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Antipsychotics and sudden death: Is thioridazine the only bad actor?

Published online by Cambridge University Press:  02 January 2018

Wayne A. Ray*
Affiliation:
Division of Pharmacoepidemiology, Department of Preventive Medicine, Geriatric Research, Education and Clinical Center, Nashville Veteran's Administration Medical Center (VAMC), Nashville, Tennessee
Keith G. Meador
Affiliation:
Department of Psychiatry and Behavioral Sciences, Duke University Medical Center and Durham VAM, Durham, North Carolina, USA
*
Dr Wayne A. Ray, Department of Preventive Medicine, Medical Center North, A-1124, Vanderbilt University Medical Center, Nashville, TN 37232, USA
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Extract

For at least the past 30 years it has been known that people with schizophrenia have higher death rates, particularly from cardiovascular causes, than would be expected on the basis of demographics (Allebeck & Wistedt, 1986; Mortensen & Juel, 1990; Newman & Bland, 1991; Walker et al, 1997). Initially, suspicion focused upon lifestyle factors, such as ubiquitous smoking and poor self-care, and perhaps upon a direct effect of the disease. However, some of the suspicion began to shift to the drugs used to treat the disease, fuelled both by the accumulation of case reports among antipsychotic users of serious ventricular arrhythmias and sudden unexpected deaths (Liberatore & Robinson, 1984; Kriwisky et al, 1990; Mehtonen et al, 1991; Donatini et al, 1992; Thomas, 1994; Jackson et al, 1997; Ravin & Levenson, 1997; Zarate et al, 1997; Dickinson, 2000), as well as advancing understanding of the electrophysiological properties of these drugs (Thomas, 1994; Suessbrich et al, 1997; Drici et al, 1998; Rampe et al, 1998; Shader & Greenblatt, 1998; Studenik et al, 1998; Reilly et al, 2000).

Type
Editorials
Copyright
Copyright © 2002 The Royal College of Psychiatrists 

For at least the past 30 years it has been known that people with schizophrenia have higher death rates, particularly from cardiovascular causes, than would be expected on the basis of demographics (Reference Allebeck and WistedtAllebeck & Wistedt, 1986; Reference Mortensen and JuelMortensen & Juel, 1990; Reference Newman and BlandNewman & Bland, 1991; Reference Walker, Lanza and ArellanoWalker et al, 1997). Initially, suspicion focused upon lifestyle factors, such as ubiquitous smoking and poor self-care, and perhaps upon a direct effect of the disease. However, some of the suspicion began to shift to the drugs used to treat the disease, fuelled both by the accumulation of case reports among antipsychotic users of serious ventricular arrhythmias and sudden unexpected deaths (Reference Liberatore and RobinsonLiberatore & Robinson, 1984; Reference Kriwisky, Perry and TarchitskyKriwisky et al, 1990; Reference Mehtonen, Aranko and MalkonenMehtonen et al, 1991; Reference Donatini, LeBlaye and KruppDonatini et al, 1992; Reference ThomasThomas, 1994; Reference Jackson, Ditmanson and PhibbsJackson et al, 1997; Reference Ravin and LevensonRavin & Levenson, 1997; Reference Zarate, Baldessarini and SiegelZarate et al, 1997; Reference DickinsonDickinson, 2000), as well as advancing understanding of the electrophysiological properties of these drugs (Reference ThomasThomas, 1994; Reference Suessbrich, Schonherr and HeinemannSuessbrich et al, 1997; Reference Drici, Wang and LiuDrici et al, 1998; Reference Rampe, Murawsky and GrauRampe et al, 1998; Reference Shader and GreenblattShader & Greenblatt, 1998; Reference Studenik, Lemmens-Gruber and HeistracherStudenik et al, 1998; Reference Reilly, Ayis and FerrierReilly et al, 2000).

