Clinical Trials Logo
  1. Home
  2. Heart Failure
  3. NCT02166762

Correlating QLV Interval to Left Ventricular (LV) Lead Position in Patients Receiving Cardiac Resynchronization Therapy. — QLV

Heart Failure Clinical Trial

Official title:
Mapping of the Coronary Venous System in Patients With Heart Failure Presenting for CRT-D (Cardiac Resynchronization Therapy) Implantation. Correlating QLV Interval to Fluoroscopic LV (Left Ventricular) Lead Position.

Clinical Trial Summary

This is a prospective clinical trial to determine the optimal QLV interval during implantation to achieve the best possible response from cardiac resynchronization therapy for heart failure patients.

Clinical Trial Description

Heart failure is a growing epidemic in the United States. Heart failure is associated with shortness of breath, reduced exercise tolerance, and manifestations of peripheral fluid retention. As the disease progresses, there is development of cardiac dyssynchrony (failure of the heart to act as one unit) in the electrical and mechanical functions of the myocardium.

During implantation of a cardiac resynchronization therapy defibrillator (CRT-D) device, three electrical wires are placed in the right atrium (RA), right ventricle (RV) and coronary venous system that drains blood from the left ventricle (LV). The LV lead is placed in the posterolateral tributaries of the coronary venous system using special delivery tools. Pacing therapies to resynchronize the heart have been shown to improve functional class and mortality in patients with severe heart failure i.e. New York Heart Association (NYHA) class III and IV functional status. Current indications for cardiac resynchronization therapy (CRT-D) include severe cardiomyopathy (Ejection Fraction < 35%), with shortness of breath at rest or minimal exertion (NYHA class II, IV), prolonged QRS > 130ms on surface echocardiogram (ECG) and life expectancy more than one year. CRT-D therapy results in decrease of heart failure admissions and improvements in quality of life.

Response to CRT is associated with improvement in functional status by one NYHA functional class schema or by evidence of reverse remodeling (decrease in end systolic LV dimension by 15%). However across clinical trials, a third of the patients are non-responders to CRT therapy. Non-ischemic etiology of heart failure and presence of electrical dyssynchrony on surface ECG suggested by QRS >150ms are associated with better response with CRT. Non response to CRT can be due to inappropriate patient selection, inappropriate device programming, and inappropriate lead placement. However, inappropriate lead placement is the factor that can be changed during device implantation. Adverse changes in morality and heart failure can occur with sub-optimal position of the LV lead. Most echocardiographic parameters to predict responders were not clinically useful. Appropriate positioning near the area of the heart with latest activation (usually posterolateral segment of the left ventricle) is associated with better response. Inter-ventricular delay as measured by the time delay between the two leads in the left and right ventricles (RV-LV delay) was shown to be a better predictor of response. Interval from the first deflection of the surface ECG to the bipolar electrogram (QLV interval) can be used as a surrogate to identify the delayed segments of the left ventricle. Preliminary studies have shown better response using this approach of lead placement in the regions of latest activation. SMART AV study which used a similar algorithm in assessing delay also showed a trend for better response using QLV interval. However, the fluoroscopic lead position was not correlated with QLV interval for that study. We plan to measure this area of delayed activation to target effective lead placement and map the coronary veins to target the longest QLV interval in each patient.

For this study, medical history and demographic information will be collected from patients as well as clinical information from the procedure. The QLV measurements will be collected prior to implant of LV lead. The QLV interval is defined as the measurement from the onset of the QRS width of the surface ECG to the first large positive or negative peak of the LV electrogram (EGM) during a cardiac cycle. QLV EGM will be taken from either the LV pacing lead and/or .014 wire. QLV EGM's will be measured at three distinct points (basal, mid, and distal) within each target vessel. Each data point will be the average of four to six beats to allow for respiratory variance, and recorded using the Bard mapping system. The final lead position will be the area of vein that has the longest QLV interval with appropriate sensing and pacing thresholds. The QLV measurements will be conducted, in addition to all standard of care procedures for CRT-D implantation for patients enrolled in the clinical trial. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT02166762
Study type Interventional
Source University of California, San Diego
Contact
Status Completed
Phase N/A
Start date May 2013
Completion date September 2015
View Details
See also
  Status Clinical Trial Phase
Recruiting NCT05650307 - CV Imaging of Metabolic Interventions
Recruiting NCT05196659 - Collaborative Quality Improvement (C-QIP) Study N/A
Recruiting NCT05654272 - Development of CIRC Technologies
Active, not recruiting NCT05896904 - Clinical Comparison of Patients With Transthyretin Cardiac Amyloidosis and Patients With Heart Failure With Reduced Ejection Fraction N/A
Completed NCT05077293 - Building Electronic Tools To Enhance and Reinforce Cardiovascular Recommendations - Heart Failure
Recruiting NCT05631275 - The Role of Bioimpedance Analysis in Patients With Chronic Heart Failure and Systolic Ventricular Dysfunction
Enrolling by invitation NCT05564572 - Randomized Implementation of Routine Patient-Reported Health Status Assessment Among Heart Failure Patients in Stanford Cardiology N/A
Enrolling by invitation NCT05009706 - Self-care in Older Frail Persons With Heart Failure Intervention N/A
Recruiting NCT04177199 - What is the Workload Burden Associated With Using the Triage HF+ Care Pathway?
Terminated NCT03615469 - Building Strength Through Rehabilitation for Heart Failure Patients (BISTRO-STUDY) N/A
Recruiting NCT06340048 - Epicardial Injection of hiPSC-CMs to Treat Severe Chronic Ischemic Heart Failure Phase 1/Phase 2
Recruiting NCT05679713 - Next-generation, Integrative, and Personalized Risk Assessment to Prevent Recurrent Heart Failure Events: the ORACLE Study
Completed NCT04254328 - The Effectiveness of Nintendo Wii Fit and Inspiratory Muscle Training in Older Patients With Heart Failure N/A
Completed NCT03549169 - Decision Making for the Management the Symptoms in Adults of Heart Failure N/A
Recruiting NCT05572814 - Transform: Teaching, Technology, and Teams N/A
Enrolling by invitation NCT05538611 - Effect Evaluation of Chain Quality Control Management on Patients With Heart Failure
Recruiting NCT04262830 - Cancer Therapy Effects on the Heart
Completed NCT06026683 - Conduction System Stimulation to Avoid Left Ventricle Dysfunction N/A
Withdrawn NCT03091998 - Subcu Administration of CD-NP in Heart Failure Patients With Left Ventricular Assist Device Support Phase 1
Recruiting NCT05564689 - Absolute Coronary Flow in Patients With Heart Failure With Reduced Ejection Fraction and Left Bundle Branch Block With Cardiac Resynchronization Therapy