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Interventions to decrease the risk of adverse cardiac events for patients receiving chemotherapy and serotonin (5-HT3) receptor antagonists: a systematic review
BMC Pharmacology and Toxicology volume 16, Article number: 1 (2015)
Abstract
Background
Patients may experience nausea and vomiting when undergoing chemotherapy or surgery requiring anesthesia. Serotonin 5-hydroxytryptamine 3 (5-HT3) receptor antagonists are effective antiemetics, yet may cause adverse cardiac events, such as arrhythmia. We aimed to identify interventions that mitigate the cardiac risk of 5-HT3 receptor antagonists.
Methods
Electronic databases, trial registries, and references were searched. Studies on patients undergoing chemotherapy or surgery examining interventions to monitor cardiac risk of 5-HT3 receptor antagonists were included. Search results were screened and data from relevant studies were abstracted in duplicate. Risk of bias of included studies was assessed using the Cochrane Effective Practice and Organisation of Care (EPOC) group’s risk-of-bias tool. Due to a dearth of included studies, meta-analysis was not conducted.
Results
Two randomized clinical trials (RCT) and 1 non-randomized clinical trial (NRCT) were included after screening 7,637 titles and abstracts and 1,554 full-text articles. Intravenous administration of different dolasetron doses was examined in the NRCT, while dolasetron versus ondansetron and palonosetron versus ondansetron were examined in the RCT. Electrocardiogram (ECG) was the only intervention examined to mitigate cardiac harm. No differences in ECG evaluations were observed between dolasetron or palonosetron versus ondansetron after 15 minutes, 24 hours, and 1 week post-administration in the 2 RCTs. Four deaths were observed in one RCT, which were deemed unrelated to palonosetron or ondansetron administration. Minor increases in PR and QT intervals were observed in the NRCT for dolasetron dosages greater than 1.2 mg/kg 1–2 hours post-administration, but were deemed not clinically relevant.
Conclusions
ECG monitoring of chemotherapy patients administered with 5-HT3 receptor antagonists did not reveal clinically significant differences in arrhythmia between the medications at the examined time periods. The usefulness of ECG to monitor chemotherapy patients administered with 5-HT3 receptor antagonists remains unclear, as all patients received ECG monitoring.
Trial registration
PROSPERO registry number: CRD42013003565
Background
Nausea and vomiting are common adverse effects following chemotherapy or surgery requiring anesthesia [1, 2]. Serotonin 5-hydroxytryptamine 3 (5-HT3) receptor antagonists can effectively prevent nausea and vomiting for patients undergoing these interventions [1, 3–5]. However, a prolonged QT interval has been observed in previous studies of these medications [6, 7]. The results of these studies suggest that patients who are administered 5-HT3 receptor antagonists might be at risk of experiencing cardiac harm, yet this has not been confirmed in large-scale studies or systematic reviews.
Diagnostic tests can be used to monitor or mitigate cardiac risk that might be associated with 5-HT3 receptor antagonist administration. For example, electrocardiogram (ECG) provides information on PR and QT prolongation, which may lead to arrhythmia (e.g., torsade de pointes tachycardia) [8], all-cause mortality [9], and sudden death [10]. Cardiac telemetry monitors provide continuous ECG monitoring for 24 hours or longer [11]. Electrolyte imbalances, such as hypocalcemia, hypomagnesemia and hypokalemia can result from persistent vomiting and these abnormalities can cause QT interval prolongation [12]. As such, monitoring might be necessary in patients receiving 5-HT3 antagonists and who are vomiting. However, these diagnostic tests are burdensome to the healthcare system and patients. We aimed to determine whether diagnostic interventions can be implemented to mitigate the risk of adverse cardiac events associated with 5-HT3 receptor antagonists for patients undergoing chemotherapy or surgery through a systematic review.
Methods
We used the Preferred Reporting Items for Systematic Reviews and Meta-analysis (PRISMA) Statement to report the results of our systematic review [13].
Protocol
We developed a protocol that was reviewed by clinicians, systematic review methodologists, pharmacoepidemiologists, and Health Canada. We registered our protocol with the PROSPERO database (CRD42013003565) and published the final version [14].
Eligibility criteria
Studies were included if they examined interventions to monitor cardiac risk associated with 5-HT3 receptor antagonists, such as ECG monitoring, telemetry, adjustment of antiarrhythmics, and electrolyte monitoring and replacement. Studies including patients of all ages receiving 5-HT3 antagonist receptors for nausea and vomiting symptoms post-surgery or after chemotherapy and reporting on arrhythmia (primary outcome), sudden cardiac death, QT prolongation, PR prolongation, and/or all-cause mortality were eligible for inclusion. Experimental studies (randomized clinical trials, quasi-randomized clinical trials, non-randomized clinical trials), quasi-experimental studies (interrupted time series, controlled before and after studies), and cohort studies were included regardless of whether they were unpublished or written in languages other than English.
Information sources and literature search
MEDLINE, EMBASE, and Cochrane Central were searched from inception onwards. The electronic literature search was supplemented by searching trial registers and scanning the reference lists of included studies.