THIORIDAZINE AND SUDDEN DEATH

Some of the evidence suggested that thioridazine, at one time one of the most commonly used medications for major mental disorders, might pose particularly elevated risk. Thioridazine has pronounced effects on K+ channels and materially prolongs the QTc interval (Reference ThomasThomas, 1994; Reference Reilly, Ayis and FerrierReilly et al, 2000), effects that in other medications have reliably been associated with increased risk of torsades de pointes. Numerous case reports also linked this agent with increased risk of sudden unexpected deaths (Reference Liberatore and RobinsonLiberatore & Robinson, 1984; Reference Donatini, LeBlaye and KruppDonatini et al, 1992). These data have led regulatory authorities to change the labelling of thioridazine to discourage use of this agent unless other antipsychotics are not efficacious (Reference ZarateZarate, 2001).

In the present issue of the Journal, the findings of a comprehensive and careful investigation appear to support this view (Reference Reilly, Ayis and FerrierReilly et al, 2002). In a review of all deaths occurring in 5 in-patient facilities over a 12-year period, 69 probable sudden unexplained deaths were identified and matched with appropriate controls. Using the criterion of statistical significance (P <0.05), only thioridazine was linked with an increased risk of sudden death.

This finding would be particularly convenient for those who treat patients with schizophrenia and other major mental disorders, for which antipsychotics are the therapeutic mainstay. With the availability of several atypical antipsychotics, there is now very limited justification — based upon efficacy and side-effects — for the use of thioridazine. Although older agents will occasionally be used, these will primarily be for patients who do not respond to the atypical antipsychotics or for whom depot preparations are required.

OTHER ANTIPSYCHOTICS

Unfortunately, several lines of evidence suggest that the story is not so neat. The literature suggests that all currently available antipsychotics have electrophysiological properties that should increase the risk of sudden cardiac death (Reference ZarateZarate, 2001). There are case reports of torsade de pointes and sudden deaths for most of these. Indeed, clusters of sudden deaths have kept some promising novel agents off the market and have delayed the licensing of others (Reference ZarateZarate, 2001). Some epidemiological studies now provide evidence that several of the typical antipsychotics increase the risk of sudden cardiac death (Reference Ray, Meredith and ThapaRay et al, 2001). The present study, an impressive achievement, nevertheless did not have sufficient power to demonstrate in a head-to-head comparison that thioridazine was associated with greater risk than the other specific drugs: the upper bounds of the 95% confidence intervals for these were all above 4. Furthermore, because of the time period of the study, the investigators could not study the effects of the atypical agents.

CLINICAL IMPLICATIONS

Thus, until there is substantially more evidence, it would be prudent to assume that all available antipsychotics have the potential to increase the risk of serious ventricular arrhythmias and thus sudden cardiac death. Further work is urgently needed to better define the absolute risk — a better guide to clinical decision-making than odds ratios or relative risk (Reference Sackett, Haynes and TugwellSackett et al, 1991), particularly for the atypical agents which are now widely used. Although defining this risk more accurately would not lead to withholding the substantial benefits of antipsychotics from patients with major mental illness, it may lead to more appropriate use of these agents in patients for whom the use of antipsychotics provides marginal benefits or who already have cardiovascular disease.

Acknowledgements

This work was supported in part by a cooperative agreement between the Agency for Healthcare Research and Quality and the Centers for Education and Research in Therapeutics (grant no. HSI-0384).

Footnotes

See pp. 515–522, this issue.

DECLARATION OF INTEREST

None.

