Xanthinol API Manufacturers
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Date | Seller | Exporter country | Buyer | Importer country | Product | Quantity (KG) | Price per KG | Latest transactions |
|---|---|---|---|---|---|---|---|---|
| 03-Sep-2022 | (Hidden) | 
Germany
| OJSC DALKH... | 
Russia
| XANTHINOL ... | 253 | $ @36$-7! | Check all data |
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Looking for Xanthinol API 2530-97-4?
- Description:
- Here you will find a list of producers, manufacturers and distributors of Xanthinol. 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:
- Xanthinol
- Cas Number:
- 2530-97-4
- DrugBank number:
- DB09092
- Unique Ingredient Identifier:
- TN1B5910V2
About Xanthinol
So, what does it do? Xanthinol is a very potent water-soluble derivative of niacin that can be found in diet supplements. It is also known as xanthinol nicotinate. 6 Xaninthol is known to be a potent vasodilator that can easily pass through the cell membrane and once inside the cell it causes an increase in glucose metabolism resulting in an increased energy. 7 It was approved as a drug in 1998 in Canada and nowadays its status is cancelled post marketing.
You can find more info about this product by clicking on the DB ID above.
Xanthinol is a type of Vasodilators
Vasodilators are a crucial subcategory of pharmaceutical Active Pharmaceutical Ingredients (APIs) that play a significant role in the management of various cardiovascular conditions. These medications work by widening the blood vessels, promoting increased blood flow and reducing peripheral resistance.
Vasodilators are commonly prescribed to treat hypertension (high blood pressure), angina (chest pain), and heart failure. They are designed to relax and dilate the smooth muscle cells in the walls of blood vessels, leading to improved circulation and reduced strain on the heart.
One widely used class of vasodilators is calcium channel blockers, which prevent calcium from entering the muscle cells of blood vessels. This action inhibits muscle contraction, resulting in widened arteries and enhanced blood flow. Another class is nitric oxide (NO) donors, which release NO, a potent vasodilator, to promote relaxation of vascular smooth muscles.
The therapeutic benefits of vasodilators extend beyond cardiovascular disorders. Some vasodilators, such as minoxidil, have been repurposed for treating male pattern baldness. These medications stimulate hair growth by dilating blood vessels around hair follicles, enhancing nutrient and oxygen delivery.
As with any pharmaceutical API, vasodilators must meet strict quality standards and regulatory guidelines to ensure safety and efficacy. Manufacturers employ sophisticated production processes and stringent quality control measures to guarantee the purity, potency, and stability of these APIs.
In conclusion, vasodilators are a vital subcategory of pharmaceutical APIs used to manage cardiovascular conditions. By expanding blood vessels and enhancing blood flow, vasodilators contribute to improved patient outcomes and play a critical role in the treatment of hypertension, angina, heart failure, and even hair loss.
Xanthinol (Vasodilators), classified under Antihypertensive agents
Antihypertensive agents are a crucial category of pharmaceutical active pharmaceutical ingredients (APIs) used to treat high blood pressure, also known as hypertension. These medications are designed to lower blood pressure and reduce the risk of associated cardiovascular complications.
Antihypertensive agents function by targeting various mechanisms involved in blood pressure regulation. Some common classes of antihypertensive agents include angiotensin-converting enzyme (ACE) inhibitors, angiotensin II receptor blockers (ARBs), beta-blockers, calcium channel blockers (CCBs), and diuretics.
ACE inhibitors work by inhibiting the enzyme responsible for converting angiotensin I to angiotensin II, a hormone that constricts blood vessels. ARBs, on the other hand, block the receptors to which angiotensin II binds, thereby preventing its vasoconstrictive effects.
Beta-blockers reduce blood pressure by blocking the effects of adrenaline and noradrenaline, which are responsible for increasing heart rate and constricting blood vessels. CCBs inhibit calcium from entering the smooth muscles of blood vessels, resulting in relaxation and vasodilation. Diuretics promote the elimination of excess fluid and sodium from the body, reducing blood volume and thereby lowering blood pressure.
Antihypertensive agents are typically prescribed based on the individual patient's condition and specific needs. They can be used alone or in combination to achieve optimal blood pressure control. It is important to note that antihypertensive agents should be taken regularly as prescribed by a healthcare professional and may require periodic monitoring to ensure their effectiveness and manage any potential side effects.
In summary, antihypertensive agents play a vital role in the management of hypertension by targeting various mechanisms involved in blood pressure regulation. These medications offer significant benefits in reducing the risk of cardiovascular complications associated with high blood pressure.
