Global 3D Cell Culture Market that anticipates the growth of this market between 2017 and 2023, with 25% CAGR (Compound Annual Growth Rate). The key findings of this report mention that by the end of forecast period, by product segmentation, consumables will be the highest growing segment of the global 3D cell culture market, with a CAGR of 25.88%. At the same time, among application, drug discovery will emerge as the largest segment with 25.75%. As a whole segment, The Pharmaceutical & Biotechnology Companies is expected to witness maximum growth with the CAGR of 26.13%.
Major key players in the global 3D cell culture market include Becton-Dickinson and Company (USA), Charles River Laboratories Inc (USA), Corning Incorporated (USA), The Electrospinning Company (UK), InSphero, AG (Switzerland), Kuraray Co Ltd (Japan), Lonza (Switzerland), Lena Biosciences Inc. (USA), Merck KGaA (Germany), Tecan Trading AG (Switzerland), ReproCELL Europe Ltd (UK), and Thermo Fisher Scientific Inc. (USA).
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Latest Industry News
- ALPCO, a leading producer of research and clinical immunoassays, has announced its partnership with InSphero, AG. This partnership aims to provide customers with a complete solution to assess beta-cell function in islet micro tissue culture models. 24 JUL 2018
- Collaborating with the University of Strathclyde, Biotechnology giant AMSBIO has set up a new joint venture company called ScreenIn3D, exploiting the latest advances in microfluidics and 3D cell culture, to develop a novel microfluidic screening platform. 6 JUL 2018.
global 3D cell culture market has been segmented into the application, end user, product, technique, and lastly region. Based on application, this market has been segmented into cancer research, drug discovery, regenerative medicine, stem cell research, tissue screening & engineering, and others. Drug discovery is the process that helps the researchers to discover new candidate medications. Regenerative medicine is defined as a branch of translational research in molecular biology and tissue engineering. It deals with the process to replace, engineer or regenerate human cells, tissues or organs in order to restore or establish normal function. The process of borrowing cells from developed organs of the body and used for repairing unhealthy organs is called stem cell research. The purpose of tissue engineering is to assemble the functional constructs that heel, maintain and restore the damaged tissues or whole organs.
Some factors that drive the growth of the global 3D cell culture market include organ and tissue regeneration capability and providing drug toxicology screening. Other factors contributing to the rapid growth of this market include rising approval from government bodies, growing awareness, increasing the incidence of cancer and rising demand for organs transplantation and lastly the varying applications of 3D cell culture in biotech and pharmaceutical industry and rising prevalence of cancer worldwide. Demand for organ transplant has risen due to increasing prevalence of organ failures.
On the basis of end users, the global 3D cell culture market has been segmented into contract research organizations, pharmaceutical & biotechnology companies, research & academic laboratories and others. Contract research organizations provide support to the biotechnology, medical device, and pharmaceutical industries in the form of research services outsourced on a contract basis. Based on products, the market has been segmented into consumables and instruments. Consumables include products like vials, cotton buds, cleaning materials, plastic funnels, etc. Instruments include devices that are used for surgeries and activities like removing the tumor. On the basis of technology, the market has been segmented into scaffolds based 3D cell culture and scaffold-free 3D cell culture.
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To develop the field of tissue engineering in order to regenerate damaged tissues, the cells from the body are combined with highly porous scaffold biomaterials that act as templates for tissue regeneration and guides the growth of new tissue. A technique based on scaffold biomaterials is called scaffolds based on 3D cell culture. Scaffold-free methods include the use of hanging drop plates, low adhesion plates, magnetic 3D bioprinting, magnetic levitation, micropatterned surfaces, and rotating bioreactors.
Geographically, The Market, by region, has been segmented into North America, Latin America, Europe, Middle East & Africa, and Asia Pacific.
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