Clinical Trials Logo

Clinical Trial Summary

Heart transplants save the lives of nearly 500 children in heart failure per year. Columbia is one of the largest pediatric heart transplant centers in the world, averaging 25 transplants per year, and providing ongoing care to nearly 250 children with transplanted hearts. After transplant, children are at increased risk to develop sudden onset of abnormally fast heart rates. This research project will study adenosine, a medication that is routinely used to slow fast heart rates in non-transplanted children (i.e. normal hearts), and its effects on the transplanted heart. Adenosine is often not used in patients with transplanted hearts because, based on prior limited research in adult patients, the standard adult dose may have a longer medication effect, producing a slower heart rate for an undesirable period of time. However, the current alternatives to adenosine treatment are either inappropriate for the pediatric age range, or have increased risk of unwanted side effects. This research project will answer two questions: is adenosine safe to give a child who has had a heart transplant, and will it be effective in treating the fast heart rate?

All pediatric heart transplant patients undergo regular heart testing, known as a cardiac catheterization, one or more times per year. Three days before testing, participants will be asked to stop a regular medication, dipyridamole, because it slows the breakdown of adenosine in the body, and may increase its effects. (Of note, all patients that are on dipyridamole are also on aspirin, which gives a second line of heart protection, and will not be stopped.) After regular cardiac catheterization, all patients will already have intravenous (IV) access to give medication. Also, this setting allows the opportunity to have a back-up pacing catheter in the heart, ensuring that there will not be a longer than desired effect from the medication. Adenosine will be given per a low-dose protocol until either the medication effect is seen or the maximum dose is reached. There will be no difference in procedure recovery period time, and patients will resume regular home medications after finishing the test. As Columbia is one of largest pediatric heart transplant centers in the world, studying the effects of adenosine at low doses will benefit the investigators population greatly, either to find a new recommended medication dose, or to provide evidence that this medication is truly inadvisable for the investigators patients.

The initial study was completed with all 80 patients enrolled and tested. Subsequent testing is now ongoing on patients in whom dipyridamole was stopped prior to their initial testing with a repeat study without discontinuing the dipyridamole. We anticipate re-testing about 30 of the 80 patients.


Clinical Trial Description

After cardiac catheterization, the study protocol will begin with 12.5µg/kg of adenosine (one eighth the recommended starting clinical dose), and will double to 25µg/kg, 50µg/kg, 100µg/kg and finally 200µg/kg (not to surpass the total maximum dose of 12mg). A pacing catheter will be placed within the right ventricle prior to medication administration. Escalating doses will stop if ventricular pacing is required due to a ventricular pause greater than 12 seconds or if atrioventricular block is demonstrated with a ventricular pause less than 12 seconds. If there is no prolonged pause requiring pacing and no demonstration of medication effect the subsequent dose will be given.

Progression to the next dose of the adenosine will depend on both the primary and secondary study outcomes. If the adenosine dose produces clinically significant bradycardia (> 12 seconds), ventricular pacing will be used to maintain cardiac output, and the dose will be considered unsafe to use clinically and testing will end for that patient. If the adenosine dose produces atrioventricular block but with a pause of less than 12 seconds (thus does not require pacing), the dose will be considered effective and the study will terminate as well. However, if the adenosine dose does not produce atrioventricular block or require pacing intervention, the dose will be considered safe but ineffective and the study will progress to the next higher dose. Before dose progression, the study will pause for additional 30 seconds to ensure complete adenosine metabolism, as the half-life of adenosine is less than 10 seconds and does not exhibit cumulative effects. The subsequent dose will then be administered and the ECG observed for clinically significant bradycardia and atrioventricular block. This will be repeated until clinically significant bradycardia and/or atrioventricular block is observed, or up to the final 200μg/kg (not to surpass the total maximum of 12mg) dose.

The same study protocol is being utilized to retest the subset of patients in whom dipyridamole was discontinued prior to the initial testing to further understand the safety of administering adenosine to heart transplant patients chronically maintained on dipyridamole. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02462941
Study type Interventional
Source Columbia University
Contact
Status Completed
Phase Phase 1
Start date July 2015
Completion date July 2017

See also
  Status Clinical Trial Phase
Not yet recruiting NCT06023784 - The Impact of LBBAP vs RVP on the Incidence of New-onset Atrial Fibrillation in Patients With Atrioventricular Block N/A
Completed NCT01019213 - Acute and Chronic Effect of His-pacing in Consecutive Patients With AV-block Phase 4
Completed NCT04884100 - enHEART - Exploring Full Content of Optical Signals to Enhance Cardiac Arrhythmia Screening N/A
Recruiting NCT05774262 - Pacemaker Implantation Versus Cardioneuroablation for Functional Atrioventricular Block N/A
Terminated NCT04093414 - Left Bundle Area Versus Selective His Bundle Pacing N/A
Withdrawn NCT00559143 - Biventricular Alternative Pacing Phase 4
Recruiting NCT04730921 - Impact of Left Bundle Branch Area Pacing vs. Right Ventricular Pacing in Atrioventricular Block (LEAP-Block) N/A
Recruiting NCT05585411 - PReventive Effect Of Left Bundle Branch Area Pacing Versus righT vEntricular paCing on All Cause deaTh, Heart Failure Progression, and Ventricular dysSYNChrony in Patients With Substantial Ventricular Pacing (PROTECT-SYNC): Multicenter Prospective Randomized Controlled Trial N/A
Recruiting NCT05575557 - Pulmonary Artery Pressure and Right Heart Evaluation for Patients Requiring Physiological Pacing Treatment N/A
Completed NCT00187278 - Biopace Study: Biventricular Pacing for Atrioventricular Block to Prevent Cardiac Desynchronization N/A
Recruiting NCT04595487 - LVSP vs RVP in Patients With AV Conduction Disorders N/A
Completed NCT04269733 - Risk of Pacing-induced Cardiomyopathy
Recruiting NCT03851315 - Left Bundle Branch Area Pacing in AVB Patients
Completed NCT02282033 - Safety and Performance Study of the Moderato System N/A
Completed NCT01922518 - Impact of Right Ventricular Pacing Determined by Electrocardiography N/A
Recruiting NCT04624763 - Protection of Cardiac Function With Left Bundle Branch Pacing in Patients With Atrioventricular Block N/A
Completed NCT03231826 - Arrhythmias in Post-Myocardial Infarction Patients
Not yet recruiting NCT04437901 - COVIDAR - Arrhythmias in COVID-19
Recruiting NCT01717469 - Safety and the Effects of Isolated Left Ventricular Pacing in Patients With Bradyarrhythmias Phase 4
Completed NCT02154750 - AV Delay Optimization vs. Intrinsic Conduction in Pacemaker Patients With Long PR Intervals N/A