Ipecac

Identification

Summary

Ipecac is an emetic agent used to induce vomiting in poisoning.

Generic Name

Ipecac

DrugBank Accession Number

DB13293

Background

Ipecac is obtained from the plant Cephaelis ipecacuanha and contains a number of emetic alkaloids including emetine and cephaeline.⁹ Ipecac was approved by Health Canada as an OTC but all those products are now discontinued.⁷ The FDA does not have currently any approved product containing ipecac, however, ipecac as an ingredient is accepted to be sold over the counter in packages of 1 fluid ounce (30 ml) for the emergency use to cause vomiting in poisoning.⁸

Type

Small Molecule

Groups

Approved, Withdrawn

Synonyms

• Ipecac
• Ipecac syrup
• Ipecacuanha
• Ipsatol

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Pharmacology

Indication

Ipecac is indicated as an emetic agent for the induction of vomiting in poisoning victims who ingested systemic poison in order to prevent absorption of the chemicals through the gastrointestinal tract. In low doses, ipecac was also used as an expectorant.⁹

Reports have suggested that ipecac was vastly used in patients with eating disorders to produce vomiting.⁵

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Associated Conditions

Indication Type	Indication	Combined Product Details	Approval Level	Age Group	Patient Characteristics	Dose Form
Used in combination to treat	Allergic cough	Combination Product in combination with: Ammonium chloride (DB06767), Potassium citrate (DB09125), Diphenhydramine (DB01075)	••••••••••••			•••••
Used in combination to treat	Bronchitis	Combination Product in combination with: Diphenhydramine (DB01075), Ammonium chloride (DB06767), Potassium citrate (DB09125)	••••••••••••			•••••
Used in combination to treat	Cough caused by common cold	Combination Product in combination with: Diphenhydramine (DB01075), Potassium citrate (DB09125), Ammonium chloride (DB06767)	••••••••••••			•••••
Used in combination to treat	Coughing	Combination Product in combination with: Glycyrrhiza glabra (DB14312), Ammonium bicarbonate (DB15925), Dextromethorphan (DB00514)	••••••••••••			•••••
Used in combination to treat	Coughing	Combination Product in combination with: Diphenhydramine (DB01075), Ammonium chloride (DB06767), Potassium citrate (DB09125)	••••••••••••			•••••

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Associated Therapies

• Airway secretion clearance therapy

Contraindications & Blackbox Warnings

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Pharmacodynamics

An effective and safe dose of ipecac may cause vomiting within 20 minutes of the administration.⁹ In prospective studies with children, the mean time to vomit was reported to be of 21.7 minutes.¹⁰

Mechanism of action

The emetic components of ipecac, emetine and cephaeline, act centrally and locally in the gastrointestinal tract to cause vomiting.⁹ The mechanism by which ipecac performs his effect is by irritating the stomach lining and chemically stimulating the chemoreceptor trigger zone.⁶

Absorption

The main components of ipecac are rapidly absorbed from the GI tract, this absorption depends on the amount of emesis produced by the administered dose. The peak plasma concentration of 10-16 ng/ml is attained 20 minutes after first administration.⁵ The bioavailability of ipecac is reduced over time from 67-11% after 5-60 minutes of administration.³

Volume of distribution

The volume of distribution is thought to be large based on the prolonged excretion.⁵

Protein binding

This pharmacokinetic property is not relevant as the absorbed dose of ipecac is minimal.

