Methyl 4-(butyrylamino)-3-methyl-5-nitrobenzoate: A Key Intermediate in Pharmaceutical Synthesis
Essential for efficient Telmisartan production, ensuring high purity and optimized synthesis processes.
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Methyl 4-(butyrylamino)-3-methyl-5-nitrobenzoate
This high-purity chemical intermediate is vital for the pharmaceutical industry, particularly in the synthesis of antihypertensive drugs like Telmisartan. Its stringent quality standards and role in streamlining production make it an indispensable component for advanced drug manufacturing.
- As a crucial chemical intermediate, it plays a pivotal role in the efficient synthesis of Telmisartan, a widely used antihypertensive medication.
- Achieving 99% MIN assay purity, this compound meets rigorous quality demands for pharmaceutical applications, ensuring the safety and efficacy of the final drug product.
- The adherence to USP, BP, and EP standards underscores its suitability for global pharmaceutical markets, facilitating compliance and market access.
- Its application in Telmisartan synthesis contributes to a more efficient process, addressing impurity levels, yield, and cost-effectiveness, which are critical for large-scale production.
Advantages Offered
Enhanced Synthesis Efficiency
Leveraging this intermediate in Telmisartan production leads to a more streamlined and cost-effective manufacturing process, which is essential for meeting market demands.
Guaranteed High Purity
With a minimum assay of 99%, the compound ensures minimal impurities, a critical factor in pharmaceutical synthesis where product integrity is paramount.
Broad Market Compliance
Meeting USP, BP, and EP standards broadens its applicability and acceptance across international pharmaceutical regulatory frameworks.
Key Applications
Pharmaceutical Synthesis
Serves as a fundamental building block in the creation of active pharmaceutical ingredients (APIs), particularly for antihypertensive drugs.
Telmisartan Manufacturing
Directly used in the synthesis pathway of Telmisartan, contributing to improved yield and purity of the final API.
Drug Development
A valuable compound for researchers and manufacturers involved in the development and scale-up of cardiovascular medications.
Chemical Research
Its specific chemical structure and properties make it relevant for broader organic synthesis research and development.