Do I need a prescription for Amiodarone 500mg/5ml oral solution?

Amiodarone 500mg/5ml oral solution is classified as a Valid as a prescribable product in the UK. However, always consult a pharmacist or doctor before use. (Source: NHS dm+d)

What are the brand names for Amiodarone 500mg/5ml oral solution?

Amiodarone 500mg/5ml oral solution is the generic name. It is available under brand names including: Amiodarone 500mg/5ml oral solution. (Source: NHS dm+d — Actual Medicinal Products)

Amiodarone 500mg/5ml oral solution

Prescription only

Requires a prescription from a doctor or prescriber

Oral solution

500mg/5ml

Oral

Anti-arrhythmic drugs

Active ingredients:

Amiodarone

BNF classificationBrowse formulary

Where this medicine sits in the British National Formulary — the UK's standard prescribing reference

BNF 02.03.02

ATC classificationBrowse ATC index

International classification by the WHO, grouping medicines by the organ system they act on

ATC C01BD01

Chemical classBrowse classes

Classification based on the molecule's chemical structure and properties

Check interactions for Amiodarone

No active safety alerts

Official documents, adverse reaction reporting, and safety monitoring

Report a side effect

Submit a Yellow Card report to the MHRA

Official medicine documents

Yellow Card

Report side effects (MHRA)

Drug safety updates

MHRA alerts for Amiodarone

Source: MHRA Products DatabaseOGL 3.0

Updated 3 months ago(16 Jan 2026)

Safety monitoring data

Yellow Card reports

MHRA

The MHRA Yellow Card scheme collects reports of suspected side effects from healthcare professionals and patients. View the Drug Analysis Profile (iDAP) for real-world adverse reaction data.

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Suspected adverse reactions reported for Amiodarone

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Report a side effect

Submit a Yellow Card report to the MHRA

Data from the MHRA Yellow Card scheme. A reported reaction does not necessarily mean the medicine caused it. Contains public sector information licensed under the Open Government Licence v3.0.

EudraVigilance

EMA

The European Medicines Agency (EMA) collects suspected adverse reaction reports from across the EU/EEA through the EudraVigilance system. Search for safety data on this medicine.

View EudraVigilance report

Suspected adverse reactions reported for Amiodarone

About EudraVigilance

Learn about EU pharmacovigilance and safety monitoring

EudraVigilance data is published by the European Medicines Agency (EMA). A suspected adverse reaction is not necessarily caused by the medicine.

1 branded products available

1 productsShow details

1 products

Possibly available on the UK marketRestricted supplyDiscontinuedAvailability per NHS dm+d

MHRA licensed products

View all licensed products for Amiodarone on the MHRA register

Amiodarone 500mg/5ml oral solution

Special Order

None

Special

Source: NHS dm+dOGL 3.0

Updated about 1 month ago(1 Mar 2026)

Daily doseShow details

WHO defined daily dose (DDD)

200 mg

Not a recommended dose. The DDD is the assumed average maintenance dose per day for a drug used for its main indication in adults. It is a statistical measure used for research and comparison purposes only.

Source: WHO Collaborating Centre for Drug Statistics Methodology, distributed via NHS dm+d BNF mapping files. Contains public sector information licensed under the Open Government Licence v3.0.

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Oral suspension

10mg/5ml

Same therapeutic group

Similarity based on WHO Anatomical Therapeutic Chemical (ATC) classification and NHS BNF section grouping. Source data: NHS dm+d via TRUD (OGL v3.0), WHO ATC/DDD Index.

NHS prescribing volume and spending trends

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Clinical guidelines and formulary information

British National Formulary

Amiodarone

BNF

Drug monograph — bnf.nice.org.uk

Source: British National Formulary, NICE. Joint Formulary Committee. Contains public sector information licensed under the Open Government Licence v3.0.

NICE clinical guidance(7)

Atrial fibrillation: diagnosis and management (NG196)

NG196

NICE guideline

Updated Jun 2021

Dronedarone for the treatment of non-permanent atrial fibrillation (TA197)

TA197

Technology appraisal

Updated Dec 2012

Chronic heart failure in adults: diagnosis and management (NG106)

NG106

NICE guideline

Updated Sept 2025

Temperature control to improve neurological outcomes after cardiac arrest (HTG710)

HTG710

Guidance

Updated Jan 2024

Dabigatran etexilate for preventing venous thromboembolism after hip or knee replacement surgery (TA157)

TA157

Technology appraisal

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VA ECMO for extracorporeal cardiopulmonary resuscitation (ECPR) in adults with refractory cardiac arrest (HTG765)

HTG765

Guidance

Updated Oct 2025

Chronic heart failure in adults (QS9)

QS9

Quality standard

Updated Sept 2025

Source: National Institute for Health and Care Excellence (NICE). Contains public sector information licensed under the Open Government Licence v3.0.

Check stock at pharmacies and supply information

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Pharmacy stock checkers

Search for this medicine at major UK pharmacy chains. These links open the retailer's own website — results depend on their current online catalogue.

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Supply & product information

Official product databases and supply status monitoring

Shortages info

NHS Specialist Pharmacy Service (SPS)

emc product search

Discontinuations & alternatives for Amiodarone

Pharmacy links redirect to the retailer's own search and do not represent real-time stock levels. emc (electronic medicines compendium) is operated by Datapharm Ltd. Shortage information sourced from NHS Specialist Pharmacy Service (SPS), sps.nhs.uk.

Codes for healthcare professionals and prescribing systems

Show details

These codes are used by healthcare IT systems and prescribers to identify this medicine.

NHS UK identifiers

SNOMED CT

11710411000001105

dm+d ID

11710411000001105

VTM (Virtual Therapeutic Moiety)

774551007

VMP (Virtual Medicinal Product)

11710411000001105

BNF code

02030200

International identifiers

ATC code — Anatomical Therapeutic Chemical (WHO)

C01BD01

Browse tools

dm+d Browser

NHSBSA medicines dictionary lookup

SNOMED CT and dm+d codes from NHS TRUD (Technology Reference data Update Distribution), licensed under the Open Government Licence v3.0. BNF codes from NHS Business Services Authority (NHSBSA). ATC codes from the WHO Collaborating Centre for Drug Statistics Methodology (whocc.no).