An experienced librarian drafted the search strategies, which were peer reviewed by another expert librarian using the Peer Review of Electronic Search Strategies (PRESS) checklist [15]. The final literature search for MEDLINE has been published previously [14] and is available in the Additional file 1. Literature searches for the other databases can be obtained from the corrsponding author upon request.
Study selection process
The eligibility criteria were calibrated on a random sample of 50 titles and abstracts from the literature search. They were revised to enhance clarity and readability by the team. Subsequently, each title and abstract was screened by two team members, independently. Conflicts were resolved by team discussion. The same process was followed for screening the potentially relevant full-text articles.
Data items and data collection process
Following a similar process to screening, two team members independently abstracted data on study characteristics (e.g., setting, country where the study was conducted, details on the 5-HT3 medications, comparator used, and type of test conducted to assess cardiac risk), patient characteristics (e.g., mean/median age, percent female, type of surgery, type of cancer), and outcome results (e.g., number of patients experiencing arrhythmia, mean and standard deviation for PR prolongation). Companion reports (i.e., duplicate publications reporting the data on the same group of patients) were sorted and authors were contacted for data clarifications.
Methodological quality/risk of bias appraisal
Studies were appraised using the Cochrane Effective Practice and Organisation of Care Risk of Bias Tool [16] and the McHarm tool for reporting adverse events [17].
Synthesis of included studies
We were unable to conduct meta-analysis because none of the studies examined interventions to mitigate harm at the same time point. Furthermore, none of the studies compared an intervention to mitigate harm with a control group. As such, the studies were synthesized descriptively, with a focus on the study characteristics, patient characteristics, and outcome results.
Results
Literature search
Two randomized clinical trials and 1 non-randomized clinical trial [18–20] were included after screening 7,637 titles and abstracts and 1,554 full-text articles (Figure 1).
Study flow.
Study and patient characteristics
The study conduct period was 2000 and 2002 in the randomized clinical trials [19, 20] and not reported in the non-randomized clinical trial [18] that was published in 1996 (Table 1). The trials were conducted in the United States [18], multiple European countries [19], and South Korea [20]. One trial examined intravenous dolasetron at 1.2, 1.8, and 2.4 mg/kg administered 30 minutes prior to chemotherapy [18] and another examined intravenous palonosetron 0.25 to 0.75 mg compared to ondansetron 32 mg administered 30 minutes prior to chemotherapy [19]. The third trial examined the effects of intravenous dolasetron 100 mg administered 30 minutes prior to chemotherapy and up to 200 mg orally 2 to 5 days post-chemotherapy compared with another group who received 8 mg of intravenous ondansetron 30 minutes prior to chemotherapy and up to 16 mg intravenously 2–4 hours post-chemotherapy plus an additional 16 mg orally 2–5 days after chemotherapy.
The only intervention identified to mitigate cardiac risk that was examined in the trials was an ECG at various time points. ECG monitoring was not compared with placebo, usual care or another type of diagnostic intervention. The percentage of females included in the trials ranged from 37 to 72% (Table 2). All trials included adult cancer patients with a median (or mean) age ranging from 54 to 56 years. All were receiving a 5-HT3 receptor antagonist for their chemotherapy treatment for various cancer sites. Patients were receiving a variety of chemotherapeutic agents.
Risk of bias assessment
All of the included trials received the same intervention (ECG monitoring) without a comparator group and were assessed for risk of bias (Table 3). The non-randomized clinical trial had the highest risk of bias, with four items assessed as having a high risk of bias [18]. One of the randomized trials had a high risk of bias for allocation concealment and blinding and an unclear risk of bias for random sequence generation and contamination [20]. The other randomized trial had an unclear risk of bias for random sequence generation, contamination, and selective outcome reporting [19]. All of the other risk of bias criteria was assessed as unclear.
Arrhythmia
None of the included trials reported data on arrhythmia, our primary outcome of interest. However, all three trials reported no clinically relevant differences in ECG findings among the patients receiving the 5-HT3 receptor antagonists examined.
Sudden cardiac death and all-cause mortality
Mortality was reported in one of the trials [19]. One withdrawal due to a serious adverse event (pulmonary embolism resulting in death) occurred in the ondansetron group and three other deaths occurred, yet the number of deaths per treatment group was not reported. All deaths were deemed as unlikely or definitely unrelated to the study medications [19]. Although mortality was not specifically reported, no patients dropped out due to mortality in the other two trials [18, 20].
QT prolongation
One trial reported no differences between treatment groups in the mean post-dose change from baseline in the QT interval, which was adjusted using the Fridericia correction [19]. The values were 1 ms for palonosetron 0.25 mg, 2 ms for palonosetron 0.75 mg, and 5 ms for ondansetron. Another trial reported median increases in the corrected QT interval as being 11 ms for dolasetron 1.2 mg/kg, 27 ms for dolasetron 1.8 mg/kg, and 39 ms for dolasetron 2.4 mg/kg [18]. These were considered asymptomatic and not clinically significant. The third trial did not specifically report on this outcome but reported no relevant differences between the treatment groups with respect to ECG findings [20] (Table 4).
