ABOUT CARR BIOSYSTEMS
With over three decades of pioneering versatile stainless steel and single-use separation systems, CARR Biosystems delivers high-performance, fully-scalable bioprocessing solutions to accelerate process development. We help scientists and engineers produce vital biologics in emerging and established markets, including cell and gene therapy, vaccine development, microbial fermentation, and cellular agriculture.
HOT PRODUCTS
CONTACT INFORMATION
CARR Biosystems
14550 58th St N
Clearwater, FL 33760
UNITED STATES
Phone: 727.287.9400
Contact: Dave Johnson
FEATURED ARTICLES
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Traditional depth filtration struggles with lentiviral harvest clarification, leading to low yields and high costs. However, single-use centrifugation offers a promising alternative.
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This article discusses the application of tubular bowl centrifuge technology in the cultivation of induced pluripotent stem cells (iPSCs) for regenerative medicine.
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Explore how the processing speed of cell separation methods impacts product quality, process efficiency, and overall economics.
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Single-use tubular bowl centrifuges are standing out to cell therapy developers for their ability enable the optimal balance between high separation efficiency, high productivity, and low shear.
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Explore the significance of low-shear separation and delve into the principles of tubular bowl centrifugation, comparing it to alternative technologies.
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For many applications, cutting-edge centrifugation technologies can achieve cell harvest optimization, providing a low-shear, high-yield process that is tightly controlled and highly reproducible.
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Benefit an instrument that is showing potential to optimize Vero cell culture processes through concentration and FBS removal using PBS as the wash solution.
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Clarify HEK293 cells in various stages of production from research to manufacturing with a family of products that demonstrate high yield and viability rates while maintaining target NTU readings.
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How does the UFMini single-use centrifuge significantly reduce filtration needs and enhance the amount of viral titer collected?
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Evaluate the performance of a cell harvesting system using data on the titer recovery and turbidity during the downstream processing and clarification of lentiviral vectors.