Active and completed clinical studies from ClinicalTrials.gov

Show details

Searching UK clinical trials...

Source: ClinicalTrials.gov, a database of the U.S. National Library of Medicine (NLM), National Institutes of Health (NIH). Data accessed via ClinicalTrials.gov API v2. Trial information is provided for research purposes and does not constitute medical advice.

Pharmacology and chemical data from DrugBank

go.drugbank.com

Key facts

Drug status

Approved

Major interactions

63 found

Half-life

9-100 days

Mechanism

Amiodarone is considered a class III anti-arrhythmic drug.

Food interactions

3 warnings

Human targets

8 targets

Data: DrugBank · CC BY-NC 4.0

Pharmacokinetics at a glance

Absorption

3 to 7 hours

The Cmax of amiodarone in the plasma is achieved about 3 to 7 hours after administration.
[L3561]…

Half-life

9-100 days

The terminal half-life of amiodarone varies according to the patient, but is long nonetheless, and ranges from about 9-100 days.…

Protein binding

96%

The protein binding of amiodarone is about 96%.
[A36817][L3561]

Volume of distribution

9.26-17.17 L/kg

In a pharmacokinetic study of 3 healthy individuals and 3 patients diagnosed with supraventricular tachycardia (SVT), the volume of distribution was found to be 9.26-17.17…

Metabolism

This drug is metabolized to the main metabolite desethylamiodarone (DEA)[A36817] by the CYP3A4 and CYP2C8 enzymes.…

Elimination

Amiodarone is eliminated primarily by hepatic metabolism and biliary excretion.
[A36817]…

Clearance

220 to 440 ml

Pharmacokinetic data: DrugBank · CC BY-NC 4.0

Status:

Approved

Investigational

Small molecule

About this compound

Amiodarone is a benzofuran derivative, anti-arrhythmic drug used commonly in a variety of settings.[A36817] Most known for its approved indication in life-threatening ventricular arrhythmias, it is also used off-label in the outpatient and inpatient setting for atrial fibrillation. Because of its ability to cause serious toxicity and possibly death, amiodarone use should be reserved for its approved indications, according to prescribing information.[L3561][L11265][L11286]

Properties:

solid

Avg. mass: 645.31 Da

DrugBank indication

The FDA approved indications for amiodarone are recurrent ventricular fibrillation (VF) and recurrent hemodynamically unstable ventricular tachycardia (VT). The FDA emphasizes that this drug should only be given in these conditions when they are clinically documented and have not responded to normal therapeutic doses of other antiarrhythmic agents, or when other drugs are not tolerated by the patient.
[L3561]

Off-label indications include atrial fibrillation and supraventricular tachycardia.
[A189666][A189720][A189723][L11286]

Also known as(203)

2-Butyl-3-(3,5-diiodo-4-(2-diethylaminoethoxy)benzoyl)benzofuran

2-Butyl-3-benzofuranyl 4-(2-(diethylamino)ethoxy)-3,5-diiodophenyl ketone

2-n-Butyl-3',5'-diiodo-4'-N-diethylaminoethoxy-3-benzoylbenzofuran

Amiodarona

Amiodarone

Amiodaronum

Eag homolog

Eag-related protein 1

Dosage forms(42)

Capsule (Oral) — 200 MG

Injection, solution (Parenteral)

Solution (Parenteral) — 50 mg

Injection (Parenteral) — 150 mg

Solution (Intravenous) — 150 mg

Solution (Parenteral) — 150 mg

Injection, solution (Parenteral) — 150 MG/3ML

Injection, solution (Parenteral) — 20 MG/ML

Molecular properties(18)

Drug interactions(1930)

Known interactions with other medications. Always consult a healthcare professional.

Levodopa

Major

DB01235

The risk or severity of hypotension and orthostatic hypotension can be increased when Amiodarone is combined with Levodopa.

Check this interaction

Risperidone

Moderate

DB00734

Amiodarone may increase the hypotensive activities of Risperidone.

Check this interaction

Afatinib

Unknown severity

DB08916

The serum concentration of Afatinib can be increased when it is combined with Amiodarone.

Check this interaction

Cyclosporine

Unknown severity

DB00091

The serum concentration of Cyclosporine can be increased when it is combined with Amiodarone.

Check this interaction

Armodafinil

Moderate

DB06413

The metabolism of Amiodarone can be increased when combined with Armodafinil.

Check this interaction

Bosutinib

Unknown severity

DB06616

The serum concentration of Bosutinib can be increased when it is combined with Amiodarone.

Check this interaction

Brentuximab vedotin

Unknown severity

DB08870

The serum concentration of Brentuximab vedotin can be increased when it is combined with Amiodarone.

Check this interaction

Edoxaban

Unknown severity

DB09075

The serum concentration of Edoxaban can be increased when it is combined with Amiodarone.

Check this interaction

Ledipasvir

Unknown severity

DB09027

The serum concentration of Ledipasvir can be increased when it is combined with Amiodarone.

Check this interaction

Naloxegol

Unknown severity

DB09049

The serum concentration of Naloxegol can be increased when it is combined with Amiodarone.

Check this interaction

Pazopanib

Unknown severity

DB06589

The serum concentration of Pazopanib can be increased when it is combined with Amiodarone.

Check this interaction

Prucalopride

Unknown severity

DB06480

The serum concentration of Prucalopride can be increased when it is combined with Amiodarone.

Check this interaction

Silodosin

Unknown severity

DB06207

The excretion of Silodosin can be decreased when combined with Amiodarone.

Check this interaction

Topotecan

Unknown severity

DB01030

The serum concentration of Topotecan can be increased when it is combined with Amiodarone.

Check this interaction

Agalsidase beta

Moderate

DB00103

The therapeutic efficacy of Agalsidase beta can be decreased when used in combination with Amiodarone.

Check this interaction

Ceritinib

Moderate

DB09063

Amiodarone may increase the bradycardic activities of Ceritinib.

Check this interaction

Ivabradine

Moderate

DB09083

Amiodarone may increase the bradycardic activities of Ivabradine.

Check this interaction

Esmolol

Moderate

DB00187

The therapeutic efficacy of Esmolol can be increased when used in combination with Amiodarone.

Check this interaction

Betaxolol

Moderate

DB00195

The therapeutic efficacy of Betaxolol can be increased when used in combination with Amiodarone.