PR prolongation
One trial reported median increases in the PR interval as being 1 ms for dolasetron 1.2 mg/kg, 10 ms for dolasetron 1.8 mg/kg, and 22 ms for dolasetron 2.4 mg/kg [18]. A significant dose–response relationship was found between dolasetron and the PR interval at 1–2 hours post-administration. These changes were considered asymptomatic and not clinically significant. The other trials did not specifically report on this outcome but reported no relevant differences between the treatment groups with respect to ECG findings [19, 20] (Table 4).
Discussion
In our systematic review, we did not find any clinically relevant changes in the QT interval between different dosages of dolasetron [18] or between palonosetron and ondansetron [19] or dolasetron and ondansetron [20]. Furthermore, we did not find any other significant differences in other ECG changes between these 5-HT3 receptor antagonists at 15 minutes, 1–2 hours, 24 hours, and 1 week post-administration. However, this does not suggest that these agents do not cause cardiac harm. For example, two case series have noted a prolonged QT interval after the administration of 5-HT3 receptor antagonists [6, 7]. Both articles were excluded here because they were case series and therefore there was not a comparison group and they did not examine interventions to mitigate the cardiac risk associated with these agents.
We had originally hoped to identify studies in which all patients received a 5-HT3 receptor antagonist and compared an intervention to mitigate cardiac harm (e.g., ECG monitoring) with placebo, usual care or another diagnostic intervention. As we did not identify any such study, the utility of the ECG to monitor adult chemotherapy patients after being administered a 5-HT3 receptor antagonist is currently unclear. Further research is required to recommend ECG monitoring for all adult chemotherapy patients administered a 5-HT3 receptor antagonist, as this would be burdensome to the healthcare system and to patients.
We identified many gaps in the literature in this area. For example, we did not identify studies that tested monitoring cardiac function after the administration of these agents other than the ECG. Similarly, we did not identify studies conducted among children receiving chemotherapy or patients of any age undergoing surgery requiring anesthesia and none of the included studies reported the proportion of patients with prolonged QT or PR intervals. Although unpublished studies were sought, none were identified that examined this research question.
As expected, the non-randomized clinical trial had the greatest risk of bias [18], as random sequence generation, allocation concealment, and blinding was not conducted. The two randomized clinical trials would be improved by adequately reporting random sequence generation, reporting whether contamination was a factor, and providing a protocol so that the potential for outcome reporting bias could be assessed [19, 20]. Limitations of our systematic review process include the few studies identified for inclusion. As well, our objective was to compare interventions to mitigate cardiac risk across intervention and comparator groups versus examine cardiac risk after the administration of these agents. As such, we excluded case series, case reports, and cross-sectional studies. We were unable to conduct meta-analysis or assess for publication bias because of the few studies included here.
Conclusions
The utility of the ECG monitoring to mitigate cardiac harm among chemotherapy patients after being administered a 5-HT3 receptor antagonist is unclear; few studies exist that met our eligibility criteria. Future research is necessary to determine whether ECG (or other diagnostic interventions) are beneficial and whether these interventions should be used to monitor other patient populations, including children undergoing chemotherapy and patients of all ages receiving surgery requiring anesthesia.
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Acknowledgments
This systematic review was funded by the Canadian Institutes for Health Research/Drug Safety and Effectiveness Network (CIHR/DSEN). ACT and BH are funded by CIHR/DSEN New Investigator Awards in Knowledge Synthesis. DM is funded by a University of Ottawa Research Chair. SES is funded by a Tier 1 Canada Research Chair in Knowledge Translation.
We thank Laure Perrier for conducting the literature searches and obtaining full-text articles; Erik Blondal for obtaining full-text articles/data abstraction; and Afshin Vafaei, Lisa Strifler, John Ivory, Huda Ashoor, Dr. Paul Khan, Heather McDonald, Emily Reynen, Dr. Roberta Cardoso, Reid Robson, Vera Nincic, Dr. Joanne Ho, Carmen Ng, Christy Johnson, Erin Lillie, Dr. Derek Roberts, and Kelly Mrklas for their assistance with data abstraction/screening for the main project that this review was a part of. We also thank Ana Guzman for formatting our paper.
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The authors declare that they have no competing interests.
Authors’ contributions
ACT conceived the study, designed the study, helped obtain funding for the study, generated the tables, interpreted the results, and wrote the manuscript. CS coordinated the study, screened citations for inclusion, abstracted data, and edited the manuscript. WH and VS abstracted data and edited the manuscript. JA helped coordinate the study, screened citations for inclusion, and edited the manuscript. BH, BH, and DM helped conceive the study, interpreted the results, and edited the manuscript. SES conceived the study, designed the study, obtained the funding, interpreted the results, and helped write the manuscript. All authors read and approved the final paper.
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Tricco, A.C., Soobiah, C., Hui, W. et al. Interventions to decrease the risk of adverse cardiac events for patients receiving chemotherapy and serotonin (5-HT3) receptor antagonists: a systematic review. BMC Pharmacol Toxicol 16, 1 (2015). https://doi.org/10.1186/2050-6511-16-1
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DOI: https://doi.org/10.1186/2050-6511-16-1