The global market for cell viability assays should grow from $2.7 billion in 2018 to reach $4.1 billion by 2023 at a compound annual growth rate (CAGR) of 8.3% for the period of 2018-2023.
The scope of this report is broad and covers various types of products available in the cell viability assays market and potential application sectors in various industries. The cell viability assays market is broken down by product into instruments and consumables. Revenue forecasts from 2018 to 2023 are given for each product, application, cell type and end user, with estimated valued derived from the revenues of manufacturers. Revenue generated from the installation and maintenance of instruments has been excluded from the report.
The report also includes a discussion of the major players in each regional cell viability assays market. Further, it explains the major drivers and regional dynamics of the global market and current trends within the industry.
The report concludes with a special focus on the vendor landscape and includes detailed profiles of the major players in the global cell viability assays market.
- 95 data tables and 66 additional tables
- An overview of the global cell viability assays market
- Analyses of global market trends, with data from 2017, 2018, and projections of compound annual growth rates (CAGRs) through 2023
- Information on various type of products available in the cell viability assays market and potential applications across various industries
- Examination of the main product applications and markets in an effort to help companies and investors prioritize product opportunities and strategic movements
- Evaluation of key industry and market trends, and quantification of the main market segments, allowing the reader to better understand the industry’s structure and changes occurring within it
- Coverage of innovations and development in stem cell research, toxicity testing and tissue engineering
- Insight into regulatory framework and investment analysis in the healthcare sector
- Detailed profiles of the major players of the industry, including Bio-Rad Laboratories Inc., Danaher Corp., GE Healthcare, Merck KGaA and R&D Systems Inc.
Cell viability assays refer to a homogeneous method to determine the number of viable cells within a culture. Cell viability measurements are used to evaluate the effectiveness of a drug candidate, rejection of implanted organs or evaluation of the life or death of cancerous cells. Cell viability assays are used in clinical and diagnostic applications, drug discovery and development, stem cell research, basic research and other applications such as toxicity testing and tissue engineering. Cell viability assays have proven to be extremely beneficial in drug discovery applications and the global cell viability assays market is projected to see rapid growth during the forecast period (2018-2023) owing to increasing emphasis on stem cell research and increasing demand for cell-based assays in research and development.
A surge in the number of potential biomarkers candidates for cell-based assays, growing incidence of infectious and chronic diseases and increasing focus on developing cell-based therapeutics are some of the major factors that are expected to promote the growth of global cell viability assays market. In addition, factors such as increasing healthcare expenditures and the global aging population are also providing traction for the global cell viability assays market growth during the forecast period. The growing prevalence of infectious and chronic diseases is considered to be the major driver behind the growth of the cell viability assays market. Cell viability measurements are used to evaluate the
effectiveness of a drug candidate, rejection of implanted organs or the life or death of cancerous cells.
According to the World Health Organization (WHO), the number of patients suffering from chronic diseases such as respiratory disease, cancer and cardiovascular disease totaled about 130 million people in 2005 and is expected to reach REDACTED by 2030. In addition, increasing emphasis on stem cell research is also poised to generate strong growth opportunities for cell viability assays. Governments globally are investing huge amounts on stem cell research. According to the U.S. Department of Health and Human Services, REDACTED billion was spent on stem cell research in 2016; this increased to REDACTED in 2017. In April 2017, Bayer AG and Versant Ventures (U.S.) announced plans to invest REDACTED to launch a stem cell research company in Canada and create a global hub for regenerative-medicinetherapies.
The global cell viability assays market is projected to rise at a compound annual growth rate (CAGR) of REDACTED during the forecast period of 2018 through 2023. Market value is expected to rise from REDACTED in 2018 to REDACTED by 2023. Consumables held REDACTED of the market in 2017 in terms of revenue. By 2023, total revenue from consumables is expected to see a CAGR of REDACTED.
Table of Contents
Chapter 1 Introduction
Study Goals and Objectives
Reasons for Doing This Study
Scope of Report
BCC Custom Research
Related BCC Research Reports
Chapter 2 Summary and Highlights
Chapter 3 Market Overview
Market Size and Growth
Consumer Types and Product Success
Industry Growth Drivers
Increasing Focus on Development of Cell-Based Therapeutics and Potential Biomarkers
Growing Prevalence and Incidence of Infectious and Chronic Diseases
Increasing Demand for Cell-Based Assays in Research and Development
Increasing Emphasis on Stem Cell Research
Chapter 4 Cell Viability Assays Market by Product
Automated Cell Counters
Cell Imaging and Analysis Systems
Chapter 5 Market Breakdown by Cell Type
Assays to Measure Viable Cells
Benefits of Protease Marker Assays
Advantages of ATP Assays
ATP Cell Viability Assay for Measuring Intrinsic Radio-Sensitivity in Cervical Cancer
Advantages of Viability Assays for Animals
Cell Viability Assay to Determine the Cytotoxic Effects by Microbes in Water
Imaging Microbial Viability Assays
Imaging Biofilm Viability Assays
Bacterial Viability Assays for Flow Cytometry
Viability Detection of Foodborne Microbial Pathogens
Global Estimates of Foodborne Diseases
Chapter 6 Market Breakdown by Application
Clinical and Diagnostic Applications
Drug Discovery and Development
Stem Cell Research
Potential Benefits of Stem Cell Research
Other Applications (e.g., Toxicity Testing, Tissue Engineering)
Chapter 7 Market Breakdown by End User
Academic and Research Institutions
Pharmaceutical and Biotechnology Companies
UV-Spectrophotometers for Drug Stability Testing
Hospitals and Diagnostic Laboratories
Cell Viability Assays
Assays and Their Substrates
Technological Advancements and Innovations
XTT Formazan Assay to Detect Cell Viability Inhibits HIV Type 1 Infection
Viability Assay to Identify Biologically-Relevant Malaria Transmission- Blocking Drugs
Assays for Diagnostic Tests for Malaria
Non-Blood Based Assays
Other End Users
Cancer Diagnosis and Prognosis
Chapter 8 Market Breakdown by Region
Rest of Europe
Rest of Asia-Pacific
Rest of the World
Middle East and Africa
Chapter 9 Cell Viability Assays Market Industry Structure
Raw Material Suppliers
Quality and Technology
Terms and Conditions
Raw Material Suppliers of Consumables
Terms and Conditions
Manufacturers of Consumables
Distributors of Consumables
End Users of Consumables
Innovation Within the Industry
Chapter 10 Company Profiles
AAT BIOQUEST INC.
BECTON, DICKINSON AND CO.
DOJINDO MOLECULAR TECHNOLOGIES INC.
MOLECULAR DEVICES LLC
R&D SYSTEMS INC.
TAKARA BIO INC.
THERMO FISHER SCIENTIFIC
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