Check this interaction

Metoprolol

Moderate

DB00264

The therapeutic efficacy of Metoprolol can be increased when used in combination with Amiodarone.

Check this interaction

Atenolol

Moderate

DB00335

The therapeutic efficacy of Atenolol can be increased when used in combination with Amiodarone.

Check this interaction

Sotalol

Moderate

DB00489

The therapeutic efficacy of Sotalol can be increased when used in combination with Amiodarone.

Check this interaction

Propranolol

Moderate

DB00571

The therapeutic efficacy of Propranolol can be increased when used in combination with Amiodarone.

Check this interaction

Labetalol

Moderate

DB00598

The therapeutic efficacy of Labetalol can be increased when used in combination with Amiodarone.

Check this interaction

Alprenolol

Moderate

DB00866

The therapeutic efficacy of Alprenolol can be increased when used in combination with Amiodarone.

Check this interaction

Pindolol

Moderate

DB00960

The therapeutic efficacy of Pindolol can be increased when used in combination with Amiodarone.

Check this interaction

Carvedilol

Moderate

DB01136

The therapeutic efficacy of Carvedilol can be increased when used in combination with Amiodarone.

Check this interaction

Acebutolol

Moderate

DB01193

The therapeutic efficacy of Acebutolol can be increased when used in combination with Amiodarone.

Check this interaction

Nadolol

Moderate

DB01203

The therapeutic efficacy of Nadolol can be increased when used in combination with Amiodarone.

Check this interaction

Bevantolol

Moderate

DB01295

The therapeutic efficacy of Bevantolol can be increased when used in combination with Amiodarone.

Check this interaction

Practolol

Moderate

DB01297

The therapeutic efficacy of Practolol can be increased when used in combination with Amiodarone.

Check this interaction

Penbutolol

Moderate

DB01359

The therapeutic efficacy of Penbutolol can be increased when used in combination with Amiodarone.

Check this interaction

Oxprenolol

Moderate

DB01580

The therapeutic efficacy of Oxprenolol can be increased when used in combination with Amiodarone.

Check this interaction

Dexpropranolol

Moderate

DB03322

The therapeutic efficacy of Dexpropranolol can be increased when used in combination with Amiodarone.

Check this interaction

Celiprolol

Moderate

DB04846

The therapeutic efficacy of Celiprolol can be increased when used in combination with Amiodarone.

Check this interaction

Nebivolol

Moderate

DB04861

The therapeutic efficacy of Nebivolol can be increased when used in combination with Amiodarone.

Check this interaction

Bufuralol

Moderate

DB06726

The therapeutic efficacy of Bufuralol can be increased when used in combination with Amiodarone.

Check this interaction

Bopindolol

Moderate

DB08807

The therapeutic efficacy of Bopindolol can be increased when used in combination with Amiodarone.

Check this interaction

Bupranolol

Moderate

DB08808

The therapeutic efficacy of Bupranolol can be increased when used in combination with Amiodarone.

Check this interaction

Indenolol

Moderate

DB08952

The therapeutic efficacy of Indenolol can be increased when used in combination with Amiodarone.

Check this interaction

Arotinolol

Moderate

DB09204

The therapeutic efficacy of Arotinolol can be increased when used in combination with Amiodarone.

Check this interaction

Levobetaxolol

Moderate

DB09351

The therapeutic efficacy of Levobetaxolol can be increased when used in combination with Amiodarone.

Check this interaction

Talinolol

Moderate

DB11770

The therapeutic efficacy of Talinolol can be increased when used in combination with Amiodarone.

Check this interaction

Anisodamine

Moderate

DB11785

The therapeutic efficacy of Anisodamine can be increased when used in combination with Amiodarone.

Check this interaction

Bucindolol

Moderate

DB12752

The therapeutic efficacy of Bucindolol can be increased when used in combination with Amiodarone.

Check this interaction

Esatenolol

Moderate

DB13443

The therapeutic efficacy of Esatenolol can be increased when used in combination with Amiodarone.

Check this interaction

Cloranolol

Moderate

DB13508

The therapeutic efficacy of Cloranolol can be increased when used in combination with Amiodarone.

Check this interaction

Mepindolol

Moderate

DB13530

The therapeutic efficacy of Mepindolol can be increased when used in combination with Amiodarone.

Check this interaction

Epanolol

Moderate

DB13757

The therapeutic efficacy of Epanolol can be increased when used in combination with Amiodarone.

Check this interaction

Tertatolol

Moderate

DB13775

The therapeutic efficacy of Tertatolol can be increased when used in combination with Amiodarone.

Check this interaction

Showing 50 of 1930 interactions

Food & lifestyle interactions

Avoid Grapefruit

Avoid grapefruit products. Grapefruit inhibits CYP3A4 metabolism, which may increase the serum concentration of amiodarone.

Advice

Avoid St. John's Wort. This herb induces the CYP3A4 metabolism of amiodarone. Therefore it may reduce the serum concentration and effectiveness of amiodarone.

Advice

Take with or without food. The absorption is unaffected by food.

Toxicity & overdose

The LD50 of oral amiodarone in mice and rats exceeds 3,000 mg/kg.
[L3561]

An overdose with amiodarone can have a fatal outcome due to its potential to cause arrhythmia. Signs or symptoms of an overdose may include, hypotension, shock, bradycardia, AV block, and liver toxicity. In cases of an overdose, initiate supportive treatment and, if needed, use fluids, vasopressors, or positive inotropic agents.

