Atrial Fibrillation Clinical Trial
Official title:
A Randomized Controlled Trial of Prophylactic Pulmonary Vein Isolation as Adjunct to Coronary Artery Bypass Grafting
Atrial fibrillation (AF) is an irregular heart rhythm that occurs in 30% to 40% of patients
following heart surgery. This irregular heart rhythm, although often self-limiting, can be
cause for concern. AF is associated with a two-fold increase in patient complications and
mortality after heart surgery. During AF, the heart muscle does not contract properly
causing the blood flow through the heart to slow down potentially forming clots. A clot may
then enter the blood stream and be carried to the brain, possibly causing a stroke. Patients
in persistent AF require blood thinners to prevent strokes, and this carries its own
bleeding risks especially in elderly patients.
Patients in AF after heart surgery spend twice as many days in the intensive care unit and 3
to 4 more days in the hospital, hence the impact on hospital resources is quite significant.
Various medications are used to prevent AF after heart surgery but they are unable to
completely prevent this complication and the medications have associated side effects. In an
effort to optimize the care of heart surgery patients, strategies set on eliminating the
onset of AF after surgery, as opposed to trying to control AF with less than effective
medications, is a necessity.
We are proposing a study to determine if isolating the misfiring areas that cause AF at the
time of bypass surgery in high-risk patients will decrease the occurrence of AF following
heart surgery. Consenting patients will be randomized to one of two groups. Group 1 will
undergo bypass surgery plus the additional procedure of pulmonary vein isolation and Group 2
will undergo bypass surgery only, without the additional procedure. Four staff cardiac
surgeons at the London Health Sciences Centre will perform all surgeries. Patients will be
seen postoperatively every six months and will be followed for a two-year period. The
occurrence of AF will be recorded as well as other complications and lengths of hospital
stay. We predict that the group with the additional pulmonary vein isolation procedure to
prevent AF will have a much lower occurrence of this complication. If this is found to be
beneficial, this will significantly decrease the complications and mortality associated with
heart surgery. This will have a profound effect in the delivery of care to patients with
coronary artery disease and other forms of heart disease.
Atrial fibrillation (AF) is a well recognized postoperative complication associated with
cardiac surgery occurring in approximately 30% to 40% of patients. AF occurs most frequently
within 24 to 72 hours after surgery. Even though postoperative AF is often a short-lived,
self-limiting complication, it is associated with a two-fold increase in cardiovascular
mortality and morbidity. Patients are often symptomatic due to irregular and/or rapid
ventricular rates and complain of palpitations, anxiety, and diminished physical capacity.
Postoperative AF is associated with increased incidence of other complications and increased
hospital length of stay and overall costs. Patients may also develop congestive heart
failure and hemodynamic instability as a result of this complication. As a result of stasis
in the left atrium, the risk of thromboembolic complications is increased and the incidence
of postoperative stroke is increased. Patients with persistent AF have a 13-fold higher
hospital stroke rate than patients without persistent AF. Further morbidity is added in
patients requiring anticoagulation if AF lasts greater than 48 hours. Elderly patients
requiring anticoagulation have a significantly increased risk of hemorrhagic complications.
The incidence of ventricular arrhythmias is also increased in patients in whom AF develops
after cardiac operations.
Postoperative AF has an immense impact on both the cardiac surgery patient and hospital
resources. One study determined that patients developing AF after cardiac surgery spend
about twice as many days in the Intensive Care Unit as patients without AF, and their
hospital stay is extended by 3-4 days.Strategies aimed at preventing postoperative AF are
necessary to optimize the postoperative care of patients undergoing open heart operations. A
large number of clinical trials have evaluated the effectiveness of various pharmacologic
modalities in decreasing rates of AF following cardiac surgery. A recent meta-analysis
demonstrated that beta blockers, sotalol and amiodarone all reduce the risk of postoperative
AF with no marked difference between them. However, neither agent completely eliminated the
occurrence of postoperative AF. In the largest available beta blocker prevention trial,
metoprolol decreased the prevalence of postoperative AF from 39% to 31%.
