3D Cell Culture Market – By Product Type (Scaffold Based 3d Cell Culture {Microgels, Micro Patterned Surfaces, And Solid Scaffolds}, Scaffold Free 3D Cell Culture {Low Adhesion Micro Plates, 3D Petri Dishes, 3D Bioreactors, And 3d Hanging Drop Plates}, Microfluids Based 3D Cell Culture, Magnetic Leviation, And 3D Bio Printing), By Application (Drug Discovery & Toxicology, Cancer & Stem Cell Research, And Tissue Engineering & Regenerative Medicine), By End-Users (Pharmaceutical & Biotechno

DFS020140  | 
: Life Sciences & Healthcare  | 
Mar-2024  | 
Upcoming  | 
Pages: NA  | 
Tables: NA  | 
Figures: NA
We’ve been tracking the direct impact of COVID-19 on this market, as well as the indirect impact from other industries. The report will incorporate these insights.

3D cell culture is a measured simulated environment outside of a living organism wherein cells are made to grow and migrate by interacting with their habitat. This process stimulates normal cell to differentiate, proliferate, and migrate by interacting with their three-dimensional surroundings. It provides an ideal environment for cell culture analytical studies, involving assessment of multi-stage disease models with the help of cellular modelling. This process is used by researchers to develop physiologically similar cell culture stereotypes that help in drug discovery and development. The increasing focus on developing an alternative to animal testing and growing emphasis on personalised medicine are the key drivers of this market. The 3D cell culture market accounted 1.5 USD billion in 2020 and is expected to reach 4.1 USD million by 2030, witnessing an approximate CAGR of 10.7% over the forecast period.

Market Segmentation:

On the basis of product type, the market is segmented into scaffold based 3D cell culture, scaffold free 3D cell culture, microfluids based 3D cell culture, magnetic levitation, and 3D bio printing. The scaffold based 3D cell culture is further segmented into microgels, micro patterned surfaces, and solid scaffolds. The scaffold free 3D cell culture is further classified into low adhesion micro plates, 3D petri dishes, 3D bioreactors, and 3D hanging drop plates. Based on application, the market can be classified into drug discovery & toxicology, cancer & stem cell research, and tissue engineering & regenerative medicine. According to end-users, the market is categorised into pharmaceutical & biotechnology companies, hospitals & diagnostic centres, and research laboratories & institutes. Geographically, the market can be broadly divided into five regions mainly North America, Europe, Asia Pacific, and ROW.

Market Dynamics and Factors:

Growing investments in healthcare R&D by developed and developing countries, certain limitations of 2D cell culture techniques, and rising demands for organ transplantation are the major factors driving the growth of the 3D cell culture market across the globe. Additionally, 3D cell culture has the potential to completely substitute the use of animals in research and testing of pharmaceuticals. This will create lucrative opportunities for the market to grow in the future. However, lack of consistency of products and huge initial investment associated with the implementation of 3D cell culture are major factors that are restraining the market growth. Moreover, growing use of 3D cell culture in order to effectively examine the influence of drug doses will fuel the market growth in the future.

Geographic Analysis:

North America is expected to dominate the market during the forecast period in terms of revenue market share. A robust & sophisticated healthcare infrastructure; high adoption of 3D cell cultures; increased emphasis on R&D by key market players; are the major factors attributing to the market dominance of the region. For instance, in 2018, InSphero AG announced a partnership with Path BioAnalytics with an aim to develop advanced 3D airway tissue model for cystic fibrosis research. Path BioAnalytics will develop and test 3D cystic fibrosis (CF) organoid models from primary human bronchial and nasal epithelial cells using InSphero’s exclusive 3D cell-based technology. This will assist in the formation of biologically-relevant and personalized organoids without the usage of artificial matrices. Europe is expected to be the second-most dominating market for the 3D cell culture during the forecast period. The growth in the pharmaceutical & biotechnology industry; growing presence of key market players; and a large number of R&D activities are the major factors attributing to the market growth in the European region. The Asia Pacific region is anticipated to be the fastest growing market for 3D cell culture during the forecast period. Rising demand in drug discovery and increasing focus on the biotechnology industry; and rising investments from the government and private companies in the APAC region are the major factors attributing towards the market growth.  

Competitive Scenario:

The key players operating in the global 3D cell culture market are –

Thermo Fisher Scientific, 3D Biomatrix, 3D Biotek LLC, Corning Technologies, Hamilton Company, Nano 3D Biosciences, Global Cell Solutions, Tecan Trading AG, Lonza Group Ltd., InSphero AG, Nanofiber Solutions.

3D Cell Culture Market Report Scope

Report Attribute

Details

Analysis Period

2020–2030

Base Year

2021

Forecast Period

2022–2030

Market Size Estimation

Billion (USD)

Growth Rate (CAGR%)

10.7 %

Market Segmentation:

By Product Type (Scaffold Based 3d Cell Culture {Microgels, Micro Patterned Surfaces, And Solid Scaffolds}, Scaffold Free 3D Cell Culture {Low Adhesion Micro Plates, 3D Petri Dishes, 3D Bioreactors, And 3d Hanging Drop Plates}, Microfluids Based 3D Cell Culture, Magnetic Leviation, And 3D Bio Printing), By Application (Drug Discovery & Toxicology, Cancer & Stem Cell Research, And Tissue Engineering & Regenerative Medicine), By End-Users (Pharmaceutical)

Geographical Segmentation

North America (U.S., Canada, Mexico) Europe (UK, Germany, Italy, France, Rest of Europe), Asia-Pacific (China, Japan, India, Australia, Rest of APAC), South America (Brazil, Argentina, Rest of SA), MEA (UAE, Saudi Arabia, South Africa)

Key Companies Profiled

Thermo Fisher Scientific, 3D Biomatrix, 3D Biotek LLC, Corning Technologies, Hamilton Company, Nano 3D Biosciences, Global Cell Solutions, Tecan Trading AG, Lonza Group Ltd., InSphero AG, Nanofiber Solutions.


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KEY MARKET SEGMENTS:

  • Global 3D Cell Culture Market – By Product Type
    • Scaffold Based 3d Cell Culture
      • Microgels
      • Micro Patterned Surfaces
      • Solid Scaffolds
    • Scaffold Free 3d Cell Culture
      • Low Adhesion Micro Plates
      • 3D Petri Dishes
      • 3D Bioreactors
      • 3D Hanging Drop Plates
    •  Microfluids Based 3D Cell Culture
    • Magnetic Leviation
    • 3D Bio Printing
  • Global 3D Cell Culture Market – By Application
    • Drug Discovery & Toxicology
    • Cancer & Stem Cell Research
    • Tissue Engineering & Regenerative Medicine
  • Global 3D Cell Culture Market – By End-Users 
    • Pharmaceutical & Biotechnology Companies
    • Hospitals & Diagnostic Centers
    • Research Laboratories & Institutes
  • Global 3D Cell Culture Market – By Geography
    • North America
      • U.S.
      • Canada
      • Mexico
    • Europe
      • U.K.
      • France
      • Germany
      • Italy
      • Rest of Europe
    • Asia-Pacific
      • Japan
      • China
      • India
      • Australia
      • Rest of Asia Pacific
    • ROW
      • Latin America
      • Middle East
      • Africa

KEY PLAYERS
o    Thermo Fisher Scientific
o    3D Biomatrix
o    3D Biotek LLC
o    Corning Technologies
o    Hamilton Company
o    Nano 3D Biosciences
o    Global Cell Solutions
o    Tecan Trading AG
o    Lonza Group Ltd.
o    InSphero AG
o    Nanofiber Solutions


 


 
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