Temporary pacing may be required for heart block. Ensure to monitor liver function regularly. Amiodarone and its main metabolite, DEA, are not removable by dialysis.
[L8087]

How it works

Mechanism of action

Amiodarone is considered a class III anti-arrhythmic drug. It blocks potassium currents that cause repolarization of the heart muscle during the third phase of the cardiac action potential. As a result amiodarone increases the duration of the action potential as well as the effective refractory period for cardiac cells (myocytes). Therefore, cardiac muscle cell excitability is reduced, preventing and treating abnormal heart rhythms.[A183137][A189747]

Unique from other members of the class III anti-arrhythmic drug class, amiodarone also interferes with the functioning of beta-adrenergic receptors, sodium channels, and calcium channels channels. These actions, at times, can lead to undesirable effects, such as hypotension, bradycardia, and Torsades de pointes (TdP).[L11265] In addition to the above, amiodarone may increase activity of peroxisome proliferator-activated receptors, leading to steatogenic changes in the liver or other organs.[A20227][A20650] Finally, amiodarone has been found to bind to the thyroid receptor due to its iodine content, potentially leading to amiodarone induced hypothyroidism or thyrotoxicosis.[A182168]

Pharmacodynamics

After intravenous administration, amiodarone acts to relax smooth muscles that line vascular walls, decreases peripheral vascular resistance (afterload), and increases the cardiac index by a small amount. Administration by this route also decreases cardiac conduction, preventing and treating arrhythmias.[A1901][A189666][L3561] When it is given orally, however, amiodarone does not lead to significant changes in the left ventricular ejection fraction. Similar to other anti-arrhythmic agents, controlled clinical trials do not confirm that oral amiodarone increases survival.[L3561]

Amiodarone prolongs the QRS duration and QT interval. In addition, a decreased SA (sinoatrial) node automaticity occurs with a decrease in AV node conduction velocity. Ectopic pacemaker automaticity is also inhibited.[L11265] Thyrotoxicosis or hypothyroidism may also result from the administration of amiodarone, which contains high levels of iodine, and interferes with normal thyroid function.[A182168]

Pharmacokinetics

How the body processes this drug — absorption, distribution, metabolism, and elimination

Absorption

The Cmax of amiodarone in the plasma is achieved about 3 to 7 hours after administration.
[L3561]
The general time to onset of action of amiodarone after one dose given by the intravenous route is between 1 and 30 minutes, with therapeutic effects lasting from 1-3 hours. Steady-state concentrations of amiodarone in the plasma ranges between 0.4 to 11.99 μg/ml; it is advisable that steady-state levels are generally maintained between 1.0 and 2.5 μg/ml in patients with arrhythmias.
[A36817][A183137]

Interestingly, its onset of action may sometimes begin after 2 to 3 days, but frequently takes 1 to 3 weeks, despite the administration of higher loading doses.
[L3561]
The bioavailability of amiodarone varies in clinical studies, averaging between 35 and 65%.
[L3561]

Effect of food

In healthy subjects who were given a single 600-mg dose immediately after consuming a meal high in fat, the AUC of amiodarone increased by 2.3 and the Cmax by 3.8 times.
[L3561]
Food also enhances absorption, reducing the Tmax by about 37%.
[L3561]

Half-life

The terminal half-life of amiodarone varies according to the patient, but is long nonetheless, and ranges from about 9-100 days. The half-life duration varies according to different sources.
[A1903][A189666]
According to the prescribing information for amiodarone, the average apparent plasma terminal elimination half-life of amiodarone is of 58 days (ranging from 15 to 142 days). The terminal half-life range was between 14 to 75 days for the active metabolite, (DEA).
[L3561]
The plasma half-life of amiodarone after one dose ranges from 3.2 to 79.7 hours, according to one source.
[A36817]

Protein binding

The protein binding of amiodarone is about 96%.
[A36817][L3561]

Volume of distribution

In a pharmacokinetic study of 3 healthy individuals and 3 patients diagnosed with supraventricular tachycardia (SVT), the volume of distribution was found to be 9.26-17.17 L/kg in healthy volunteers and 6.88-21.05 L/kg in the SVT patients.
[A183140]
Prescribing information mentions that the volume of distribution of amiodarone varies greatly, with a mean distribution of approximately 60 L/kg. It accumulates throughout the body, especially in adipose tissue[A36817] and highly vascular organs including the lung, liver, and spleen. One major metabolite of amiodarone, desethylamiodarone (DEA), is found in even higher proportions in the same tissues as amiodarone.
[L3561]

Metabolism

This drug is metabolized to the main metabolite desethylamiodarone (DEA)[A36817] by the CYP3A4 and CYP2C8 enzymes. The CYP3A4 enzyme is found in the liver and intestines.
[L3561]
A hydroxyl metabolite of DEA has been identified in mammals, but its clinical significance is unknown.
[A189829]

Route of elimination

Amiodarone is eliminated primarily by hepatic metabolism and biliary excretion.
[A36817]
A small amount of desethylamiodarone (DEA) is found in the urine.
[L3561]

Clearance

The clearance of amiodarone after intravenous administration in patients with ventricular fibrillation and ventricular tachycardia ranged from 220 to 440 ml/hr/kg in one clinically study.
[L3561]
Another study determined that the total body clearance of amiodarone varies from 0.10 to 0.77 L/min after one intravenous dose.
[A36817]
Renal impairment does not appear to affect the clearance of amiodarone, but hepatic impairment may reduce clearance. Patients with liver cirrhosis exhibited significantly lower Cmax and mean amiodarone concentration for DEA, but not for amiodarone. Severe left ventricular dysfunction prolongs the half-life of DEA.
[L3561]

A note on monitoring

No guidelines have been developed for adjusting the dose of amiodarone in renal, hepatic, or cardiac abnormalities. In patients on chronic amiodarone treatment, close clinical monitoring is advisable, especially for elderly patients and those with severe left ventricular dysfunction.
[L3561]

Drug targets(8)

Proteins and enzymes this drug interacts with in the body

Voltage-gated inwardly rectifying potassium channel KCNH7

BE0009629

KCNH7

inhibitor

Specific functionheme binding

Cellular location

Cell membrane

General function & pharmacology

Pore-forming (alpha) subunit of voltage-gated inwardly rectifying potassium channel .
PMID:32723862
Exhibits faster activation and deactivation kinetics and slow inactivation at membrane potentials positive to 240 mV, resulting in the weakest inward rectification PMID:32723862

Beta-3 adrenergic receptor

BE0004872

ADRB3

inhibitor

downregulator

Specific functionbeta-3 adrenergic receptor binding

Cellular location

Cell membrane

General function & pharmacology

Beta-adrenergic receptors mediate the catecholamine-induced activation of adenylate cyclase through the action of G proteins. Beta-3 is involved in the regulation of lipolysis and thermogenesis

Voltage-dependent T-type calcium channel subunit alpha-1I

BE0000012

CACNA1I

inhibitor

Specific functionvoltage-gated calcium channel activity

Cellular location

Membrane

General function & pharmacology

Voltage-sensitive calcium channels (VSCC) mediate the entry of calcium ions into excitable cells and are also involved in a variety of calcium-dependent processes, including muscle contraction, hormone or neurotransmitter release, gene expression, cell motility, cell division and cell death. This channel gives rise to T-type calcium currents. T-type calcium channels belong to the 'low-voltage activated (LVA)' group and are strongly blocked by nickel and mibefradil.

