From Wikipedia, the free encyclopedia
Jump to navigation Jump to search
3D Itopride.png
Clinical data
AHFS/Drugs.comInternational Drug Names
Routes of
Oral (film-coated tablets)
ATC code
  • none
Legal status
Legal status
  • In general: ℞ (Prescription only)
Pharmacokinetic data
Bioavailability~60% (Tmax = 35±5 min)
Protein binding96%
MetabolismExtensive hepatic (FMO1 and FMO3), primarily N-oxidation[1]
Elimination half-life5.7±0.3 hours
ExcretionRenal (3.7–4.1% as unchanged itopride, 75.4–89.4% as itopride-N-oxide)[2]
CAS Number
PubChem CID
CompTox Dashboard (EPA)
ECHA InfoCard100.222.888 Edit this at Wikidata
Chemical and physical data
Molar mass358.43 g/mol g·mol−1
3D model (JSmol)
 ☒N☑Y (what is this?)  (verify)

Itopride (INN) (brand name Ganaton) is a prokinetic benzamide derivative unlike domperidone. These drugs inhibit dopamine and acetylcholine esterase enzyme and have a gastrokinetic effect.[3] Itopride is indicated for the treatment of functional dyspepsia and other gastrointestinal conditions.[4] It is a combined D2 receptor antagonist and acetylcholinesterase inhibitor.[5][6]

Itopride is not currently approved by the U.S. Food and Drug Administration (FDA) for use in the United States, nor is it yet approved in the United Kingdom. This may explain the apparent lack of patient information available in English compared to other similar classes of medication.

Medical uses[edit]

A blister package of Ganaton (Itopride) 50 mg tablets intended for distribution in the Slovak Republic.

Typically, itopride is indicated in the treatment of GI symptoms caused by reduced GI motility:

Itopride is typically taken three times a day. The dose is usually taken on an empty stomach about an hour before meals. However, the dosage and details of administration may vary depending on the patient's age, symptoms, and other factors.

Itopride was shown to significantly improve symptoms in patients with functional dyspepsia and motility disorders in placebo-controlled trials.

These studies concluded that the reduction in the severity of symptoms of functional dyspepsia after 8 weeks of treatment with itopride indicated that itopride was significantly superior to placebo and that itopride yielded a greater rate of response than placebo in significantly reducing pain and fullness.[10]

Contraindications and precautions[edit]

Itopride is a relatively new drug and it is not currently approved for normal prescribed use nor OTC use in either the US nor the UK. However, this does not necessarily indicate that itopride is not effective or safe.

Patients taking itopride should report any side-effects to their treating physician.

Itopride is contraindicated in hypersensitivity to itopride or benzamides; lactation, GI hemorrhage, obstruction or perforation. Itopride may not be indicated for those suffering from Parkinson's disease or other conditions involving dopamine regulation issues. Itopride should be used with special caution in the young and the elderly. Little information is available at this time regarding the safe use of itopride during pregnancy.

Adverse drug reactions[edit]

The most common side-effects of itopride include mild to moderate abdominal pain and diarrhoea.[7] Some other side effects that may occur include: rash, giddiness, exhaustion, back or chest pain, increased salivation, constipation, headache, sleeping disorders, dizziness, galactorrhea, and gynecomastia.

Other side effects may also be present.

Leukopenia, a reduction in the normal level of white blood cells, can be a potentially life-threatening reaction to itopride.

Central nervous system adverse effects do not tend to occur due to poor penetration across the blood brain barrier, although a slight raising of prolactin levels may occur.[7] Raising of prolactin levels is more common with high dose regimes of itopride.[11]

Cardiac studies[edit]

Itopride belongs to the same benzamide group as cisapride, a drug found to affect QT interval and possibly predispose those using it to cardiac arrhythmias. However, itopride does not have any adverse effect on the QT interval.[7]

Later, in a study conducted with healthy adult volunteers, itopride was shown as unlikely to cause cardiac arrhythmias or ECG changes in part to the lack of significant interaction and metabolism via the cytochrome P450 enzyme pathway, unlike cisapride and mosapride, as it is metabolized by a different enzyme set. New molecular studies on guinea pig ventricular myocytes also supported the cardiac safety profile of itopride, as it did not affect certain potassium mechanisms that may have been affected by cisapride or mosapride. Moreover, itopride has no affinity for the 5-HT4 receptors, unlike other benzamides such as cisapride and mosapride, which are 5-HT4 agonists. The affinity of cisapride for 5-HT4 receptors in the heart has been implicated in the undesirable cardiac effects of cisapride itself.

