- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT00624208
The Effects of the Anti Nausea Drugs Droperidol and Ondansetron on the Way the Heart Recovers Between Beats
The Effects of Droperidol and Ondansetron on Dispersion of Myocardial Repolarization in Children
Study Overview
Status
Conditions
Intervention / Treatment
Detailed Description
- Purpose: to examine in detail the effect of droperidol and ondansetron on Tp-e (an ECG measure of dispersion of repolarization); to search with maximum statistical power for a difference in this parameter before and after exposure to this widely used anaesthetic. To investigate the nature of any dose-response relationship between propofol and mean QTc and Tp-e intervals.
- Hypotheses: 1. H0: mean pre-operative Tp-e = mean intra-operative Tp-e within each group vs. H1: mean pre-operative Tp-e ≠ mean intra-operative Tp-e within each group. 2. H0: mean intra-operative Tp-e group 1 = mean intra-operative Tp-e group 2 = mean intra-operative Tp-e group 3 vs. H1: mean intra-operative Tp-e group 1 ≠ mean intra-operative Tp-e group 2 ≠ mean intra-operative Tp-e group 3.
Justification: Droperidol and ondansetron are anti-emetics. It has long been thought that prolongation of repolarization, however caused, predisposes to a rare malignant ventricular tachyarrhythmia called torsades de pointes (TdP). The classic model for this hypothesis is a group of hereditary conditions collectively known as long QT syndrome. Although rare, this condition usually presents in childhood or early adulthood, with syncope, aborted cardiac arrest or sudden death, secondary to episodes of TdP. The genetic mutation affects the structure and function of myocardial potassium channels involved in repolarization dynamics. Some anaesthetic agents block some of these potassium channels, thus prolonging repolarization, producing an acquired long QT syndrome.
QT interval prolongation per se is associated with, but is not the cause of, TdP. It has been shown recently that exaggeration of a physiological phenomenon called dispersion of repolarization (TDR) provides the right environment and the trigger for TdP. Normal TDR reflects the way that different layers of the myocardial wall repolarize at different rates - the outside fastest, then the inside & finally the middle. Physiological TDR also determines the morphology of the T wave on the surface ECG. The interval between the peak and the end of the T wave is a measure of TDR.
We therefore now have a new tool for assessing the risk posed by a drug that prolongs the QT interval. Evidence is accumulating that, if TDR is not increased, the risk of TdP is not increased, even if the QT interval is prolonged. Conversely, if TDR is exaggerated, the risk of TdP is raised, even if the absolute QT interval is within normal limits.
Whyte & colleagues showed that propofol does not increase TDR, suggesting that the risk of TdP is not increased with this agent. That study examined only one dose at the extreme lower end of the range for surgical anesthesia & had only 80% power. This study is designed to address those weaknesses and investigate more thoroughly the relationship between propofol and TDR, with the aim of being able to provide evidence-based recommendations, where none currently exist, on its use in patients with or at risk of long QT syndromes.
- Objectives: a) to determine whether there is a significant difference between pre and post-induction mean QTc interval and mean Tp-e interval for each effect-site target concentration of propofol. b) to determine whether there is a relationship between propofol dose, and mean QTc and Tp-e intervals. The primary outcome of the study will be the presence or absence of differences in Tp-e within and between groups of children allocated by randomization to receive droperidol or ondansetron or a combination of both. For each child, the endpoint of the study will be 5 minutes after induction of anesthesia.
- Research Method: randomised, double-blinded within- and between groups comparative study in 80 unpremedicated ASA I-II children, aged between 3 and 10 years, undergoing elective, day case strabismus; otoplasty; ear, nose & throat; dental surgery. After obtaining written informed parental consent, and patient assent where appropriate, enrolled patients will be randomized to one of 4 groups, to receive a droperidol, ondansetron, a combination, or saline. Block randomization will be prepared using computer generated random numbers. Allocation will be concealed using sealed sequentially numbered opaque envelopes. Prior to induction of anaesthesia, ECG electrodes will be sited at standardised locations for acquisition of a pre-operative 12 lead ECG. An intra-operative ECG, using the same electrode positions, will be taken 5 min after induction of anaesthesia. The patient's involvement in the study will then be complete and the conduct of anaesthesia continued at the discretion of the supervising anaesthetist. All ECGs will be recorded in duplicate, at a paper speed of 50 mm/sec and with no identifying data or automated analysis on the recorded traces. Each ECG will be given a random number three-figure code, to allow identification of paired pre- and intra-operative traces after analysis. IV access will be obtained immediately before induction. Anaesthesia will be induced and maintained with propofol delivered by a syringe pump. Throughout the study period, all children will receive routine monitoring. In an attempt to minimize sympathetic stimulation, laryngoscopy will not be permitted during the study period, and the airway will be maintained either by facemask or laryngeal mask. All the ECG traces will be analysed independently by two of the authors (SS and SW) in accordance with predetermined criteria. Both will be blinded to the study group and to the status of the ECG recording (pre- or intra-operative). Neither will be involved in recruitment or randomisation of patients, or in the conduct of the anaesthesia or acquisition of ECG recordings, all of which will be performed by one of the other investigators.