A particularity of this type of channels is an opening at quite negative potentials, and a voltage-dependent inactivation. T-type channels serve pacemaking functions in both central neurons and cardiac nodal cells and support calcium signaling in secretory cells and vascular smooth muscle. They may also be involved in the modulation of firing patterns of neurons which is important for information processing as well as in cell growth processes.

Gates in voltage ranges similar to, but higher than alpha 1G or alpha 1H

Voltage-dependent L-type calcium channel subunit beta-4

BE0009739

CACNB4

inhibitor

Specific functionprotein kinase binding

General function & pharmacology

The beta subunit of voltage-dependent calcium channels contributes to the function of the calcium channel by increasing peak calcium current, shifting the voltage dependencies of activation and inactivation, modulating G protein inhibition and controlling the alpha-1 subunit membrane targeting

Thyroid hormone receptor beta

BE0009811

THRB

antagonist

binder

Specific functionchromatin DNA binding

Cellular location

Nucleus

General function & pharmacology

Nuclear hormone receptor that can act as a repressor or activator of transcription. High affinity receptor for thyroid hormones, including triiodothyronine and thyroxine

Metabolizing enzymes(9)

Enzymes involved in drug metabolism — important for understanding drug interactions

Enzyme activity key

substrate

inhibitor

inducer

CYP3A4Cytochrome P450 3A4

substrate

inhibitor

CYP2C8Cytochrome P450 2C8

substrate

CYP2D6Cytochrome P450 2D6

inhibitor

CYP2C9Cytochrome P450 2C9

inhibitor

CYP1A2Cytochrome P450 1A2

inhibitor

CYP2C19Cytochrome P450 2C19

substrate

inhibitor

CYP1A1Cytochrome P450 1A1

substrate

CYP2A6Cytochrome P450 2A6

inhibitor

CYP2J2Cytochrome P450 2J2

inhibitor

Transporters(3)

Proteins that transport this drug across cell membranes

ATP-dependent translocase ABCB1

BE0001032

ABCB1

inhibitor

inducer

Specific functionABC-type xenobiotic transporter activity

Cellular location

Cell membrane

General function & pharmacology

Translocates drugs and phospholipids across the membrane .
PMID:2897240 PMID:35970996 PMID:8898203 PMID:9038218 PMID:35507548

Catalyzes the flop of phospholipids from the cytoplasmic to the exoplasmic leaflet of the apical membrane. Participates mainly to the flop of phosphatidylcholine, phosphatidylethanolamine, beta-D-glucosylceramides and sphingomyelins .
PMID:8898203
Energy-dependent efflux pump responsible for decreased drug accumulation in multidrug-resistant cells PMID:2897240 PMID:35970996 PMID:9038218

Bile salt export pump

BE0000703

ABCB11

substrate

inhibitor

Specific functionABC-type bile acid transporter activity

Cellular location

Apical cell membrane

General function & pharmacology

Catalyzes the transport of the major hydrophobic bile salts, such as taurine and glycine-conjugated cholic acid across the canalicular membrane of hepatocytes in an ATP-dependent manner, therefore participates in hepatic bile acid homeostasis and consequently to lipid homeostasis through regulation of biliary lipid secretion in a bile salts dependent manner .
PMID:15791618 PMID:16332456 PMID:18985798 PMID:19228692 PMID:20010382 PMID:20398791 PMID:22262466 PMID:24711118 PMID:29507376 PMID:32203132

Transports taurine-conjugated bile salts more rapidly than glycine-conjugated bile salts .
PMID:16332456
Also transports non-bile acid compounds, such as pravastatin and fexofenadine in an ATP-dependent manner and may be involved in their biliary excretion PMID:15901796 PMID:18245269

Solute carrier family 22 member 2

BE0003647

SLC22A2

inhibitor

Specific functionacetylcholine transmembrane transporter activity

Cellular location

Basolateral cell membrane

General function & pharmacology

Electrogenic voltage-dependent transporter that mediates the transport of a variety of organic cations such as endogenous bioactive amines, cationic drugs and xenobiotics .
PMID:9260930 PMID:9687576
Functions as a Na(+)-independent, bidirectional uniporter .
PMID:21128598 PMID:9687576
Cation cellular uptake or release is driven by the electrochemical potential, i.e. membrane potential and concentration gradient .
PMID:15212162 PMID:9260930 PMID:9687576

However, may also engage electroneutral cation exchange when saturating concentrations of cation substrates are reached (By similarity). Predominantly expressed at the basolateral membrane of hepatocytes and proximal tubules and involved in the uptake and disposition of cationic compounds by hepatic and renal clearance from the blood flow .
PMID:15783073
Implicated in monoamine neurotransmitters uptake such as histamine, dopamine, adrenaline/epinephrine, noradrenaline/norepinephrine, serotonin and tyramine, thereby supporting a physiological role in the central nervous system by regulating interstitial concentrations of neurotransmitters .
PMID:16581093 PMID:17460754 PMID:9687576

Also capable of transporting dopaminergic neuromodulators cyclo(his-pro), salsolinol and N-methyl-salsolinol, thereby involved in the maintenance of dopaminergic cell integrity in the central nervous system .
PMID:17460754
Mediates the bidirectional transport of acetylcholine (ACh) at the apical membrane of ciliated cell in airway epithelium, thereby playing a role in luminal release of ACh from bronchial epithelium .
PMID:15817714
Also transports guanidine and endogenous monoamines such as vitamin B1/thiamine, creatinine and N-1-methylnicotinamide (NMN) .
PMID:12089365 PMID:15212162 PMID:17072098 PMID:24961373 PMID:9260930

Mediates the uptake and efflux of quaternary ammonium compound choline .
PMID:9260930
Mediates the bidirectional transport of polyamine agmatine and the uptake of polyamines putrescine and spermidine .
PMID:12538837 PMID:21128598
Able to transport non-amine endogenous compounds such as prostaglandin E2 (PGE2) and prostaglandin F2-alpha (PGF2-alpha) .
PMID:11907186
Also involved in the uptake of xenobiotic 4-(4-(dimethylamino)styryl)-N-methylpyridinium (ASP) .
PMID:12395288 PMID:16394027
May contribute to regulate the transport of organic compounds in testis across the blood-testis-barrier (Probable)

Carriers(1)

Proteins that carry this drug through the body

Albumin

BE0000530

ALB

binder

Specific functionantioxidant activity

Cellular location

Secreted

General function & pharmacology

Binds water, Ca(2+), Na(+), K(+), fatty acids, hormones, bilirubin and drugs (Probable). Its main function is the regulation of the colloidal osmotic pressure of blood (Probable). Major zinc transporter in plasma, typically binds about 80% of all plasma zinc .
PMID:19021548
Major calcium and magnesium transporter in plasma, binds approximately 45% of circulating calcium and magnesium in plasma (By similarity).

