproducible, scalable workflows across organoids, xenografts, invasion assays, stem cell culture, […]
Eligibility & Submission Rules: Applicants may submit only one entry per person for this travel award. Submissions for multiple events are not permitted and will result in disqualification. Duplicate entries (e.g., submissions under different email addresses) will be voided. Four (4) applicants will be selected randomly per event. Terms and Conditions Apply. To apply, please […]
Monmouth Junction, NJ — March 4, 2026 — TheWell Bioscience, a leader in advanced xeno-free cell culture technologies, today announced the launch of RocketCell™ hMSC Xeno-Free Complete Growth Medium, a chemically defined, xeno-free medium engineered for high-performance human mesenchymal stem cell (hMSC) expansion across research, translational development, and cell therapy manufacturing workflows. As regulatory agencies […]
Inside SLAS2026: Key Highlights, Connections, and Innovations SLAS2026 was an energizing week of scientific exchange, meaningful conversations, and hands-on demonstrations for the team at TheWell Bioscience. The event offered an invaluable opportunity to connect with researchers and partners, explore the evolving needs in automated 3D cell culture and organoid research, and showcase how TheWell Bioscience’s […]
A new in-plate, zero-disruption design enables reproducible organoid culture, downstream processing, and high-resolution imaging in a single 3D cell culture plate Monmouth Junction, NJ — February 9, 2026 — TheWell Bioscience today announced the launch of the VitroPrime™ 3D Culture and Imaging Plate, a next-generation 3D cell culture plate engineered to support organoid and advanced […]
