Sulfathiazole CAS 72-14-0: A Comprehensive Guide to its Properties, Applications, and Historical Significance
Explore the chemical properties, historical impact, and modern relevance of Sulfathiazole (CAS 72-14-0), a pivotal sulfonamide antibiotic. Learn about its mechanism of action and application in combating bacterial infections.
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Sulfathiazole
Sulfathiazole, identified by CAS 72-14-0, is a significant sulfonamide antibiotic with a rich history in treating bacterial infections. Its core value lies in its mechanism of action, which targets the folic acid synthesis pathway essential for bacterial growth. While its prominence has shifted with the advent of newer antimicrobials, Sulfathiazole remains a subject of interest and is still utilized in specific therapeutic scenarios. We are a reliable supplier in China, providing high-quality pharmaceutical ingredients.
- Understanding the sulfathiazole antibiotic mechanism of action is key to appreciating its therapeutic role. As a competitive inhibitor of dihydropteroate synthase, it effectively blocks bacterial folic acid production.
- The sulfathiazole historical significance cannot be overstated; it was a breakthrough in early antimicrobial therapy. Its introduction significantly reduced mortality rates from previously untreatable infections.
- Exploring sulfathiazole side effects and interactions is crucial for safe usage. Careful consideration of potential adverse reactions and drug interactions ensures optimal patient outcomes.
- Investigating sulfathiazole pharmaceutical applications reveals its enduring, albeit niche, importance. From historical uses to potential roles in veterinary medicine, its utility persists.
Advantages Offered by Sulfathiazole
Historical Efficacy
Sulfathiazole was instrumental in treating a wide range of bacterial infections, including meningitis and gonorrhea, marking a significant advancement in public health. Its success paved the way for future antibiotic development.
Targeted Mechanism
The drug's bacteriostatic effect, achieved by inhibiting folic acid synthesis, provides a targeted approach against bacterial pathogens. This mechanism remains a fundamental concept in antimicrobial research.
Foundation for Research
The study of sulfathiazole and other sulfonamides provided invaluable insights into antimicrobial drug discovery and development. Learning about sulfathiazole pharmaceutical applications continues to inform current research.
Key Applications
Bacterial Infection Treatment
Historically, Sulfathiazole was a frontline treatment for various bacterial infections. Understanding what is sulfathiazole used for in its prime era highlights its critical role in medicine.
Veterinary Medicine
In some contexts, Sulfathiazole may still find application in veterinary medicine for treating specific bacterial ailments in animals.
Scientific Research
As a compound with significant historical and pharmacological relevance, Sulfathiazole continues to be studied for its properties and potential in academic and research settings.
Pharmaceutical Development Insights
The journey of Sulfathiazole, from its discovery to its eventual limitations, offers crucial lessons for modern pharmaceutical development, particularly regarding resistance and safety profiles.