On August 30, 2023, I finally bit the bullet and had a cardiac ablation for atrial fibrillation and atrial flutter. If you are one of those rare readers of this blog you may recall me wrting about it and how it occurred in the first place. I happened to be speedskating 19 years ago on the John Rose Oval and just completed my warm up laps. I looked at my heart rate monitor and my pulse was 170 BPM. I pulled up to stretch a little and suddenly my HRM was chirping irregularly and the rate was 240 BPM. I checked my carotid pulse and knew I was in atrial fibrillation. I drove down to the hospital where I was cardioverted with flecainide and metoprolol and have been taking those medications ever since.
In the interim, I have seen a sports cardiologist several
times, 5 electrophysiologists (EP), and two general cardiologists as well as my
primary care physician and the physicians that cross cover for him. I have also
been seen in the emergency department for a heart rate that was down to 25
beats per minute and atrial bigeminy. The physician in the ED thought that I
might need a pacemaker, but it turns out that the combination of flecainide and
metoprolol can cause significant bradycardia. Once I learned that I started
cutting 25 mg tablets into quarters (6.25 mg) and would typically take two of
those tablets per day. I also learned that if you take flecainide, you also
need to take a beta blocker or a calcium channel blocker to prevent atrial
flutter. Atrial flutter is difficult to
diagnose without an ECG because clinically it can seem like sinus
tachycardia. For example, I have had the
flu or taken corticosteroids for asthma and developed tachycardia. When I started running rates of 130 bpm, that
seemed a little high for sinus tachycardia.
I decided to get an ECG and it was atrial flutter. I had to figure all
of that out, because my initial plan was to taper off metoprolol and that is
unrealistic.
At the same time, the combination at times would cause
severe bradycardia. I had a nocturnal
heart rate of 35 BPM recorded on a Holter monitor and saw a cardiologist. We agreed to stay at metoprolol 6.25 mg BID
unless there were extraordinary circumstances.
That generally works but my heart rate can still get into the 40s range.
That led me to the stage to consider the ablation. The other factor is that the second EP
cardiologist that I saw 15 years ago told me to wait on an ablation because the
technology was not good enough. When I saw him this Spring – he thought it had
matured and recommended the procedure. He also told me that both the atrial
fibrillation and atrial futter could be ablated in a single session rather than
two and that was the first time I heard that.
For about 15 years I have been titrating what most people
consider to be microdoses of metoprolol (Physicians typically say: “I have never heard of a dose that
small.”) against the flecainide and it has been holding very well. I get about
1 major episode of afib per year that may last 2-3 hours. I typically take the next dose of flecainide
and 12.5 of metoprolol instead of 6.25.
Multiple 24 hr Holter monitors and clinical assessments by cardiologists
have not resulted in a better combination.
They were adamant about not increasing the flecainide because of the
risk of QRS prolongation and ventricular arrythmias. There was a consensus to try the ablation –
even if the pandemic had persisted.
Researching the procedure followed three lines of
evidence. The first was efficacy and
that seems to be a moving target. Conventional wisdom for a long time was that
rate control (maintaining a heart rate of < 100 bpm even if you were in
atrial fibrillation) and rhythm control (maintaining normal sinus rhythm)
produced equivalent results. It turns out that is true only if hemodynamic
stability is maintained and for some people it is not. When that happens, they develop significant
symptoms like shortness of breath, lightheadedness, dizziness, chest pain, and
can even develop congestive heart failure and renal failure. When all of that
is not planned it is riskier to stabilize the person. There is also concern
that rate control leads to quality-of-life (QoL) problems associated with both
the direct symptoms and indirect symptoms like anxiety about palpitations and
the arrhythmia. There seems to be movement in the direction of an attempt to
stabilize the rhythm with medication and if that fails try the ablation. There
is a QoL
rating scale available for atrial fibrillation. In terms of likelihood of ablating the
arrhythmia the frequent quotes are generally 2/3 to ½ of patients, but the data
is complicated by the number and intensity of cardiac morbidities.
The second line of evidence was complications and serious
complications were noted. Radiofrequency
ablation of arrhythmias in some cases produces a full thickness burn to the
heart muscle. As a result, it can damage
adjacent structures including the esophagus and the phrenic nerve. It can also lead to pericardial effusions and
cardiac tamponade. In a very worst-case scenario atrial-esophageal fistula with
gas in the left atrium and left ventricle essentially causing an air lock in
the pumping mechanism of the heart (4).
The third line was something I had not considered in the
past and that is that atrial fibrillation is progressive. In other
words, even if you have good rhythm control with medication, unless something
is done to alter the electrical substrate the likelihood of maintaining a
normal sinus rhythm after an ablation decreases over time. Accumulating cardiac
problems outside of atrial fibrillation can predispose to the condition and
make it harder to treat.