Metabolism

The main components of ipecac have been shown in microsomal enzyme systems that emetine is converted to cephaeline and 9-O-demethylemetine by CYP2D6. On the other hand, CYP3A4 produces the transformation of emetine to 9-O-demethylemetine and 10-O-demethylemetine. In preclinical studies, it was shown that cephaline is conjugated with glucuronice to form cephaeline-6'-O-glucuronide for biliary excretion whereas emetine gets demethylated to cephaline and 9-O-demethylemetine before glucuronidation.⁵

Hover over products below to view reaction partners

• Ipecac
  • 9-O-demethylemetine + Cephaeline
    • Cephaeline 6'-O-glucuronide
  • 10-O-demethylemetine + 9-O-demethylemetine
    • 9-O-demethylemetine glucuronide

Route of elimination

Due to the emetic function, even 76% of the administered dose is vomited. From the absorbed dose, the elimination from plasma is relatively rapid. In some clinical trials, the alkaloids were not observed in plasma 6 hours after administration. When the patient does not vomit any part of the administered dose, there could be traces in plasma after 24 hours. The component alkaloids are eliminated via the bile and urine as it has been observed a persistence in urine after chronic administration.⁵ Biliary and urinary excretion of ipecac corresponds to 57.5% and 16.5% of the administered dose respectively. From the excreted dose, unchanged cephaeline accountd for 42.4% of the eliminated dose in feces.⁴

Half-life

The effect of ipecac is done in about 20 minutes and the elimination of the little-absorbed dose is reported to be very rapid. Thus, the half-life is thought to be of about 0.5-1 hour.⁵

Clearance

The urinary excretion of the main components of ipecac accounts for 75% of the administered dose 48 hours after initial administration.⁶

Adverse Effects

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Toxicity

An overdose of an ipecac preparation may cause serious poisoning. If emesis is not provoked after two doses of ipecac, a gastric lavage is recommended.⁹ The overdose of the components such as emetine is reported to cause the onset of myopathy. Chronic use of this drug has been indicated to produce muscle weakness, waddling gait, dyspnea, left atrial enlargement and reduced left ventricular ejection fraction.⁵

Pathways

Not Available

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Interactions

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This information should not be interpreted without the help of a healthcare provider. If you believe you are experiencing an interaction, contact a healthcare provider immediately. The absence of an interaction does not necessarily mean no interactions exist.

• Approved
• Vet approved
• Nutraceutical
• Illicit
• Withdrawn
• Investigational
• Experimental
• All Drugs

Drug	Interaction
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Abacavir	Abacavir may decrease the excretion rate of Ipecac which could result in a higher serum level.
Abametapir	The serum concentration of Ipecac can be increased when it is combined with Abametapir.
Abatacept	The metabolism of Ipecac can be increased when combined with Abatacept.
Abiraterone	The metabolism of Ipecac can be decreased when combined with Abiraterone.
Acebutolol	The metabolism of Ipecac can be decreased when combined with Acebutolol.

Food Interactions

No interactions found.

Products

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Over the Counter Products

Name	Dosage	Strength	Route	Labeller	Marketing Start	Marketing End	Region	Image
Ipecac Syrup	Syrup	140 mg / 100 mL	Oral	D.C. Labs Limited	1964-12-31	2003-07-11
Ipecac Syrup 1.8gm/30ml USP	Syrup	1.8 g / 30 mL	Oral	Meta Pharmaceuticals Inc.	1991-12-31	1998-11-05
PMS-ipecac Syrup	Syrup	7 %	Oral	Pharmascience Inc	1988-12-31	2009-12-02

Mixture Products

Name	Ingredients	Dosage	Route	Labeller	Marketing Start	Marketing End	Region	Image
Robol Tab	Ipecac (4.32 mg / tab) + Alloin (16.2 mg / tab) + Belladonna (5.4 mg / tab) + Phenolphthalein (64.8 mg / tab)	Tablet	Oral	Labs Anglo French	1979-12-31	1997-08-05
Trousse Antipoison Pour Enfants Liq	Ipecac (30 mL / vial) + Activated charcoal (120 mL / vial)	Liquid	Oral	Prodemdis Enr.	1988-12-31	2010-07-15
ยาธาตุน้ำแดง	Ipecac (2 ml/100ml) + Gentiana lutea extract (6.67 ml/100ml) + Peppermint oil (2 ml/100ml) + Rhubarb (10.67 ml/100ml) + Sodium bicarbonate (4 g/100ml)	Solution		องค์การเภสัชกรรม	2002-09-13	Not applicable

