Metronidazole antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Metronidazole antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Metronidazole

OVA-Metronidazole

Anti-Metronidazole mouse monoclonal antibody

Anti-Metronidazole human monoclonal antibody

Reference

Validation Data

Click to get more Data / Case study about the product.

Biomarker Information

1. Metronidazole: An Essential Component in Environmental Research

Overview:

Metronidazole, a synthetic antibiotic and antiprotozoal small molecule, assumes a critical role in the realm of environmental research. Its unique chemical composition and biochemical properties make it an indispensable tool for analyzing and mitigating pharmaceutical contamination in various environmental matrices.

Role in Environmental Assessment (Serial Number 1):

Metronidazole's involvement in environmental research is multifaceted. It is widely employed as a marker compound to evaluate the presence and behavior of pharmaceuticals within ecosystems. This is crucial for understanding the dispersion, degradation, and overall impact of pharmaceutical residues on the environment.

Metronidazole serves as a representative compound due to its prevalence and persistence in environmental samples. Its chemical structure makes it a suitable marker for tracing the pathways of pharmaceutical compounds that enter the environment. This provides valuable insights into the fate of pharmaceuticals, their distribution, and potential ecological and human health risks.

Furthermore, the role of Metronidazole extends to acting as a model substance for studying the environmental fate and transport of pharmaceuticals. Research involving Metronidazole allows scientists to develop predictive models and assess the persistence of pharmaceuticals in various environmental compartments, such as surface water, sediments, and soil.

Reasons to Measure Metronidazole (Serial Number 2):

Measuring Metronidazole is essential for a multitude of compelling reasons:

Indicator of Pharmaceutical Contamination: Metronidazole serves as a reliable indicator for assessing pharmaceutical contamination in environmental samples. Its detection signifies the presence of broader pharmaceutical residues and the need for comprehensive analysis. It's a valuable proxy for a wide range of pharmaceutical compounds that find their way into natural ecosystems.

Environmental Impact Assessment: Accurate measurement of Metronidazole levels aids in quantifying the extent of contamination, allowing for in-depth environmental impact assessments. This data informs regulatory compliance, risk assessment, and ecosystem protection strategies. It is pivotal for understanding the potential risks pharmaceutical residues pose to the environment and, subsequently, to human health.

Development of Remediation Strategies: Precise measurement of Metronidazole provides insights into the persistence and behavior of pharmaceuticals, assisting in the formulation of effective remediation methods to mitigate contamination. When Metronidazole levels are measured, it enables researchers to tailor remediation strategies based on the specific behavior of pharmaceutical compounds in the environment.

Water Quality Monitoring: Water quality monitoring benefits significantly from Metronidazole measurements. Excessive pharmaceutical contamination in water sources poses risks to aquatic life and public health, necessitating constant monitoring and regulatory adherence. By measuring Metronidazole, water quality can be continuously monitored, ensuring that the water supply remains safe for both ecological and human consumption.

Legislative Compliance: Many regions have established regulations to limit pharmaceutical contamination, recognizing the potential risks associated with these compounds in the environment. Measuring Metronidazole is integral to ensure compliance with such regulations, avoid legal ramifications, and maintain environmental integrity. The data obtained from these measurements is essential for demonstrating adherence to environmental protection laws and guidelines.

In conclusion, Metronidazole's measurement in environmental research is indispensable, offering a comprehensive scientific framework for understanding pharmaceutical contamination issues. Its use as a marker compound facilitates the development of predictive models, assessment of ecological risks, and the design of effective remediation strategies. Accurate Metronidazole measurement methods are indispensable tools in advancing environmental sciences, safeguarding ecosystems, and protecting human health. It underscores the critical importance of a systematic and data-driven approach to addressing pharmaceutical contamination in the environment.

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