Validation of a population-based method to assess drug-induced alterations in the QT interval: a self-controlled crossover study

ABSTRACT Purpose The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs known to have potential QT liability and QT prolongation or shortening. Methods By using a self‐controlled crossover study w...

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Published inPharmacoepidemiology and drug safety Vol. 22; no. 11; pp. 1222 - 1232
Main Authors Iribarren, Carlos, Round, Alfred D., Peng, Jonathan A., Lu, Meng, Zaroff, Jonathan G., Holve, Taylor J., Prasad, Amit, Stang, Paul
Format Journal Article
LanguageEnglish
Published Chichester Blackwell Publishing Ltd 01.11.2013
Wiley
Wiley Subscription Services, Inc
Subjects
acquired long QT
Adult
Aged
Biological and medical sciences
Cardiac arrhythmia
Clinical trial. Drug monitoring
Cohort Studies
Cross-Over Studies
Databases, Factual - statistics & numerical data
Delivery of Health Care, Integrated
drug exposure
Drug toxicity and drugs side effects treatment
Drug-Related Side Effects and Adverse Reactions - epidemiology
Electrocardiography
Female
General pharmacology
Humans
Linear Models
Long QT Syndrome - chemically induced
Long QT Syndrome - epidemiology
Male
Medical sciences
Middle Aged
pharmacoepidemiology
Pharmacology
Pharmacology. Drug treatments
Prescription drugs
QT interval
Side effects
Toxicity: cardiovascular system
Drug
Validation
QT interval
Arrhythmia
Toxicity
Treatment efficiency
Prolonged QT interval
Cardiovascular disease
Method
Pharmacovigilance
acquired long QT
Conduction disorder
Epidemiology
Crossover study
pharmacoepidemiology
Heart block
Heart disease
drug exposure
Public health
Online AccessGet full text
ISSN1053-8569
1099-1557
1099-1557
DOI10.1002/pds.3479

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Abstract ABSTRACT Purpose The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs known to have potential QT liability and QT prolongation or shortening. Methods By using a self‐controlled crossover study with 59 467 subjects, we ascertained intra‐individual change in log‐linear regression‐corrected QT (QTcreg) during the period between 1995 and mid‐2008 for 90 drugs while adjusting for age, gender, race/ethnicity, comorbid conditions, number of electrocardiograms (ECGs), and time between pre‐ECG and post‐ECG. The proportion of users of each drug‐developing incident long QT was also estimated. Results Two drugs (nicardipine and levalbuterol) had no statistically significant intra‐individual QTcreg shortening effects, 10 drugs had no statistically significant prolonging effect, and 78 (87%) of the drugs had statistically significant intra‐individual mean QTcreg lengthening effects, ranging from 7.6 ms for aripiprazole to 25.2 ms for amiodarone. Three drugs were associated with mean QTcreg prolongation of 20 ms or greater: amiodarone (antiarrhythmic), terfenadine (antihistaminic), and quinidine (antiarrhythmic); whereas 11 drugs were associated with mean QTcreg prolongation of 15 ms or greater but less than 20 ms: trimipramine (tricyclic antidepressant), clomipramine (tricyclic antidepressant), disopyramide (antiarrhythmic), chlorpromazine (antipsychotic), sotalol (beta blocker), itraconazole (antifungal), phenylpropanolamine (decongestant/anorectic), fenfluramine (appetite suppressant), midodrine (antihypotensive), digoxin (cardiac glycoside/antiarrhythmic), and procainamide (antiarrhythmic). Conclusions QT prolonging effects were common and varied in strength. Our results lend support to past Food and Drug Administration regulatory actions and support the role for ongoing surveillance of drug‐induced QT prolongation. Copyright © 2013 John Wiley & Sons, Ltd.