Potentially has more than two calcium-binding sites and might additionally bind calcium in a non-specific manner (By similarity). The shared binding site between zinc and calcium at residue Asp-273 suggests a crosstalk between zinc and calcium transport in the blood (By similarity). The rank order of affinity is zinc > calcium > magnesium (By similarity).

Binds to the bacterial siderophore enterobactin and inhibits enterobactin-mediated iron uptake of E.coli from ferric transferrin, and may thereby limit the utilization of iron and growth of enteric bacteria such as E.coli .
PMID:6234017
Does not prevent iron uptake by the bacterial siderophore aerobactin PMID:6234017

Biological pathways(1)

Amiodarone Action Pathway

Involved compounds

ATP,Amiodarone,Calcium,Magnesium cation,Potassium cation

Scientific references(15)

Singh B.N., Vaughan Williams E.M.

The effect of amiodarone, a new anti‐anginal drug, on cardiac muscle.

British Journal of Pharmacology

197039(4):657-667. doi: 10.1111/j.1476-5381.1970.tb09891.x

PMID: 5485142 DOI: 10.1111/j.1476-5381.1970.tb09891.x

Rosenbaum M.B., Chiale P.A., Halpern M.S., Nau G.J., Przybylski J., Levi R.J., Lazzari J.O., Elizari M.V.

Clinical efficacy of amiodarone as an antiarrhythmic agent.

The American Journal of Cardiology

197638(7):934-944. doi: 10.1016/0002-9149(76)90807-9

PMID: 793369 DOI: 10.1016/0002-9149(76)90807-9

Rosenbaum M.B., Chiale P.A., Haedo A., Lazzari J.O., Elizari M.V.

Ten years of experience with amiodarone.

American Heart Journal

1983106(4):957-964. doi: 10.1016/0002-8703(83)90022-4

PMID: 6613843 DOI: 10.1016/0002-8703(83)90022-4

Latini R., Tognoni G., Kates R.E.

Clinical pharmacokinetics of amiodarone.

Clinical Pharmacokinetics

1984 Mar-Apr9(2):136-56. doi: 10.2165/00003088-198409020-00002

PMID: 6370540 DOI: 10.2165/00003088-198409020-00002

Zipes D.P., Prystowsky E.N., Heger J.J.

Amiodarone: electrophysiologic actions, pharmacokinetics and clinical effects.

Journal of the American College of Cardiology

1984 Apr3(4):1059-71. doi: 10.1016/s0735-1097(84)80367-8

PMID: 6368644 DOI: 10.1016/s0735-1097(84)80367-8

Riva E., Gerna M., Latini R., Giani P., Volpi A., Maggioni A.

Pharmacokinetics of amiodarone in man.

Journal Cardiovasc Pharmacology

1982 Mar-Apr4(2):264-9. doi: 10.1097/00005344-198203000-00015

PMID: 6175810 DOI: 10.1097/00005344-198203000-00015

Freedman M.D., Somberg J.C.

Pharmacology and pharmacokinetics of amiodarone.

Journal of Clinical Pharmacology

1991 Nov31(11):1061-9. doi: 10.1002/j.1552-4604.1991.tb03673.x

PMID: 1753010 DOI: 10.1002/j.1552-4604.1991.tb03673.x

Rowland E., Krikler D.M.

Electrophysiological assessment of amiodarone in treatment of resistant supraventricular arrhythmias.

British Heart Journal

1980 Jul44(1):82-90. doi: 10.1136/hrt.44.1.82

PMID: 7426165 DOI: 10.1136/hrt.44.1.82

Soult J.A., Munoz M., Lopez J.D., Romero A., Santos J., Tovaruela A.

Efficacy and safety of intravenous amiodarone for short-term treatment of paroxysmal supraventricular tachycardia in children.

Pediatrics Cardiology

1995 Jan-Feb16(1):16-9. doi: 10.1007/BF02310328

PMID: 7753695 DOI: 10.1007/BF02310328

Honjo H., Kodama I., Kamiya K., Toyama J.

Block of cardiac sodium channels by amiodarone studied by using Vmax of action potential in single ventricular myocytes.

British Journal Pharmacology

1991 Mar102(3):651-6. doi: 10.1111/j.1476-5381.1991.tb12228.x

PMID: 1364834 DOI: 10.1111/j.1476-5381.1991.tb12228.x

Narayana S.K., Woods D.R., Boos C.J.

Management of amiodarone-related thyroid problems.

Therapeutics Advanced Endocrinol Metabolism

2011 Jun2(3):115-26. doi: 10.1177/2042018811398516

PMID: 23148177 DOI: 10.1177/2042018811398516

Ha H.R., Bigler L., Binder M., Kozlik P., Stieger B., Hesse M., Altorfer H.R., Follath F.

Metabolism of amiodarone (Part III): identification of rabbit cytochrome P450 isoforms involved in the hydroxylation of mono-<i>N</i>-desethylamiodarone.

Xenobiotica

200131(5):239-248. doi: 10.1080/00498250110046442

PMID: 11159805 DOI: 10.1080/00498250110046442

Deng P., You T., Chen X., Yuan T., Huang H., Zhong D.

Identification of amiodarone metabolites in human bile by ultraperformance liquid chromatography/quadrupole time-of-flight mass spectrometry.

Drug Metabolism and Disposition

2011 Jun39(6):1058-69. doi: 10.1124/dmd.110.037671. Epub 2011 Mar 11

PMID: 21398391 DOI: 10.1124/dmd.110.037671

Szalowska E., van der Burg B., Man H.Y., Hendriksen P.J., Peijnenburg A.A.

