3D Cell Culture Market Report: Trends, Forecast and Competitive Analysis
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The future of the global 3D cell culture market looks promising with opportunities in cancer & stem cell research, drug discovery & toxicology testing, and tissue engineering & regenerative medicine applications. The global 3D cell culture market is expected to grow with a CAGR of 15%-17% from 2020 to 2025. The major drivers for this market are rapid change from 2D technology to 3D technology, increasing research and development activities, and increasing prevalence of chronic diseases.
A total of XX figures / charts and XX tables are provided in this more than 150-page report to help in your business decisions. Sample figures with some insights are shown below. To learn the scope, benefits, companies researched, and other details of the global 3D cell culture market report, please download the report brochure.
In this market, consumables is the largest product of cell culture, whereas stem cell is the largest application. Growth in various segments of the cell culture market are given below:
The study includes trends and forecast for the global 3D cell culture market by product, application, end user, and region as follows:
By Product [Value ($ Million) shipment analysis for 2014 – 2025]:
Scaffold-Based 3D Cell CulturesScaffold-Free 3D Cell CulturesMicrofluidics-Based 3D Cell CulturesMagnetic & Bioprinted 3D Cell Cultures
By Application [Value ($ Million) shipment analysis for 2014 – 2025]:
Cancer and Stem Cell ResearchDrug Discovery & Toxicology TestingTissue Engineering & Regenerative Medicine
By End User [Value ($ Million) shipment analysis for 2014 – 2025]:
Pharmaceutical and Biotech CompaniesResearch InstitutesCosmetic IndustryOthers
By Region [Value ($ Million) shipment analysis for 2014 – 2025]:
North AmericaUnited StatesCanada MexicoEuropeUnited KingdomGermanyFranceAsia PacificChinaIndiaJapanThe Rest of the WorldBrazil
Some of the 3D cell culture companies profiled in this report include Thermo Fisher Scientific, Corning, Merck, Lonza, REPROCELL, TissUse, InSphero, Synthecon, 3D Biotek, and CN Bio.
Lucintel forecasts that the scaffold-based 3D cell cultures will remain the largest segment over the forecast period due to its rigid structure and ability of cultures in three-dimension to manipulate genetic factors.
Within this market, pharmaceutical and biotech companies will remain the largest segment by end user over the forecast period due to increasing research and development activities by pharmaceutical and biotech companies and growing demand for alternative testing models over animal techniques.
North America will remain the largest region over the forecast period due to availability of advanced technologies and increasing prevalance of chronic diseases.
Features of the Global 3D Cell Culture Market
Market Size Estimates: Global 3D cell culture market size estimation in terms of value ($M) shipment.Trend and Forecast Analysis: Market trends (2014-2019) and forecast (2020-2025) by various segments.Segmentation Analysis: Global 3D cell culture market size by various segments, such as product, application, and end user, in terms of value.Regional Analysis: Global 3D cell culture market breakdown by North America, Europe, Asia Pacific, and Rest of the World.Growth Opportunities: Analysis of growth opportunities in different products, applications, end users, and regions for the global 3D cell culture market.Strategic Analysis: This includes M&A, new product development, and competitive landscape of the global 3D cell culture market.Analysis of competitive intensity of the industry based on Porter’s Five Forces model.
This report answers following key questions
Q.1 What are some of the most promising potential, high-growth opportunities for the global 3D cell culture market by product (scaffold-based 3D cell cultures, scaffold-free 3D cell cultures, microfluidics-based 3D cell cultures, and magnetic & bioprinted 3D cell cultures), application (cancer and stem cell research, drug discovery & toxicology testing, and tissue engineering & regenerative medicine), end user (pharmaceutical and biotech companies, research institutes, cosmetic industry, and others), and region (North America, Europe, Asia Pacific, and Rest of the World)?
Q.2 Which segments will grow at a faster pace and why?
Q.3 Which region will grow at a faster pace and why?
Q.4 What are the key factors affecting market dynamics? What are the drivers and challenges of the global 3D cell culture market?
Q.5 What are the business risks and threats to the global 3D cell culture market?
Q.6 What are the emerging trends in the 3D cell culture market and the reasons behind them?
Q.7 What are some changing demands of customers in the 3D cell culture market?
Q.8 What are the new developments in the 3D cell culture market? Which companies are leading these developments?
Q.9 Who are the major players in the 3D cell culture market? What strategic initiatives are being implemented by key players for business growth?
Q.10 What are some of the competitive products and processes in the 3D cell culture market, and how big of a threat do they pose for loss of market share via material or product substitution?
Q.11 What M&A activities did take place in the last five years in the global 3D cell culture market?