AbstractList The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs known to have potential QT liability and QT prolongation or shortening.PURPOSEThe purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs known to have potential QT liability and QT prolongation or shortening.By using a self-controlled crossover study with 59 467 subjects, we ascertained intra-individual change in log-linear regression-corrected QT (QTcreg ) during the period between 1995 and mid-2008 for 90 drugs while adjusting for age, gender, race/ethnicity, comorbid conditions, number of electrocardiograms (ECGs), and time between pre-ECG and post-ECG. The proportion of users of each drug-developing incident long QT was also estimated.METHODSBy using a self-controlled crossover study with 59 467 subjects, we ascertained intra-individual change in log-linear regression-corrected QT (QTcreg ) during the period between 1995 and mid-2008 for 90 drugs while adjusting for age, gender, race/ethnicity, comorbid conditions, number of electrocardiograms (ECGs), and time between pre-ECG and post-ECG. The proportion of users of each drug-developing incident long QT was also estimated.Two drugs (nicardipine and levalbuterol) had no statistically significant intra-individual QTcreg shortening effects, 10 drugs had no statistically significant prolonging effect, and 78 (87%) of the drugs had statistically significant intra-individual mean QTcreg lengthening effects, ranging from 7.6 ms for aripiprazole to 25.2 ms for amiodarone. Three drugs were associated with mean QTcreg prolongation of 20 ms or greater: amiodarone (antiarrhythmic), terfenadine (antihistaminic), and quinidine (antiarrhythmic); whereas 11 drugs were associated with mean QTcreg prolongation of 15 ms or greater but less than 20 ms: trimipramine (tricyclic antidepressant), clomipramine (tricyclic antidepressant), disopyramide (antiarrhythmic), chlorpromazine (antipsychotic), sotalol (beta blocker), itraconazole (antifungal), phenylpropanolamine (decongestant/anorectic), fenfluramine (appetite suppressant), midodrine (antihypotensive), digoxin (cardiac glycoside/antiarrhythmic), and procainamide (antiarrhythmic).RESULTSTwo drugs (nicardipine and levalbuterol) had no statistically significant intra-individual QTcreg shortening effects, 10 drugs had no statistically significant prolonging effect, and 78 (87%) of the drugs had statistically significant intra-individual mean QTcreg lengthening effects, ranging from 7.6 ms for aripiprazole to 25.2 ms for amiodarone. Three drugs were associated with mean QTcreg prolongation of 20 ms or greater: amiodarone (antiarrhythmic), terfenadine (antihistaminic), and quinidine (antiarrhythmic); whereas 11 drugs were associated with mean QTcreg prolongation of 15 ms or greater but less than 20 ms: trimipramine (tricyclic antidepressant), clomipramine (tricyclic antidepressant), disopyramide (antiarrhythmic), chlorpromazine (antipsychotic), sotalol (beta blocker), itraconazole (antifungal), phenylpropanolamine (decongestant/anorectic), fenfluramine (appetite suppressant), midodrine (antihypotensive), digoxin (cardiac glycoside/antiarrhythmic), and procainamide (antiarrhythmic).QT prolonging effects were common and varied in strength. Our results lend support to past Food and Drug Administration regulatory actions and support the role for ongoing surveillance of drug-induced QT prolongation.CONCLUSIONSQT prolonging effects were common and varied in strength. Our results lend support to past Food and Drug Administration regulatory actions and support the role for ongoing surveillance of drug-induced QT prolongation.
Purpose The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs known to have potential QT liability and QT prolongation or shortening. Methods By using a self-controlled crossover study with 59467 subjects, we ascertained intra-individual change in log-linear regression-corrected QT (QTcreg) during the period between 1995 and mid-2008 for 90 drugs while adjusting for age, gender, race/ethnicity, comorbid conditions, number of electrocardiograms (ECGs), and time between pre-ECG and post-ECG. The proportion of users of each drug-developing incident long QT was also estimated. Results Two drugs (nicardipine and levalbuterol) had no statistically significant intra-individual QTcreg shortening effects, 10 drugs had no statistically significant prolonging effect, and 78 (87%) of the drugs had statistically significant intra-individual mean QTcreg lengthening effects, ranging from 7.6ms for aripiprazole to 25.2ms for amiodarone. Three drugs were associated with mean QTcreg prolongation of 20ms or greater: amiodarone (antiarrhythmic), terfenadine (antihistaminic), and quinidine (antiarrhythmic); whereas 11 drugs were associated with mean QTcreg prolongation of 15ms or greater but less than 20ms: trimipramine (tricyclic antidepressant), clomipramine (tricyclic antidepressant), disopyramide (antiarrhythmic), chlorpromazine (antipsychotic), sotalol (beta blocker), itraconazole (antifungal), phenylpropanolamine (decongestant/anorectic), fenfluramine (appetite suppressant), midodrine (antihypotensive), digoxin (cardiac glycoside/antiarrhythmic), and procainamide (antiarrhythmic). Conclusions QT prolonging effects were common and varied in strength. Our results lend support to past Food and Drug Administration regulatory actions and support the role for ongoing surveillance of drug-induced QT prolongation. Copyright © 2013 John Wiley & Sons, Ltd. [PUBLICATION ABSTRACT]
ABSTRACT Purpose The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs known to have potential QT liability and QT prolongation or shortening. Methods By using a self‐controlled crossover study with 59 467 subjects, we ascertained intra‐individual change in log‐linear regression‐corrected QT (QTcreg) during the period between 1995 and mid‐2008 for 90 drugs while adjusting for age, gender, race/ethnicity, comorbid conditions, number of electrocardiograms (ECGs), and time between pre‐ECG and post‐ECG. The proportion of users of each drug‐developing incident long QT was also estimated. Results Two drugs (nicardipine and levalbuterol) had no statistically significant intra‐individual QTcreg shortening effects, 10 drugs had no statistically significant prolonging effect, and 78 (87%) of the drugs had statistically significant intra‐individual mean QTcreg lengthening effects, ranging from 7.6 ms for aripiprazole to 25.2 ms for amiodarone. Three drugs were associated with mean QTcreg prolongation of 20 ms or greater: amiodarone (antiarrhythmic), terfenadine (antihistaminic), and quinidine (antiarrhythmic); whereas 11 drugs were associated with mean QTcreg prolongation of 15 ms or greater but less than 20 ms: trimipramine (tricyclic antidepressant), clomipramine (tricyclic antidepressant), disopyramide (antiarrhythmic), chlorpromazine (antipsychotic), sotalol (beta blocker), itraconazole (antifungal), phenylpropanolamine (decongestant/anorectic), fenfluramine (appetite suppressant), midodrine (antihypotensive), digoxin (cardiac glycoside/antiarrhythmic), and procainamide (antiarrhythmic). Conclusions QT prolonging effects were common and varied in strength. Our results lend support to past Food and Drug Administration regulatory actions and support the role for ongoing surveillance of drug‐induced QT prolongation. Copyright © 2013 John Wiley & Sons, Ltd.