Categories

ATC Codes

R05CA04 — Ipecacuanha

• R05CA — Expectorants
• R05C — EXPECTORANTS, EXCL. COMBINATIONS WITH COUGH SUPPRESSANTS
• R05 — COUGH AND COLD PREPARATIONS
• R — RESPIRATORY SYSTEM

V03AB01 — Ipecacuanha

• V03AB — Antidotes
• V03A — ALL OTHER THERAPEUTIC PRODUCTS
• V03 — ALL OTHER THERAPEUTIC PRODUCTS
• V — VARIOUS

Drug Categories

• Agents Causing Muscle Toxicity
• Antidotes
• Autonomic Agents
• Biological Products
• Central Nervous System Agents
• Complex Mixtures
• Cough and Cold Preparations
• Cytochrome P-450 CYP2D6 Substrates
• Cytochrome P-450 CYP3A Substrates
• Cytochrome P-450 CYP3A4 Substrates
• Cytochrome P-450 Substrates
• Drugs that are Mainly Renally Excreted
• Emetics
• Expectorants
• Gastrointestinal Agents
• Peripheral Nervous System Agents
• Plant Extracts
• Plant Preparations

Classification

Not classified

Affected organisms

• Humans

Chemical Identifiers

UNII

62I3C8233L

CAS number

8012-96-2

References

General References

1. Lee MR: Ipecacuanha: the South American vomiting root. J R Coll Physicians Edinb. 2008 Dec;38(4):355-60. [Article]
2. Axelsson P, Thorn SE, Wattwil M: Betamethasone does not prevent nausea and vomiting induced by ipecacuanha. Acta Anaesthesiol Scand. 2004 Nov;48(10):1283-6. [Article]
3. Saincher A, Sitar DS, Tenenbein M: Efficacy of ipecac during the first hour after drug ingestion in human volunteers. J Toxicol Clin Toxicol. 1997;35(6):609-15. [Article]
4. Asano T, Watanabe J, Sadakane C, Ishihara K, Hirakura K, Wakui Y, Yanagisawa T, Kimura M, Kamei H, Yoshida T, Fujii Y, Yamashita M: Biotransformation of the ipecac alkaloids cephaeline and emetine from ipecac syrup in rats. Eur J Drug Metab Pharmacokinet. 2002 Jan-Mar;27(1):29-35. [Article]
5. Barceloux D.G. (2012). Medical toxicology of drug abuse: Synthesized chemicals and psychoactive plants.. Wiley.
6. Benzoni T. and Gossman W. (2017). Ipecac. Treasure Island: StatPearls Publishing.
7. Health Canada [Link]
8. FDA code of federal regulations [Link]
9. FDA federal register [Link]
10. FDA Poisonous Plant Database [Link]

External Links

PubChem Substance

347911447

RxNav

5975

ChEMBL

CHEMBL2108372

Wikipedia

Ipecacuanha

MSDS

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Clinical Trials

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Phase	Status	Purpose	Conditions	Count

Pharmacoeconomics

Manufacturers

Not Available

Packagers

Not Available

Dosage Forms

Form	Route	Strength
Stick	Not applicable	50 kg/50kg
Syrup	Oral	140 mg / 100 mL
Syrup	Oral	1.8 g / 30 mL
Syrup	Oral
Syrup	Oral	7 %
Tablet	Oral
Liquid	Oral
Syrup	Oral
Solution

Prices

Not Available

Patents

Not Available

Properties

State

Liquid

Experimental Properties

Property	Value	Source
water solubility	Soluble	'MSDS'
logP	5.0	Barceloux D. Medical Toxicology of Drug Abuse. (2012)
pKa	6.64-6.77	Purich D. The inhibitor index. (2017)

Predicted Properties

Not Available

Predicted ADMET Features

Not Available

Spectra

Mass Spec (NIST)

Not Available

Spectra

Not Available

Chromatographic Properties

Collision Cross Sections (CCS)

Not Available

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Drug created at June 23, 2017 20:39 / Updated at February 21, 2024 02:33