Bioprinting Technology Equipment
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Manufactured by Inventia Life Science Pty Ltd (ILS)based in AUSTRALIA
We’re not chasing pipe dreams about printed organs. Our core technology in digital bioprinting is built for fast, scalable and reproducible printing of 3D cell constructs that you can ...
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based in CANADA
Accurately recreate complex and functional physiological structures for medical research, therapeutic discovery and regenerative medicine using the Aspect ...
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Manufactured by Prellis Biologics, Inc.based in USA
Prellis’ proprietary holographic laser printing technology enables rapid construction of high-resolution biocompatible scaffolds. Prellis bioprints complex micron-feature sized scaffolds up to 400 times faster than other laser printing technologies. Prellis holographic printing is fully integrated with internally developed ...
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Manufactured by Prellis Biologics, Inc.based in USA
Ultra fine resolution allows for printing vascular-like channels and microarchitecture that mimic human biology. The thin, gas and nutrient permeable channel walls of the microstructures and vessels facilitate nutrient diffusion in a cell-dense environment. Tissue scaffolds are printed in various conformations with tunable biochemical and mechanical properties. Prellis tissue models can be seeded ...
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Manufactured by Prellis Biologics, Inc.based in USA
The ability to precisely engineer scaffold architecture bypasses the need to rely on spontaneous organoid formation or in vitro vascularization, supporting large tissue ...
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Manufactured by Prellis Biologics, Inc.based in USA
Large organoids and tissue models can be grown in vitro in flow-free culture, reducing the time to organoid development while maintaining the properties of a 3D organoid. Organoid scaffolds are laser printed using transplantable hydrogel material allowing for both in vitro studies and transplantation of the same tissues into animal models. To support cell adhesion, growth, and differentiation, ...
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Manufactured by ROKIT Healthcarebased in SOUTH KOREA
Cellular functions are highly responsive to temperature which can also affect cell viability. A next-generation bioprinting technology should be ready for the most complex challenges in human tissue fabrication and applications. Stepping up from simply laying cells out in a 3-dimensional space, Dr. INVIVO 4D6, with the built-in cell ...
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Manufactured by Poietisbased in FRANCE
Next Generation Bioprinting (NGB) plaform has been developed to overcome current tissue manufacturing methods which are the bottleneck impeding standardisation, scale-up and large-scale market adoption of Tissue-Engineering products. It solves critical limitations of existing 3D bioprinting technologies thanks to single-cell ...
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Manufactured by Alcyomics Ltd.based in UNITED KINGDOM
Tissue Engineering 3D Platform Building tissue one layer at a time. Our expertise in the additive manufacturing and 3D printing technology combined with our understanding of 3D tissue models allows us to explore the bioprinting of various cell types (Figure 1) to biofabricate tissue for in-vitro applications. Utilising the speed, ...
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based in USA
The high-throughput, fully automated biodispensing solution that leverages BIOPOD (bioprinting on demand) technology with pre-set and pre-validated protocols to bring the power of 3D cell biology to your ...
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Manufactured by CELLINKbased in USA
Upscaled automation: The high-throughput, fully automated biodispensing solution that leverages BIOPOD (bioprinting on demand) technology with pre-set and pre-validated protocols to bring the power of 3D cell biology to your ...
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Manufactured by Poietisbased in FRANCE
NGB-C is a clinical-grade, GMP-compliant Bioprinter designed to meet the needs of Advanced Therapy Medicinal Products (ATMP) production and the requirements of Poietis’ ...
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Manufactured by Vivax Bio, LLCbased in USA
The company works on new types of bioprinters, based on magnetic levitation in a controlled magnetic field. This revolutionary biofabrication methods would transform the technology of 3D bioprinting, while opening real opportunities for programmable selfassembly of tissue and organ constructs without solid ...
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Manufactured by ROKIT Healthcarebased in SOUTH KOREA
EpiTem is reconstructed human epidermis model by culturing human keratinocytes on a chemically defined medium. EpiTem is highly differentiated, where all four epidermal layers can be clearly seen and the OECD TG439. qualifies. As an alternative to animal testing, EpiTem can be used for testing cosmetic ingredients, pharmaceuticals and skin research testing. EpiTem also has epidermis models ...
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Manufactured by 3D Bioprinting Solutionsbased in RUSSIA
FABION is the first Russian-made 3D bioprinter of original design and make for printing live and functional tissue and/or organ constructs, allowing precise layer-by-layer deployment of tissue spheroids (bioink) in hydrogel (biopaper) according to a programmed digital model. Thanks to the unique design and engineering solutions developed by the ...
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Manufactured by Organovo Holdings Inc.based in USA
Our bioprinting process starts with the identification of key architectural and compositional elements of a target tissue, and the creation of a design that can be utilized by a bioprinter to generate that tissue in the laboratory environment. The next step is to develop the bioprocess protocols required to generate the multi-cellular ...
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Manufactured by Vivax Bio, LLCbased in USA
Accordingly, 3D bioprinting (or tissue, organ construct, or organ printing) is an automated and computerised process of layer-by-layer printing of 3D animal or human tissues, organ constructs or whole organs by using cells or tissue spheroids (cell aggregates) as bioink and using biodegradable hydrogels, holding cells or spheroids in ...
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