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Looking for Erythromycin dihydrate API 59319-72-1?

Description:
Here you will find a list of producers, manufacturers and distributors of Erythromycin dihydrate. 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:
Erythromycin dihydrate 
Synonyms:
Erythromycin A (dihydrate) , Erythromycin base dihydrate  
Cas Number:
59319-72-1 
Unique Ingredient Identifier:
T0O317A6OW

Erythromycin dihydrate is a type of Macrolides


Macrolides are a significant subcategory of pharmaceutical active pharmaceutical ingredients (APIs) that are widely used in the healthcare industry. These compounds belong to a class of antibiotics characterized by a large macrocyclic lactone ring, which is the key structural feature responsible for their therapeutic activity.

Macrolides possess a broad spectrum of activity against various bacteria, making them valuable in the treatment of many bacterial infections. They work by inhibiting the synthesis of bacterial proteins, thereby preventing their growth and replication. This mechanism of action makes macrolides effective against both Gram-positive and some Gram-negative bacteria.

One of the most well-known macrolide antibiotics is erythromycin, which has been used for decades to treat respiratory tract infections, skin infections, and sexually transmitted diseases. Over time, several derivatives and semi-synthetic macrolides have been developed, such as azithromycin and clarithromycin, which offer improved pharmacokinetic properties, increased efficacy, and broader spectrum of activity.

Macrolides are often preferred in clinical practice due to their favorable pharmacokinetics, including high tissue penetration, prolonged half-life, and low toxicity. They are commonly prescribed for patients who are allergic to penicillin or have other contraindications to beta-lactam antibiotics.

In conclusion, macrolides represent a vital subclass of pharmaceutical APIs with potent antibacterial properties. Their broad spectrum of activity, favorable pharmacokinetic profile, and versatility make them indispensable in the treatment of various bacterial infections.


Erythromycin dihydrate (Macrolides), classified under Antibacterials


Antibacterials, a category of pharmaceutical active pharmaceutical ingredients (APIs), play a crucial role in combating bacterial infections. These APIs are chemical compounds that target and inhibit the growth or kill bacteria, helping to eliminate harmful bacterial pathogens from the body.

Antibacterials are essential for the treatment of various bacterial infections, including respiratory tract infections, urinary tract infections, skin and soft tissue infections, and more. They are commonly prescribed by healthcare professionals to combat both mild and severe bacterial infections.

Within the category of antibacterials, there are different classes and subclasses of APIs, each with distinct mechanisms of action and target bacteria. Some commonly used antibacterials include penicillins, cephalosporins, tetracyclines, macrolides, and fluoroquinolones. These APIs work by interfering with various aspects of bacterial cellular processes, such as cell wall synthesis, protein synthesis, DNA replication, or enzyme activity.

The development and production of antibacterial APIs require stringent quality control measures to ensure their safety, efficacy, and purity. Pharmaceutical manufacturers must adhere to Good Manufacturing Practices (GMP) and follow rigorous testing protocols to guarantee the quality and consistency of these APIs.

As bacterial resistance to antibiotics continues to be a significant concern, ongoing research and development efforts aim to discover and develop new antibacterial APIs. The evolution of antibacterials plays a crucial role in combating emerging bacterial strains and ensuring effective treatment options for infectious diseases.

In summary, antibacterials are a vital category of pharmaceutical APIs used to treat bacterial infections. They are designed to inhibit or kill bacteria, and their development requires strict adherence to quality control standards. By continually advancing research in this field, scientists and pharmaceutical companies can contribute to the ongoing battle against bacterial infections.