88150-42-9 Usage
Description
Amlodipine is a dihydropyridine L-type calcium channel blocker that selectively inhibits calcium influx in cardiac and vascular smooth muscle. Acting as a vasodilator, amlodipine reduces blood pressure by relaxing the smooth muscle in the arterial wall, decreasing total peripheral resistance. It inhibits calcium-induced contractions in depolarized rat aorta with an IC50 value of 1.9 nM, displaying a slow rate of association and dissociation in isolated vascular and cardiac tissues. Amlodipine also demonstrates actions independent of L-type calcium channel blockade by regulating membrane fluidity and cholesterol deposition, stimulating nitric oxide production, acting as an antioxidant, and regulating matrix deposition in vitro and in vivo. Formulations containing amlodipine have been used in the treatment of hypertension.
Chemical Properties
Yellow Solid
Uses
Different sources of media describe the Uses of 88150-42-9 differently. You can refer to the following data:
1. A dihydropyridine calcium channel blocker; activity resides mainly in the (-)-isomer.
2. anti-hypertensive;calcium channel blocker
3. A deuterated dihydropyridine calcium channel blocker.;Application of Labeled APIs: Labeled Amlodipine, intended for use as an internal standard for the quantification of Amlodipine by GC- or LC-mass spectrometry.
Definition
ChEBI: A fully substituted dialkyl 1,4-dihydropyridine-3,5-dicarboxylate derivative, which is used for the treatment of hypertension, chronic stable angina and confirmed or suspected vasospastic angina.
Brand name
Norvasc (Pfizer).
General Description
Amlodipine, 2-[, for the treatment of hypertension. Amlodipineis also marketed as a combination therapy with atorvastatinunder the tradename Norvasc for the management of highcholesterol and high blood pressure.
Hazard
Human systemic effects.
Clinical Use
Calcium-channel blocker:
Hypertension
Angina prophylaxis
Safety Profile
Human systemic effects. Whenheated to decomposition it emits toxic vapors of NOx andCl-.
Drug interactions
Potentially hazardous interactions with other drugs
Aminophylline and theophylline: possibly increased
aminophylline and theophylline concentration.
Anaesthetics: enhanced hypotensive effect.
Antibacterials: metabolism possibly inhibited by
clarithromycin, erythromycin and telithromycin.
Antidepressants: enhanced hypotensive effect with
MAOIs, concentration possibly reduced by St John’s
wort.
Antiepileptics: effects probably reduced by
phenobarbital and primidone.
Antifungals: negative inotropic effect possibly
increased with itraconazole.
Antihypertensives: enhanced hypotensive effect;
increased risk of first dose hypotensive effect of postsynaptic alpha-blockers.
Antivirals: concentration increased by telaprevir and
possibly by ritonavir - reduce dose of amlodipine.
Ciclosporin: ciclosporin concentration may be
increased by up to 40%.
Lipid lowering agents: possibly increased risk of
myopathy - do not exceed 20 mg of simvastatin.1 Tacrolimus: possibly increased tacrolimus levels.
Metabolism
Amlodipine is extensively metabolised by the liver to
inactive metabolites with 10% of the parent compound
and 60% of metabolites excreted in the urine.
References
1) Mason et al. (2003), Novel vascular biology of third-generation L-type calcium channel antagonists: ancillary actions of amlodipine; Arterioscler. Thromb. Vasc. Biol., 23 2155
2) Asano et al. (2003), A calcium channel blocker activates both ecto-5(‘)-nucleotidase and NO synthase in HUVEC; Biochem. Biophys. Res. Commun., 311 625
3) Yu et al. (2003), Amlodipine modulates THP-1 cell adhesion to vascular endothelium via inhibition of protein kinase C signal transduction; Hypertension, 42 329
4) Zhou et al. (2004), Inhibition of oxidative stress and improvement of endothelial function by amlodipine in angiotensin II-infused rats; Am. J. Hypertension, 17 167
5) Ueda et al. (1993), A comparative assessment of the duration of action of amlodipine and nifedipine GITS in normotensive subjects; Br. J. Clin. Pharmacol., 36 561
Check Digit Verification of cas no
The CAS Registry Mumber 88150-42-9 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 8,8,1,5 and 0 respectively; the second part has 2 digits, 4 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 88150-42:
(7*8)+(6*8)+(5*1)+(4*5)+(3*0)+(2*4)+(1*2)=139
139 % 10 = 9
So 88150-42-9 is a valid CAS Registry Number.
