Assessing the Hemodynamic Benefits of Cardiac Resynchronization Therapy in Children Following Open-Heart Surgery
Malformations of the heart (congenital heart disease) are the most common congenital birth defects, occurring in about 1% of children. Each year, between 150-200 children will undergo open heart surgery at British Columbia Children's Hospital (BCCH) to repair the defect(s) in their heart. The abnormal structure of the heart or the open heart surgery may cause damage to the electrical system of the heart which can disturb the rhythm of the heart (arrhythmias), prolong recovery or be life-threatening. For this reason, temporary pacing wires are placed in the heart following surgery to ensure the heart rhythm is as normal as possible during the post-operative period (pacing). In recent years, scientists have recognized that pacing the heart from one area is not necessarily the same as pacing it from a different area. In fact, in some individuals with arrhythmias and poor heart function, pacing the heart from different areas can improve the pumping of the heart, resulting in better heart function. This form of treatment is called Cardiac Resynchronization Therapy (CRT) because it endeavours to optimize the pumping of the heart by changing the electrical activation of the heart. CRT has been used to a very limited extent in children. A few pediatric cardiologists have used CRT to help children who are in heart failure. We would like to determine whether pacing the heart from different areas after open heart surgery improves the child's heart function and aids his or her recovery.
The heart's rhythmic beating or contraction is determined by the flow of an excitatory electrical wave-front along a specialized cardiac conduction system. In the presence of altered conduction, such as a bundle branch block or an intra-ventricular conduction delay, abnormal cardiac contraction or dyssynchrony occurs. The delay can occur in the specialized conduction system (electrical dyssynchrony) or myocardium (mechanical or structural dyssynchrony).1 Techniques to improve both electrical and mechanical synchrony in patients with bundle branch block were initially done on adults. Research in this field began to appear in the last decade when dual chamber pacing was first used as adjunctive therapy for adults with medically refractory heart failure.2 Acute studies showed that atrioventricular (AV) synchronous pacing with a short AV delay improved cardiac output and exercise duration in patients with heart failure and a prolonged PR interval.3 The beneficial effects of AV resynchrony (optimizing AV conduction times with pacing) were shown to be due to increased diastolic filling time, and reduction in mitral or tricuspid valve regurgitation. The results of long-term studies, however, did not demonstrate consistent improvement in ejection fraction or NYHA functional class with DDD pacing.4 Since then, Cardiac Resynchronization Therapy (CRT) has established itself as a proven therapy for congestive heart failure in adults, with patients showing improvement in exercise tolerance, quality of life, and survival.1, 5, 6 More recently, the technique of utilizing CRT to stimulate the heart from novel or multiple sites has been applied to pediatric patients.7-9 Children with chronic heart failure have received CRT successfully as an adjunctive therapy.
One of the major limitations of CRT is the objective assessment of whether cardiac output and ventricular function are improved. As well, the precise location of where to pace the heart in order to optimize hemodynamic function needs to be determined. The objective assessment of successful CRT is a difficult clinical issue and should ideally be performed non-invasively. Traditional two-dimensional echocardiographic and Doppler indices have been used to assess the efficacy of CRT and include measuring cardiac output, looking at ventricular ejection times, visually assessing wall motion, and measuring the length of diastole using the mitral "E" and "A" waves. As most of the existing techniques are limited to assessing global function, more detailed methods of assessment are necessary in order to fully assess and optimize CRT.10, 11 Tissue Doppler Imaging (TDI) offers a more detailed analysis of regional cardiac function and allows quantitative measures to be obtained. TDI operates at high frame rates and can non-invasively map cardiac activation and add information related to the degree and location of cardiac dyssychrony. TDI and its derivatives allow: (1) measurement of myocardial velocities, which is based on the detection of the Doppler shift caused by the motion of myocardial tissue during the cardiac cycle; (2) visualization of tissue tracking, which color-codes tissue segments with similar displacements according to a color map; (3) measurement of regional strain rates, which describes the rate of deformation, or how quickly a segment of tissue shortens or lengthens; and (4) measurement of regional strain, which describes the deformation of an object (in this case, tissue) relative to its original state. 12, 13
Cardiac pacing in children is done most often following cardiac surgery for congenital heart disease (CHD). This pacing is usually temporary. Following open heart surgery children frequently exhibit cardiac dyssynchrony secondary to conduction abnormalities or regional wall motion abnormalities. Often, damage to the conduction system is an unavoidable result of the operation itself. Regardless of the extent of the conduction abnormality, most patients operated on for congenital heart disease undergo a period of decreased cardiac function related to several factors, including: pre-existing myocardial disease; cardiopulmonary bypass; and residual cardiac lesions.7, 14 The decrease in cardiac performance and, therefore, the risk to the patient's life, can be aggravated by the presence of cardiac dyssynchrony. The benefits of CRT are just beginning to receive attention in the setting of pediatric post-operative cardiac care. 15
We hope to demonstrate that CRT is beneficial in the care of post-operative patients undergoing open-heart surgery for repair of congenital heart defects. We will be using state-of-the-art TDI for assessing cardiac dyssynchrony, and using it as a tool for monitoring therapy. This study has tremendous potential for application to all patients undergoing open-heart surgery for repair of congenital heart defects. If it can be demonstrated that CRT can improve post-operative outcomes in this population, significant morbidity and mortality can be avoided, Intensive Care Unit (ICU) and hospital stays shortened, and the associated health care costs reduced.
Allocation: Randomized, Control: Active Control, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
Congenital Heart Defects
Cardiac Resynchronization with Biventricular Pacing
Children's Heart Centre, British Columbia's Children's Hospital
Active, not recruiting
University of British Columbia
Results (where available)
- Source: http://clinicaltrials.gov/show/NCT00397514
- Information obtained from ClinicalTrials.gov on July 15, 2010
Medical and Biotech [MESH] Definitions
Cardiac Resynchronization Therapy
The restoration of the sequential order of contraction and relaxation of the HEART ATRIA and HEART VENTRICLES by atrio-biventricular pacing.
A condition characterized by the thickening of ENDOCARDIUM due to proliferation of fibrous and elastic tissue, usually in the left ventricle leading to impaired cardiac function (CARDIOMYOPATHY, RESTRICTIVE). It is most commonly seen in young children and rarely in adults. It is often associated with congenital heart anomalies (HEART DEFECTS CONGENITAL;) INFECTION; or gene mutation. Defects in the tafazzin protein, encoded by TAZ gene, result in a form of autosomal dominant familial endocardial fibroelastosis.
Heart Defects, Congenital
Developmental abnormalities involving structures of the heart. These defects are present at birth but may be discovered later in life.
Cardiac Pacing, Artificial
Regulation of the rate of contraction of the heart muscles by an artificial pacemaker.
Ventricular Outflow Obstruction
Occlusion of the outflow tract in either the LEFT VENTRICLE or the RIGHT VENTRICLE of the heart. This may result from CONGENITAL HEART DEFECTS, predisposing heart diseases, complications of surgery, or HEART NEOPLASMS.
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Aims The objective of this study was to compare long-term clinical effects of biventricular pacing with isolated left ventricular pacing. Methods and results Forty consecutive patients with idiopathic...
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