The mechanism of AF following cardiac surgery is not well understood, but possible
etiologies include rapid firing from an ectopic focus and multiple reentrant circuits within
the atria to propagate this rhythm. It has been discovered that in chronic and paroxysmal
AF, the pulmonary veins and the surrounding ostial areas frequently contain focal triggers
or re-entrant circuits critical to the initiation of AF. In a study of 45 patients with
frequent episodes of AF refractory to drug therapy, 94% of ectopic beats responsible for
instigating AF were located in the pulmonary veins. Studies have shown that these foci are
responsive to radiofrequency ablation. Although it has never been used in the prevention of
postoperative AF, circumferential pulmonary vein ablation (CPVA) is a technique that has
shown much success in the treatment of AF. In CPVA, radiofrequency lesions are created
around the ostia of each pulmonary vein, with the aim to electrically isolate these veins
from the left atrium. In one study, 26 patients with resistant AF were treated with CPVA and
64% had sinus rhythm restoration during ablation. In addition, 85% of patients were free of
AF at 9 months, with 62% no longer requiring antiarrhythmic drugs and 23% taking drugs that
had been ineffective before ablation. Radiofrequency pulmonary vein isolation with
electro-anatomic guidance is a safe and effective treatment of AF.
Recently, Medtronic has developed the Cardioblate® BP and BP 2 Surgical Ablation System
devices (Minneapolis, MN) to perform pulmonary vein isolation to treat AF. Vichol et al have
demonstrated a mean ablation time of 15.2 seconds per lesion with the use of this device.
It is clearly evident that postoperative AF increases morbidity, length of hospital stay,
and costs associated with surgical coronary artery revascularization. The current
prophylactic agents are not completely effective at eliminating the occurrence of
postoperative AF. It has been shown that pulmonary vein isolation is an effective method of
treating patients with chronic AF. We propose a study to determine if performing pulmonary
vein isolation with the Cardioblate® BP 2 as an adjunct in those patients undergoing routine
coronary artery bypass surgery, who are at increased risk of developing postoperative AF,
will significantly reduce the occurrence of this complication.
If pulmonary vein isolation is found to considerably decrease the incidence of postoperative
AF, the associated morbidity will also be decreased. This will have a very profound effect
in the delivery of care to patients with ischemic heart disease.
Study Question/Purpose:
In patients at an increased risk of developing postoperative atrial fibrillation following
coronary artery bypass grafting, does pulmonary vein isolation with Cardioblate® BP 2 result
in a decreased incidence of postoperative atrial fibrillation when compared to those
patients that do not have this adjunct procedure?
Hypothesis:
Pulmonary vein isolation with Cardioblate® BP 2 will reduce the incidence of postoperative
atrial fibrillation in patients undergoing coronary artery bypass grafting who are at an
increased risk of developing postoperative atrial fibrillation.
Sample Size A sample size of 79 patients per group was calculated to detect a reduction in
incidence of postoperative atrial fibrillation from 40% to 20% using a two-sided α = 0.05
and a power of 80%.
Blinding-The patients, outcome assessors, and data analysts will be blinded to which group
the patients belong. Allocation concealment will be practiced and the randomization scheme
will not be revealed. Due to the nature of the intervention, it is not possible to blind the
surgeon performing the operation.
Trial Implementation
After randomization is complete, the baseline demographic characteristics of all patients
will be recorded. Those patients randomized to the control group will undergo coronary
bypass grafting with cardiopulmonary bypass. Those patients randomized to the experimental
group will undergo coronary artery bypass grafting with cardiopulmonary bypass (CABG) and
pulmonary vein isolation (PVI). Medtronic's Cardioblate® BP 2 will be used for the pulmonary
vein isolation. The following will take place for each patient:
1. Will be transferred to the Cardiac Surgery Recovery Unit following surgery
2. Cardiac rhythm will be monitored with telemetry in the CSRU and on the floor until
discharge home
3. All arrhythmias will be documented with regards to onset, duration, and immediate
management - will be recorded by research assistant
4. All patients will be started on a beta blocker on POD #1 and will continue for minimum
2 years if tolerable - will be discontinued if any adverse effect (i.e., heart block,
decreased cardiac output, allergic reaction)
5. All medications will be documented
6. After discharge home, all complications and readmissions will be documented (i.e.,
development of atrial fibrillation or other arrhythmia)
7. Documentation of those patients requiring anticoagulation for persistent atrial
fibrillation and duration and complications related to anticoagulation
8. Follow-up of patients by surgeons, cardiologist and research assistant with ECG every 6
months for 2 years - patients will be asked to fill out questionnaire at each visit
that may elicit any symptoms related to arrhythmias Outcomes Statistical Analysis All
outcomes will be analyzed by a biostatistician blinded to allocation groups using the
intention to treat principle. The primary purpose of the data analyses is to determine
whether pulmonary vein isolation reduces the incidence of postoperative atrial
fibrillation in patients undergoing coronary artery bypass grafting who are at high
risk of developing postoperative atrial fibrillation. The primary outcome will be
compared between both groups with the Chi-square test. All patients will be accounted
for and we will aim for 100% follow-up for all patients.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Outcomes Assessor), Primary Purpose: Prevention
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