The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs known to have potential QT liability and QT prolongation or shortening. By using a self-controlled crossover study with 59 467 subjects, we ascertained intra-individual change in log-linear regression-corrected QT (QTcreg ) during the period between 1995 and mid-2008 for 90 drugs while adjusting for age, gender, race/ethnicity, comorbid conditions, number of electrocardiograms (ECGs), and time between pre-ECG and post-ECG. The proportion of users of each drug-developing incident long QT was also estimated. Two drugs (nicardipine and levalbuterol) had no statistically significant intra-individual QTcreg shortening effects, 10 drugs had no statistically significant prolonging effect, and 78 (87%) of the drugs had statistically significant intra-individual mean QTcreg lengthening effects, ranging from 7.6 ms for aripiprazole to 25.2 ms for amiodarone. Three drugs were associated with mean QTcreg prolongation of 20 ms or greater: amiodarone (antiarrhythmic), terfenadine (antihistaminic), and quinidine (antiarrhythmic); whereas 11 drugs were associated with mean QTcreg prolongation of 15 ms or greater but less than 20 ms: trimipramine (tricyclic antidepressant), clomipramine (tricyclic antidepressant), disopyramide (antiarrhythmic), chlorpromazine (antipsychotic), sotalol (beta blocker), itraconazole (antifungal), phenylpropanolamine (decongestant/anorectic), fenfluramine (appetite suppressant), midodrine (antihypotensive), digoxin (cardiac glycoside/antiarrhythmic), and procainamide (antiarrhythmic). QT prolonging effects were common and varied in strength. Our results lend support to past Food and Drug Administration regulatory actions and support the role for ongoing surveillance of drug-induced QT prolongation.
Author Lu, Meng
Zaroff, Jonathan G.
Peng, Jonathan A.
Round, Alfred D.
Prasad, Amit
Iribarren, Carlos
Stang, Paul
Holve, Taylor J.
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  organization: Division of Research, Kaiser Permanente Medical Care Program, CA, Oakland, USA
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  fullname: Stang, Paul
  organization: Janssen Research & Development, LLC, NJ, Titusville, USA
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Issue 11
Keywords Drug
Validation
QT interval
Arrhythmia
Toxicity
Treatment efficiency
Prolonged QT interval
Cardiovascular disease
Method
Pharmacovigilance
acquired long QT
Conduction disorder
Epidemiology
Crossover study
pharmacoepidemiology
Heart block
Heart disease
drug exposure
Public health
Language English
License http://onlinelibrary.wiley.com/termsAndConditions#vor
CC BY 4.0
Copyright © 2013 John Wiley & Sons, Ltd.
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PublicationDate November 2013
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  text: November 2013
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PublicationPlace Chichester
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PublicationTitle Pharmacoepidemiology and drug safety
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PublicationYear 2013
Publisher Blackwell Publishing Ltd
Wiley
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References Algra A, Tijssen JG, Roelandt JR, Pool J, Lubsen J. QT interval variables from 24 hour electrocardiography and the two year risk of sudden death. Br Heart J 1993; 70: 43-48.
Yap YG, Camm AJ. Arrhythmogenic mechanisms of non-sedating antihistamines. Clin Exp Allergy 1999; 29(Suppl 3): 174-181.
Hohnloser SH, Klingenheben T, Singh BN. Amiodarone-associated proarrhythmic effects: a review with special reference to torsade de pointes tachycardia. Ann Intern Med 1994; 121: 529-535.
Wysowski DK, Corken A, Gallo-Torres H, Talarico L, Rodriguez EM. Postmarketing reports of QT prolongation and ventricular arrhythmia in association with cisapride and Food and Drug Administration regulatory actions. Am J Gastroenterol 2001; 96: 1698-1703.
Lin JC, Quasny HA. QT prolongation and development of torsades de pointes with the concomitant administration of oral erythromycin base and quinidine. Pharmacotherapy 1997; 17: 626-630.
Moller M. QT interval in relation to ventricular arrhythmias and sudden cardiac death in postmyocardial infarction patients. Acta Med Scand 1981; 210: 73-77.
