Day 3 Boston AF Symposium: More rough notes

January 14, 2012

Guest post by Dr. John Mandrola

Today is the third and final day of the Boston AF symposium. (My editorial comments in italics.)

Dr Hugh Calkins started the day by reviewing the major clinical trials of AF ablation. A lot of these I have written about previously. One of the most pivotal trials to mention is CABANA. Here, investigators are enrolling symptomatic AF patients to either ablation or continued drug therapy. They seek to discover whether ablating AF reduces hard endpoints like stroke or death. It’s been hard recruiting because many patients want ablation. Another challenge for investigators is that technology is changing quickly. So once this data is published, the procedure will surely have been advanced.

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Dr David Wilber spoke about late recurrences of AF after ablation: Most late recurrences are still related to PV connection. But…Very late recurrences may be from non-PV sources. As time goes on after ablation, non-PV sources of AF become more important. Also relevant to long-term results is disease progression. High blood pressure, obesity, sleep apnea and advancing age all contribute to recurrent AF long after ablation.

Possible solutions for limiting late recurrences Dr Wilber suggested should be multifaceted: attention to blood pressure, obesity, stress, and sleep. These are the so-called “upstream” therapies. His biggest advice: “These are your patients for life; prepare them for that.”

Of course that line hollers at me–as I tell patients of the ‘journey,’ that is AF treatment.

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Dr Gerhard Hindricks (Germany) presented more information on late recurrences after AF ablation. He is famous for his intense follow-up. They use ILR (Implantable Loop Recorders) to assess for AF recurrences. Their 10 year data shows that AF continues to recur over time. But he asks, are late recurrences of AF really late, or are they persistence of early episodes?

Basically, his ILR data show that ‘true’ late recurrences of AF are uncommon. Most of the AF that occurs late was picked up in the earlier period of monitoring. He called this information ‘encouraging.’ The message is that if patients make it through the early period without any AF, they will likely do well in the long term.

He also mentioned monitoring products that may come available in the future: one was a better ILR–the other an injectable ILR.

In the Q/A, he said that ILR recordings are a tool for research, not routine clinical use. Dr Jais raised an important point: He suggests that the use of only 30 seconds of AF to define failure of ablation is too rigorous. “We should not expect ablation patients to have less AF than the age-matched peers. He rightly said that monitors done in normal people (without AF) often show more than 30 seconds of arrhythmia

Good point here.

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Dr Young-Hoon Kim (South Korea) addressed the issue of whether (or when) we should recommend AF ablation in patients with typical flutter. (Remember: flutter ablation is easy and low risk, AF ablation is much higher risk and much more complicated.)

He went on to tell us some important facts about AFL and AF. The likelihood that AF develops in cases of atrial flutter not treated with ablation approaches 60%. Secondly, ablation of AFL does not eliminate the chance of getting AF. More than 30% and up to 80% of patients who get AFL ablation develop AF. Importantly, there are risk factors that predict the chance of AF after AFL ablation. These include: a prior history of AF, congestive failure, advanced age and large atrial size.

This was an important issue because it comes up a lot in the real world. It’s even more pressing in South Korea because patients can have only two ablations in their entire life. (Think government control of healthcare.) If a Korean AF patient has one ablation for flutter that leaves only one for when they develop AF.

My thoughts on this matter our changing. As AF ablation gets easier and safer, I more often recommend that flutter patients consider having AF ablation if they have had AF episodes along with flutter. An important issue about doing AF ablation preventively is that many patients will not ever get AF, and thus we risk over treating patients–a bad thing.

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The next sessions dealt with ablation strategies to treat persistent AF: A very controversial topic.

First up was Dr Frank Marchlinski: He presented the UPENN approach to persistent AF. They do pulmonary vein isolation (wide circles), give adrenaline to look for non-PV triggers and do right AFlutter lines when indicated. They don’t do lines nor do they chase complex fractionated electrograms (CFAE). They do not believe in substrate modification.

He reviewed their RASTA study: (Circ A and EP; 114 (3) 91-95): A comparison of three ablation strategies: PVI/triggers, PVI/triggers + burns at common sites of triggers, PVI/triggers + CFAE. Group 2 had a slightly higher success, but the real message was all patients taken back for second procedures had reconnection of PVs. “To really change success rates for any kind of AF ablation, we need to achieve more durable PV isolation.” He also added the obvious: all other strategies to ablate AF cannot be assessed until durable PV isolation becomes commonplace.

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Dr Pierre Jais presented the Bordeaux approach to ablation in persistent AF: Their approach is called the stepwise approach, where they do PVI, CFAE ablations and then they make lines. They like to terminate AF or at least organize the fib to flutter and then target these more organized rhythms. Not much is changed in their approach from last year. It’s an aggressive approach that entails doing a lot of ablation. They feel that PVI alone is not adequate in advanced AF.

The sense that I get though is that the AF ablation community is moving away from the Bordeaux approach of making lines.

