Abstract
Background:
The rate-corrected QT interval (QTc) prolongation is a risk factor for sudden cardiac death and may be induced by antipsychotic drugs.
Objective:
To determine the clinical characteristics associated with QTc prolongation (440 msec or greater) in children and adolescents hospitalized for treatment of psychiatric disorders.
Method:
We determined the frequency of baseline prolongation of QTc in 811 psychiatric pediatric inpatients (15.5 ± 2.4 years of age). QTc duration was 440 msec or greater (range 441–481 msec) in 16 patients (1.97%). In a 1:5 nested case–control design, the 16 patients with prolonged QTc were age- and gender-matched with 80 patients with QTc of <421 msec.
Results:
Patients with normal and prolonged QTc had similar utilization of antipsychotics (43.8% vs. 40.8%) and daily chlorpromazine equivalents (165 ± 110 vs. 168 ± 218 mg). Hypokalemia (p = 0.009) and obesity (p = 0.032) were more common among patients with prolonged QTc. The correlation between obesity and QTc prolongation was confirmed in logistic regression analysis.
Conclusions:
In a large cohort of youth hospitalized for treatment of psychiatric disorders, a prolonged QTc on admission was rare and correlated with the presence of obesity, but not with current use of antipsychotic drugs.
Introduction
The benefit of electrocardiographic screening for QTc prolongation in pediatric populations requiring antipsychotics is not known. In this study we evaluated a cohort of pediatric psychiatric inpatients to determine the prevalence of QTc prolongation and to investigate associations between QTc duration and the utilization of antipsychotics.
Methods
Data for this study were collected from the records of 826 individual patients aged 7–18 years who were consecutively evaluated in the admissions unit and hospitalized over a 10-year period (2000–2009) to a single 230-bed acute care psychiatric hospital. The hospital policy requires a 12-lead electrocardiogram (ECG) on the day of admission. All ECGs were recorded at the same paper speed (25 mm/sec) with the same type of instrument (ELI 1200; Mortara Instruments, Milwaukee, WI). The study was approved by the Institutional Review Board of the North Shore-Long Island Jewish Health System, Manhasset, NY.
We identified for each patient the earliest available ECG. Two medical consultants with extensive clinical and research experience in ECG interpretation measured the QT interval and calculated the QTc according to the Bazett's formula (Haddad and Anderson 2002). These physicians were provided numerically coded ECG's and had no access to demographic or clinical data. The QT was measured from the onset of QRS complex to the end of the T wave at the junction of the T-P line in at least three different leads of 12-lead ECGs recorded at a speed of 25 mm/sec. Tracings for 11 patients were not suitable for accurate interpretation and were excluded from the sample. During the period of clinical observation, none of these patients had evidence of symptomatic arrhythmias and none died suddenly.
The QTc was considered prolonged if >440 msec, regardless of gender, as recommended in the cardiology and pharmacological literature (Moss 1993; Haddad and Anderson 2002) and used in studies of children treated with tricyclic antidepressants (Wilens et al. 1996) and ziprasidone (Blair et al. 2005). This unisex threshold is at variance with findings from a community-based representative North American population that demonstrated a drop of 20 msec in QTc duration in adolescent males after puberty (Rautarhaju et al. 1992), but was used by us to allow comparisons with previous studies. In a nested case–control design, each patient with prolonged QTc was matched for sex and age, with five patients selected at random from among the 680 cases whose QTc was <420 msec.
The psychiatric (diagnoses, antipsychotic drug treatment, chlorpromazine equivalent of atypical and/or typical antipsychotic, and other psychotropic medications), anthropometric (body mass index), and biochemical (serum potassium) characteristics of patients with prolonged QTc were compared with those of the nested control subjects. The chlorpromazine equivalent of antipsychotics was calculated as 100 mg chlorpromazine equal 2 mg of risperidone, 5 mg of olanzapine, 75 mg of quetiapine, 60 mg of ziprasidone, 7.5 mg of aripiprazole (5), 2 mg of haloperidol, and 10 mg of molindone (Haase 1983; Woods 2003). Analyses of variance, chi-square test, and Fischer's Exact test determined the significance of univariate differences, with alpha set at <0.05. Variables with differences significant at p < 0.1 were further analyzed with logistic regression. Data were processed with JMP 5.0.1., 1989–2003, SAS Institute, Inc, Cary, NC.
Results
Patients with prolonged QTc
The 811 children and adolescents (404 males and 407 females) included in this study had a mean age of 15.5 ± 2.4 years (range: 7.2–18.9 years). Overall, the QTc averaged 399.1 ± 20.1 msec (range: 313–481 msec) and was longer in females than in males (401.2 ± 20.7 msec vs. 397.0 ± 19.3 msec, p = 0.0032).
Six hundred ninety patients (85.1%; 95% CI: 82.5%–87.4%) had a QTc shorter than 420 msec and 105 (12.9%; 95% CI: 10.8%–15.4%) had a QTc in the 420–440 range. The proportion of females was lower among patients with QTc <420 msec (p = 0.0013), but greater in the subgroup with QTc 420–440 (p = 0.0028).