Souza R, Humbert M, Sztrymf B, et al. Pulmonary arterial hypertension associated with fenfluramine exposure: report of 109 cases. Eur Respir J 2008; 31: 343-348.
Farrington CP. Relative incidence estimation from case series for vaccine safety evaluation. Biometrics 1995; 51: 228-235.
NoorZurani MH, Vicknasingam B, Narayanan S. Itraconazole-induced torsade de pointes in a patient receiving methadone substitution therapy. Drug Alcohol Rev 2009; 28: 688-690.
Alter P, Tontsch D, Grimm W. Doxepin-induced torsade de pointes tachycardia. Ann Intern Med 2001; 135: 384-385.
Puddu PE, Bourassa MG. Prediction of sudden death from QTc interval prolongation in patients with chronic ischemic heart disease. J Electrocardiol 1986; 19: 203-211.
Freeman BD, Dixon DJ, Coopersmith CM, Zehnbauer BA, Buchman TG. Pharmacoepidemiology of QT-interval prolonging drug administration in critically ill patients. Pharmacoepidemiol Drug Saf 2008; 17: 971-981.
Kezerashvili A, Khattak H, Barsky A, Nazari R, Fisher JD. Azithromycin as a cause of QT-interval prolongation and torsade de pointes in the absence of other known precipitating factors. J Interv Card Electrophysiol 2007; 18: 243-246.
Lehnart SE, Ackerman MJ, Benson DW, Jr., et al. Inherited arrhythmias: a National Heart, Lung, and Blood Institute and Office of Rare Diseases workshop consensus report about the diagnosis, phenotyping, molecular mechanisms, and therapeutic approaches for primary cardiomyopathies of gene mutations affecting ion channel function. Circulation 2007; 116: 2325-2345.
Rosenbaum MB, Chiale PA, Halpern MS, et al. Clinical efficacy of amiodarone as an antiarrhythmic agent. Am J Cardiol 1976; 38: 934-944.
Pratt CM, Ruberg S, Morganroth J, et al. Dose-response relation between terfenadine (Seldane) and the QTc interval on the scalar electrocardiogram: distinguishing a drug effect from spontaneous variability. Am Heart J 1996; 131: 472-480.
Benton RE, Sale M, Flockhart DA, Woosley RL. Greater quinidine-induced QTc interval prolongation in women. Clin Pharmacol Ther 2000; 67: 413-418.
Vieweg WV, Wood MA. Tricyclic antidepressants, QT interval prolongation, and torsade de pointes. Psychosomatics 2004; 45: 371-377.
Little RC, Milliken GA, Stroup WW, Wolfinger RD, Schabenberger O. SAS for mixed models In. Cary, NC: SAS Institute Inc; 2006.
Reilly JG, Ayis SA, Ferrier IN, Jones SJ, Thomas SH. QTc-interval abnormalities and psychotropic drug therapy in psychiatric patients. Lancet 2000; 355: 1048-1052.
Crandell JM, Ware WA. Cardiac toxicity from phenylpropanolamine overdose in a dog. J Am Anim Hosp Assoc 2005; 41: 413-420.
Malik M, Farbom P, Batchvarov V, Hnatkova K, Camm AJ. Relation between QT and RR intervals is highly individual among healthy subjects: implications for heart rate correction of the QT interval. Heart 2002; 87: 220-228.
Reiter MJ, Higgins SL, Payne AG, Mann DE. Effects of quinidine versus procainamide on the QT interval. Am J Cardiol 1986; 58: 512-516.
Milic M, Bao X, Rizos D, Liu F, Ziegler MG. Literature review and pilot studies of the effect of QT correction formulas on reported beta2-agonist-induced QTc prolongation. Clin Ther 2006; 28: 582-590.
van Noord C, Straus SM, Sturkenboom MC, et al. Psychotropic drugs associated with corrected QT interval prolongation. J Clin Psychopharmacol 2009; 29: 9-15.
Cubeddu LX. Iatrogenic QT abnormalities and fatal arrhythmias: mechanisms and clinical significance. Curr Cardiol Rev 2009; 5: 166-176.
Aslanian R, Piwinski JJ, Zhu X, et al. Structural determinants for histamine H(1) affinity, hERG affinity and QTc prolongation in a series of terfenadine analogs. Bioorg Med Chem Lett 2009; 19: 5043-5047.
Anchersen K, Clausen T, Gossop M, Hansteen V, Waal H. Prevalence and clinical relevance of corrected QT interval prolongation during methadone and buprenorphine treatment: a mortality assessment study. Addiction 2009; 104: 993-999.
Aberg K, Adkins DE, Liu Y, et al. Genome-wide association study of antipsychotic-induced QTc interval prolongation. Pharmacogenomics J 2012; 12(2): 165-172.
Stiefel G, Besag FM. Cardiovascular effects of methylphenidate, amphetamines and atomoxetine in the treatment of attention-deficit hyperactivity disorder. Drug Saf 2010; 33: 821-842.