Some additional intangibles were considered. I would like
to get back on the ice speedskating. That will take rhythm control and some
resilience against exercise induced tachycardia. Rhythm control is important because atrial
fibrillation reduces typical cardiac output by 20-30% based on inadequate
filling and pumping cycles due to the irregular heartbeat. Augmentation of ventricular filling is also
adversely affected due to a lack of coordinated atrial contractions. I am hoping the ablation gets me close to
that goal. There are some theories that interoceptive
signaling in the form of accelerated heart rate from any cause can lead to
anxiety. Certainly many people with
arrhythmias have anxiety that may seem explainable on a general medical concern
basis but there may also be an autonomic component as well as a cognitive
component based on the multiple concerns of treating a chronic disorder than
can cause stroke and congestive heart failure.
What has happened so far? I underwent the procedure. It was 4 hours and 40 minutes in duration from
intubation to extubation. The general anesthesia given is shown in the graphics below. The top graphic is the one I made until the official graphical anesthesia record could be located as the second graphic. To do the ablation 4 catheters were placed in the right femoral vein and
one in the left. I don’t know the technical details of those catheters only
that one is for cryoabalation/isolation of the pulmonary veins in the left atrium, one is for mapping the electrical fields in the surrounding tissue, and one is
for a radiofrequency ablation of the a CTI line (cavotricuspid isthmus) in the
the right atrium. That procedure targets
atrial flutter. The plan was do the CTI line ablation first and then puncture
the interatrial septum and then enter the left atrium with the cryoablation
catheter for the pulmonary vein isolation. The technical details are more complex since the ablation sites and surrounding areas need to be checked to makes sure that the abnormal conduction sites have been eliminated and no new pathways are evident. The phrenic nerve and esophagus are also checked to make sure there is no damage from ablation that occurs in proximity to these structures.
I tried to capture the post-procedure course by in the following
graphics. In clinical practice it was
common for me to see people of all ages who had ablations for various
arrhythmias. In some cases, they were told to “go home and throw your
medications away!” as a result of the ablation. That may apply to some arrhythmias but not
atrial fibrillation. They told me to expect no changes in the medications for 3
months and that I would be taking the same doses of metoprolol and flecainide. Later at the time of discharge – they told me
that in some cases there is a very rocky course until things heal up from the
procedure and that it was not uncommon for people to get palpitations and even
a return of the rhythm problems.
As noted in the graphics – the course to date has been
rocky. At this point much more atrial
fibrillation than I have experienced in the past 16 years and much longer
duration. In my reading about why athletes
get atrial fibrillation and the associated experiment work in that area –
running sustained high heart rates causes remodeling of the biological substrate
of the heart and that makes continued atrial fibrillation more likely. In 16
years, I rarely had an episode that lasted longer than 2 hours and lately more
seem to end in less than an hour. As I type this today, I have been in atrial fibrillation
for going on 48 hours continuously and just this morning converted to a rapid ventricular
response meaning that my ventricular rate is the same as the atrial rate of 150
bpm. Estimated maximum heart rate for exercise at my age is about 130 bpm.
A critical question for anyone contemplating an ablation
procedure on a non-acute basis like I did is the post operative course. I was
very aware of the low frequency serious and lethal complications, but not the
specific about length of time to recovery and what the symptoms might be. Most people experience significant if not
disabling symptoms for months rather than days or weeks following the
procedure. That is based on a small study where they did detailed interviews on
what happened to the subjects following the ablation (11). It is available to read online and I would
encourage anyone interested in the procedure or knowing more about the
procedure to read it. One of the authors' conclusions is
“The majority (85%) of the study sample did improve at six
months, but the process was much slower and more difficult than expected.
Although the symptom burden post-ablation did decrease over the six months,
only 50% of subjects (n=10) were symptom-free and off anti-arrhythmic
medications at six months.” (reference
11) These findings are qualified by the study sample size as well as the possibility of selection bias since the researchers were looking for people who could tolerate the protocol of completing rating scales and lengthy interviews about potential adverse events. Reference 11 is also very useful in terms for what kind of recovery time to expect - especially in terms of fatigue and more frequent contact with the healthcare system after atrial fibrillation ablation (12).
That is certainly consistent with my experience. Right at
this moment I have been in atrial fibrillation or atrial flutter continuously
for 48 hours. My heart rate is 160 bpm
at rest. I am contemplating taking more
medication on my own initiative or going to the ED for cardioversion. I am scheduled for a cardioversion in the cardiology clinic on Wednesday September 13 - but I don't know if I can hold off that long. I guess I am hoping for a break. There are
many mitigating factors. Whatever happens tonight – I hope to add more to this
post soon. This is an important topic
that has been neglected for too long.
Final qualifier on this post to point out that this is my experience and it does not mean it would be your experience. Much of the sensationalism about medicine in the media is based on oversimplified dichotomous thinking. Medications, procedures, tests, doctors and even diagnoses are seen as all bad or all good. Human biology is very complex and there are few if any medical interventions that address that level of complexity. That typically means that over any population there will be an array of outcomes and most of them will not be explainable. That is a hard pill to swallow but that is the state of the art of modern medicine.
George Dawson, MD, DFAPA
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