Report Scope
Key Features Description
Base Year for Estimation 2019
Trend Period
(Actual Estimates) 2014-2019
Forecast Period 2020-2025
Pages More than 150
Market Representation / Units Revenue in US $ Million
Report Coverage Market Trends & Forecast, Competitor Analysis, New Product Development, Company Expansion, Merger, Acquisitions & Joint Venture, and Company Profiling
Market Segments Product (Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures), Application (Cancer And Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine), and End User (Pharmaceutical And Biotech Companies, Research Institutes, Cosmetic Industry, and Others)
Regional Scope North America (USA, Mexico, and Canada), Europe (United Kingdom, Germany, and France), Asia (China, India, and Japan), and ROW (Brazil)
Customization 10% Customization without Any Additional Cost
The future of the global 3D cell culture market looks promising with opportunities in cancer & stem cell research, drug discovery & toxicology testing, and tissue engineering & regenerative medicine applications. The global 3D cell culture market is expected to grow with a CAGR of 15%-17% from 2020 to 2025. The major drivers for this market are rapid change from 2D technology to 3D technology, increasing research and development activities, and increasing prevalence of chronic diseases.
A total of XX figures / charts and XX tables are provided in this more than 150-page report to help in your business decisions. Sample figures with some insights are shown below. To learn the scope, benefits, companies researched, and other details of the global 3D cell culture market report, please download the report brochure.
In this market, consumables is the largest product of cell culture, whereas stem cell is the largest application. Growth in various segments of the cell culture market are given below:
The study includes trends and forecast for the global 3D cell culture market by product, application, end user, and region as follows:
By Product [Value ($ Million) shipment analysis for 2014 – 2025]:
Scaffold-Based 3D Cell CulturesScaffold-Free 3D Cell CulturesMicrofluidics-Based 3D Cell CulturesMagnetic & Bioprinted 3D Cell Cultures
By Application [Value ($ Million) shipment analysis for 2014 – 2025]:
Cancer and Stem Cell ResearchDrug Discovery & Toxicology TestingTissue Engineering & Regenerative Medicine
By End User [Value ($ Million) shipment analysis for 2014 – 2025]:
Pharmaceutical and Biotech CompaniesResearch InstitutesCosmetic IndustryOthers
By Region [Value ($ Million) shipment analysis for 2014 – 2025]:
North AmericaUnited StatesCanada MexicoEuropeUnited KingdomGermanyFranceAsia PacificChinaIndiaJapanThe Rest of the WorldBrazil
Some of the 3D cell culture companies profiled in this report include Thermo Fisher Scientific, Corning, Merck, Lonza, REPROCELL, TissUse, InSphero, Synthecon, 3D Biotek, and CN Bio.
Lucintel forecasts that the scaffold-based 3D cell cultures will remain the largest segment over the forecast period due to its rigid structure and ability of cultures in three-dimension to manipulate genetic factors.
Within this market, pharmaceutical and biotech companies will remain the largest segment by end user over the forecast period due to increasing research and development activities by pharmaceutical and biotech companies and growing demand for alternative testing models over animal techniques.
North America will remain the largest region over the forecast period due to availability of advanced technologies and increasing prevalance of chronic diseases.
Features of the Global 3D Cell Culture Market
Market Size Estimates: Global 3D cell culture market size estimation in terms of value ($M) shipment.Trend and Forecast Analysis: Market trends (2014-2019) and forecast (2020-2025) by various segments.Segmentation Analysis: Global 3D cell culture market size by various segments, such as product, application, and end user, in terms of value.Regional Analysis: Global 3D cell culture market breakdown by North America, Europe, Asia Pacific, and Rest of the World.Growth Opportunities: Analysis of growth opportunities in different products, applications, end users, and regions for the global 3D cell culture market.Strategic Analysis: This includes M&A, new product development, and competitive landscape of the global 3D cell culture market.Analysis of competitive intensity of the industry based on Porter’s Five Forces model.
This report answers following key questions
Q.1 What are some of the most promising potential, high-growth opportunities for the global 3D cell culture market by product (scaffold-based 3D cell cultures, scaffold-free 3D cell cultures, microfluidics-based 3D cell cultures, and magnetic & bioprinted 3D cell cultures), application (cancer and stem cell research, drug discovery & toxicology testing, and tissue engineering & regenerative medicine), end user (pharmaceutical and biotech companies, research institutes, cosmetic industry, and others), and region (North America, Europe, Asia Pacific, and Rest of the World)?
Q.2 Which segments will grow at a faster pace and why?
Q.3 Which region will grow at a faster pace and why?
Q.4 What are the key factors affecting market dynamics? What are the drivers and challenges of the global 3D cell culture market?