Connolly HM, Crary JL, McGoon MD, et al. Valvular heart disease associated with fenfluramine-phentermine. N Engl J Med 1997; 337: 581-588.
Rautaharju PM, Surawicz B, Gettes LS, et al. AHA/ACCF/HRS recommendations for the standardization and interpretation of the electrocardiogram: part IV: the ST segment, T and U waves, and the QT interval: a scientific statement from the American Heart Association Electrocardiography and Arrhythmias Committee, Council on Clinical Cardiology; the American College of Cardiology Foundation; and the Heart Rhythm Society: endorsed by the International Society for Computerized Electrocardiology. Circulation 2009; 119: e241-e250.
Mark EJ, Patalas ED, Chang HT, Evans RJ, Kessler SC. Fatal pulmonary hypertension associated with short-term use of fenfluramine and phentermine. N Engl J Med 1997; 337: 602-606.
Gussak I, Brugada P, Brugada J, et al. Idiopathic short QT interval: a new clinical syndrome? Cardiology 2000; 94: 99-102.
Baker B, Dorian P, Sandor P, et al. Electrocardiographic effects of fluoxetine and doxepin in patients with major depressive disorder. J Clin Psychopharmacol 1997; 17: 15-21.
Nakagawa M, Ooie T, Takahashi N, et al. Influence of menstrual cycle on QT interval dynamics. Pacing Clin Electrophysiol 2006; 29: 607-613.
Schwartz PJ, Wolf S. QT interval prolongation as predictor of sudden death in patients with myocardial infarction. Circulation 1978; 57: 1074-1077.
Woosley RL, Chen Y, Freiman JP, Gillis RA. Mechanism of the cardiotoxic actions of terfenadine. JAMA 1993; 269: 1532-1536.
Schimpf R, Wolpert C, Gaita F, Giustetto C, Borggrefe M. Short QT syndrome. Cardiovasc Res 2005; 67: 357-366.
Gaita F, Giustetto C, Bianchi F, et al. Short QT syndrome: a familial cause of sudden death. Circulation 2003; 108: 965-970.
Magnano AR, Holleran S, Ramakrishnan R, Reiffel JA, Bloomfield DM. Autonomic nervous system influences on QT interval in normal subjects. J Am Coll Cardiol 2002; 39: 1820-1826.
Florian JA, Tornoe CW, Brundage R, Parekh A, Garnett CE. Population pharmacokinetic and concentration-QTc models for moxifloxacin: pooled analysis of 20 thorough QT studies. J Clin Pharmacol 2011; 51(8): 1152-1162.
Molnar J, Zhang F, Weiss J, Ehlert FA, Rosenthal JE. Diurnal pattern of QTc interval: how long is prolonged? Possible relation to circadian triggers of cardiovascular events. J Am Coll Cardiol 1996; 27: 76-83.
Glassman AH, Bigger JT, Jr. Antipsychotic drugs: prolonged QTc interval, torsade de pointes, and sudden death. Am J Psychiatry 2001; 158: 1774-1782.
Kligfield P, Hancock EW, Helfenbein ED, et al. Relation of QT interval measurements to evolving automated algorithms from different manufacturers of electrocardiographs. Am J Cardiol 2006; 98: 88-92.
Karter AJ, Parker MM, Moffet HH, Ahmed AT, Schmittdiel JA, Selby JV. New prescription medication gaps: a comprehensive measure of adherence to new prescriptions. Health Serv Res 2009; 44: 1640-1661.
Fisher AA, Davis MW. Prolonged QT interval, syncope, and delirium with galantamine. Ann Pharmacother 2008; 42: 278-283.
Kernan WN, Viscoli CM, Brass LM, et al. Phenylpropanolamine and the risk of hemorrhagic stroke. N Engl J Med 2000; 343: 1826-1832.
Moriya M, Seto S, Yano K, Akahoshi M. Two cases of short QT interval. Pacing Clin Electrophysiol 2007; 30: 1522-1526.
Krieger N. Overcoming the absence of socioeconomic data in medical records: validation and application of a census-based methodology. Am J Public Health 1992; 82: 703-710.
Torres V, Tepper D, Flowers D, et al. QT prolongation and the antiarrhythmic efficacy of amiodarone. J Am Coll Cardiol 1986; 7: 142-147.
Holbrook M, Malik M, Shah RR, Valentin JP. Drug induced shortening of the QT/QTc interval: an emerging safety issue warranting further modelling and evaluation in drug research and development? J Pharmacol Toxicol Methods 2009; 59: 21-28.
Guarnieri T. Intravenous antiarrhythmic regimens with focus on amiodarone for prophylaxis of atrial fibrillation after open heart surgery. Am J Cardiol 1999; 84: 152R-155R.
Forssell G, Orinius E. QT prolongation and ventricular fibrillation in acute myocardial infarction. Acta Med Scand 1981; 210: 309-311.
