Reports


3D Cell Culture Market Size, Share, Industry Trends Report, 2018-2024 (Includes Business Impact of COVID-19)

  • TBI413761
  • August 01, 2019
  • Global
  • 132 pages
  • HCCResearch
                                              Abstract, Snapshot, Market Analysis & Market Definition: Global 3D Cell Culture Market

The global 3D cell culture market size was valued at USD 558.0 million in 2016, exhibiting a 14.8% CAGR during the forecast period. Introduction of novel scaffolds and matrices, coupled with ongoing advancements in research and analytical processes, is expected to fuel growth.
 
Three-dimensional cellular models are derived using a variety of structural hydrogels and scaffolds, which in turn, aid in boosting revenue generation. However, researchers often encounter troubles while cultivating 3D cellular models using scaffolds as they impede cell-to-cell interactions and interfere in assembly of extracellular matrices. These drawbacks are resulting in the need for technological advancements in scaffold-free technology.
Emergence of scaffold-free technology as a promising platform for development of translational pathway for tissues is anticipated to propel the uptake of cellular three-dimensional culture techniques. Moreover, advent of 3D bioprinting, which facilitates fabrication of scaffold-free tissue units through fusion of tissue spheroids, enables development of functional tissue-engineered constructs with distinct 3D structures. Such developments are anticipated to drive market growth.
Growth in 3D cell culture techniques is being driven by rising global R&D investments in cell-based research. In addition, presence of organizations such as International Society for Stem Cell Research is influencing funding support and fostering scientific growth. This is anticipated to raise demand for cellular three-dimensional culture techniques in the near future.

Market Segmentation, Outlook & Viewpoint: Global 3D Cell Culture Market


Technology Market Segmentation & Outlook (Revenue, USD Million, 2013 - 2024)

Scaffold based

Hydrogels

Polymeric scaffolds

Micropatterned Surface Microplates


Scaffold free

Hanging drop microplates

Spheroid microplates containing Ultra-Low Attachment (ULA) coating

Microfluidic 3D cell culture

Magnetic levitations & 3D bioprinting


3D Bioreactors


Application Market Segmentation & Outlook (Revenue, USD Million, 2013 - 2024)

Cancer

Tissue engineering & Immunohistochemistry

Drug development

Stem cell research

Others


End-use Market Segmentation & Outlook (Revenue, USD Million, 2013 - 2024)

Biotechnology and pharmaceutical industries

Research laboratories and institutes

Hospitals and diagnostic centers

Others


Culture Component Market Segmentation & Outlook (Revenue, USD Million, 2013 - 2024)

Media

Reagents and Consumables


Key Players, Recent Developments & Regional Insights: Global 3D Cell Culture Market


A cellular level real-time study of mammalian physiology is facilitated by the ability of 3D cell culture technique to manipulate genetic factors. Three-dimensional culture systems play a critical role in investigating the cross-linkage between various intercellular pathways in tumor formation. This is attributive to the ability of 3D culture systems to mimic tumor cells’ in vivo environment.
3D bioprinting enables creation of 3D printed building blocks of ESCs, which could be further used for micro-organ generation and tissue regeneration experiments. Such models are rapidly being adopted for organ generation using iPSCs and hESCs in stem cell-based research. Furthermore, implementation of cellular models for differentiation and expansion of pluripotent stem cells based on principle of scaffolding contributes to lucrative growth of stem cell research applications.
End-use Insights
Biotech and pharma companies, research laboratories, hospitals and diagnostic centers, and academic institutes are major entities that use in-vitro cellular culture products. Biotech and pharma companies dominated the 3D cell culture market with over 47.0% revenue share in 2016 owing to rapid adoption of these systems for drug discovery, toxicity screening, and development of regenerative medicine. Efficient screening and target validation provided by these systems resulted in higher implementation in drug discovery.
 
