Ginsenoside C API Manufacturers

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Looking for Ginsenoside C API 11021-13-9?

Description:
Here you will find a list of producers, manufacturers and distributors of Ginsenoside C. 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:
Ginsenoside C 
Synonyms:
ginsenoside Rb2  
Cas Number:
11021-13-9 
DrugBank number:
DB06748 
Unique Ingredient Identifier:
N219O0L31C

General Description:

Ginsenoside C is a chemical compound identified by the CAS number 11021-13-9. It is known for its distinct pharmacological properties and applications.

Classification:

Ginsenoside C belongs to the class of organic compounds known as triterpene saponins. These are glycosylated derivatives of triterpene sapogenins. The sapogenin moiety backbone is usually based on the oleanane, ursane, taraxastane, bauerane, lanostane, lupeol, lupane, dammarane, cycloartane, friedelane, hopane, 9b,19-cyclo-lanostane, cycloartane, or cycloartanol skeleton, classified under the direct parent group Triterpene saponins. This compound is a part of the Organic compounds, falling under the Lipids and lipid-like molecules superclass, and categorized within the Prenol lipids class, specifically within the Terpene glycosides subclass.

Categories:

Ginsenoside C is categorized under the following therapeutic classes: Antineoplastic Agents, Carbohydrates, Glycosides, Hypolipidemic Agents, Lipid Regulating Agents, Panax, Saponins, Terpenes, Triterpenes. These classifications highlight the drug's diverse therapeutic applications and its importance in treating various conditions.

Ginsenoside C is a type of Antineoplastics


Antineoplastics are a crucial category of pharmaceutical active pharmaceutical ingredients (APIs) primarily used in the treatment of cancer. These powerful substances inhibit or destroy the growth of cancer cells, thus impeding the progression of malignancies.

Antineoplastics exert their therapeutic effects through various mechanisms. Some APIs interfere with DNA replication, inhibiting the division and proliferation of cancer cells. Others target specific proteins or enzymes involved in tumor growth, effectively blocking their function. Additionally, certain antineoplastic agents induce programmed cell death, known as apoptosis, in cancer cells.

These APIs find application in a wide range of cancer treatments, including chemotherapy, targeted therapy, immunotherapy, and hormone therapy. They are often administered in combination with other drugs to optimize therapeutic outcomes and minimize drug resistance.

Antineoplastics are typically synthesized through complex chemical processes, ensuring high purity and potency. Stringent quality control measures are implemented throughout manufacturing to meet regulatory standards and ensure patient safety.

Although antineoplastics offer significant benefits in treating cancer, they can also cause adverse effects due to their cytotoxic nature. Common side effects include bone marrow suppression, gastrointestinal disturbances, hair loss, and immune system suppression. Close monitoring and supportive care are essential to manage these side effects effectively.

In conclusion, antineoplastics are a vital category of pharmaceutical APIs used in the treatment of cancer. Through their diverse mechanisms of action, these compounds play a critical role in combating malignancies and improving patient outcomes.