Roden DM. Drug-induced prolongation of the QT interval. N Engl J Med 2004; 350: 1013-1022.
Miceli JJ, Tensfeldt TG, Shiovitz T, Anziano RJ, O'Gorman C, Harrigan RH. Effects of high-dose ziprasidone and haloperidol on the QTc interval after intramuscular administration: a randomized, single-blind, parallel-group study in patients with schizophrenia or schizoaffective disorder. Clin Ther 2010; 32: 472-491.
Taylor GJ, Crampton RS, Gibson RS, Stebbins PT, Waldman MT, Beller GA. Prolonged QT interval at onset of acute myocardial infarction in predicting early phase ventricular
2009; 44
1981; 102
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2009; 5
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2001; 158
2009; 104
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References_xml – reference: Malik M, Farbom P, Batchvarov V, Hnatkova K, Camm AJ. Relation between QT and RR intervals is highly individual among healthy subjects: implications for heart rate correction of the QT interval. Heart 2002; 87: 220-228.
– reference: Moriya M, Seto S, Yano K, Akahoshi M. Two cases of short QT interval. Pacing Clin Electrophysiol 2007; 30: 1522-1526.
– reference: Freeman BD, Dixon DJ, Coopersmith CM, Zehnbauer BA, Buchman TG. Pharmacoepidemiology of QT-interval prolonging drug administration in critically ill patients. Pharmacoepidemiol Drug Saf 2008; 17: 971-981.
– reference: Zemrak WR, Kenna GA. Association of antipsychotic and antidepressant drugs with Q-T interval prolongation. Am J Health Syst Pharm 2008; 65: 1029-1038.
– reference: Aslanian R, Piwinski JJ, Zhu X, et al. Structural determinants for histamine H(1) affinity, hERG affinity and QTc prolongation in a series of terfenadine analogs. Bioorg Med Chem Lett 2009; 19: 5043-5047.
– reference: Little RC, Milliken GA, Stroup WW, Wolfinger RD, Schabenberger O. SAS for mixed models In. Cary, NC: SAS Institute Inc; 2006.
– reference: Rufke C, Nieber K. [Long QT interval. Interaction of terfenadine and itraconazole]. Med Monatsschr Pharm 2006; 29: 22-24.
– reference: Woosley RL, Chen Y, Freiman JP, Gillis RA. Mechanism of the cardiotoxic actions of terfenadine. JAMA 1993; 269: 1532-1536.
– reference: Baker B, Dorian P, Sandor P, et al. Electrocardiographic effects of fluoxetine and doxepin in patients with major depressive disorder. J Clin Psychopharmacol 1997; 17: 15-21.
– reference: Molnar J, Zhang F, Weiss J, Ehlert FA, Rosenthal JE. Diurnal pattern of QTc interval: how long is prolonged? Possible relation to circadian triggers of cardiovascular events. J Am Coll Cardiol 1996; 27: 76-83.
– reference: Germanakis I, Galanakis E, Parthenakis F, Vardas PE, Kalmanti M. Clarithromycin treatment and QT prolongation in childhood. Acta Paediatr 2006; 95: 1694-1696.
– reference: Algra A, Tijssen JG, Roelandt JR, Pool J, Lubsen J. QT interval variables from 24 hour electrocardiography and the two year risk of sudden death. Br Heart J 1993; 70: 43-48.
– reference: NoorZurani MH, Vicknasingam B, Narayanan S. Itraconazole-induced torsade de pointes in a patient receiving methadone substitution therapy. Drug Alcohol Rev 2009; 28: 688-690.
– reference: Aberg K, Adkins DE, Liu Y, et al. Genome-wide association study of antipsychotic-induced QTc interval prolongation. Pharmacogenomics J 2012; 12(2): 165-172.
– reference: Shah RR. The significance of QT interval in drug development. Br J Clin Pharmacol 2002; 54: 188-202.
– reference: Kezerashvili A, Khattak H, Barsky A, Nazari R, Fisher JD. Azithromycin as a cause of QT-interval prolongation and torsade de pointes in the absence of other known precipitating factors. J Interv Card Electrophysiol 2007; 18: 243-246.
– reference: Perrin-Terrin A, Pathak A, Lapeyre-Mestre M. QT interval prolongation: prevalence, risk factors and pharmacovigilance data among methadone-treated patients in France. Fundam Clin Pharmacol 2011; 25(4): 503-510.
– reference: Nakagawa M, Ooie T, Takahashi N, et al. Influence of menstrual cycle on QT interval dynamics. Pacing Clin Electrophysiol 2006; 29: 607-613.
– reference: Alter P, Tontsch D, Grimm W. Doxepin-induced torsade de pointes tachycardia. Ann Intern Med 2001; 135: 384-385.
– reference: Krieger N. Overcoming the absence of socioeconomic data in medical records: validation and application of a census-based methodology. Am J Public Health 1992; 82: 703-710.
