Posted by NINGBO INNO PHARMCHEM CO.,LTD.

Phenazone, more commonly known by its historical name Antipyrine, represents a fascinating trajectory in the evolution of medicinal chemistry. First synthesized in the late 19th century, it rapidly gained popularity as one of the earliest synthetic analgesics and antipyretics. Its efficacy in relieving pain and reducing fever made it a staple in medicine cabinets for decades, a testament to its foundational role in modern pharmacotherapy.

However, the pharmaceutical landscape is constantly evolving. As newer, more targeted medications with improved safety profiles emerged, the direct clinical use of Antipyrine gradually declined in many regions. Yet, its importance has not diminished; rather, its applications have diversified. Today, it remains a critical compound, primarily recognized for its utility as a pharmaceutical raw material and a key intermediate in the synthesis of other compounds.

The demand for high-purity Antipyrine powder is substantial, driven by its critical role in research. Scientists widely utilize it for Antipyrine for drug metabolism studies. By observing how Antipyrine is processed by the body's enzymes, particularly in the liver, researchers can gain valuable insights into the functioning of these metabolic pathways. This understanding is crucial for predicting how other drugs will be processed, identifying potential drug interactions, and tailoring dosages for individual patients.

Sourcing reliable Antipyrine raw material purity is therefore paramount for research institutions and pharmaceutical companies. A consistent and high-quality supply from a trusted phenylone intermediate manufacturer ensures the accuracy and reproducibility of experimental results. The CAS number 60-80-0 serves as a critical identifier for procuring this essential chemical, guaranteeing it meets the necessary specifications.

The journey of Phenazone (Antipyrine) illustrates the dynamic nature of pharmaceuticals. While its role as a direct medication has changed, its value as a high-purity intermediate and a research probe remains undiminished, underscoring its enduring contribution to healthcare and scientific advancement.