The conclusion of this study revealed that itopride is devoid of any abnormal effect on QT interval. Therefore, it may be possible that itopride could be considered as a better and certainly safer prokinetic agent than either cisapride or mosapride, and itopride should also be considered a welcome treatment addition for symptomatic nonulcer dyspepsia and other gastric motility disorders.[12]


Itopride acts as a selective dual D2 receptor antagonist and acetylcholinesterase inhibitor.[5][6]

There is evidence that itopride may have prokinetic effects throughout the gastrointestinal tract from the stomach to the end of the colon.[13] The pharmacokinetics of itopride appear to differ between Asian and Caucasian populations, with Caucasians having 30-50 percent lower blood levels of itopride after oral administration.[14] Itopride poorly penetrates across the blood brain barrier because of its high polarity and thus itopride does not tend to cause any central nervous system adverse effects.[7] Itopride has no effect on potassium channels.[15]

Similarly to other D2 receptor antagonists, itopride has been found to dose-dependently increase prolactin levels.[6]


After oral administration itopride undergoes rapid and extensive absorption with levels of itopride peaking in the blood plasma after only 35 minutes. Itopride is primarily eliminated via the kidneys having an elimination half-life of approximately 6 hours.[16]

Mechanism of action[edit]

Ganaton (Itopride) 50 mg tablets. Engraving says "HC 803"

Itopride increases acetylcholine concentrations by inhibiting dopamine D2 receptors and acetylcholinesterase. Higher acetylcholine increases GI peristalsis, increases the lower esophageal sphincter pressure, stimulates gastric motility, accelerates gastric emptying, and improves gastro-duodenal coordination.[7]

Itopride given as a single dose study found that it also raises levels of motilin, somatostatin and lowers levels of cholecystokinin, as well as adrenocorticotropic hormone. These effects may also contribute to itopride's pharmacology.[17]


Anticholinergic agents reduce the action of itopride. It is worth noting that itopride is a relatively new drug and that it is, therefore, possible that other drugs may interact with itopride, rendering contraindications or side effects that are not currently known.

Trade names[edit]

Itopride is available under the brand names Ganaton ((JP, CZ, RU), Abbott Laboratories), Itomed ((RU, KR, UA, MD), PRO.MED.CS Praha a.s.), Itogard (Apex Pharmaceuticals, Nepal) and others. In Mexico, itopride (50 mg) is sold by Takeda Laboratories under the brand name Dagla. In Bulgaria and other countries of East Europe itopride (50 mg) is sold by Zentiva under the brand name Zirid [18]

See also[edit]