QTc > 440 msec (range: 442–481 msec; mean 454 ± 10; 95% CI: 449–460 msec) were identified in 16 patients (1.97%; 95% CI: 1.17%–3.25%). This group included 6 males and 10 females, that is, 1.49% of all males (95% CI: 0.31%–2.67%) and 2.46% of all females (95% CI: 0.96%–3.96%). The 80 age- and gender-matched nested control subjects had a mean QTc of 391 ± 21 msec (95% CI: 386–396 msec).
Psychiatric diagnoses and psychotropic drugs
Univariate comparisons of the psychiatric diagnoses and psychotropic treatments indicated that patients with prolonged QTc had a higher frequency of schizophrenia and of treatment with anxiolytic-hypnotic drugs and a lower incidence of major depressive disorder (Table 1).
QTc = rate-corrected QT interval.
Potassium levels
Blood samples were drawn for spectrophotometric electrolyte measurements on admission for 11 patients from the prolonged QTc group and 72 patients with normal QTc. The mean potassium levels were similar in the 2 groups (3.9 ± 0.4 vs 4.1 ± 0.4 mEq/L, p = 0.09). The frequency of hypokalemia (K level 3.5 mEq/L or lower) was greater in the prolonged QTc group (36.4% vs 8.1%, p = 0.0093).
Body mass index
The weight and height were recorded for 13 of the 16 patients with prolonged QTc and 72 of the 80 patients with normal QTc duration. The proportion of obese patients (i.e., ≥95th BMI percentile) was significantly greater in the group with prolonged QTc (38.5% vs 13.9%, p = 0.032). The finding was confirmed by logistic regression (p = 0.030).
Discussion
The QTc prolongation was infrequent (1.97%) and mild (range: 441–481 msec) in a cohort of 811 children and adolescents who had EKGs recorded at the time of admission for hospital treatment of psychiatric disorders. Based on retrospective chart review, a nested case–control comparison of youth with prolonged QTc with gender- and age-matched patients with QTc < 420 msec indicated that obesity and hypokalemia were significantly more common among patients with QTc prolongation. In contrast, treatment with antipsychotic drugs, exposure to individual atypical antipsychotics, chlorpromazine equivalent doses of antipsychotic treatment, and exposure to other psychotropic medications were not associated with QTc prolongation. The results must be interpreted cautiously, because our study is limited by its cross-sectional design and absence of plsma levels of antipsychotic drugs.
The low prevalence of QTc prolongation in our pediatric cohort stands in stark contrast to the much higher prevalence of QT interval disturbance in older age groups (Lubart et al. 2009; Vieweg et al. 2009). Depending on sample selection and type correction for heart rate, the QTc was found to be to prolonged in 27%–75% of hospitalized patients older than 60 years (Lubart et al. 2009). The explanation for the much lower rate of QTc prolongation in pediatric samples is undoubtedly the prevalence of heart disease, as 43% of the elderly with prolonged QTc had ischemic heart disease (Lubart et al. 2009), a condition rare in children and adolescents.
The higher frequency of hypokalemia among patients with prolonged QTc is not surprising, as this electrolyte disturbance delays myocardial repolarization (Haddad and Anderson 2002). Hypokalemia must be suspected in all pediatric patients with a frequent history of inadequate food intake, vomiting, diarrhea, or use of diuretics or laxatives. The association between obesity and QTc prolongation identified in our study confirms work demonstrating increased heterogeneity of ventricular repolarization in obese nonhypertensive children (Guven et al. 2010; Nigro et al. 2010) and it is particularly worrisome, given the marked weight gain associated with atypical antipsychotic medications in children and adolescents (Correll et al. 2009; Varley and McClellan 2009).
Does a 2% prevalence of baseline QTc prolongation justify mandatory electrocardiographic screening of children and adolescents before the initiation of treatment with antipsychotics? We could not assess the future arrhythmic events in our cohort, but addressing a similar question about the use of psychostimulants, the American Academy of Pediatrics has found that “it has not been shown that screening EKG's before starting stimulants have an appropriate balance of benefit, risk and cost effectiveness for general use in identifying risk factors for sudden death” (Perrin et al. 2008). If confirmed in larger studies, our findings would suggest restricting screening ECG's in youth requiring antipsychotic treatment to those considered to be at higher risk on account of heart disease, obesity, and hypokalemia.
Footnotes
Disclosures
Dr. Correll has been a consultant to or has received honoraria from Actelion, AstraZeneca, Bristol-Myers Squibb, Cephalon, Eli Lilly, Glaxo Smith Kline, Hoffmann-La Roche, Lundbeck, Medicure, OrthoMcNeill-Janssen, Otsuka, Pfizer, Schering-Plough, Supernus, Takeda, and Vanda. Dr. Kane has been a consultant to Janssen, Pfizer, Eli Lilly, Bristol-Myers Squibb, and Otsuka, and has received honoraria from Abbott, Bristol-Myers Squibb, and Janssen. Dr. Manu has served on the speaker/advisory boards of Eli Lilly, Pfizer, and Bristol-Myers Squibb and on the speaker bureau for Forest Laboratories.
Acknowledgments
The Zucker Hillside Hospital Advanced Center for Intervention and Services Research for the Study of Schizophrenia (MH074543-01) from the National Institute of Mental Health, Bethesda, Maryland.