Bridging the Gap: From Discovery to Delivery

Disclaimer: this video is for demonstration purposes only. The device is under development and not cleared for clinical use. Bubble-free. Laminar flow. Isometric scaling from 50 mL to 250 mL. Automated continuous perfusion for up to 30 days unattended. Biomanufacturing has a complexity problem. Cold chains, rigid cell type requirements, immense volumes and high CAPEX have long been barriers between discovery and delivery. The High-Throughput Bioprocessor reengineers the entire workflow, from inoculation to harvest, without compromise. Stämm's High-Throughput Bioprocessor (HTB) is a next-generation cell culture system built for bioprocess engineers and cell culture scientists who demand precision. This bioreactor delivers fully automated environmental control, ultra-low shear laminar flow, and integrated digital monitoring, all within a modular, plug-and-play architecture. Designed for RUO applications across biopharma R&D, CDMOs, and CROs, the HTB supports both adherent and suspension cell cultures across monoclonal antibody production, stem cell research, gene therapy, and tissue engineering. As a bioprocess platform, it provides reproducibility, enabling decentralized biomanufacturing at a fraction of the traditional footprint. ———————————— ⚙️ KEY TECHNICAL FEATURES: Bubble-Free Bioreactor (BfB): Impeller-free design eliminates hydrodynamic shear stress using laminar flow; no sparging, no antifoam, no bubbles, no turbulence. Isometric scalability from 50 mL to 250 mL with consistent single-use cartridge architecture, no tools required. Fully automated closed-system control of physicochemical parameters for both adherent and suspension cell cultures. Continuous perfusion and pre-designed batch processes for up to 30 days of unattended operation maximizing processing throughput. Parallelized operation: 3 independent, coordinated bioprocesses running simultaneously for accelerated development. Integrated digital monitoring with real-time data acquisition, cloud sync, encryption, and process analytical technology (PAT) for total traceability. What is your biggest bottleneck today? Is it shear stress, process control, scalability, high costs, or data traceability? Share your experience in the comments below. 📥 EXPLORE THE HTB, TECHNICAL DETAILS & CONTACT: 👉 www.stamm.bio ———————————— ⏱ CHAPTERS: 00:00 – Introduction & The Biomanufacturing Challenge 00:41 – Presenting the High-Throughput Bioprocessor 01:10 – The Bubble-Free Bioreactor, How It Works 02:04 – Specifications, Design & Workflow 02:55 – Applications & Use Cases 04:05 – Decentralized Biomanufacturing & The Road Ahead ———————————— 🎬 CREDITS: Directed by: Shadi Elías Jaber & Fidel Chaves Produced by: Martina Casas Script & Science Communication: Fidel Chaves Cinematography & Editing: Shadi Elías Jaber 3D Animation: Joaquín Peña Gazal & Shadi Elías Jaber 3D BFB Modeling: Julián Frances Voice Over: Tom Harris Track: Returning Home (Epic Emotional Inspiring Adventure Trailer Music) Music provided by AUDIOREZOUT ———————————— 🌐 CONNECT WITH US: Website: www.stamm.bio LinkedIn:   / stammbio   Instagram: @stamm.bio Twitter/X: @stamm.bio 📧 [email protected] ———————————— If precision bioprocessing is part of your work, subscribe for upcoming deep-dive technical reviews, live data, and application-specific breakdowns of the HTB. Drop a comment, what application are you most interested in running on a continuous perfusion platform? ———————————— #HighThroughputBioprocessor #SingleUse #Bioreactor #CellCultureSystem #Technology #LabEquipment #Biomanufacturing #Biopharma #GeneTherapy #MonoclonalAntibodies #LifeSciences #Biotech #CellBiology #StemCellResearch #Innovation