The world of medicinal chemistry is rich with diverse compound classes, and pyrazolone derivatives hold a notable place among them. Among these, Antipyrine, known scientifically by its CAS number 60-80-0, stands out for its historical impact and continued relevance. Understanding the properties and applications of Antipyrine offers a window into the evolution of analgesics and antipyretics.

Antipyrine’s historical significance stems from its potent analgesic and antipyretic properties. Developed in the late 19th century, it was one of the earliest synthetic drugs to gain widespread use for pain and fever relief. While newer, more targeted medications have emerged, the fundamental pharmacological actions of Antipyrine, such as its analgesic effect and antipyretic properties, provide valuable insights for current drug research. Its efficacy profile is a testament to the early successes in synthetic organic chemistry applied to medicine.

Beyond its direct medicinal applications, Antipyrine serves as a foundational structure for other important compounds. As a chemical intermediate, it is integral to the synthesis of various pharmaceuticals and research chemicals. The broader family of pyrazolone derivatives encompasses many compounds with diverse biological activities, highlighting the versatility of this chemical scaffold. Researchers often study Antipyrine to understand the structure-activity relationships within this class.

When considering the procurement of Antipyrine, whether for research or potential inclusion in specialized formulations, sourcing from reliable Antipyrine suppliers is essential. The availability of high-quality Antipyrine, often described as GMP quality Antipyrine, ensures the integrity of experimental results or product formulations. Examining the price of Antipyrine in relation to its purity and intended use is a practical aspect of laboratory management and procurement.

In essence, Antipyrine (CAS 60-80-0) represents more than just a historical pharmaceutical. It is a key pyrazolone derivative that continues to inform medicinal chemistry, serve as a vital chemical intermediate, and act as a benchmark for research. Its enduring presence underscores the importance of understanding the origins and multifaceted roles of compounds in advancing healthcare and scientific discovery.