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Lercanidipine

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Lercanidipine
Clinical data
Trade namesZanidip, Leridip
AHFS/Drugs.comUK Drug Information
Pregnancy
category
  • C (no data in humans)
Routes of
administration
Oral
ATC code
Legal status
Legal status
  • In general: ℞ (Prescription only)
Pharmacokinetic data
Bioavailability~10% (due to first-pass effect)
Protein binding>98%
MetabolismMainly CYP3A4
Elimination half-life8–10 hours
Duration of action≥ 24 hours
ExcretionUrine (50%)
Identifiers
  • (RS)-2[(3,3-Diphenylpropyl)(methyl)amino]-1,1-dimethylethyl methyl 2,6-dimethyl-4-(3-nitrophenyl)-1,4-dihydropyridine-3,5-dicarboxylate
CAS Number
PubChem CID
DrugBank
ChemSpider
UNII
KEGG
ChEMBL
CompTox Dashboard (EPA)
ECHA InfoCard100.235.079 Edit this at Wikidata
Chemical and physical data
FormulaC36H41N3O6
Molar mass611.739 g·mol−1
3D model (JSmol)
  • [O-][N+](=O)c1cccc(c1)C4C(=C(/N\C(=C4\C(=O)OC(C)(C)CN(CCC(c2ccccc2)c3ccccc3)C)C)C)\C(=O)OC
  • InChI=1S/C36H41N3O6/c1-24-31(34(40)44-6)33(28-18-13-19-29(22-28)39(42)43)32(25(2)37-24)35(41)45-36(3,4)23-38(5)21-20-30(26-14-9-7-10-15-26)27-16-11-8-12-17-27/h7-19,22,30,33,37H,20-21,23H2,1-6H3 checkY
  • Key:ZDXUKAKRHYTAKV-UHFFFAOYSA-N checkY
  (verify)

Lercanidipine (trade name Zanidip, among others) is an antihypertensive (blood pressure lowering) drug. It belongs to the dihydropyridine class of calcium channel blockers, which work by relaxing and opening the blood vessels allowing the blood to circulate more freely around the body. This lowers the blood pressure and allows the heart to work more efficiently.[1]

The drug acts more slowly than older dihydropyridines.[citation needed] It probably has fewer adverse effects, but a comparatively high potential for drug interactions.

It was patented in 1984 and first approved for medical use in 1997.[2] The US FDA refused to approve the drug, and lercanidipine is not marketed in USA.[3]

Medical uses

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Lercanidipine is used for the treatment of essential hypertension (high blood pressure).[4][5]

Lercanidipine seems to be a good agent in treating hypertensive patients that also have kidney issues.[6]

Contraindications

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Like other dihydropyridines, lercanidipine is contraindicated in unstable angina pectoris, uncontrolled cardiac failure, shortly after a myocardial infarction, and in patients with left ventricular outflow tract obstruction. It is also contraindicated during pregnancy and in women who may become pregnant, because data regarding safety for the unborn are lacking, as well as in patients with severe liver and renal impairment.[4][5]

The drug must not be combined with strong inhibitors of the liver enzyme CYP3A4 or with the immunosuppressant drug ciclosporin.[4][5]

Adverse effects

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Lercanidipine is generally well tolerated; no single adverse effect has been observed in more than 1% of patients treated with this drug. Typical side effects are similar to those of other drugs of this class and include headache, dizziness, tachycardia (fast heartbeat), palpitations, flush, and oedema. Hypersensitivity reactions occur in less than one patient in 10,000.[4][5]

Oedemas are significantly less common under lercanidipine when compared to first-generation dihydropyridines such as nifedipine. For other side effects, data are inconclusive: A study comparing lercanidipine to first-generation drugs found no difference in the frequency of headache and flush,[7] but switching from amlodipine, felodipine or nitrendipine (all at least second generation) to lercanidipine significantly decreased side effects in another study.[5]

Overdose

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Overdosing of up to 80 times the usual therapeutic dose has been described. Expected symptoms include severe hypotension (low blood pressure) and reflex tachycardia. Bradycardia (slow heartbeat) can also occur due to blockage of calcium channels in the atrioventricular node of the heart. There is no treatment besides monitoring blood pressure and heart function. Dialysis is likely ineffective because most of the lercanidipine is bound to blood plasma proteins and lipid membranes of cells.[4]

Interactions

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The substance is metabolised by the liver enzyme CYP3A4. In a study, the strong CYP3A4 inhibitor ketoconazole increased the maximal blood plasma concentrations of lercanidipine by a factor of eight, and the area under the curve by a factor of 15. In another study, ciclosporin increased lercanidipine plasma levels threefold when given at the same time. Other inhibitors of this enzyme, such as itraconazole, erythromycin, and grapefruit juice, are also expected to increase plasma concentrations and thus amplify the antihypertensive effect.[4][5][8] Conversely, CYP3A4 inductors such as carbamazepine, rifampicin, and St John's wort probably lower plasma levels and effectiveness of lercanidipine.[5][8] By comparison, amlodipine has a lower potential for CYP3A4 mediated interactions.[4][9]

Lercanidipine increases plasma levels of ciclosporin and digoxin.[4][5]

Pharmacology

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Mechanism of action

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Like other dihydropyridine class calcium channel blockers, lercanidipine blocks L-type calcium channels in the smooth muscle cells of blood vessels, relaxing them and thus lowering blood pressure. In contrast to the non-dihydropyridine calcium channel blockers verapamil and diltiazem, it does not significantly act on calcium channels in the atrioventricular node, and therefore does not decrease heart rate, in usual therapeutic doses.[5]