Q.5 What are the business risks and threats to the global 3D cell culture market?
Q.6 What are the emerging trends in the 3D cell culture market and the reasons behind them?
Q.7 What are some changing demands of customers in the 3D cell culture market?
Q.8 What are the new developments in the 3D cell culture market? Which companies are leading these developments?
Q.9 Who are the major players in the 3D cell culture market? What strategic initiatives are being implemented by key players for business growth?
Q.10 What are some of the competitive products and processes in the 3D cell culture market, and how big of a threat do they pose for loss of market share via material or product substitution?
Q.11 What M&A activities did take place in the last five years in the global 3D cell culture market?
Report Scope
Key Features Description
Base Year for Estimation 2019
Trend Period
(Actual Estimates) 2014-2019
Forecast Period 2020-2025
Pages More than 150
Market Representation / Units Revenue in US $ Million
Report Coverage Market Trends & Forecast, Competitor Analysis, New Product Development, Company Expansion, Merger, Acquisitions & Joint Venture, and Company Profiling
Market Segments Product (Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures), Application (Cancer And Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine), and End User (Pharmaceutical And Biotech Companies, Research Institutes, Cosmetic Industry, and Others)
Regional Scope North America (USA, Mexico, and Canada), Europe (United Kingdom, Germany, and France), Asia (China, India, and Japan), and ROW (Brazil)
Customization 10% Customization without Any Additional Cost
1. EXECUTIVE SUMMARY
2. MARKET BACKGROUND AND CLASSIFICATIONS
2.1: Introduction, Background, and Classifications
2.2: Supply Chain
2.3: Industry Drivers and Challenges
3. MARKET TRENDS AND FORECAST ANALYSIS FROM 2014 T 2025
3.1: Macroeconomic Trends and Forecast
3.2: Global 3D Cell Culture Market Trends and Forecast
3.3: Global 3D Cell Culture Market by Product
3.3.1: Scaffold-Based 3D Cell Cultures
3.3.2: Scaffold-Free 3D Cell Cultures
3.3.3: Microfluidics-Based 3D Cell Cultures
3.3.4: Magnetic & Bioprinted 3D Cell Cultures
3.4: Global 3D Cell Culture Market by Application
3.4.1: Cancer and Stem Cell Research
3.4.2: Drug Discovery & Toxicology Testing
3.4.3: Tissue Engineering & Regenerative Medicine
3.5: Global 3D Cell Culture Market by End User
3.5.1: Pharmaceutical and Biotech Companies
3.5.2: Research Institutes
3.5.3: Cosmetic Industry
3.5.4: Others
4. MARKET TRENDS AND FORECAST ANALYSIS BY REGION
4.1: Global 3D Cell Culture Market by Region
4.2: North American 3D Cell Culture Market
4.2.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.2.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.2.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.2.4: The United States 3D Cell Culture Market
4.2.5: The Canadian 3D Cell Culture Market
4.2.6: The Mexican 3D Cell Culture Market
4.3: European 3D Cell Culture Market
4.3.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.3.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.3.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.3.4: The 3D Cell Culture Market of the United Kingdom
4.3.5: The German 3D Cell Culture Market
4.3.6: The French 3D Cell Culture Market
4.4: APAC 3D Cell Culture Market
4.4.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.4.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.4.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.4.4: The Chinese 3D Cell Culture Market
4.4.5: The Indian 3D Cell Culture Market
4.4.6: The Japanese 3D Cell Culture Market
4.5: ROW 3D Cell Culture Market
4.5.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.5.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.5.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.5.4: Brazilian 3D Cell Culture Market
5. COMPETITOR ANALYSIS
5.1: Market Share Analysis
5.2: Product Portfoli Analysis
5.3: Operational Integration
5.4: Geographical Reach
5.5: Porter’s Five Forces Analysis
6. COST STRUCTURE ANALYSIS
6.1: Cost of Goods Sold
6.2: SG&A
6.3: EBITDA Margin
7. GROWTH OPPORTUNITIES AND STRATEGIC ANALYSIS
7.1: Growth Opportunity Analysis
7.1.1: Growth Opportunities for the Global 3D Cell Culture Market by Product
7.1.2: Growth Opportunities for the Global 3D Cell Culture Market by Application