References

Allebeck, P. & Wistedt, B. (1986) Mortality in schizophrenia. A ten-year follow-up based on the Stockholm County inpatient register. Archives of General Psychiatry, 43, 50653.Google Scholar
Dickinson, J. G. (2000) FDA wants label change for Novartis NDA. Medical Marketing and Media, 35, 34.Google Scholar
Donatini, B., LeBlaye, I. & Krupp, P. (1992) Transient cardiac pacingis insufficiently used totreat arrhythmia associated with thioridazine. Cardiology, 81, 340341.Google Scholar
Drici, M. D., Wang, W. Z., Liu, X., et al (1998) Prolongation of QT interval in isolated feline hearts by antipsychotic drugs. Journal of Clinical Psychopharmacology 18, 477481.Google Scholar
Jackson, T., Ditmanson, L. & Phibbs, B. (1997) Torsade de Pointes and low-dose oral haloperidol. Archives of Internal Medicine, 157, 20132015.Google Scholar
Kriwisky, M., Perry, G. Y., Tarchitsky, D., et al (1990) Haloperidol-induced Torsades de Pointes. Chest, 98, 482484.Google Scholar
Liberatore, M. A. & Robinson, D. S. (1984) Torsade de Pointes: a mechanism for sudden death associated with neuroleptic drug therapy? Journal of Clinical Psychopharmacology, 4, 143146.CrossRefGoogle ScholarPubMed
Mehtonen, O. P., Aranko, K., Malkonen, L., et al (1991) A survey of sudden death associated with the use of antipsychotic or antidepressant drugs: 49 cases in Finland. Acta Psychiatrica Scandinavica, 84, 5864.Google Scholar
Mortensen, P. B. & Juel, K. (1990) Mortality and causes of death in schizophrenic patients in Denmark. Acta Psychiatrica Scandinavica, 81, 372377.Google Scholar
Newman, S. C. & Bland, R. C. (1991) Mortality in a cohort of patients with schizophrenia: a record linkage study. Canadian Journal of Psychiatry, 36, 239245.Google Scholar
Rampe, D., Murawsky, M. K., Grau, J., et al (1998) The antipsychotic agent sertindole is ahigh affinity antagonist ofthe human cardiac potassium channel HERG. Journal of Pharmacology and Experimental Therapeutics, 286, 788793.Google Scholar
Ravin, D. S. & Levenson, J. W. (1997) Fatal cardiac event following initiation of risperidone therapy. Annals of Pharmacotherapy, 31, 867870.Google Scholar
Ray, W. A., Meredith, S., Thapa, P. B., et al (2001) Antipsychotics and the risk of sudden cardiac death. Archives of General Psychiatry, 58, 11611167.Google Scholar
Reilly, J. G., Ayis, S. A., Ferrier, I. N., et al (2000) QTc-interval abnormalities and psychotropic drug therapy in psychiatric patients. Lancet, 355, 10481052.Google Scholar
Reilly, J. G., Ayis, S. A., Ferrier, I. N., et al (2002) Thioridazine and sudden unexplained death in psychiatric in-patients. British Journal of Psychiatry, 180, 515522.Google Scholar
Sackett, D. L., Haynes, R. B. & Tugwell, P. (1991) Clinical Epidemiology: A Basic Science for Clinical Medicine. Boston: Little, Brown and Company.Google Scholar
Shader, R. I. & Greenblatt, D. J. (1998) Potassium, antipsychotic agents, arrhythmias, and sudden death. Journal of Clinical Psychopharmacology, 18, 427428.Google Scholar
Studenik, C., Lemmens-Gruber, R. & Heistracher, P. (1998) Proarrhythmic effects of antidepressants and neuroleptic drugs on isolated, spontaneously beating guinea-pig Purkinje fibers. European Journal of Pharmacological Sciences, 7, 113118.Google Scholar
Suessbrich, H., Schonherr, R., Heinemann, S. H., et al (1997) The inhibitory effect of the antipsychotic drug haloperidol on HERG potassium channels expressed in Xenopus oocytes. British Journal of Pharmacology, 120, 968974.Google Scholar
Thomas, S. H. L. (1994) Drugs, QT interval abnormalities and ventricular arrhythmias. Adverse Drug Reactions and Toxicological Reviews, 13, 77102.Google Scholar
Walker, A. M., Lanza, L. L., Arellano, F., et al (1997) Mortality in current and former users of clozapine. Epidemiology, 8, 671677.Google Scholar
Zarate, C. A. (2001) Sudden cardiac death and antipsychotic drugs. Archives of General Psychiatry, 58, 11681171.Google Scholar
Zarate, C. A., Baldessarini, R. J., Siegel, A. J., et al (1997) Risperidone in the elderly: apharmacoepidemiologic study. Journal of Clinical Psychiatry, 58, 311317.Google Scholar
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