According to a new report published by Allied Market Research, titled, โ3D Cell Culture Market: Global Opportunity Analysis and Industry Forecast, 2020-2027โ 3D cell culture is an in-vitro technique in which cells can grow in an artificially created environment. This environment closely resembles the architecture and functioning of native tissues. 3D cell culture techniques help stimulate cell differentiation, proliferation, and migration by interacting with their three-dimensional environment as they do in an in-vivo environment. While 3D cell cultures can mimic the structure, activity, and microenvironment of in-vivo tissues, these techniques have a variety of applications in the fields of drug testing, regeneration medicine, stem cell therapy, cancer research, and cell biology.
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COVID-19 Impact Analysis:
The COVID-19 pandemic has resulted in nationwide lockdowns, thereby impacting every industry vertical. Likewise, the 3D cell culture market is also affected by the pandemic. The 3D cell culture industry is currently facing newer challenges to cope up with the demand and supply of 3D cell culture components owing to the COVID-19 pandemic. In addition, inconsistent and interrupted supply chain activities and availability of human resources are expected to impact the market growth. On the contrary, surge in research practices for developing novel therapies against COVID-19 is serving as a huge opportunity for the key market players. Research associated with stem cell therapies and regenerative medicine has shown promising results for treating the COVID-19 disease, thus, this is expected to compensate the deleterious impact caused by lockdowns globally. Thus, the overall COVID-19 impact is anticipated to remain moderate for the prominent players in the 3D cell culture market.
Scaffold-based platforms are used to alter the cell culture procedure by providing a surface on which the cells can easily impart 3D growth. Scaffolds are used in drug discovery and cell expansion, owing to the availability of a variety of materials and structural choices. In addition, there are other advantages related to the use of scaffold-based platforms such as ease of imaging and simple assay protocol. Moreover, the mechanical and biochemical properties of the scaffold can easily be modified as per the need of the application. Thus, this segment is expected to dominate the product segment throughout the forecast period as there is a high demand for scaffold-based platforms for creating 3D cell cultures. Nevertheless, scaffold-based platforms can adsorb test compounds, limit downstream endpoints for analysis, and introduce different biological substances, thereby obstructing the segment growth.
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๐๐๐ฒ ๐๐๐ง๐๐๐ข๐ญ๐ฌ:
- This report provides a detailed quantitative analysis of the current 3D cell culture market trends and forecast estimations from 2019 to 2027, which assists to identify the prevailing 3D cell culture market opportunities.
- An in-depth 3D cell culture market analysis includes analysis of various regions, which is anticipated to provide a detailed understanding of the current trends to enable stakeholders formulate region-specific plans.
- A comprehensive analysis of factors that drive and restrain the growth of the global is provided.
- The projections in this report are made by analyzing the current trends and future market potential from 2020 to 2027, in terms of value.
- An extensive analysis of various regions provides insights that are expected to allow companies to strategically plan their business moves.
- Key market players within the 3D cell culture market are profiled in this report and their strategies are analyzed thoroughly, which helps in understanding competitive outlook of the global 3D cell culture market.
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Key players profiled in this report include 3D Biotek, LLC, Advanced Biomatrix, Inc., Avantor, Inc., Becton, Dickinson, and Company, Corning Incorporated, InSphero AG, Lonza Group Ltd., Merck & Co., Inc., Synthecon, Incorporated, and Thermo Fisher Scientific Inc.
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Human Growth Hormone (hGH) Market
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