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Global 3D Cell Culture Market – Industry Trends and Forecast to 2031

Medical Devices | Upcoming Report | Feb 2024 | Global | 350 Pages | No of Tables: 60 | No of Figures: 220

Report Description

Global 3D Cell Culture Market, By Product (Scaffold-Based, Scaffold-Free, Microfluidics-Based, Magnetic Levitation and 3D Bio-printing), Type (Hydrogel, Hanging Drop, Bioreactor, Microfluidics, Magnetic Levitation), Application (Cancer and Stem Cell Research, Drug Discovery and Toxicology Testing, Tissue Engineering and Regenerative Medicine), End User (Pharmaceutical and Biotechnology Companies, Academic, Institutes, Research Laboratories) – Industry Trends and Forecast to 2031.

3D Cell Culture Market Analysis and Size

The 3D cell culture market is experiencing significant growth, propelled by the rising demand and the integration of microfluidics technology. This shift from traditional cell culture methods to 3D techniques is expected to reshape the industry landscape. Additionally, increased funding for doctoral research projects utilizing this technology is anticipated to drive further demand for three-dimensional culture systems, thus fostering market expansion.

The launch of JellaGel Hydrogel by Jellagen Limited in 2021 aligns with the burgeoning 3D cell culture market, offering researchers a novel, non-mammalian hydrogel solution derived from jellyfish collagen. This innovation responds to the industry's demand for simplified and consistent experimental processes, reflecting the ongoing shift towards advanced 3D techniques and fostering further market growth through enhanced research outcomes.

Global 3D cell culture market size was valued at USD 2.36 billion in 2023 and is projected to reach USD 5.52 billion by 2031, with a CAGR of 11.20% during the forecast period of 2024 to 2031. In addition to the insights on market scenarios such as market value, growth rate, segmentation, geographical coverage, and major players, the market reports curated by the Data Bridge Market Research also include depth expert analysis, patient epidemiology, pipeline analysis, pricing analysis, and regulatory framework.

Report Scope and Market Segmentation       

Report Metric

Details

Forecast Period

2024-2031

Base Year

2023

Historic Years

2022 (Customizable to 2016-2021)

Quantitative Units

Revenue in USD Billion, Volumes in Units, Pricing in USD

Segments Covered

Product (Scaffold-Based, Scaffold-Free, Microfluidics-Based, Magnetic Levitation and 3D Bio-printing), Type (Hydrogel, Hanging Drop, Bioreactor, Microfluidics, Magnetic Levitation), Application (Cancer and Stem Cell Research, Drug Discovery and Toxicology Testing, Tissue Engineering and Regenerative Medicine), End User (Pharmaceutical and Biotechnology Companies, Academic, Institutes, Research Laboratories)

Countries Covered

U.S., Canada and Mexico in North America, Germany, France, U.K., Netherlands, Switzerland, Belgium, Russia, Italy, Spain, Turkey, Rest of Europe in Europe, China, Japan, India, South Korea, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E., South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), Brazil, Argentina and Rest of South America as part of South America

Market Players Covered

REPROCELL Inc. (Japan), Nanofiber Solutions (U.S.), SYNTHECON, INCORPORATED (U.S.), InSphero (Switzerland), Merck KGaA (Germany), VWR International, LLC. (U.S.), Lonza (Switzerland), Agilent Technologies (U.S.), Corning Incorporated (U.S.), Cell Culture Company, LLC (U.S.), Advanced Instruments (U.S.), SHIBUYA CORPORATION (Japan), NanoEntek (U.S.), FUJIFILM Holdings America Corporation (U.S.), Hitachi, Ltd. (Japan), Thermo Fisher Scientific Holdings, Inc. (U.S.), BD (U.S.)

Market Opportunities

  • Growing Strategic Initiatives by Market Players Enhances Product Offerings
  • Increasing Number of Contract Research Organizations (CROs) Leads to the Adoption of Imaging Technologies

Market Definition

3D cell culture, also known as 3D cellular models, is an advanced method where cells are grown in an artificial environment that mimics their natural surroundings, enabling them to grow and interact in three dimensions. This technique enhances cell differentiation and migration compared to traditional 2D cultures, leading to improved tissue maturation and organization. It finds extensive applications in pharmaceutical, biotechnology, and academic research settings for studying complex cellular behaviors and responses.

3D Cell Culture Market Dynamics

Drivers

  • Expanding Use of 3D Cell Culture in Regenerative Medicine

This innovative technique allows for the creation of complex tissue models that closely mimic native tissue environments, making it invaluable for studying tissue regeneration and engineering. As regenerative medicine continues to gain traction as a promising approach for treating various diseases and injuries, the demand for advanced cell culture technologies such as 3D models is escalating. Consequently, this growing application area is fueling the expansion of the 3D cell culture market, as researchers and clinicians seek more accurate and reliable methods for studying and implementing regenerative therapies.

