Balaglitazone API Manufacturers

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Looking for Balaglitazone API 199113-98-9?

Description:: Here you will find a list of producers, manufacturers and distributors of Balaglitazone. 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:: Balaglitazone
Synonyms:
Cas Number:: 199113-98-9
DrugBank number:: DB12781
Unique Ingredient Identifier:: 4M1609828O

General Description:

Balaglitazone, identified by CAS number 199113-98-9, is a notable compound with significant therapeutic applications. Balaglitazone has been used in trials studying the treatment of Diabetes Mellitus, Type 2.

Classification:

Balaglitazone belongs to the class of organic compounds known as quinazolines. These are compounds containing a quinazoline moiety, which is made up of two fused six-member aromatic rings, a benzene ring and a pyrimidine ring, classified under the direct parent group Quinazolines. This compound is a part of the Organic compounds, falling under the Organoheterocyclic compounds superclass, and categorized within the Diazanaphthalenes class, specifically within the Benzodiazines subclass.

Categories:

Balaglitazone is categorized under the following therapeutic classes: Blood Glucose Lowering Agents, Cytochrome P-450 CYP2C8 Inhibitors, Cytochrome P-450 CYP2C8 Inhibitors (strength unknown), Cytochrome P-450 CYP2C8 Substrates, Cytochrome P-450 CYP3A Substrates, Cytochrome P-450 CYP3A4 Substrates, Cytochrome P-450 Enzyme Inhibitors, Cytochrome P-450 Substrates, Heterocyclic Compounds, Fused-Ring, Sulfur Compounds, Thiazoles, Thiazolidinediones. These classifications highlight the drug's diverse therapeutic applications and its importance in treating various conditions.

Balaglitazone is a type of Anti-diabetics

Anti-diabetics, belonging to the pharmaceutical API (Active Pharmaceutical Ingredient) category, are a group of compounds designed to manage and treat diabetes mellitus, a chronic metabolic disorder characterized by high blood sugar levels. These medications play a vital role in controlling diabetes and preventing complications associated with the disease.

Anti-diabetics encompass a wide range of drug classes, including biguanides, sulfonylureas, thiazolidinediones, dipeptidyl peptidase-4 (DPP-4) inhibitors, sodium-glucose cotransporter-2 (SGLT2) inhibitors, and glucagon-like peptide-1 (GLP-1) receptor agonists. Each class works through different mechanisms to regulate blood sugar levels and improve insulin sensitivity.

Biguanides, such as metformin, reduce glucose production by the liver and enhance insulin sensitivity in peripheral tissues. Sulfonylureas, like glipizide, stimulate insulin secretion from pancreatic beta cells. Thiazolidinediones, including pioglitazone, improve insulin sensitivity in muscle and adipose tissues. DPP-4 inhibitors, such as sitagliptin, increase insulin release and inhibit glucagon secretion. SGLT2 inhibitors, like dapagliflozin, decrease renal glucose reabsorption, leading to increased urinary glucose excretion. GLP-1 receptor agonists, such as exenatide, enhance insulin secretion, suppress glucagon release, slow gastric emptying, and promote satiety.

These anti-diabetic APIs serve as the foundational ingredients for the formulation of various oral tablets, capsules, and injectable medications used in the treatment of diabetes. By targeting different aspects of glucose regulation, they help patients achieve and maintain optimal blood sugar levels, thus reducing the risk of diabetic complications, such as cardiovascular disease, neuropathy, and nephropathy.

It is crucial for healthcare professionals to prescribe and administer these anti-diabetic medications appropriately, considering factors like the patient's medical history, co-existing conditions, and potential drug interactions. Regular monitoring of blood glucose levels and close medical supervision are necessary to ensure effective diabetes management.

In conclusion, anti-diabetics form a critical category of pharmaceutical APIs used for the treatment of diabetes. These compounds, encompassing various drug classes, work through distinct mechanisms to regulate blood sugar levels and improve insulin sensitivity. By facilitating glucose control, anti-diabetic APIs help mitigate the risk of complications associated with diabetes mellitus, ultimately promoting better health outcomes for patients.