Lucrative growth is projected for research laboratories as well as hospitals and diagnostic centers. Availability of funding for research projects conducted by academic and research institutes is expected to drive revenue growth.
Culture Component Insights
Key components include media, reagents, and consumables. High-quality media is required to maintain cellular lines, especially in stem cell culture. Even slight differences in media have a large impact on cells due to a number of reasons. In addition, media requirements, in terms of volume, is higher than other components. The aforementioned reasons collectively contribute to the largest revenue share of media components.
Specific reagents form an essential component for in-vitro cellular growth. Absence of such components leads to failure in cell proliferation. Serum supplements are available in different varieties such as caprine (goat), human, porcine (pig), ovine (sheep), rabbit, equine (horse), chicken, and bovine (cow). Importance of sera and other supplements in organoid regeneration and high cost of essential reagents is projected to drive the reagents and consumables segments.

Regional Insights
North America dominated the market with a share of over 41.0% in 2016.Chronic diseases account for majority of the healthcare expenditure incurred in U.S. and Canada. This contributes to rapid development of three-dimensional cellular culture products by major players for cell-based therapeutics. In addition, presence of several pharma and biotech organizations implementing the technology in collaboration with research laboratories drives this regional market.
Asia Pacific is expected to witness the fastest growth over the forecast period due to developing infrastructure in this region, coupled with increasing awareness about upcoming technologies in healthcare amongst the population. Asia Pacific harbors 60.0% of the world population; thus even a lower prevalence of chronic diseases translates into a large number of infected people, which is the leading factor driving segment growth. Furthermore, unmet needs of patients and untapped areas in this region have been attracting international market players and this is expected to boost revenue generation through to 2024.
3D Cell Culture Market Share Insights
Key players operating in this vertical are Merck, 3D Biotek LLC; 3D Biomatrix; Nano3D Biosciences Corning Inc.; VWR International, LLC; Thermo Fisher Scientific; Global Cell Solutions, Inc.; Becton Dickinson and Company; Tecan; InSphero AG; and Lonza Group.
These companies are focusing on collaborations with laboratories for commercialization of technologies that are not yet established in the market space. For instance, in March 2014, Corning, Inc. extended its collaboration with ATCC for cell culture research. Through this move, the company will co-develop new applications for existing Corning and ATCC cellular biology products.

Key Insights Covered: Global 3D Cell Culture Market
1.  North America, Europe, Asia Pacific, Middle East & Africa, Latin America market size (sales, revenue and growth rate) of 3D Cell Culture industry.
2. Global major manufacturers' operating situation (sales, revenue, growth rate and gross margin) of 3D Cell Culture industry.
3. Global major countries (United States, Canada, Germany, France, UK, Italy, Russia, Spain, China, Japan, Korea, India, Australia, New Zealand, Southeast Asia, Middle East, Africa, Mexico, Brazil, C. America, Chile, Peru, Colombia) market size (sales, revenue and growth rate) of 3D Cell Culture industry.
4. SWOT analysis, New Project Investment Feasibility Analysis, Upstream raw materials and manufacturing equipment & Industry chain analysis of 3D Cell Culture industry.
5. Global market size (sales, revenue) forecast by regions and countries from 2019 to 2024 of 3D Cell Culture industry.

Research Methodology: Global 3D Cell Culture Market
  • Data collection and base year analysis is done using data collection modules with large sample sizes. The market data is analyzed and forecasted using market statistical and coherent models. Also market share analysis and key trend analysis are the major success factors in the market report. To know more please Request a Sample Report.
  • Demand Side Primary Contributors: OEMs, Industrial Professionals, Researches, Suppliers and Distributors, Group Purchasing Organizations, Associations, Insurers, Universities, Technological Writers, Scientists, Promoters, Investors among others.
  • Supply Side Primary Contributors: Product Managers, Marketing Managers, C-Level Executives, Distributors, Market Intelligence, Regulatory Affairs Managers among other

Table of Content
Chapter 1 Research Methodology
1.1 Information procurement
1.2 Data AnalysisChapter 2 Executive SummaryChapter 3 Market SnapshotChapter 4 Market Variables, Trends & Scope
4.1 Market segmentation & scope
    4.1.1 Market Driver Analysis
        4.1.1.1 Rising demand for organ transplantation & tissue engineering
        4.1.1.2 Technological advancements in scaffold free technology
        4.1.1.3 Rising investment and R&D funding for cell based research
    4.1.2 Market Restraint Analysis
        4.1.2.1 High cost associated with implementation
        4.1.2.2 Lack of compatib
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