Product Name |
(R)-4-Hydroxycarvedilol-D3 |
Alternate Names |
Carvedilol Stable Isotopes, Stable Isotopes of Carvedilol |
CAT No. |
CS-O-46560
|
CAS No. |
1217770-29-0 (Unlabelled) |
Category |
Stable Isotopes |
Stock |
Enquire
|
Mol. Wt. |
425.50 g/mol |
Mol. For. |
C24H23D3N2O5
|
Hazardous |
This is not a Hazardous Compound
|
COA |
View Sample COA
|
MSDS |
View Sample MSDS
|
Parent API |
Carvedilol |
Controlled |
No |
Shipping |
Free for purchase above 1000$ |
Delivery |
In-Stock, products will be dispatched within 24 hours via FedEx for USA, Europe, and other countries. |
Return |
Returns/replacement accepted if you are not satisfied with the quality of the product, (please send us an email with the reason/issues which are facing, within 15 days, after receipt of the product). |
Ordering |
Place your order online or by email sales@clearsynth.com |
If you find a better price anywhere else we guarantee Price match.
(R)-4-Hydroxycarvedilol-D3 is a deuterated form of the active metabolite of the β-adrenoceptor antagonist drug, Carvedilol. The compound is used primarily in pharmacological research to track the fate and metabolism of Carvedilol within the human body.
Carvedilol is a non-selective β-blocker that is used to treat hypertension, congestive heart failure, and angina. It works by blocking the effects of the hormone adrenaline, which reduces the workload of the heart and improves its function. The active metabolite of Carvedilol is (R)-4-Hydroxycarvedilol, which is formed in the liver through the process of oxidation.
(R)-4-Hydroxycarvedilol-D3 is a deuterated form of this metabolite, which means that it contains three deuterium atoms instead of three hydrogen atoms. This makes it useful for pharmacokinetic studies, as the deuterium atoms do not significantly alter the chemical properties of the compound but allow for tracking of its metabolism and clearance within the body.
Overall, (R)-4-Hydroxycarvedilol-D3 is an important tool in pharmacological research, as it provides valuable insight into the fate and effects of Carvedilol within the human body. Its chemical structure and properties make it a useful tracer compound that can be used in a variety of studies to better understand the pharmacokinetics and pharmacodynamics of Carvedilol and other related drugs.