US 3D Cell Culture Market

US 3D Cell Culture Market Size, Share & Trends Analysis Report, By Product Type (Scaffold-Based 3D Cell Culture, Hydrogels/Ecm Analogs, Solid Scaffolds, Micropatterned Surfaces, Scaffold-Free 3D Cell Culture, Low-Adhesion Microplates, Hanging Drop Plates, 3D Bioreactors, 3D Petri Dishes), By Application (Cancer And Stem Cell Research, Drug Discovery, Toxicology, and Tissue Engineering & Regenerative Medicine), and Forecast, 2019-2025
    Update Available - Forecast 2024-2030   

Published: Jul 2022 | Report Code: OMR2020506 | Category : Biotechnology | Delivery Format: /

The US 3D cell culture market is expected to witness a significant growth with the CAGR of 13.3% during the forecast period. The US market is dominating due to factors such as investments in R&D, high healthcare expenditure, the presence of key players and the rising prevalence of cancer patients. According to the Research America organization, the US had spent almost $158.7 billion in R&D of medical and healthcare during the year 2015. During the year 2015, there were several investments made by the foundations, industries, federal agencies and others for the development of new medical technologies across the country. There has been a significant increase in the spending of the US in R&D in healthcare in the past years.

The US 3D cell culture market is segmented on the basis of method, product type, application and end-user. Based on the method, the market is segmented into Scaffold-Based 3d Cell Culture Method, Forced-Floating Method, Hanging Drop Method, Agitation Based Method, Microfluidics-Based 3d Cell Culture, and Magnetic Levitation & 3d Bioprinting. Out of which scaffold-based 3D cell culture method segment includes hydrogels, other (non-gel polymer), scaffold-free cell culture method. Based on the application, the market is segmented into scaffold-based 3D cell culture, hydrogels/ecm analogs, solid scaffolds, micropatterned surfaces, scaffold-free 3D cell culture, low-adhesion microplates, hanging drop plates, 3D bioreactors, and 3D petri dishes. Based on the application, the market is segmented into cancer and stem cell research, drug discovery, toxicology, and tissue engineering & regenerative medicine. Based on the end-user, the market is segmented into Pharmaceutical & Biotechnology Companies and Research Institutes.

Some of the major players operating in the 3D cell culture market include Thermo Fisher Scientific, Inc., Lonza Group Ltd., Merck KGAA, Corning Inc. and others. These players adopt various organic and inorganic growth strategies such as merger and acquisition and product launch to strengthen their presence in the US market.

Research Methodology

The market study of the 3D cell culture market is incorporated by extensive primary and secondary research conducted by the research team at OMR. Secondary research has been conducted to refine the available data to breakdown the market in various segments, derive total market size, market forecast, and growth rate. Different approaches have been worked on to derive the market value and market growth rate. Our team collects facts and data related to the market from different geography to provide a better regional outlook. In the report, the country-level analysis is provided by analyzing various regional players, regional tax laws and policies, consumer behavior and macro-economic factors. Numbers extracted from Secondary research have been authenticated by conducting proper primary research. It includes tracking down key people from the industry and interviewing them to validate the data. This enables our analyst to derive the closest possible figures without any major deviations in the actual number. Our analysts try to contact as many executives, managers, key opinion leaders, and industry experts. Primary research brings authenticity to our reports.

Secondary Sources Include:

  • Financial reports of companies involved in the market.
  • Whitepapers, research-papers, and news blogs.
  • Company websites and their product catalog.

The report is intended for existing companies and new entrants into the market, potential investors and venture capitalists, government organizations, and various end-user industries for overall market analysis and competitive analysis. The report provides an in-depth analysis of market size, products offered by the company and future market opportunities. The report will serve as a source for 360-degree analysis of the market thoroughly delivering insights into the market for making better business decisions. 