– reference: Magnano AR, Holleran S, Ramakrishnan R, Reiffel JA, Bloomfield DM. Autonomic nervous system influences on QT interval in normal subjects. J Am Coll Cardiol 2002; 39: 1820-1826.
– reference: Souza R, Humbert M, Sztrymf B, et al. Pulmonary arterial hypertension associated with fenfluramine exposure: report of 109 cases. Eur Respir J 2008; 31: 343-348.
– reference: Mark EJ, Patalas ED, Chang HT, Evans RJ, Kessler SC. Fatal pulmonary hypertension associated with short-term use of fenfluramine and phentermine. N Engl J Med 1997; 337: 602-606.
– reference: Schwartz PJ, Wolf S. QT interval prolongation as predictor of sudden death in patients with myocardial infarction. Circulation 1978; 57: 1074-1077.
– reference: Kernan WN, Viscoli CM, Brass LM, et al. Phenylpropanolamine and the risk of hemorrhagic stroke. N Engl J Med 2000; 343: 1826-1832.
– reference: Torres V, Tepper D, Flowers D, et al. QT prolongation and the antiarrhythmic efficacy of amiodarone. J Am Coll Cardiol 1986; 7: 142-147.
– reference: Milic M, Bao X, Rizos D, Liu F, Ziegler MG. Literature review and pilot studies of the effect of QT correction formulas on reported beta2-agonist-induced QTc prolongation. Clin Ther 2006; 28: 582-590.
– reference: van Haarst AD, van 't Klooster GA, van Gerven JM, et al. The influence of cisapride and clarithromycin on QT intervals in healthy volunteers. Clin Pharmacol Ther 1998; 64: 542-546.
– reference: Glassman AH, Bigger JT, Jr. Antipsychotic drugs: prolonged QTc interval, torsade de pointes, and sudden death. Am J Psychiatry 2001; 158: 1774-1782.
– reference: Moller M. QT interval in relation to ventricular arrhythmias and sudden cardiac death in postmyocardial infarction patients. Acta Med Scand 1981; 210: 73-77.
– reference: Puddu PE, Bourassa MG. Prediction of sudden death from QTc interval prolongation in patients with chronic ischemic heart disease. J Electrocardiol 1986; 19: 203-211.
– reference: Kligfield P, Hancock EW, Helfenbein ED, et al. Relation of QT interval measurements to evolving automated algorithms from different manufacturers of electrocardiographs. Am J Cardiol 2006; 98: 88-92.
– reference: Taylor GJ, Crampton RS, Gibson RS, Stebbins PT, Waldman MT, Beller GA. Prolonged QT interval at onset of acute myocardial infarction in predicting early phase ventricular tachycardia. Am Heart J 1981; 102: 16-24.
– reference: Vieweg WV, Wood MA. Tricyclic antidepressants, QT interval prolongation, and torsade de pointes. Psychosomatics 2004; 45: 371-377.
– reference: Indik JH, Pearson EC, Fried K, Woosley RL. Bazett and Fridericia QT correction formulas interfere with measurement of drug-induced changes in QT interval. Heart Rhythm 2006; 3: 1003-1008.
– reference: Florian JA, Tornoe CW, Brundage R, Parekh A, Garnett CE. Population pharmacokinetic and concentration-QTc models for moxifloxacin: pooled analysis of 20 thorough QT studies. J Clin Pharmacol 2011; 51(8): 1152-1162.
– reference: Pearson EC, Woosley RL. QT prolongation and torsades de pointes among methadone users: reports to the FDA spontaneous reporting system. Pharmacoepidemiol Drug Saf 2005; 14: 747-753.
– reference: Gussak I, Brugada P, Brugada J, et al. Idiopathic short QT interval: a new clinical syndrome? Cardiology 2000; 94: 99-102.
– reference: Rosenbaum MB, Chiale PA, Halpern MS, et al. Clinical efficacy of amiodarone as an antiarrhythmic agent. Am J Cardiol 1976; 38: 934-944.
– reference: Crandell JM, Ware WA. Cardiac toxicity from phenylpropanolamine overdose in a dog. J Am Anim Hosp Assoc 2005; 41: 413-420.
– reference: Cubeddu LX. Iatrogenic QT abnormalities and fatal arrhythmias: mechanisms and clinical significance. Curr Cardiol Rev 2009; 5: 166-176.
– reference: Yap YG, Camm AJ. Arrhythmogenic mechanisms of non-sedating antihistamines. Clin Exp Allergy 1999; 29(Suppl 3): 174-181.
– reference: Schimpf R, Wolpert C, Gaita F, Giustetto C, Borggrefe M. Short QT syndrome. Cardiovasc Res 2005; 67: 357-366.
– reference: Forssell G, Orinius E. QT prolongation and ventricular fibrillation in acute myocardial infarction. Acta Med Scand 1981; 210: 309-311.
