Format: | No. of Slides: 150 | No. of Figures: 43 | No. of Tables: 27
The market for 3D cell culture has been covered under the scope of this report. 3D cell culture is a created artificial environment in which the cells grow as well as interact with the surroundings in all three dimensions. As compared two dimensional (2D) culture, cells grown in the 3D cell culture exhibit structural and compositional similarities with the cells found inside the living organism. The global 3D cell culture market has been segmented on the basis of technology, application, end user, and region. It also provides a cross-sectional study of the market across broad regional segments such as North America, Europe, Asia-Pacific (APAC) and Rest of the World (RoW) under its scope. The market is primarily being driven by the rising demand for 3D cell culture in cancer research, growing usage of 3D cell culture in tissue engineering and increase in the application of 3D cell cultures in drug discovery among others.Global 3D Cell Culture Market worth 3,134.4 Million USD By 2025 Click To Tweet
The scope of the Report
A complete analysis of market dynamics, which include the market drivers, restraints, and opportunities, is included under the scope of the report. Market dynamics for the different segments, namely technology, application, and end-user, have been covered separately, under the purview of the report. Additionally, the country level trend for each region has also been covered under the scope of the report. Thus, this report provides an exhaustive study of the global 3D cell culture market and also provides the forecast of the market for the period from 2017 – 2025.
Analysis Covered in the Report
Under the scope of the report, several high-level analyses have been covered. This includes:
- The product-market trend analysis,
- Product lifecycle analysis,
- Porter’s five forces analysis, and
- Market attractiveness analysis.
Key trends analysis discusses the current and upcoming trends of the market. Product lifecycle analysis analyzes the current lifecycle stage of the product in the four wide geographic regions, such as whether the product is approaching maturity in a region or whether it is a new entrant etc. Porter’s five forces analysis provides insights on the competitive scenario, with regards to new entrants, substitutes, buyers, and suppliers. For providing a detailed insight into the global 3D Cell Culture market, the market attractive analysis has been provided in the report. Market attractiveness analysis details the investment attractiveness, by each technology, application, end user, and geography.
The Competitive Profiling
The competitive profiling of the key players in the global market and their business segments has been exhaustively covered under the purview of the study. Moreover, the specific business strategies of key players in the market have also been covered in the report.
Some Major Competitors in the 3D Cell Culture market
Some major players in the market are:
- Becton, Dickinson and Company (The U.S.), Corning Incorporated (The U.S.), Thermo Fisher Scientific (The U.S.), 3D Biotek LLC (The U.S.), Sigma-Aldrich Corporation (The U.S.)
- Lonza Group (Switzerland), InSphero AG (Switzerland)
- Hi Media Laboratories (India)
- ReproCELL Europe Ltd (The U.K), and
- Promocell GmbH (Germany) among others.
The market has been segmented as follows:
3D Cell Culture Market by Technology
- Scaffold Based
- Solid Scaffolds
- Scaffold Free
- Hanging Drop Microplates
- Magnetic Levitations & 3D Bioprinting
3D Cell Culture Market by Application
- Cancer Research
- Drug Development
- Tissue Engineering
- Stem Cell Research
3D Cell Culture Market by End User
- Research Laboratories
- Biotechnology and Pharmaceutical Industries
- Hospitals and Diagnostic Centers
3D Cell Culture Market by Region:
- North America
- The U.S.
- The U.K
- Rest of the Europe
- Asia Pacific
- Rest of the Asia Pacific
- Rest of the World (RoW)
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Download the Table of Content. Let us know your feedback on the ToC, if you need any clarifications on the content do let us know – we will be happy to assist you.
key highlights of the Table of Content
- Research Methodology
- Market Overview
- Market Segmentation
- Competitive Scenario of the Global Market
- Global Market Analysis By Technology
- Global Market Analysis By Application
- Global Market Analysis By End User
- Global Market Analysis By Regions
- Company Profiles
- List of Figures
- List of Tables
- This Table of Content (TOC) is tentative in nature and based on research findings, the content of TOC might get changed.
- List of companies is provided based on initial findings. Based on research findings, this list of companies might get changed during the course of the study.
3D cell culture is an artificial environment and within this environment, biological cells can grow or interact with surroundings in all 3 dimensions. As compared to two dimensional (2D) models, 3D cell culture allows cells as a subject of research to replicate their behavior in vivo environment.
The primary driving factors of the market are increasing demand of understanding behavior of cancer cells within living organism through in vitro experiments. 3D cell culture helps researchers to understand the response of cancer cells to drugs in more realistic manner. In addition, growing government initiatives and funding by private companies have facilitated the development of different 3D cell culture technologies. Such developments have increased the scope of applications of 3D cell culture among end users. Additionally, the rise in the application of the technique in tissue engineering and stem cell research is identified as a long-term growth driver for 3d cell culture market. Growing application of 3D cell culture in new drug discovery and developing new biotechnology process are driving the growth of the market. Considering the positive impacts of the aforementioned factors, the demand for 3D cell culture is expected to grow during the forecast period from 2017 – 2025.
On the basis of Technology
Based on technology, the global market has been segmented into scaffold based and scaffold free. Scaffold based technology has been further segmented into hydrogels, solid scaffolds and others. Scaffold free technology has been further segmented into microfludics, hanging drop microplates, bioreactors, magnetic levitation & 3D bioprinting and others. In 2016, scaffold based technology held the largest share owing to greater awareness among end users, comparatively mature state of technology and convenience in application.
On the basis of Application
Based on application, the market has been segmented into cancer research, drug development, tissue engineering, stem cell research and others. In 2016, cancer research held the largest share in terms of revenue. The growing application of 3D cell culture for analysis of cancer tumor and discovering new drugs were instrumental in gaining the leading position of this segment.
On the basis of End-user
By end-user, the market has been divided into research laboratories, biotechnology and pharmaceutical industries, hospitals and diagnostic centers and others. In terms of revenue, biotechnology and pharmaceutical industries were the largest end-use industry in 2016.
3D cell culture market has been segmented into four regions; North America, Europe, Asia Pacific (APAC) and Rest of the World (RoW). North America occupied the largest share of the 3d cell culture market in 2016. The large market share can be attributed to strong demand for 3D cell culture in the pharmaceutical industry and research facilities in this region.
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