Model steatogenic compounds (amiodarone, valproic acid, and tetracycline) alter lipid metabolism by different mechanisms in mouse liver slices.

PLoS One

2014 Jan 299(1):e86795. doi: 10.1371/journal.pone.0086795. eCollection 2014

PMID: 24489787 DOI: 10.1371/journal.pone.0086795

Song M., Kim Y.J., Ryu J.C.

Phospholipidosis induced by PPARgamma signaling in human bronchial epithelial (BEAS-2B) cells exposed to amiodarone.

Toxicology Science

2011 Mar120(1):98-108. doi: 10.1093/toxsci/kfq361. Epub 2010 Dec 1

PMID: 21123845 DOI: 10.1093/toxsci/kfq361

ATC classification(1 code)

ATC C01BD01

Affected organisms(1)

Humans and other mammals

International brands(5)

Salt forms(1)

Amiodarone hydrochloride(DBSALT000355)

Experimental properties(5)

External resources(2)

RxList Drugs.com

Protein Data Bank entries(8)

Commercial products(207)

Chemical identifiers

CAS, UNII, InChI Key and database cross-references

Show

Linked compound data from DrugBank Open Data (CC BY-NC 4.0)

Amiodarone

DB01118

CAS number

1951-25-3

UNII (FDA)

N3RQ532IUT

InChI Key (molecular fingerprint)

IYIKLHRQXLHMJQ-UHFFFAOYSA-N

Additional database identifiers

Drugs Product Database (DPD)

1400

ChEBI

2663

PubChem Compound

2157

PubChem Substance

46507387

KEGG Compound

C06823

KEGG Drug

D02910

ChemSpider

2072

BindingDB

18957

PharmGKB

PA448383

PDB

BBI

Therapeutic Targets Database

DAP000496

IUPHAR

2566

Guide to Pharmacology

2566

Wikipedia

Amiodarone

ChEMBL

CHEMBL633

ZINC

ZINC000003830212

RxCUI

703

HUGO Gene Nomenclature Committee (HGNC)