Data analysis: the QT and Tp-e intervals will be measured for all complete P-QRS-T cycles in leads II and V5 and averaged to give a mean QT interval and Tp-e interval for that lead. The QT interval will be measured from the start of the QRS complex to the end of the T-wave, defined as the point of return to the T-P baseline. If U waves are present, the end of the T-wave will be taken as the nadir of the curve between the T and U waves. The Tp-e interval will be measured from the peak of the T-wave to the end of the T-wave. Monophasic T wave peaks can be identified visually. For more complex T wave morphologies, the peak will be identified according to the criteria of Emori & Antzelevitch.
Bland -Altman plots will be used to compare the ECG data from the two independent reviewers. Where an inter-observer difference of >10 msec in an RR interval or >20 msec in a QT or Tp-e interval is found, the recordings, still coded, will be re-analysed and a consensus reached if possible. Thus for each lead in each trace, two values for the mean RR interval, the mean QTc interval and the mean Tp-e interval, one from each independent reviewer, will be obtained. Each pair of values will then be averaged to give an overall value, which will then be used for further statistical analysis. Within-group and between-group comparisons of pre- and intra-operative ECG indices will be performed using two-way analysis of variance. Data analysis will be conducted by AC and SDW using Analyse-It® (Analyse-It software, Leeds, UK).
Sample size calculation: We have based our power calculations on results from a previous study led by SDW. Based on a mean (SD) Tp-e of 59.5 (8.7) msec in 55 pre-operative ECG traces from healthy children, a sample size of 9 per group will detect a clinically relevant difference of 25 msec in Tp-e between the intra-operative means of the four groups with a power of >99% and the criterion for significance, set at 0.01 In order to provide a small buffer in group sizes, to allow for any unplanned exclusions, and to allow for detection of interactions, we plan to recruit a total of 80 patients; 20 in each of the four groups.
Study Type
Enrollment (Actual)
Phase
- Not Applicable
Contacts and Locations
Study Locations
-
-
British Columbia
-
Vancouver, British Columbia, Canada, V6H 3V4
- BC Children's Hospital
-
-
Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Genders Eligible for Study
Description
Inclusion Criteria:
- Healthy children (ASA I-II) undergoing procedures that require general anesthesia without pre-medication.
Exclusion Criteria:
- Children with long QT syndrome, a family history of long QT syndrome or taking medication that is known to prolong the QT interval.
- IV access unobtainable pre-operatively.
Study Plan
How is the study designed?
Design Details
- Primary Purpose: Treatment
- Allocation: Randomized
- Interventional Model: Single Group Assignment
- Masking: Double
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
---|---|
Active Comparator: 1
Intravenous injection of droperidol 20 mcg.kg-1 and saline (group 1)
|
droperidol 20 mcg.kg-1 and saline
|
Active Comparator: 2
Intravenous injection of ondansetron 0.1 mg.kg-1 and saline (group 2
|
ondansetron 0.1 mg.kg-1 and saline
|
Active Comparator: 3
Intravenous injection of droperidol 20 mcg.kg-1 and ondansetron 0.1 mg.kg-1 (group 3)
|
droperidol 20 mcg.kg-1 and ondansetron 0.1 mg.kg-1
|
Placebo Comparator: 4
Intravenous injection of saline and saline (group 4)
|
saline and saline
|
What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Time Frame |
---|---|
Change in Tpeak-end interval before & after intervention & between groups.
Time Frame: Before and during surgery
|
Before and during surgery
|
Secondary Outcome Measures
Outcome Measure |
Time Frame |
---|---|
Change in QT intervals before & after intervention & between groups.
Time Frame: Before and during surgery
|
Before and during surgery
|
Collaborators and Investigators
Sponsor
Collaborators
Investigators
- Study Director: Shubhayan Sanatani, MD, University of British Columbia
- Study Director: Joanne Lim, University of British Columbia
Study record dates
Study Major Dates
Study Start
Primary Completion (Actual)
Study Completion (Actual)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (Estimate)
Study Record Updates
Last Update Posted (Actual)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Additional Relevant MeSH Terms
- Physiological Effects of Drugs
- Neurotransmitter Agents
- Molecular Mechanisms of Pharmacological Action
- Central Nervous System Depressants
- Autonomic Agents
- Peripheral Nervous System Agents
- Antiemetics
- Gastrointestinal Agents
- Dermatologic Agents
- Antipsychotic Agents
- Tranquilizing Agents
- Psychotropic Drugs
- Serotonin Agents
- Dopamine Agents
- Serotonin Antagonists
- Dopamine D2 Receptor Antagonists
- Dopamine Antagonists
- Adjuvants, Anesthesia
- Anti-Anxiety Agents
- Antipruritics
- Ondansetron
- Droperidol
Other Study ID Numbers
- H07-00615
This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.
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