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In-Vitro Toxicology Testing Market - Global Growth, Trends, and Forecast 2019-2024 - ResearchAndMarkets.com

May 23, 2019

DUBLIN--(BUSINESS WIRE)--May 23, 2019--

The “In-Vitro Toxicology Testing Market - Growth, Trends, and Forecast (2019 - 2024)” report has been added to ResearchAndMarkets.com’s offering

The in-vitro toxicology testing market is expected to witness a CAGR of 7.1% during the forecast period.

Factors that are driving market growth include the opposition to the use of animals in pre-clinical research, significant advancements in-vitro toxicology assays, and growing awareness regarding drug product safety. In-vitro tests provide toxicity information in a cost-effective and timesaving manner.

It is anticipated that rapid advances in biomedical sciences will result in the development of newer and advanced in-vitro test strategies for hazard characterization. Toxicity testing is slowly becoming proficient with various advanced technologies aiding the process. It is currently poised to take advantage of promising revolutions from the field of biotechnology. The applications of toxicity testing are set to increase with advances in biotechnology, resulting in a demand for the same in the market.

The advances in toxicity testing practices, such as bioinformatics, computational toxicology, epigenetics, etc., hold the potential for a paradigm shift from whole-animal testing to in-vitro methods that evaluate changes in various processes, which use cell lines and other cellular components. A number of emerging fields and techniques are contributing major new insights for understanding biologic responses to chemicals in human tissues. These advances are expected to drive the growth of the in-vitro toxicology market during the forecast period.

However, the screening process is quite stringent for the approval of any healthcare molecule. Many molecules fail in the toxicity study stage and are barred from entering the market. In-vitro toxicology testing as an alternative to animal testing is by default always under the lens, as it is intended to replace a fully approved method for toxicity study (animal testing). This is because in-vitro toxicology testing has to match closely to the standards from in-vivo animal testing. Regulators, including the United States Food and Drug Administration (FDA), have issued guidance with regard to in-vitro studies to be conducted during drug development.

However, current regulatory guidance does not address specific study designs for in-vitro toxicity testing. The experimental procedures and documentation of data for in-vitro testing should be rigorous, reproducible, with specific analytical methods, along with documentation of assay procedures and results. Therefore, these stringent regulations are restraining the growth of the in-vitro toxicology testing market, globally. Other factors, such as incapability of in-vitro models to determine autoimmunity and immunostimulation, are also acting as major restraints for the market studied.

Scope of the Report

In-vitro toxicity testing is referred to as the method of scientifically analyzing the effects of lethal or toxic chemical materials either on mammalian cells or on cultured bacteria. In-vitro testing methods are performed mainly for the purpose of identifying potentially harmful chemicals and/or for confirming the deficiency of certain toxic properties in the initial stages of the development of possibly useful novel substances, including therapeutic drugs, agricultural chemicals, and even food additives.

Key Market Trends

Cell Culture is Expected to Hold Significant Market Share in the Technology Type Recent inventions and advances in human cell culture exposure, as well as test systems, have allowed the expansion and development of in-vitro assay systems, which are predictive, demonstrative and suitable for toxicity screening of a varied range of chemicals including nanomaterials and airborne materials. In-vitro toxicology involves using cells or tissues grown or maintained in a controlled laboratory environment to examine the toxic properties of various compounds and mixtures.

This further enables one to examine the toxicity of xenobiotics at the basic level of the cell without involving the interplay of complex physiological systemic effects, which are often observed in entire organisms. However, definite cellular functions could be studied with primary cell cultures obtained from specific tissues such as the kidney or gills for ionic homeostasis, liver for xenobiotic biotransformation, and the nerve cells for neurotransmitter signaling effects. North America Dominates the Market and is Expected to Do So in the Forecast Period Over the past few years, technical advancements and supportive government regulations have led to the rapid development of innovative, cost-effective testing for establishing drug, device, chemical and cosmetic safety, in North America.

The significant increase in investment in instruments and the ongoing expansion of laboratory capabilities, across the region, currently, enable clients to establish toxicological profiles of medical devices, biopharmaceuticals, cosmetics, and chemicals. These investments include an expansion of the existing cell/tissue culture capabilities, flow cytometry, and mass spectrometry facilities, apart from the introduction of high throughput screening, automation, and multiplexing technologies for biomarker analysis.

Key Topics Covered:





4.1 Market Overview

4.2 Market Drivers

4.2.1 Opposition to the Usage of Animals in Pre-clinical Research

4.2.2 Significant Advancements In-vitro Toxicology Assays

4.2.3 Increasing Awareness Regarding Drug Product Safety

4.3 Market Restraints

4.3.1 Incapability of In-vitro Models to Determine Autoimmunity and Immunostimulation

4.3.2 Stringent Regulatory Framework for the In-vitro Tests

4.4 Porter’s Five Forces Analysis


5.1 By Technology

5.1.1 Cell Culture

5.1.2 High Throughput

5.1.3 Molecular Imaging

5.1.4 OMICS

5.2 By Method

5.2.1 Cellular Assay

5.2.2 Biochemical Assay

5.2.3 In Silica

5.2.4 Ex-vivo

5.3 By Application

5.3.1 Systemic Toxicology

5.3.2 Dermal Toxicity

5.3.3 Endocrine Disruption

5.3.4 Ocular Toxicity

5.3.5 Other Applications

5.4 By End User

5.4.1 Pharmaceutical Industry

5.4.2 Cosmetics & Household Products

5.4.3 Diagnostics

5.4.4 Chemicals Industry

5.4.5 Food Industry

5.5 Geography


6.1 Company Profiles

6.1.1 Abbott Laboratories

6.1.2 Agilent Technologies

6.1.3 Bio-Rad Laboratories

6.1.4 Covance

6.1.5 Eurofins Scientific

6.1.6 GE Healthcare

6.1.7 Merck KGaA

6.1.8 Promega Corporation

6.1.9 Quest Diagnostics

6.1.10 Thermo Fisher Scientific


For more information about this report visit https://www.researchandmarkets.com/r/ls682p

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Related Topics:Drug Discovery,In Vitro Diagnostics



SOURCE: Research and Markets

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PUB: 05/23/2019 10:56 AM/DISC: 05/23/2019 10:56 AM


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