HGNC:6251

GenAtlas

KCNH2

GeneCards

KCNH2

GenBank Gene Database

U04270

GenBank Protein Database

487738

IUPHAR

572

Guide to Pharmacology

572

UniProtKB

Q12809

UniProt Accession

KCNH2_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:18862

GenAtlas

KCNH6

GeneCards

KCNH6

GenBank Gene Database

AF311913

GenBank Protein Database

11878259

IUPHAR

573

Guide to Pharmacology

573

UniProtKB

Q9H252

UniProt Accession

KCNH6_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:18863

GenAtlas

KCNH7

GeneCards

KCNH7

GenBank Gene Database

AF032897

GenBank Protein Database

4104136

IUPHAR

574

UniProtKB

Q9NS40

UniProt Accession

KCNH7_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:285

GenAtlas

ADRB1

GeneCards

ADRB1

GenBank Gene Database

J03019

GenBank Protein Database

178200

IUPHAR

Guide to Pharmacology

UniProtKB

P08588

UniProt Accession

ADRB1_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:286

GenAtlas

ADRB2

GeneCards

ADRB2

GenBank Gene Database

Y00106

GenBank Protein Database

29371

IUPHAR

Guide to Pharmacology

UniProtKB

P07550

UniProt Accession

ADRB2_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:288

GenAtlas

ADRB3

GeneCards

ADRB3

GenBank Gene Database

M29932

GenBank Protein Database

178896

IUPHAR

Guide to Pharmacology

UniProtKB

P13945

UniProt Accession

ADRB3_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1396

GenAtlas

CACNA1I

GeneCards

CACNA1I

GenBank Gene Database

AF129133

GenBank Protein Database

5565888

IUPHAR

537

Guide to Pharmacology

537

UniProtKB

Q9P0X4

UniProt Accession

CAC1I_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1390

GenAtlas

CACNA1C

GeneCards

CACNA1C

GenBank Gene Database

M92270

IUPHAR

529

Guide to Pharmacology

529

UniProtKB

Q13936

UniProt Accession

CAC1C_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1391

GenAtlas

CACNA1D

GeneCards

CACNA1D

GenBank Gene Database

M76558

GenBank Protein Database

179764

IUPHAR

530

Guide to Pharmacology

530

UniProtKB

Q01668

UniProt Accession

CAC1D_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1393

GenAtlas

CACNA1F

GeneCards

CACNA1F

GenBank Gene Database

AJ006216

GenBank Protein Database

3183953

IUPHAR

531

Guide to Pharmacology

531

UniProtKB

O60840

UniProt Accession

CAC1F_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1397

GenAtlas

CACNA1S

GeneCards

CACNA1S

GenBank Gene Database

U30707

GenBank Protein Database

1698403

IUPHAR

528

Guide to Pharmacology

528

UniProtKB

Q13698

UniProt Accession

CAC1S_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1401

GenAtlas

CACNB1

GeneCards

CACNB1

GenBank Gene Database

M92303

GenBank Protein Database

179806

UniProtKB

Q02641

UniProt Accession

CACB1_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1402

GenAtlas

CACNB2

GeneCards

CACNB2

GenBank Gene Database

S60415

GenBank Protein Database

300417

UniProtKB

Q08289

UniProt Accession

CACB2_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1403

GenAtlas

CACNB3

GeneCards

CACNB3

GenBank Gene Database

X76555

GenBank Protein Database

435135

UniProtKB

P54284

UniProt Accession

CACB3_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:1404

GenAtlas

CACNB4

GeneCards

CACNB4

GenBank Gene Database

U95020

GenBank Protein Database

2058727

UniProtKB

O00305

UniProt Accession

CACB4_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:11796

GenAtlas

THRA

GeneCards

THRA

GenBank Gene Database

X55074

GenBank Protein Database

825639

IUPHAR

588

Guide to Pharmacology

588

UniProtKB

P10827

UniProt Accession

THA_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:11799

GenAtlas

THRB

GeneCards

THRB

GenBank Gene Database

X04707

GenBank Protein Database

31207

IUPHAR

589

Guide to Pharmacology

589

UniProtKB

P10828

UniProt Accession

THB_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:9236

GenAtlas

PPARG

GeneCards

PPARG

GenBank Gene Database

U79012

GenBank Protein Database

1711117

IUPHAR

595

Guide to Pharmacology

595

UniProtKB

P37231

UniProt Accession

PPARG_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:9232

GenAtlas

PPARA

GeneCards

PPARA

GenBank Gene Database

L02932

GenBank Protein Database

307341

IUPHAR

593

Guide to Pharmacology

593

UniProtKB

Q07869

UniProt Accession

PPARA_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:30022

GeneCards

PPARGC1B

UniProtKB

Q86YN6

UniProt Accession

PRGC2_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2637

GenAtlas

CYP3A4

GeneCards

CYP3A4

GenBank Gene Database

M18907

Guide to Pharmacology

1337

UniProtKB

P08684

UniProt Accession

CP3A4_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2622

GenAtlas

CYP2C8

GeneCards

CYP2C8

GenBank Gene Database

M17397

Guide to Pharmacology

1325

UniProtKB

P10632

UniProt Accession

CP2C8_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2625

GenAtlas

CYP2D6

GeneCards

CYP2D6

GenBank Gene Database

M20403

GenBank Protein Database

181350

Guide to Pharmacology

1329

UniProtKB

P10635

UniProt Accession

CP2D6_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2623

GenAtlas

CYP2C9

GeneCards

CYP2C9

GenBank Gene Database

AY341248

Guide to Pharmacology

1326

UniProtKB

P11712

UniProt Accession

CP2C9_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2596

GenAtlas

CYP1A2

GeneCards

CYP1A2

GenBank Gene Database

Z00036

Guide to Pharmacology

1319

UniProtKB

P05177

UniProt Accession

CP1A2_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2621

GeneCards

CYP2C19

GenBank Gene Database

M61854

GenBank Protein Database

181344

Guide to Pharmacology

1328

UniProtKB

P33261

UniProt Accession

CP2CJ_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2595

GeneCards

CYP1A1

GenBank Gene Database

K03191

GenBank Protein Database

181276

Guide to Pharmacology

1318

UniProtKB

P04798

UniProt Accession

CP1A1_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2610

GenAtlas

CYP2A6

GeneCards

CYP2A6

GenBank Gene Database

X13897

Guide to Pharmacology

1321

UniProtKB

P11509

UniProt Accession

CP2A6_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:2634

GeneCards

CYP2J2

GenBank Gene Database

U37143

GenBank Protein Database

18254513

Guide to Pharmacology

1332

UniProtKB

P51589

UniProt Accession

CP2J2_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:399

GenAtlas

ALB

GeneCards

ALB

GenBank Gene Database

V00494

GenBank Protein Database

28590

UniProtKB

P02768

UniProt Accession

ALBU_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:40

GenAtlas

ABCB1

GeneCards

ABCB1

GenBank Gene Database

M14758

GenBank Protein Database

307180

Guide to Pharmacology

768

UniProtKB

P08183

UniProt Accession

MDR1_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:42

GenAtlas

ABCB11

GeneCards

ABCB11

GenBank Gene Database

AF091582

GenBank Protein Database

3873243

Guide to Pharmacology

778

UniProtKB

O95342

UniProt Accession

ABCBB_HUMAN

HUGO Gene Nomenclature Committee (HGNC)

HGNC:10966

GeneCards

SLC22A2

GenBank Gene Database

X98333

GenBank Protein Database

2281942

Guide to Pharmacology

1020

UniProtKB

O15244

UniProt Accession

S22A2_HUMAN

International reference pricing

18 formulations

Reference pricing from DrugBank. Prices are indicative and may not reflect current UK costs.

From $0.57/ml

To $38.98/g

Amiodarone 450 mg/9 ml vial

$0.57/ml

Amiodarone 900 mg/18 ml vial

$0.59/ml

Pms-Amiodarone 100 mg Tablet

$0.72/tablet

Amiodarone 150 mg/3 ml vial

$0.83/ml

Apo-Amiodarone 200 mg Tablet

$1.30/tablet

Source: DrugBank. Used under CC BY-NC 4.0 academic licence for non-commercial purposes.

Patent information

1 active patent, 2 expired

7635773

United States

Approved 22 Dec 2009 · Expires 13 Mar 2029

2y 11m

6869939

United States

Approved 22 Mar 2005 · Expires 4 May 2022

Expired

5134127

United States

Approved 28 Jul 1992 · Expires 23 Jan 2010

Expired

Source: DrugBank · CC BY-NC 4.0. Patent data sourced from national patent offices. Expiry dates may not reflect extensions, regulatory exclusivity periods, or legal challenges.

DrugBank citations

If you use DrugBank data in your research, please cite the following publications:

Knox C., Wilson M., Klinger C.M., et al

DrugBank 6.

0: the DrugBank Knowledgebase for 2024

Nucleic Acids Res. 2024 Jan 552(D1):D1265-D1275

PMID: 37953279

Wishart D.S., Feunang Y.D., Guo A.C., et al

DrugBank 5.

0: a major update to the DrugBank database for 2018

Nucleic Acids Res. 2017 Nov 846(D1):D1074-D1082

PMID: 29126136

Show earlier publications

Law V., Knox C., Djoumbou Y., et al

DrugBank 4.

0: shedding new light on drug metabolism

Nucleic Acids Res. 2014 Jan 142(1):D1091-7

PMID: 24203711

Knox C., Law V., Jewison T., et al

DrugBank 3.

0: a comprehensive resource for 'omics' research on drugs

Nucleic Acids Res. 2011 Jan39(Database issue):D1035-41

PMID: 21059682

Wishart D.S., Knox C., Guo A.C., et al

DrugBank: a knowledgebase for drugs, drug actions and drug targets.

Nucleic Acids Research

2008 Jan36(Database issue):D901-6

PMID: 18048412

Wishart D.S., Knox C., Guo A.C., et al

DrugBank: a comprehensive resource for in silico drug discovery and exploration.

Nucleic Acids Research

2006 Jan 134(Database issue):D668-72

PMID: 16381955

Source: go.drugbank.comCC BY-NC 4.0

Updated 27 days ago(8 Mar 2026)

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Amiodarone 500mg/5ml oral solution

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Amiodarone 500mg/5ml oral solution

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Amiodarone

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