Market Segmentation:

1. The US 3D Cell Culture  Market Research and Analysis by Methods

2. The US 3D Cell Culture  Market Research and Analysis by Product Type

3. The US 3D Cell Culture  Market Research and Analysis by Application

4. The US 3D Cell Culture  Market Research and Analysis by End-User

The Report Covers:

  • Comprehensive research methodology of the US 3D cell culture market.
  • This report also includes a detailed and extensive market overview with key analyst insights.
  • An exhaustive analysis of macro and micro factors influencing the market guided by key recommendations.
  • Analysis of regional regulations and other government policies impacting the US 3D cell culture market.
  • Insights about market determinants which are stimulating the US 3D cell culture market.
  • Detailed and extensive market segments with regional distribution of forecasted revenues.
  • Extensive profiles and recent developments of market players.

1. Report Summary

1.1. Research Methods and Tools 

1.2. Market Breakdown

1.2.1. By Segments

2. Market Overview and Insights

2.1. Scope of the Report 

2.2. Analyst Insight& Current Market Trends

2.2.1. Key Findings

2.2.2. Recommendations

2.2.3. Conclusion

2.3. Rules & Regulations

3. Competitive Landscape

3.1. Company Share Analysis

3.2. Key Strategy Analysis

3.3. Key Company Analysis

4. Market Determinants

4.1. Motivators

4.2. Restraints

4.3. Opportunities

5. Market Segmentation

5.1. The US 3D Cell Culture Market by Method

5.1.1. Scaffold-Based 3d Cell Culture Method

5.1.1.1. Hydrogels

5.1.1.2. Other (Non-Gel Polymer)

5.1.1.3. Scaffold-Free Cell Culture Method

5.1.2. Forced-Floating Method

5.1.3. Hanging Drop Method

5.1.4. Agitation Based Method

5.1.5. Microfluidics-Based 3d Cell Culture

5.1.6. Magnetic Levitation & 3d Bioprinting

5.2. The US 3D Cell Culture Market by Product Type

5.2.1.  Scaffold-Based 3D Cell Culture

5.2.2.  Hydrogels/Ecm Analogs

5.2.3.  Solid Scaffolds

5.2.4.  Micropatterned Surfaces

5.2.5.  Scaffold-Free 3D Cell Culture

5.2.6.  Low-Adhesion Microplates

5.2.7.  Hanging Drop Plates

5.2.8.  3D Bioreactors

5.2.9.  3D Petri Dishes

5.3. The US 3D Cell Culture Market by Application

5.3.1.  Cancer And Stem Cell Research

5.3.2.  Drug Discovery

5.3.3.  Toxicology

5.3.4.  Tissue Engineering & Regenerative Medicine

5.4. The US 3D Cell Culture Market by End-User

5.4.1.  Pharmaceutical & Biotechnology Companies

5.4.2.  Research Institutes

6. Company Profiles

6.1. Thermo Fisher Scientific, Inc

6.2. Biospherix

6.3. Lonza Group Ltd.

6.4. Merck KGAA

6.5. Corning Inc.

6.6. Becton, Dickinson, and Company

6.7. PerkinElmer, Inc.

1.     THE US 3D CELL CULTURE MARKET RESEARCH AND ANALYSIS BY METHODS, 2018-2025 ($ MILLION)

2. THE US 3D CELL CULTURE MARKET RESEARCH AND ANALYSIS BY PRODUCT TYPE, 2018-2025 ($ MILLION)

3. THE US 3D CELL CULTURE MARKET RESEARCH AND ANALYSIS BY APPLICATION, 2018-2025 ($ MILLION)

4. THE US 3D CELL CULTURE MARKET RESEARCH AND ANALYSIS BY END-USER, 2018-2025 ($ MILLION)


1. THE US 3D CELL CULTURE MARKET SHARE BY DEPLOYMENT TYPE METHODS, 2018 VS 2025 (%)

2. THE US 3D CELL CULTURE MARKET SHARE BY DEPLOYMENT TYPE PRODUCT TYPE, 2018 VS 2025 (%)

3. THE US 3D CELL CULTURE MARKET SHARE BY DEPLOYMENT TYPE BY APPLICATION, 2018 VS 2025 (%)

4. THE US 3D CELL CULTURE MARKET SHARE BY DEPLOYMENT TYPE END-USER, 2018 VS 2025 (%)