  • Growing Investment in Healthcare Facilities Emphasis on Precise Medicine

As healthcare institutions expand and modernize their infrastructure, there is a heightened focus on adopting advanced technologies to improve research and treatment outcomes. This investment creates a conducive environment for the adoption of 3D cell culture techniques, as they offer more physiologically relevant models for drug discovery, disease modeling, and personalized medicine. Moreover, the emphasis on precision medicine and the need for more accurate preclinical models further incentivize healthcare facilities to invest in 3D cell culture technology, thereby driving market growth.

Opportunities

  • Growing Strategic Initiatives by Market Players Enhances Product Offerings

With 3D cell culture techniques, researchers can better mimic the complex cellular environments necessary for organ growth and regeneration. This technology enables the development of more accurate and reliable models for studying tissue engineering, organogenesis, and drug discovery. As the demand for effective treatments and therapies in organ transplantation and regenerative medicine grows, the adoption of 3D cell culture methods is poised to play a pivotal role in advancing research and clinical applications in these fields.

  • Growing Technological Advancements Increases the Adoption of 3D Cell Culture

Innovations such as microfluidics integration, advanced biomaterials, and high-throughput screening techniques are enhancing the efficacy and scalability of 3D cell culture systems. These advancements enable more accurate modeling of complex biological processes and disease states, thereby increasing the relevance of in vitro studies for drug discovery and development. Moreover, the integration of automation and artificial intelligence in 3D cell culture workflows streamlines experimentation, reduces costs, and accelerates research timelines, driving adoption across pharmaceutical, biotechnology, and academic sectors. As these technologies continue to evolve, they promise to unlock new avenues for precision medicine and personalized therapeutics, further fueling the growth of the 3D cell culture market.

Amerigo Scientific's expansion of its cell culture portfolio in August 2021 highlights the growing market opportunity in 3D cell culture. It introduces a new 3D cell culture system tailored for scientific applications such as drug discovery, medicine, nanomaterial evaluation, and basic life science research, Amerigo Scientific is capitalizing on the increasing demand for advanced cell culture technologies. This move underscores the industry's momentum towards leveraging innovative solutions to enhance research efficacy and address complex biological challenges.

Restraints/Challenges

  • High Cost of Implementation Limits the Adoption of 3D Cell Culture Techniques

Setting up and maintaining 3D cell culture systems requires significant investment in specialized equipment, consumables, and expertise. This cost burden can deter smaller research laboratories and academic institutions with limited budgets from adopting 3D cell culture techniques. Additionally, ongoing expenses associated with purchasing culture media, growth factors, and other reagents contribute to the overall financial strain. Consequently, while the technology holds promise for advancing research and development efforts, its accessibility remains limited due to the financial barriers posed by its high implementation costs.

  • Increased Complexity in Standardization Hampers Reliability of Data

The poses a significant restraint to the growth of the 3D cell culture market. With the diverse range of techniques and materials used in 3D cell culture, achieving consistent and reproducible results across different laboratories and research settings becomes challenging. Lack of standardized protocols and methods hampers comparability and reliability of data, hindering widespread adoption of 3D cell culture technologies.

This market report provides details of new recent developments, trade regulations, import-export analysis, production analysis, value chain optimization, market share, impact of domestic and localized market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographic expansions, technological innovations in the market. To gain more info on the market contact Data Bridge Market Research for an Analyst Brief, our team will help you take an informed market decision to achieve market growth.

Recent Developments

  • In 2023, Curi bio introduced Nautilus and Stringray platforms, aimed at aiding researchers in conducting electrophysiological interrogation in both 2D and 3D cell culture settings, enhancing their capabilities in cellular analysis
  • In 2023, REPROCELL Inc. collaborated with Vernal Biosciences to offer scalable mRNA services in Japan, indicating a strategic move to cater to the evolving needs of the 3D cell culture market. This partnership reflects a trend towards integrating advanced technologies such as mRNA into 3D cell culture systems, facilitating more precise and efficient research and clinical applications
  • In 2023, 3D BioFibR secured a substantial investment of nearly USD 3.52 million to expand its facility and introduce collagen fiber products for 3D bioprinting applications, reflecting growing interest and investment in advanced biofabrication technologies
  • In 2022, Avantor collaborated with GeminiBio to enhance bioproduction workflow solutions, aligning with the demands of the expanding 3D cell culture market. This collaboration underscores the importance of streamlining supply chains and offering comprehensive solutions for researchers adopting 3D cell culture techniques, ensuring access to high-quality biological products and reagents
  • In 2022, Lonza collaborated with Israel Biotech Fund (IBF) to accelerate the production and development of small molecules and biologics, echoing the market's growing emphasis on innovation and collaboration. This partnership signifies the significance of accessing diverse pools of expertise and resources, which can lead to breakthroughs in 3D cell culture methodologies and applications, ultimately driving market advancement

3D Cell Culture Market Scope

The market is segmented on the basis of product, type, application, and end use. The growth amongst these segments will help you analyze meagre growth segments in the industries and provide the users with a valuable market overview and market insights to help them make strategic decisions for identifying core market applications.

