N-Ethyl-4-Formyl-Benzeneacetamide: A Vital Pharmaceutical Intermediate
Discover the critical role of this compound in advanced pharmaceutical synthesis and drug development.
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N-Ethyl-4-Formyl-Benzeneacetamide
N-Ethyl-4-Formyl-Benzeneacetamide is a high-purity chemical compound essential for the synthesis of advanced pharmaceutical agents. Its primary application is as an intermediate in the production of Elacestrant, a significant component in targeted cancer therapies, particularly for ER+/HER2- metastatic breast cancer. Understanding the properties of this pharmaceutical intermediate is key for efficient API synthesis.
- Elacestrant Intermediate Manufacturing processes leverage N-Ethyl-4-Formyl-Benzeneacetamide to create vital drug components.
- The CAS 2477812-42-1 synthesis ensures a reliable supply chain for critical pharmaceutical ingredients.
- As a key pharmaceutical chemical intermediate, it plays a pivotal role in the drug development lifecycle.
- Reliable sourcing of this compound is crucial for active pharmaceutical ingredients synthesis, supporting therapeutic advancements.
Key Advantages
High Purity for Synthesis
The consistent quality and purity of N-Ethyl-4-Formyl-Benzeneacetamide are essential for achieving high yields and purity in active pharmaceutical ingredients synthesis.
Critical Role in Elacestrant Production
This compound is indispensable for the Elacestrant intermediate manufacturing, contributing directly to advanced breast cancer treatments.
Supports Targeted Therapies
Its use in drug development aids in the creation of targeted therapies, enhancing treatment efficacy for patients with specific medical conditions.
Key Applications
Pharmaceutical Synthesis
Utilized extensively in the chemical synthesis pathways for complex pharmaceutical molecules, making it a cornerstone for drug production.
Drug Development
Essential for research and development efforts focused on creating new and improved therapeutic agents for various diseases.
Chemical Research
Serves as a valuable reagent in laboratory settings for organic chemistry research and the exploration of novel compounds.
API Production
Key component in the API synthesis process, ensuring the availability of active ingredients for pharmaceutical formulations.