Pharmacokinetics

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Lercanidipine is slowly but completely absorbed from the gut. It has a total bioavailability of 10% due to an extensive first-pass effect, or up to 40% if taken after a fatty meal. Highest blood plasma levels are reached after 1.5 to 3 hours. The substance is quickly distributed into the tissues and bound to lipid membranes, where it forms a depot. The circulating fraction is almost completely (>98%) bound to plasma proteins.[4][5]

It is completely metabolized in the liver, mainly via CYP3A4. Elimination half-life is 8 to 10 hours, and the drug does not accumulate. Because of the depot effect, the antihypertensive action lasts for at least 24 hours. 50% is excreted via the urine.[4][5]

Chemistry

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Lercanidipine is used in form of the hydrochloride,[4] which is a slightly yellow crystalline powder and melts at 197 to 201 °C (387 to 394 °F) in crystal form I or 207 to 211 °C (405 to 412 °F) in crystal form II.[10] It is readily soluble in chloroform and methanol, but practically insoluble in water.[11] This high lipophilicity (compared to older dihydropyridines) is intentional because it causes the substance to bind to lipid membranes, allowing for a longer duration of action.[12]

The lercanidipine molecule has one asymmetric carbon atom. While the S-enantiomer is more effective than the R-enantiomer, marketed formulations contain a 1:1 mixture of both (i.e., the racemate).[5][13]

Enantiomers of lercanidipine

(R)-lercanidipin
CAS number: 185197-70-0

(S)-lercanidipin
CAS number: 185197-71-1

Detection in body fluids

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Blood plasma concentrations of lercanidipine can be detected by liquid chromatography–mass spectrometry methods.[14]

References

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  1. ^ Barrios V, Escobar C, Navarro A, Barrios L, Navarro-Cid J, Calderón A (November 2006). "Lercanidipine is an effective and well tolerated antihypertensive drug regardless the cardiovascular risk profile: The LAURA study". International Journal of Clinical Practice. 60 (11): 1364–1370. doi:10.1111/j.1742-1241.2006.01176.x. PMC 1636683. PMID 17073834.
  2. ^ Fischer J, Ganellin CR (2006). Analogue-based Drug Discovery. John Wiley & Sons. p. 466. ISBN 9783527607495.
  3. ^ "NCATS Inxight Drugs — LERCANIDIPINE HYDROCHLORIDE". drugs.ncats.io. Retrieved 2024-04-16.
  4. ^ a b c d e f g h i j k Haberfeld H, ed. (2015). Austria-Codex (in German). Vienna: Österreichischer Apothekerverlag.
  5. ^ a b c d e f g h i j k l Dinnendahl V, Fricke U, eds. (2015). Arzneistoff-Profile (in German). Vol. 6 (28 ed.). Eschborn, Germany: Govi Pharmazeutischer Verlag. ISBN 978-3-7741-9846-3.
  6. ^ Grassi G, Robles NR, Seravalle G, Fici F (2017). "Lercanidipine in the Management of Hypertension: An Update". Journal of Pharmacology & Pharmacotherapeutics. 8 (4): 155–165. doi:10.4103/jpp.JPP_34_17. PMC 5820745. PMID 29472747.
  7. ^ Makarounas-Kirchmann K, Glover-Koudounas S, Ferrari P (August 2009). "Results of a meta-analysis comparing the tolerability of lercanidipine and other dihydropyridine calcium channel blockers". Clinical Therapeutics. 31 (8): 1652–1663. doi:10.1016/j.clinthera.2009.08.010. PMID 19808126. S2CID 42580226.
  8. ^ a b Klotz U (2002). "Interaction potential of lercanidipine, a new vasoselective dihydropyridine calcium antagonist". Arzneimittel-Forschung. 52 (3): 155–161. doi:10.1055/s-0031-1299873. PMID 11963641. S2CID 38892707.
  9. ^ Vincent J, Harris SI, Foulds G, Dogolo LC, Willavize S, Friedman HL (November 2000). "Lack of effect of grapefruit juice on the pharmacokinetics and pharmacodynamics of amlodipine". British Journal of Clinical Pharmacology. 50 (5): 455–463. doi:10.1046/j.1365-2125.2000.00283.x. PMC 2014412. PMID 11069440.
  10. ^ US 6852737, Bonifacio F, Campana F, De Iasi G, Leonardi A, "Crude and crystalline forms of lercanidipine hydrochloride", issued 8 February 2005, assigned to Recordati Ireland Ltd. 
  11. ^ "Zanidip Data Sheet" (PDF). Medsafe. Retrieved 15 July 2016.
  12. ^ Gasser R, Klein W, Köppel H (January 1999). "Lercanidipine, a new third generation Ca-antagonist in the treatment of hypertension" (PDF). Journal of Clinical and Basic Cardiology. 2 (2): 169–174.
  13. ^ Rote Liste Service GmbH (Hrsg.): Rote Liste 2017 – Arzneimittelverzeichnis für Deutschland (einschließlich EU-Zulassungen und bestimmter Medizinprodukte). Rote Liste Service GmbH, Frankfurt/Main, 2017, Aufl. 57, ISBN 978-3-946057-10-9, S. 171.
  14. ^ Chen K, Zhang J, Liu S, Zhang D, Teng Y, Wei C, et al. (June 2012). "Simultaneous determination of lercanidipine, benazepril and benazeprilat in plasma by LC-MS/MS and its application to a toxicokinetics study". Journal of Chromatography. B, Analytical Technologies in the Biomedical and Life Sciences. 899: 1–7. doi:10.1016/j.jchromb.2012.04.014. PMID 22622066.

Further reading

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