Unlock the Potential: Understanding Tianeptine Ethyl Ester for Research and Advanced Applications
Explore the chemical properties and research applications of Tianeptine Ethyl Ester, a key intermediate in pharmaceutical development.
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Tianeptine Ethyl Ester
Tianeptine Ethyl Ester (CAS 66981-77-9) is a vital chemical substance primarily utilized in the pharmaceutical field as an intermediate or raw material. It serves as a crucial component in the synthesis of compounds with psychoactive, anti-ulcer, and antiemetic properties, making it a significant research chemical.
- Understanding tianeptine ethyl ester pharmacokinetic profiles is key to its application. Its ethyl ester modification is investigated for its influence on absorption, distribution, metabolism, and excretion.
- This compound serves as an important intermediate for the synthesis of antidepressants. It is a critical raw material in the production of Tianeptine, known for its unique pharmacological mechanism.
- Researchers utilize Tianeptine Ethyl Ester as an analytical reference standard. This allows for the accurate identification and quantification of the substance in various experimental samples.
- The molecule's structure-activity relationships are explored through its use. Academic inquiries focus on understanding which parts of the molecule are essential for its intended biological action.
Advantages Offered
Enhanced Research Capabilities
Leverage Tianeptine Ethyl Ester as a research chemical to delve deeper into the mechanisms of neuroactive compounds and their therapeutic potential.
Facilitates Antidepressant Synthesis
As a crucial antidepressant synthesis intermediate, it enables the production of advanced pharmaceutical agents with unique mechanisms.
Precise Analytical Applications
Utilize its role as an analytical reference standard to ensure accuracy and reliability in laboratory analyses and forensic toxicology.
Key Applications
Pharmaceutical Intermediates
Serves as a fundamental building block in the synthesis of complex pharmaceutical compounds, contributing to drug development.
Neuroscience Research
Its unique pharmacological properties make it valuable for studying neurotransmitter systems and neurodegenerative diseases.
Analytical Chemistry
Essential as a reference standard for quality control and identification purposes in chemical analysis and research.
Prodrug Development Studies
Investigated for its potential as a prodrug, aiming to improve the delivery and efficacy of related therapeutic agents.