Clorprenaline(CLP) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Clorprenaline(CLP)

OVA-Clorprenaline(CLP)

Anti-Clorprenaline(CLP) mouse monoclonal antibody

Anti-Clorprenaline(CLP) human monoclonal antibody

Reference

Validation Data

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

Biomarker Information

1. Clorprenaline (CLP): Clorprenaline, commonly abbreviated as CLP, represents a significant small molecule within the purview of veterinary medicine. It pertains to the classification of veterinary drug residues and additives, assuming a distinctive role in this specialized domain.

1.1 Role in Veterinary Drug Residues and Additives:

Clorprenaline's role within the realm of veterinary drug residues and additives is rooted in its pharmacological properties. It operates as a beta-adrenergic agonist, a class of compounds known for their effects on adrenergic receptors in various tissues, including muscle. More specifically, CLP functions as a bronchodilator and a skeletal muscle relaxant. These attributes are of particular interest in veterinary medicine for several reasons:

- Muscle Development: Clorprenaline is recognized for its ability to stimulate muscle development in animals. It achieves this by promoting muscle protein synthesis and inhibiting muscle protein breakdown. As a result, livestock and poultry treated with CLP may exhibit enhanced muscle growth, leading to increased lean meat production.

- Feed Efficiency: CLP also influences feed efficiency in animals. By reducing the catabolism of muscle protein and enhancing the utilization of nutrients from feed, it can contribute to improved feed conversion ratios. This means that animals can achieve desired growth outcomes with less feed, making CLP an attractive option in animal husbandry.

- Therapeutic Use: While CLP is often associated with growth promotion, it can also be employed therapeutically in veterinary medicine. It may be used to manage certain respiratory conditions in animals, such as bronchoconstriction associated with respiratory diseases.

1.2 Regulatory Oversight:

It is important to note that the use of CLP in animal farming is subject to rigorous regulatory oversight in many countries. Regulatory agencies establish guidelines and maximum residue limits (MRLs) for CLP in edible tissues to ensure the safety of food products derived from treated animals. These regulations aim to prevent excessive CLP residues in meat and other animal-derived products, as elevated levels could potentially pose health risks to consumers.

2. Why Measure Clorprenaline (CLP)?

2.1 Ensuring Food Safety:

The measurement of Clorprenaline (CLP) is paramount for upholding food safety standards. Excessive CLP residues in animal-derived food products can potentially lead to adverse health effects in consumers. Therefore, precise and sensitive analytical methods are essential for monitoring and controlling CLP levels in livestock and poultry-derived food items.

2.2 Regulatory Compliance:

To comply with established regulatory guidelines and mandates, rigorous measurement of CLP is essential. Thorough monitoring of CLP residues ensures that its use in animal husbandry remains within permissible limits, safeguarding the integrity of food products and ensuring adherence to regulatory requirements.

2.3 Mitigating Antibiotic Resistance Risks:

The judicious measurement of CLP serves as a critical strategy to mitigate the risk of antibiotic resistance. Overuse or improper use of CLP in animal farming can contribute to the emergence of antibiotic-resistant bacterial strains. Monitoring CLP levels empowers veterinarians and livestock producers to implement responsible antibiotic use practices, reducing the potential impact of antibiotic resistance on both animal and human health.

2.4 Quality Control in Animal Production:

The measurement of CLP serves as a quality control mechanism in animal production. It enables producers to optimize feed formulations, monitor growth-enhancing effects, and ensure the overall health and well-being of animals while aligning with production goals. This ensures that animals receive appropriate care and nutrition, contributing to the production of safe and high-quality animal-derived products.

2.5 Research and Development Endeavors:

Researchers often engage in the measurement of CLP to delve into its pharmacokinetics, pharmacodynamics, and explore potential alternatives in veterinary therapeutics. Understanding CLP's effects and its presence in animal tissues contributes to ongoing research efforts in veterinary drug development and animal husbandry practices. This research may lead to the development of safer and more effective veterinary treatments and management strategies.

In conclusion, the meticulous measurement of Clorprenaline (CLP) is pivotal for safeguarding food safety, upholding regulatory compliance, averting antibiotic resistance concerns, optimizing quality in animal production, and advancing scientific exploration within the realm of veterinary medicine. Accurate CLP quantification assumes a central role in the judicious and sustainable utilization of this compound in the context of livestock and poultry agriculture. It ensures that the benefits of CLP use are realized while minimizing potential risks to both animal and human health.

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