Toxicology Research

Overview

With the acceleration of environmental pollution and industrialization, the importance of toxicology research in the field of environmental protection and public health has become increasingly prominent. As the largest ecosystem on Earth, the health of the marine ecosystem is directly related to human survival and development. CD BioSciences is committed to supporting toxicology research by providing advanced marine organism models and providing scientists with efficient and reliable research tools to reveal the potential impacts of environmental toxins on marine life and human health.

Zebrafish model used in toxicology research. Figure 1. Toxic effect of diclofenac on zebrafish during the exposure at 1–4 dpt. (Chen J B, et al., 2014)

Main Application Areas

  • Environmental Toxin Monitoring and Assessment
  • The marine organism models we provide play an important role in environmental toxin monitoring and assessment. Using plankton, mollusk, and fish models, customers can detect and evaluate the toxicity and accumulation effects of various water pollutants such as heavy metals, pesticides, and industrial chemicals. These models help customers to timely discover and quantify pollution sources and formulate effective environmental protection measures.

  • Toxicity Research of Emerging Pollutants
  • With the continuous emergence of new pollutants such as microplastics and nanomaterials, our marine organism models provide customers with effective tools to study the ecological risks of these pollutants. By simulating the long-term effects of these new pollutants on marine life, customers can evaluate their potential hazards and provide a scientific basis for policy formulation and management.

  • Chemical Safety Assessment
  • During the development and regulation of chemicals, our marine organism models are ideal for assessing their environmental toxicity and ecological risks. By using fish models such as zebrafish for acute and chronic toxicity experiments, customers can fully understand the potential effects of chemicals on marine life and ensure their safe application and compliance management.

  • Molecular Toxicology Research
  • Our marine organism models are not only suitable for traditional toxicity studies but also for in-depth analysis of the effects of toxins on gene expression and molecular mechanisms of organisms. Through genomics and proteomics technologies, customers can reveal the action pathways and mechanisms of toxins and promote toxicology research to a higher level. This is of great significance for understanding the long-term effects of toxins and developing detoxification strategies.

  • Ecological Risk Assessment and Management
  • We use a variety of marine organism models to provide customers with comprehensive ecological risk assessment services. By simulating the transmission and accumulation of pollutants at different ecological levels, customers can predict their long-term effects on the entire marine ecosystem. This provides a scientific basis for the formulation of environmental protection and governance measures, helping customers effectively manage ecological risks.

What Can Our Platform Support?

Reasons to Choose Us

  • Full range of technical support. We have an experienced research team with profound knowledge and rich practical experience in the fields of marine biology, toxicology, and environmental science, which can provide professional technical support for our customers.
  • Customized service process. We will provide tailored research protocols and experimental designs according to the specific needs of our clients to ensure that the research results meet their expectations and requirements.
  • Strict confidentiality. We will ensure that clients' information and data will not be disclosed.

At CD BioSciences, we can provide insight into the impact of environmental toxins on marine ecosystems and human health, furthering the continued development of scientific research and environmental protection. Our professional team, advanced technology, and comprehensive services will ensure that your research goes smoothly. For more details about our services, please contact us.

Reference

  • Chen J B, Gao H W, Zhang Y L, et al. (2014). Developmental toxicity of diclofenac and elucidation of gene regulation in zebrafish (Danio rerio)[J]. Scientific reports. 4(1): 4841.

Please kindly note that our services can only be used to support research purposes (Not for clinical use).

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