Product

  • Scaffold-Based

    • Hydrogels/ECM Analogs
    • Solid Scaffolds
    • Micropatterned Surfaces

  • Scaffold-Free

    • Hanging Drop Microplates
    • Spheroid Microplates with ULA Coating
    • Magnetic Levitation

  • 3D Bioreactors
  • 3D Petri Dishes
  • Microfluidics-Based
  • Magnetic Levitation and 3d Bio-Printing

 Type

  • Hydrogel
  • Hanging Drop
  • Bioreactor
  • Microfluidics
  • Magnetic Levitation

Application

  • Cancer and Stem Cell Research
  • Drug Discovery and Toxicology Testing
  • Tissue Engineering and Regenerative Medicine

 End User

  • Pharmaceutical and Biotechnology Companies
  • Academic
  • Institutes
  • Research Laboratories

 3D Cell Culture Market Regional Analysis/Insights

The market is analyzed and market size insights and trends are provided by country, product, type, application and end use as referenced above.

The countries covered in the market report are U.S., Canada, Mexico, Germany, Italy, U.K., France, Spain, Netherlands, Belgium, Switzerland, Turkey, Russia, rest of Europe, Japan, China, India, South Korea, Australia, Singapore, Malaysia, Thailand, Indonesia, Philippines, rest of Asia-Pacific, Brazil, Argentina, rest of South America, South Africa, Saudi Arabia, U.A.E., Egypt, Israel, and rest of Middle East and Africa.

North America is expected to dominate the market primarily due to its access to advanced technologies for cancer treatment and the robust presence of pharmaceutical and biotechnology industries. The region benefits from significant investments in research and development, fostering innovation in therapeutic approaches. Additionally, the presence of leading academic institutions and research centers contributes to a conducive environment for the development and commercialization of novel cancer treatments. These factors collectively position North America as a key driver in advancing the field of oncology and dominating the global market for cancer therapeutics.

Asia-Pacific is expected to experience rapid growth in the forecast period, fueled by increasing emphasis on drug delivery advancements and the expanding footprint of pharmaceutical and biotechnology sectors. The region's dynamic healthcare landscape, coupled with rising investments in research and development, fosters innovation in drug delivery technologies. Furthermore, favorable government initiatives and collaborations with academic institutions are propelling the growth of the pharmaceutical and biotechnology industries in Asia-Pacific. These factors collectively position the region as a hotspot for innovation and market expansion in the drug delivery sector.

The country section of the report also provides individual market impacting factors and changes in regulation in the market domestically that impacts the current and future trends of the market. Data points such as down-stream and upstream value chain analysis, technical trends and porter's five forces analysis, case studies are some of the pointers used to forecast the market scenario for individual countries. Also, the presence and availability of global brands and their challenges faced due to large or scarce competition from local and domestic brands, impact of domestic tariffs and trade routes are considered while providing forecast analysis of the country data.

Healthcare Infrastructure Growth Installed base and New Technology Penetration

The market also provides you with detailed market analysis for every country growth in healthcare expenditure for capital equipment, installed base of different kind of products for market, impact of technology using life line curves and changes in healthcare regulatory scenarios and their impact on the market. The data is available for historic period 2016-2021.

Competitive Landscape and 3D Cell Culture Market Analysis

The market competitive landscape provides details by competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, global presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, application dominance. The above data points provided are only related to the companies' focus related to 3D cell culture market.

Some of the major players operating in the market are:

  • REPROCELL Inc. (Japan)
  • SYNTHECON, INCORPORATED (U.S.)
  • InSphero (Switzerland)
  • Merck KGaA (Germany)
  • VWR International, LLC. (U.S.)
  • Lonza (Switzerland)
  • Agilent Technologies (U.S.)
  • Corning Incorporated (U.S.)
  • Cell Culture Company, LLC (U.S.)
  • Advanced Instruments (U.S.)
  • SHIBUYA CORPORATION (Japan)
  • NanoEntek (U.S.)
  • FUJIFILM Holdings America Corporation (U.S.)
  • Hitachi, Ltd. (Japan)
  • Thermo Fisher Scientific Holdings, Inc. (U.S.)
  • BD (U.S.)


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