InChI:InChI=1/C20H25ClN2O5/c1-4-28-20(25)18-15(11-27-10-9-22)23-12(2)16(19(24)26-3)17(18)13-7-5-6-8-14(13)21/h5-8,17,23H,4,9-11,22H2,1-3H3
88150-42-9Relevant articles and documents
Light-Induced Formation/Scission of C-N, C-O, and C-S Bonds Enables Switchable Stability/Degradability in Covalent Systems
Hai, Yu,Li, Ziyi,Lu, Hanwei,Ye, Hebo,You, Lei,Zou, Hanxun
supporting information, p. 20368 - 20376 (2021/12/03)
The manipulation of covalent bonds could be directed toward degradable, recyclable, and sustainable materials. However, there is an intrinsic conflict between properties of stability and degradability. Here we report light-controlled formation/scission of three types of covalent bonds (C-N, C-O, and C-S) through photoswitching between equilibrium and nonequilibrium states of dynamic covalent systems, achieving dual benefits of photoaddressable stability and cleavability. The photocyclization of dithienylethene fused aldehyde ring-chain tautomers turns on the reactivity, incorporating/releasing amines, alcohols, and thiols reversibly with high efficiency, respectively. Upon photocycloreversion the system is shifted to kinetically locked out-of-equilibrium form, enabling remarkable robustness of covalent assemblies. Reaction coupling allows remote and directional control of a diverse range of equilibria and further broadens the scope. Through locking and unlocking covalent linkages with light when needed, the utility is demonstrated with capture/release of bioactive molecules, modification of surfaces, and creation of polymers exhibiting tailored stability and degradability/recyclability. The versatile toolbox for photoswitchable dynamic covalent reactions to toggle matters on and off should be appealing to many endeavors.
Two validated stability-indicating chromatographic methods for the separation of two anti-hypertensive combinations in the presence of their degradation products or impurities
Samy Mostafa, Noha,AbdElHamid, Ghada,Elsayed Zaazaa, Hala,Mohamed Amer, Sawsan
, p. 2427 - 2439 (2019/07/16)
Two RP-HPLC methods were developed, optimized, and validated for the determination of two different anti-hypertensive combinations in the presence of their degradation products or impurities and in their pharmaceutical formulations. The first mixture is Ramipril (RAM) in combination with Amlodipine besylate (AML) [mixture I], while the second one is a combination of Ramipril (RAM), Atorvastatin (ATV), and Aspirin (ASP) [mixture II].The proposed combinations were successfully separated on X-bridge C18column (250 × 4.6?mm i.d, 5?μm p.s.), using a mobile phase of 0.05?M phosphate buffer-acetonitrile-THF (60:40:0.1% by volume) pH 2.5 and an isocratic mobile phase formed of acetonitrile-0.05?M phosphate buffer-THF (60:40:0.1% by volume) pH 2.5 for mixture (I) and (II) at a flow rate of 1?mL/min and 1.2?mL/min, respectively. The compromising components of the mixtures were detected at 218?nm. For the best separation of the mentioned components different parameters were examined and optimized. The two suggested methods were validated in compliance with the ICH guidelines and were successfully applied for the quantification of the cited components in presence of their obtained degradation products as well as in their commercial pharmaceutical formulations. For both methods the obtained results were statistically analyzed and compared to those of the official and reported methods; using Student’s t test and F test showing no significant difference with high accuracy and good precision.
ANTIHYPERTENSIVE THERAPY
-
, (2009/09/08)
A new use of darusentan is provided in preparation of a pharmaceutical composition for lowering blood pressure in a patient exhibiting resistance to a baseline antihypertensive therapy with one or more drugs. The composition comprises darusentan in an amount providing a therapeutically effective daily dose; wherein (a) the composition is orally deliverable and/or (b) the daily dose of darusentan is effective to provide a reduction of at least about 3 mmHg in one or more blood pressure parameters selected from trough sitting systolic, trough sitting diastolic, 24-hour ambulatory systolic, 24-hour ambulatory diastolic, maximum diurnal systolic and maximum diurnal diastolic blood pressures. Further provided is a new use of darusentan in preparation of a pharmaceutical composition for lowering blood pressure in a patient exhibiting resistance to a baseline antihypertensive therapy, wherein the composition is administered adjunctively with at least one diuretic and at least one antihypertensive drug selected from ACE inhibitors, angiotensin II receptor blockers, beta-adrenergic receptor blockers and calcium channel blockers.