Tramadol-induced hiccups: a case–noncase study in the European pharmacovigilance database

1. Kim, JE, Lee, MK, Lee, DK, et al. Continuous cervical epidural block: treatment for intractable hiccups. Medicine (Baltimore) 2018; 97: e9444.
Google Scholar | Crossref | Medline2. Straus, C, Vasilakos, K, Wilson, RJ, et al. A phylogenetic hypothesis for the origin of hiccough. Bioessays 2003; 25: 182–188.
Google Scholar | Crossref | Medline3. Nausheen, F, Mohsin, H, Lakhan, SE. Neurotransmitters in hiccups. Springerplus 2016; 5: 1357.
Google Scholar | Crossref | Medline4. Sterger, M, Schneemann, M, Fox, M. Systemic review: the pathogenesis and pharmacological treatment of hiccups. Aliment Pharmacol Ther 2015; 42: 1037–1050.
Google Scholar | Crossref | Medline5. Bravo, L, Mico, JA, Berrocoso, E. Discovery and development of tramadol for the treatment of pain. Expert Opin Drug Discov 2017; 12: 1281–1291.
Google Scholar | Crossref | Medline6. Bigal, LM, Bibeau, K, Dunbar, S. Tramadol prescription over a 4-year period in the USA. Curr Pain Headache Rep 2019; 23: 76.
Google Scholar | Crossref | Medline7. Postigo, R, Brosch, S, Slattery, J, et al. EudraVigilance medicines safety database: publicly accessible data for research and public health protection. Drug Saf 2018; 41: 665–675.
Google Scholar | Crossref | Medline8. Bergvall, T, Norén, GN, Lindquist, M. VigiGrade: a tool to identify well-documented individual case reports and highlight systematic data quality issues. Drug Saf 2014; 37: 65–77.
Google Scholar | Crossref | Medline9. Who Collaborating Centre for Drug Statistics Methodology . ATC/DDD index 2011, https://www.whocc.no/atc_ddd_index/ (accessed 21 October 2020).
Google Scholar10. Moher, D, Shamseer, L, Clarke, M, et al; PRISMA-P Group . Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement. Syst Rev 2015; 4: 1.
Google Scholar | Crossref | Medline11. Videla, S, Lahjou, M, Vaqué, A, et al. Pharmacokinetics of multiple doses of co-crystal of tramadol-celecoxib: findings from a four-way randomized open-label phase I clinical trial. Br J Clin Pharmacol 2018; 84: 64–68.
Google Scholar | Crossref | Medline12. Massarella, J, Ariyawansa, J, Natarajan, J, et al. Tramadol hydrochloride at steady state lacks clinically relevant QTc interval increases in healthy adults. Clin Pharmacol Drug Dev 2019; 8: 95–106.
Google Scholar | Crossref | Medline13. Bedirli, N, Egritas, O, Cosarcan, K, et al. A comparison of fentanyl with tramadol during propofol-based deep sedation for pediatric upper endoscopy. Paediatr Anaesth 2012; 22: 150–155.
Google Scholar | Crossref | Medline14. Vickers, MD, Paravicini, D. Comparison of tramadol with morphine for post-operative pain following abdominal surgery. Eur J Anaesthesiol 1995; 12: 265–271.
Google Scholar | Medline15. Panchal, R, Bhutt, V, Anovadiya, A, et al. Tramadol-induced hiccups: a report of two cases. Drug Saf Case Rep 2018; 5: 3.
Google Scholar | Crossref | Medline16. Wilcox, SK. Persistent hiccups after slow-release morphine. Palliat Med 2005; 19: 568–569.
Google Scholar | Medline17. Lauterbach, EC. Hiccup and apparent myoclonus after hydrocodone: review of the opiate-related hiccup and myoclonus literature. Clin Neuropharmacol 1999; 22: 87–92.
Google Scholar | Crossref | Medline | ISI18. Loomba, V, Gupta, M, Kim, D. Persistent hiccups with continuous intrathecal morphine infusion. Clin J Pain 2012; 28: 172–174.
Google Scholar | Crossref | Medline19. Ruan, X, Couch, JP, Shah, R, et al. Persistent hiccup associated with intrathecal morphine infusion pump therapy. Am J Phys Med Rehabil 2007; 86: 1019–1022.
Google Scholar | Crossref | Medline20. Bagheri, H, Cismondo, S, Montastruc, JL. Drug-induced hiccup: a review of the France pharmacologic vigilance database. Therapie 1999; 54: 35–39.
Google Scholar | Medline | ISI21. Inácio, P, Cavaco, A, Airaksinen, M. The value of patient reporting to the pharmacovigilance system: a systematic review. Br J Clin Pharmacol 2017; 83: 227–246.
Google Scholar | Crossref | Medline22. Hazell, L, Cornelius, V, Hannaford, P, et al. Yellow Card Study Collaboration. How do patients contribute to signal detection?: a retrospective analysis of spontaneous reporting of adverse drug reactions in the UK’s Yellow Card scheme. Drug Saf 2013; 36: 199–206.
Google Scholar | Crossref | Medline | ISI23. Hosoya, R, Uesawa, Y, Ishii-Nozawa, R, et al. Analysis of factors associated with hiccups based on the Japanese Adverse Drug Event Report database. PLoS One 2017; 12: e0172057.
Google Scholar | Crossref | Medline24. Lee, GW, Kim, RB, Go, SI, et al. Gender differences in hiccup patients: analysis of published case reports and case-control studies. J Pain Symptom Manage 2016; 51: 278–283.
Google Scholar | Crossref | Medline25. Liaw, CC, Wang, CH, Chang, HK, et al. Cisplatin-related hiccups: male predominance, induction by dexamethasone, and protection against nausea and vomiting. J Pain Symptom Manage 2005; 30: 359–366.
Google Scholar | Crossref | Medline | ISI26. Giudice, M. Drugs may induce hiccups in rare cases. Can Pharm J (Ott) 2007; 140: 124–126.
Google Scholar | SAGE Journals27. Scott, LJ, Perry, CM. Tramadol: a review of its use in perioperative pain. Drugs 2000; 60: 139–176.
Google Scholar | Crossref | Medline | ISI28. European Network of Centres for Pharmacoepidemiology and Pharmacovigilance (ENCePP) . Guide on methodological standards in pharmacoepidemiology. Spontaneous report database, http://www.encepp.eu/standards_and_guidances/methodologicalGuide3_4.shtml (accessed 15 January 2021).
Google Scholar29. Faillie, JL. Case-non-case studies: principle, methods, bias and interpretation. Therapie 2019; 74: 225–232.
Google Scholar | Crossref | Medline30. Bihan, K, Lebrun-Vignes, B, Funck-Brentano, C, et al. Uses of pharmacovigilance databases: an overview. Therapie 2020; 75: 591–598.
Google Scholar | Crossref | Medline

留言 (0)

沒有登入
gif