Tin protoporphyrin IX API Manufacturers

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Looking for Tin protoporphyrin IX API 14325-05-4?

Description:
Here you will find a list of producers, manufacturers and distributors of Tin protoporphyrin IX. You can filter on certificates such as GMP, FDA, CEP, Written Confirmation and more. Send inquiries for free and get in direct contact with the supplier of your choice.
API | Excipient name:
Tin protoporphyrin IX 
Synonyms:
Sn Protoporphyrin , Sn-heme , SnPP , SnPP Protoporphyrin , Tin protoporphyrin IX  
Cas Number:
14325-05-4 
DrugBank number:
DB16449 
Unique Ingredient Identifier:
DIO3JT9G2P

General Description:

Tin protoporphyrin IX is a chemical compound identified by the CAS number 14325-05-4. It is known for its distinct pharmacological properties and applications.

Mechanism of Action:

Tin protoporphyrin IX functions by: SnPP is a competitive inhibitor of heme oxygenase, an enzyme which degrades heme to bilirubin, prevents the development of hyperbilirubinemia, and reduces bilirubin levels in plasma. This compound is also found to directly inactivate DENV and YFV infectious particles and has the potential to have antiviral activity against numerous organisms. This mechanism highlights the drug's role in inhibiting or promoting specific biological pathways, contributing to its therapeutic effects.

Categories:

Tin protoporphyrin IX is categorized under the following therapeutic classes: Biological Factors, Coordination Complexes, Enzyme Inhibitors, Experimental Unapproved Treatments for COVID-19, Heme Oxygenase (Decyclizing), antagonists & inhibitors, Heterocyclic Compounds, Fused-Ring, Pigments, Biological, Porphyrins. These classifications highlight the drug's diverse therapeutic applications and its importance in treating various conditions.

Tin protoporphyrin IX is a type of Anti-infective Agents


Anti-infective agents are a vital category of pharmaceutical active pharmaceutical ingredients (APIs) used in the treatment of various infectious diseases. These agents play a crucial role in combating bacterial, viral, fungal, and parasitic infections. The demand for effective anti-infective APIs has grown significantly due to the increasing prevalence of drug-resistant microorganisms.

Anti-infective APIs encompass a wide range of substances, including antibiotics, antivirals, antifungals, and antiparasitics. Antibiotics are particularly important in fighting bacterial infections and are further categorized into different classes based on their mode of action and target bacteria. Antivirals are designed to inhibit viral replication and are essential in the treatment of viral infections such as influenza and HIV. Antifungals combat fungal infections, while antiparasitics are used to eliminate parasites that cause diseases like malaria and helminthiasis.

The development and production of high-quality anti-infective APIs require stringent manufacturing processes and adherence to regulatory standards. Pharmaceutical companies invest heavily in research and development to discover new and more effective anti-infective agents. Additionally, ensuring the safety, efficacy, and stability of these APIs is of utmost importance.

The global market for anti-infective APIs is driven by factors such as the rising incidence of infectious diseases, the emergence of new and drug-resistant pathogens, and the growing demand for improved healthcare infrastructure. Continuous advancements in pharmaceutical technology and the development of innovative drug delivery systems further contribute to the expansion of this market.

In conclusion, anti-infective agents are a critical category of pharmaceutical APIs that play a pivotal role in treating infectious diseases. Their effectiveness in combating various types of infections makes them essential components in the arsenal of modern medicine.