7.1.3: Growth Opportunities for the Global 3D Cell Culture Market by End User
7.1.4: Growth Opportunities for the Global 3D Cell Culture Market by Region
7.2: Emerging Trends in the Global 3D Cell Culture Market
7.3: Strategic Analysis
7.3.1: New Product Development
7.3.2: Capacity Expansion of the Global 3D Cell Culture Market
7.3.3: Mergers, Acquisitions, and Joint Ventures in the Global 3D Cell Culture Market
7.3.4: Certification and Licensing
8. COMPANY PROFILES OF LEADING PLAYERS
8.1: Therm Fisher Scientific
8.2: Corning Incorporated
8.3: Merck KGaA
8.4: Lonza AG
8.5: REPROCELL Incorporated
8.6: TissUse
8.7: InSphero
8.8: Synthecon
8.9: 3D Biotek
8.10: CN Bio
2. MARKET BACKGROUND AND CLASSIFICATIONS
2.1: Introduction, Background, and Classifications
2.2: Supply Chain
2.3: Industry Drivers and Challenges
3. MARKET TRENDS AND FORECAST ANALYSIS FROM 2014 T 2025
3.1: Macroeconomic Trends and Forecast
3.2: Global 3D Cell Culture Market Trends and Forecast
3.3: Global 3D Cell Culture Market by Product
3.3.1: Scaffold-Based 3D Cell Cultures
3.3.2: Scaffold-Free 3D Cell Cultures
3.3.3: Microfluidics-Based 3D Cell Cultures
3.3.4: Magnetic & Bioprinted 3D Cell Cultures
3.4: Global 3D Cell Culture Market by Application
3.4.1: Cancer and Stem Cell Research
3.4.2: Drug Discovery & Toxicology Testing
3.4.3: Tissue Engineering & Regenerative Medicine
3.5: Global 3D Cell Culture Market by End User
3.5.1: Pharmaceutical and Biotech Companies
3.5.2: Research Institutes
3.5.3: Cosmetic Industry
3.5.4: Others
4. MARKET TRENDS AND FORECAST ANALYSIS BY REGION
4.1: Global 3D Cell Culture Market by Region
4.2: North American 3D Cell Culture Market
4.2.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.2.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.2.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.2.4: The United States 3D Cell Culture Market
4.2.5: The Canadian 3D Cell Culture Market
4.2.6: The Mexican 3D Cell Culture Market
4.3: European 3D Cell Culture Market
4.3.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.3.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.3.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.3.4: The 3D Cell Culture Market of the United Kingdom
4.3.5: The German 3D Cell Culture Market
4.3.6: The French 3D Cell Culture Market
4.4: APAC 3D Cell Culture Market
4.4.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.4.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.4.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.4.4: The Chinese 3D Cell Culture Market
4.4.5: The Indian 3D Cell Culture Market
4.4.6: The Japanese 3D Cell Culture Market
4.5: ROW 3D Cell Culture Market
4.5.1: Market by Product: Scaffold-Based 3D Cell Cultures, Scaffold-Free 3D Cell Cultures, Microfluidics-Based 3D Cell Cultures, and Magnetic & Bioprinted 3D Cell Cultures
4.5.2: Market by Application: Cancer and Stem Cell Research, Drug Discovery & Toxicology Testing, and Tissue Engineering & Regenerative Medicine
4.5.3: Market by End User: Pharmaceutical and Biotech Companies, Research Institutes, Cosmetic Industry, and Others
4.5.4: Brazilian 3D Cell Culture Market
5. COMPETITOR ANALYSIS
5.1: Market Share Analysis
5.2: Product Portfoli Analysis
5.3: Operational Integration
5.4: Geographical Reach
5.5: Porter’s Five Forces Analysis
6. COST STRUCTURE ANALYSIS
6.1: Cost of Goods Sold
6.2: SG&A
6.3: EBITDA Margin
7. GROWTH OPPORTUNITIES AND STRATEGIC ANALYSIS
7.1: Growth Opportunity Analysis
7.1.1: Growth Opportunities for the Global 3D Cell Culture Market by Product
7.1.2: Growth Opportunities for the Global 3D Cell Culture Market by Application
7.1.3: Growth Opportunities for the Global 3D Cell Culture Market by End User
7.1.4: Growth Opportunities for the Global 3D Cell Culture Market by Region
7.2: Emerging Trends in the Global 3D Cell Culture Market
7.3: Strategic Analysis
7.3.1: New Product Development
7.3.2: Capacity Expansion of the Global 3D Cell Culture Market
7.3.3: Mergers, Acquisitions, and Joint Ventures in the Global 3D Cell Culture Market
7.3.4: Certification and Licensing
8. COMPANY PROFILES OF LEADING PLAYERS
8.1: Therm Fisher Scientific
8.2: Corning Incorporated
8.3: Merck KGaA
8.4: Lonza AG
8.5: REPROCELL Incorporated
8.6: TissUse
8.7: InSphero
8.8: Synthecon
8.9: 3D Biotek
8.10: CN Bio