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

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

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Product information

Catalog No.DescriptionUS $ Price (per mg)
GMP-SMT-111-11. BSA-Arermectin
2. Anti-Arermectin mouse monoclonal antibody
$2709.00
GMP-SMT-111-21. OVA-Arermectin
2. Anti-Arermectin mouse monoclonal antibody
$2709.00
GMP-SMT-111-31. BSA-Arermectin
2. Anti-Arermectin human monoclonal antibody
$2709.00
GMP-SMT-111-41. OVA-Arermectin
2. Anti-Arermectin human monoclonal antibody
$2709.00
GMP-SMT-111-Ag-1BSA-Arermectin$756.00
GMP-SMT-111-Ag-2OVA-Arermectin$756.00
GMP-SMT-111-Ab-1Anti-Arermectin mouse monoclonal antibody$1953.00
GMP-SMT-111-Ab-2Anti-Arermectin human monoclonal antibody$1953.00

Size: 1mg | 10mg | 100mg



Product Description


BSA-Arermectin

Cat No.GMP-SMT-111-Ag-1
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Products descriptionCompetitive immunoassay-validated hapten-carrier conjugates BSA-Arermectin with anti-Hapten antibody. The hapten hapten-carrier conjugates BSA-Arermectin had been validated with our anti-Hapten antibody Anti-Arermectin mouse monoclonal antibody via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


OVA-Arermectin

Cat No.GMP-SMT-111-Ag-2
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Products descriptionCompetitive immunoassay-validated hapten-carrier conjugates OVA-Arermectin with anti-Hapten antibody. The hapten hapten-carrier conjugates OVA-Arermectin had been validated with our anti-Hapten antibody Anti-Arermectin mouse monoclonal antibody via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


Anti-Arermectin mouse monoclonal antibody

Cat No.GMP-SMT-111-Ab-1
Host of AntibodyMouse IgG
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Lateral flow immunoassay (LFIA);
ELISA IC50 (ppb)0.2-0.3
Products descriptionThe anti-Hapten antibody against hapten Arermectin had been validated with our hapten hapten-carrier conjugates BSA-Arermectin via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


Anti-Arermectin human monoclonal antibody

Cat No.GMP-SMT-111-Ab-2
Host of AntibodyHuman IgG1
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Lateral flow immunoassay (LFIA);
ELISA IC50 (ppb)0.2-0.3
Products descriptionThe anti-Hapten antibody against hapten Arermectin had been validated with our hapten hapten-carrier conjugates BSA-Arermectin via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


Reference




    Data / case study


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    Biomarker Information


    1. Introduction

    Avermectin, classified as a macrocyclic lactone compound, stands as a pivotal player in both veterinary medicine and agriculture. This article delves into the profound significance of Avermectin and its derivative, Ivermectin, in the context of veterinary practice and agricultural applications. Specifically, we explore their remarkable effectiveness in addressing parasitic infestations that afflict a wide range of animals, including livestock such as cattle, sheep, horses, and swine, as well as beloved companion animals like dogs and cats.

    2. The Crucial Role of Avermectin Measurement

    The measurement of Avermectin levels is of paramount importance across various domains:

    a. Residue Monitoring (2a): Avermectin-based anthelmintic drugs serve as potent tools in combating parasitic infections in animals. The precise measurement of Avermectin residues becomes imperative to ascertain the safety of products derived from these animals for human consumption, such as meat, milk, and eggs. This measurement ensures that these products conform to established regulatory limits, thus preventing the presence of excessive Avermectin residues in the food chain.

    b. Animal Health and Welfare (2b): Achieving and maintaining animal well-being is an essential goal in veterinary practice. Proper administration of Avermectin is vital in this regard. By monitoring Avermectin levels, veterinarians and animal caregivers can ensure that animals receive the correct dosage of the drug. This prevents under-dosing, which may render the treatment ineffective, as well as over-dosing, which could lead to detrimental adverse effects.

    c. Resistance Management (2c): The indiscriminate and frequent use of Avermectin can contribute to the emergence of drug-resistant parasites. Continuous measurement of Avermectin levels is invaluable in tracking the efficacy of this compound and identifying potential cases of resistance. Armed with this information, veterinarians and researchers can develop and implement effective strategies for parasite management, thus preserving the drug's efficacy over time.

    d. Regulatory Compliance (2d): Governmental and regulatory bodies establish maximum residue limits (MRLs) for Avermectin in food products that originate from treated animals. Accurate measurement of Avermectin levels is essential to ensure that producers and farmers adhere to these regulations. Compliance with MRLs not only safeguards food safety but also shields stakeholders from legal consequences associated with non-compliance.

    e. Scientific Research (2e): Beyond its practical applications, Avermectin measurement plays a pivotal role in scientific research within the realms of biopharmaceuticals and agriculture. Researchers rely on precise measurements to investigate various aspects, including drug interactions, pharmacokinetics, and potential mechanisms of resistance. These insights contribute to the development of safer, more effective veterinary drugs, ultimately benefiting both animal health and agricultural productivity.

    In conclusion, the measurement of Avermectin levels encompasses multifaceted implications spanning food safety, animal health and welfare, resistance management, regulatory adherence, and scientific advancement. It stands as an indispensable tool that not only ensures the responsible use of Avermectin in veterinary medicine and agriculture but also underscores its enduring importance in safeguarding both animal and human well-being.



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