3D Cell Culture Market Is Projected To Witness Growth Based On Animal Models For Histological Analysis & Biochemical Assays Till 2024:Grand View Research,inc.
The global 3D cell culture market is anticipated to reach USD
1.69 billion by 2024, according to a new report by Grand View Research, Inc.
Potential of this technology to replace and reduce the usage of animal models
for histological analysis and biochemical assays is expected to fuel demand for
3D cell culture products thus driving growth in the coming years.
Advent of technology with respect
to spheroid formation and matured assay methods, is expected to boost the
emergence of 3D optimized assays, kits, and protocols, in turn, expediting the
entire research process. In addition, the scope of three-dimensional (3D) cell
culturing experiments for evaluation of drug moiety is anticipated to grow
owing to advantages associated with its usage. These advantages include
increased cell to extra cellular matrix (ECM) as well as intercellular
interactions, variation in the proliferation zones, ease for analyzing impact
of site-specific stromal tissue components in the tumor microenvironment.
Research initiatives carried out
to develop multidimensional cultures that offer compatibility with automated
lab equipment and suitability for HTS feature in order to facilitate high
content screening assay, signaling, and migration are expected to fuel the
growth of this vertical through to 2024.
Browse full research report on 3D Cell Culture Market:
http://www.grandviewresearch.com/industry-analysis/3d-cell-culture-market
Further key findings from
the report suggest:
- Scaffold-based technique accounted for the revenue
share of over 40% because of the potential these possess for the
recreation of structural and physical environment of a living tissue.
Availability of choice for the material and structure of the scaffold for
different in vitro applications is supportive for the estimated revenue
share of this segment. Hydrogel or ECM and solid scaffolds are estimated
to capture a comparatively sizable share of the revenue, attributed to the
presence of different products in this segment.
- Spheroid development techniques are estimated to
contribute significantly in increasing the revenue share of scaffold-free
technology. These enable multicellular arrangement, thus making them an
influential tool for a range of applications, particularly in cancer and
stem cell research.Oncology is estimated to account for the dominant share
in 2015 owing to the presence of higher incidence rate of cancers coupled
with phenotypic heterogeneity achieved using 3D culturing. Stem cell
research is anticipated to witness lucrative growth in the coming years as
a consequence of the upcoming projects in this segment for development of
effective therapies.
- Key end users for this technology are pharma &
biotech entities, research laboratories and institutes. Pharma & biotech
entities accounted for the largest share of the revenue in 2015 owing to
the high usage of technology in different steps of drug discovery which
include target validation, lead optimization, penetration studies, and
safety assessment or toxicity screening.
- North America dominated the next generation
sequencing data analysis market with a share of over 40% as a result of
the presence of several organizations operating in this region. Moreover,
the significant number of R&D projects carried out in institutes is
resulting in the high demand, affecting the revenue growth significantly.
- However, Asia Pacific is expected to witness
substantially high growth through to 2024, which is attributable to the
rise in number of research grants for drug development and tissue
engineering projects in the developing economies of this region.
Furthermore, positive R&D outcomes encouraging the incorporation of
three dimensional cultures in regenerative medicine is expected to impact
this sector with potential opportunities for growth.
- The market is fragmented in nature and includes
established as well as emerging players These entities include 3D
Biomatrix, Corning Inc, Nano3D Biosciences, Merck, Becton Dickinson and
Company, Thermo Fisher Scientific, InSphero AG, Lonza Group, Tecan, 3D
Biotek LLC, VWR International, LLC, and Global Cell Solutions, Inc.
- These companies are involved in collaborations and
co-marketing agreements for enhancement of product portfolio as well as
global presence. For instance, Tecan and CellSpring entered into
collaboration for automation of the 3D Bloom platform on a Freedom EVO
workstation.
Browse more reports of this category by Grand View
Research: http://www.grandviewresearch.com/industry/biotechnology
Grand View Research has segmented 3D cell culture market on
the basis of technology, application, end use and region:
Global 3D Cell Culture Outlook, by Technology
(Revenue, USD Million, 2013 - 2024)
- Scaffold
Based
- Hydrogels
- Polymeric
Scaffolds
- Micro
- patterned Surface Microplates
- Scaffold
Free
- Hanging
Drop Microplates
- Spheroid
Microplates with ULA coating
- Microfluidic
3D Cell Culture
- Magnetic
Levitations & 3D Bioprinting
- Bioreactors
Global 3D Cell CultureOutlook, by Application
(Revenue, USD Million, 2013 - 2024)
- Cancer
- Tissue
Engineering & Immunohistochemistry
- Drug
Development
- Stem
Cell Research
- Others
Global 3D Cell CultureOutlook, by End - use,
(Revenue, USD Million, 2013 - 2024)
- Biotechnology
and Pharmaceutical Industries
- Research
Laboratories and Institutes
- Hospitals
and Diagnostic Centers
- Others
Global 3D Cell Culture Market, Regional Outlook (Revenue,
USD Million, 2013 - 2024)
- North
America
- U.S.
- Canada
- Europe
- Germany
- UK
- Asia
Pacific
- China
- Japan
- Latin
America
- Brazil
- MEA
- South
Africa
About Grand View Research
Grand View Research, Inc. is a
U.S. based market research and consulting company, registered in the State of
California and headquartered in San Francisco. The company provides
syndicated research reports, customized research reports, and consulting services.
To help clients make informed business decisions, we offer market intelligence
studies ensuring relevant and fact-based research across a range of industries,
from technology to chemicals, materials and healthcare.
Comments
Post a Comment