  1. ^ Smith, Dennis A.; Allerton, Charlotte; Kubinyi, Hugo; van de Waterbeemd, Han; Walker, Don K., eds. (April 2012). Pharmacokinetics and Metabolism in Drug Design (3rd ed.). Weinheim: Wiley-VCH. p. 132. ISBN 978-3-527-32954-0.
  2. ^ "Ganaton (itopride hydrochloride) Tablets 50 mg. Prescribing Information" (PDF). Abbott Japan Co., Ltd. Retrieved 9 December 2015.
  3. ^ Iwanaga Y, Miyashita N, Saito T, Morikawa K, Itoh Z (June 1996). "Gastroprokinetic effect of a new benzamide derivative itopride and its action mechanisms in conscious dogs". Jpn. J. Pharmacol. 71 (2): 129–37. doi:10.1254/jjp.71.129. PMID 8835639.
  4. ^ Holtmann G, Talley NJ, Liebregts T, Adam B, Parow C (February 2006). "A placebo-controlled trial of itopride in functional dyspepsia". N. Engl. J. Med. 354 (8): 832–40. doi:10.1056/NEJMoa052639. PMID 16495395.
  5. ^ a b Henry P. Parkman; Richard W. McCallum (5 October 2011). Gastroparesis: Pathophysiology, Presentation and Treatment. Springer. pp. 264–. ISBN 978-1-60761-552-1.
  6. ^ a b c William Y. Chey; William D. Chey (2011). Irritable Bowel Syndrome, an Issue of Gastroenterology Clinics. Elsevier Health Sciences. pp. 232–. ISBN 978-1-4557-0450-7.
  7. ^ a b c d e f Huang, X.; Lv, B.; Zhang, S.; Fan, YH.; Meng, LN. (Dec 2012). "Itopride therapy for functional dyspepsia: a meta-analysis". World J Gastroenterol. 18 (48): 7371–7. doi:10.3748/wjg.v18.i48.7371. PMC 3544044. PMID 23326147.
  8. ^ Chiba, T.; Tokunaga, Y.; Ikeda, K.; Takagi, R.; Chishima, R.; Terui, T.; Kudara, N.; Endo, M.; et al. (Sep 2007). "Effects of itopride hydrochloride and ranitidine in patients with functional dyspepsia: comparison between prokinetic and acid suppression therapies". Hepatogastroenterology. 54 (78): 1878–81. PMID 18019739.
  9. ^ Keil, R. (May 2004). "[Prokinetics and diabetes mellitus]". Vnitr Lek. 50 (5): 358, 360–2. PMID 15305632.
  10. ^ Holtmann, Gerald; Talley, Nicholas J.; Liebregts, Tobias; Adam, Birgit; Parow, Christopher (2006). "A Placebo-Controlled Trial of Itopride in Functional Dyspepsia". New England Journal of Medicine. 354 (8): 832–40. doi:10.1056/NEJMoa052639. PMID 16495395.
  11. ^ Kim, YS.; Kim, TH.; Choi, CS.; Shon, YW.; Kim, SW.; Seo, GS.; Nah, YH.; Choi, MG.; Choi, SC. (Jul 2005). "Effect of itopride, a new prokinetic, in patients with mild GERD: a pilot study" (PDF). World J Gastroenterol. 11 (27): 4210–4. doi:10.3748/wjg.v11.i27.4210. PMC 4615444. PMID 16015691. Archived from the original (PDF) on 2013-10-05. Cite uses deprecated parameter |deadurl= (help)
  12. ^ Gupta, Seema; Kapoor, Vinod; Gupta, B. M.; Kapoor, B.; Verma, Ujala; Gupta, Vikram (2005). "Effect Of Itopride hydrochloride on QT interval in adult healthy volunteers" (PDF). JK-Practitioner. 12 (4): 207–10.
  13. ^ Lim, HC.; Kim, YG.; Lim, JH.; Kim, HS.; Park, H. (Jun 2008). "Effect of itopride hydrochloride on the ileal and colonic motility in guinea pig in vitro". Yonsei Med J. 49 (3): 472–8. doi:10.3349/ymj.2008.49.3.472. PMC 2615341. PMID 18581598.
  14. ^ Stevens, JE.; Russo, A.; Maddox, AF.; Rayner, CK.; Phillips, L.; Talley, NJ.; Giguère, M.; Horowitz, M.; Jones, KL. (May 2008). "Effect of itopride on gastric emptying in longstanding diabetes mellitus". Neurogastroenterol Motil. 20 (5): 456–63. doi:10.1111/j.1365-2982.2007.01058.x. PMID 18179609.
  15. ^ Morisawa, T.; Hasegawa, J.; Hama, R.; Kitano, M.; Kishimoto, Y.; Kawasaki, H. (1999). "Effects of itopride hydrochloride on the delayed rectifier K+ and L-type CA2+ currents in guinea-pig ventricular myocytes". Res Commun Mol Pathol Pharmacol. 106 (1–2): 37–45. PMID 11127807.
  16. ^ Bose, A.; Wong, TW.; Singh, N. (Apr 2013). "Formulation development and optimization of sustained release matrix tablet of Itopride HCl by response surface methodology and its evaluation of release kinetics". Saudi Pharm J. 21 (2): 201–13. doi:10.1016/j.jsps.2012.03.006. PMC 3744972. PMID 23960836.
  17. ^ Katagiri, F.; Shiga, T.; Inoue, S.; Sato, Y.; Itoh, H.; Takeyama, M. (2006). "Effects of itopride hydrochloride on plasma gut-regulatory peptide and stress-related hormone levels in healthy human subjects". Pharmacology. 77 (3): 115–21. doi:10.1159/000093485. PMID 16717477.
  18. ^

External links[edit]