He was asked about rotors and the future–as he ended his talk with FIRM-guided videos. Dr Jais posited the future of AF ablation will incorporate mathematics and engineering.

This is cool. I think this was a subtle shout out to Dr Narayan’s work.

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Dr Moussa Mansour (Mass General) spoke on the role of terminating AF during the ablation. He gave the MGH approach which is to ablate extensively in the left atrium until they get termination. It’s a similar approach to Bordeaux.

Not much new here. My problems with these extensive strategies are numerous. One that we have seen, when we were using the extensive ablation approach, was the recurrence of atrial flutters, which are really bothersome to the patient, and frequently led to more complicated second and third procedures.

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Dr Karl-Heinz Kuck reports on five-year outcomes after ablation for persistent AF using the Hamburg approach. The Hamburg approach includes mostly just PV isolation alone. They rarely ablate any other areas, unless there is spontaneous arrhythmia or the patient cannot be successfully cardioverted. On redo procedures, they do repeat PV isolation and rarely do extra ablation. This is a true minimalist approach.

He reported a 200+ group of patients with very advanced persistent AF (mean duration of AF 4 years, 60% had failed Amio). They found long-term success with one procedure to be quite low at 26%. With multiple procedures, the success rates increases to 45%. They also added a finding that patients who had more than 2 years of persistent AF have a much lower chance to maintain SR [sinus rhythm] with a minimalist approach. (Not surprising.)

When asked about the future, Dr Kuck said that his dream (“a small dream”) was that earlier intervention will prevent progression to more advanced AF. Along these lines, he announced a brand new European AF ablation trial called ATTEST. The investigators have introduced a new endpoint: the time to conversion into persistent AF. They want to know whether early ablation of AF may help reduce the progression to persistent AF.

My take: Dr Kuck’s thesis is that efforts to intervene with catheter ablation in later stages make little sense. Not only are success rates lower, but the amount of ablation needed defeats the point of getting the patient to regular rhythm. What’s so appealing about his early intervention strategy in AF is that it parallels the best approach for coronary heart disease. It’s always better to prevent severe disease rather than trying to treat it after the fact.

Next..

Dr Andrea Natale presented data on AF ablation in patients with prosthetic heart valves: Patients with prior MV surgery do poorly with just PVI. He admonishes ablators to look for other non-PV triggers of AF in these difficult patients. Dr Natale still persists in advocating for isolation of the left atrial appendage. This is a very controversial topic, as most (a clear majority) feel that it is a bad idea to render the appendage non-contractile.

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Dr Ralph Damiano (St Louis) presented the surgical approach to persistent AF. Surgical ablation data from St Louis, where they use the Cox-Maze procedure is impressive. They take on all forms of AF, failed catheter ablation patients and even those with huge left atria. Despite dealing with more advanced AF, the Cox-Maze procedure boasts near 90% long-term success. The problem of course, with Cox-Maze is that it includes major open heart surgery on bypass.

He also reviewed the much smaller evidence base for less invasive approaches to surgical ablation–approaches that get to the heart through the side of chest and without the need for bypass. These smaller studies hint that success rates are good, but the data is scant. He cited the FAST trial, which I have written about previously. Dr Damiano mentioned that the learning curve for surgical ablation is quite steep and bleeding with ‘less-invasive’ surgery can be catastrophic.

My bottom line: Surgical approaches to AF offer more durable lesions and probably higher long-term success, particularly in more advanced cases of AF. The problem is that these procedures are clearly not less-invasive.

The next sessions were on lesion monitoring and new technologies:

Dr Larry Chinitz presented encouraging data on using contact force sensors to guide more effective lesions. It will be a while before US doctors get to use contact force. That’s too bad because it looks promising.

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Dr Pierre Jais spoke about the use of intracardiac ultrasound to guide lesion formation. This, too, is futuristic. One thing that he emphasized was that just using impedance measurements and electrograms to assess burn quality isn’t ideal. Again, more technology for the future.

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Dr Moussa Mansour presented the data on systems that allow direct visualization of the burn. These were mostly animal studies on new catheter designs. Future stuff.

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Dr Kuck again presented early data on a new way of measuring temps during burns. They are testing a novel catheter that uses microwave technology to measure and control power during burns. Again, more technologic attempts to make better burns.

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Dr Nassir Marrouche (Utah) reviewed the role of MRI imaging in assessing and improving burns. I have the same comments as his previous talks: widespread use of MRI is way in the future.

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Dr Keane (Ireland) talked about the utility of making lines with ablation catheters. He reviewed the current technological limitations of making continuous and durable lines by making single RF burns. (Think how hard it would be to draw a line by making dots.) Dr Keane then reviewed the current evidence base supporting line-making. Despite citing huge numbers of studies, he admitted there exists no real answer.

Like all of AF, the ability to sort out the incremental value of adjunct techniques is limited by the inability to get durable PV isolation.

I don’t make lines unless I need to.

That’s all folks. Heading to the airport.

As always, I learned a ton.

Dr. Mandrola is a cardiac electrophysiologist who blogs at Dr. John M