31-Aug-2023
Expanding drug development pipelines in South Korea is driving up demand for the South Korea early toxicity testing market during the forecast period.
South Korea Early Toxicity Testing Market was valued at USD 34.14 million in 2022, and is predicted to reach USD 115.53 million by 2030, with a CAGR of 13.56% from 2023 to 2030, according to new research by Next Move Strategy Consulting.
The ongoing expansion of drug development pipelines by pharmaceutical companies in South Korea is a major driving force behind the early toxicity testing market's growth within South Korea. According to the Korea Drug Development Fund (KDDF), a total of 559 new pipelines were being developed by domestic companies as of 2021. This includes pipelines for various therapeutic areas, such as oncology, rare diseases, and infectious diseases.
Early toxicity testing is essential in identifying potential risks and adverse effects of new drug candidates, ensuring their safety, and expediting their regulatory approval. The development of these pipelines creates a significant demand for early toxicity testing methods in South Korea, as companies seek to identify and address potential safety concerns in early stages of drug development.
However, stringent regulations set by regulatory bodies such as the US FDA and the EMA require extensive and rigorous testing for drug development and safety, which can be time-consuming and expensive and restrain growth of the market. The complexity and cost of complying with these regulations can pose a significant challenge for small and medium-sized companies that may not have the resources to carry out extensive testing. As a result, some companies may choose to delay or abandon drug development projects, which can limit demand for early toxicity testing services.
On the other hand, introduction of new technologies such as in-vitro modelling using 3D cell culture is expected to provide new lucrative opportunities for the early toxicity testing market during the forecast period. Use of 3D cell cultures can better mimic complexity of tissues and organs, providing more accurate and reliable results for toxicity testing. Traditional 2D cell culture models are limited in their ability to mimic complexity of human tissues and organs, often leading to inaccurate and unreliable results in toxicity testing.
Furthermore, use of 3D cell culture models can better mimic structural and functional complexity of tissues and organs, providing more accurate and reliable results for toxicity testing. 3D cell cultures allow growth and interaction of multiple cell types, creating a microenvironment that more closely resembles human tissues and organs. This can better predict toxic effects of drugs and chemicals in the human body, reducing the risk of adverse effects in clinical trials. Hence, such factors propel the ETT market growth.
According to the report, leading players in the South Korea early toxicity testing market include Inotiv Inc., Bio-Rad Laboratories Inc, Evotec A.G., Agilent Technologies Inc, Wuxi Apptec, Bruker, Perkinelmer Inc., Enzo Biochem Inc., Danaher Corporation, Eurofins Scientific SE, Charles River Laboratories International, Inc., Labcorp Drug Development., Promega Corporation, Insphero AG.
The information related to key drivers, restraints, and opportunities and their impact on the South Korea early toxicity testing market is provided in the report.
The value chain analysis in the market study provides a clear picture of the roles of each stakeholder.
The market share of players in the South Korea early toxicity testing market is provided in the report along with their competitive analysis.
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