– reference: Miceli JJ, Tensfeldt TG, Shiovitz T, Anziano RJ, O'Gorman C, Harrigan RH. Effects of high-dose ziprasidone and haloperidol on the QTc interval after intramuscular administration: a randomized, single-blind, parallel-group study in patients with schizophrenia or schizoaffective disorder. Clin Ther 2010; 32: 472-491.
– reference: Holbrook M, Malik M, Shah RR, Valentin JP. Drug induced shortening of the QT/QTc interval: an emerging safety issue warranting further modelling and evaluation in drug research and development? J Pharmacol Toxicol Methods 2009; 59: 21-28.
– reference: Roden DM. Drug-induced prolongation of the QT interval. N Engl J Med 2004; 350: 1013-1022.
– reference: Fisher AA, Davis MW. Prolonged QT interval, syncope, and delirium with galantamine. Ann Pharmacother 2008; 42: 278-283.
– reference: Stiefel G, Besag FM. Cardiovascular effects of methylphenidate, amphetamines and atomoxetine in the treatment of attention-deficit hyperactivity disorder. Drug Saf 2010; 33: 821-842.
– reference: Wysowski DK, Corken A, Gallo-Torres H, Talarico L, Rodriguez EM. Postmarketing reports of QT prolongation and ventricular arrhythmia in association with cisapride and Food and Drug Administration regulatory actions. Am J Gastroenterol 2001; 96: 1698-1703.
– reference: Hohnloser SH, Klingenheben T, Singh BN. Amiodarone-associated proarrhythmic effects: a review with special reference to torsade de pointes tachycardia. Ann Intern Med 1994; 121: 529-535.
– reference: Lin JC, Quasny HA. QT prolongation and development of torsades de pointes with the concomitant administration of oral erythromycin base and quinidine. Pharmacotherapy 1997; 17: 626-630.
– reference: Benton RE, Sale M, Flockhart DA, Woosley RL. Greater quinidine-induced QTc interval prolongation in women. Clin Pharmacol Ther 2000; 67: 413-418.
– reference: Rautaharju PM, Surawicz B, Gettes LS, et al. AHA/ACCF/HRS recommendations for the standardization and interpretation of the electrocardiogram: part IV: the ST segment, T and U waves, and the QT interval: a scientific statement from the American Heart Association Electrocardiography and Arrhythmias Committee, Council on Clinical Cardiology; the American College of Cardiology Foundation; and the Heart Rhythm Society: endorsed by the International Society for Computerized Electrocardiology. Circulation 2009; 119: e241-e250.
– reference: Reiter MJ, Higgins SL, Payne AG, Mann DE. Effects of quinidine versus procainamide on the QT interval. Am J Cardiol 1986; 58: 512-516.
– reference: Reilly JG, Ayis SA, Ferrier IN, Jones SJ, Thomas SH. QTc-interval abnormalities and psychotropic drug therapy in psychiatric patients. Lancet 2000; 355: 1048-1052.
– reference: Dahl CF, Allen MR, Urie PM, Hopkins PN. Valvular regurgitation and surgery associated with fenfluramine use: an analysis of 5743 individuals. BMC Med 2008; 6: 34.
– reference: Smalley W, Shatin D, Wysowski DK, et al. Contraindicated use of cisapride: impact of food and drug administration regulatory action. JAMA 2000; 284: 3036-3039.
– reference: Overall JE, Ahn C, Shivakumar C, Kalburgi Y. Problematic formulations of SAS PROC.MIXED models for repeated measurements. J Biopharm Stat 1999; 9: 189-216.
– reference: Gaita F, Giustetto C, Bianchi F, et al. Short QT syndrome: a familial cause of sudden death. Circulation 2003; 108: 965-970.
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Snippet ABSTRACT Purpose The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a...
The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list of drugs...
Purpose The purpose of this study was to ascertain, in the context of an integrated health care delivery system, the association between a comprehensive list...
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StartPage 1222
SubjectTerms acquired long QT
Adult
Aged
Biological and medical sciences
Cardiac arrhythmia
Clinical trial. Drug monitoring
Cohort Studies
Cross-Over Studies
Databases, Factual - statistics & numerical data
Delivery of Health Care, Integrated
drug exposure
Drug toxicity and drugs side effects treatment
Drug-Related Side Effects and Adverse Reactions - epidemiology
Electrocardiography
Female
General pharmacology
Humans
Linear Models
Long QT Syndrome - chemically induced
Long QT Syndrome - epidemiology
Male
Medical sciences
Middle Aged
pharmacoepidemiology
Pharmacology
Pharmacology. Drug treatments
Prescription drugs
QT interval
Side effects
Toxicity: cardiovascular system
Title Validation of a population-based method to assess drug-induced alterations in the QT interval: a self-controlled crossover study
URI https://api.istex.fr/ark:/67375/WNG-G4BQRVN4-R/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fpds.3479
https://www.ncbi.nlm.nih.gov/pubmed/23857878
https://www.proquest.com/docview/1443380044
https://www.proquest.com/docview/1465865092
Volume 22
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