Catheter design was key for the Boston Scientific Farapulse pulsed field ablation system
05 Feb 2024
Drug Approval
Boston Scientific Chief Medical Officer Dr. Ken Stein explains how catheter design drives the Farapulse pulsed field ablation system.
Following
FDA approval
on Jan. 31, Farapulse from Boston Scientific is now the second
pulsed field ablation
(PFA) system approved to treat atrial fibrillation (AFib) in the U.S.
Medtronic’s PulseSelect PFA System picked up the first FDA approval in December for the treatment of paroxysmal and persistent AFib.
Boston Scientific’s Farapulse, on the other hand, is indicated for the isolation of pulmonary veins to treat drug-refractory, recurrent, symptomatic, paroxysmal AFib.
Farapulse delivers pulsed field energy using the Farawave ablation catheter, Farastar ablation generator and Faradrive steerable sheath. Boston Scientific’s VersaCross Connect access solution complements the sheath to provide safe and effective left heart access.
The Farawave catheter treats a range of pulmonary vein anatomies using an over-the-wire catheter with a variable basket and flower shapes. This allows for the device to adapt to individual patient anatomies.
Dr. Ken Stein, Boston Scientific’s chief medical officer, offered more detail on the Farapulse system and how it was built in an interview with Medical Design & Outsourcing.
“We see this as a transformative technology,” Stein said. “I think it’s transformative for Boston Scientific EP (Electrophysiology). And, I think — just as importantly — this is transformative for patients.”
What comprises the Farapulse system?
The three critical components of the Boston Scientific Farapulse PFA system are the Farastar energy generator, Faradrive sheath and Farawave ablation catheter.
Farastar generates the voltages for the ablation current delivered to the Farawave catheter, which creates lesions on the heart’s tissue, scarring it to isolate irregular heart signals that cause AFib.
The Faradrive sheath brings the ablation catheter into the patient’s body and positions it within the correct space inside the heart’s left atrium.
Then the Farawave catheter emerges from the Faradrive sheath for manipulation and positioning within the heart. The Farawave catheter takes two different shapes — a flower and a basked — both used in the procedure to ablate the pulmonary veins.
Conventional ablation technologies use radiofrequency energy to heat tissue or cryoablation to freeze tissue. Both can lead to complications, which is why Boston Scientific went a different route with Farapulse, he said.
“What’s unique about Farapulse is that it uses this very high-voltage, oscillating electrical field that doesn’t heat the tissue,” he said. “What it does is it actually causes the cell membranes of the tissue you’re trying to ablate to start to break down.”
That process — called electroporation — works so well because heart tissue is uniquely susceptible to this type of energy, Stein said. With the right waveform and the right catheter, it means Farapulse can avoid a lot of the potential complications associated with ablating non-cardiac tissue, Stein said.
“That’s why this is proving out to be a safer procedure than conventional thermal ablation,” he said. “Because of the safety, that also enables you to get to good efficacy and to get a really fast, efficient procedure.”
Catheter design was key for Boston Scientific
With radiofrequency ablation, any 5 mm-tip ablation catheter with the same degree of contact delivers the same result, no matter which company’s ablation catheter you use, Stein said. In that sense, it’s generic, he said — but PFA is different.
“Pulsed field ablation results are really critically dependent on a number of different aspects of the technology,” Stein said.
Catheter design sits atop the list of the crucial elements that go into PFA technology. A vital part of development comes with addressing the variability of patient anatomy, so having a versatile catheter design makes it more straightforward to deal with the various challenges of unique anatomies.
The Farawave catheter treats a range of pulmonary vein anatomies using an over-the-wire catheter with variable basket and flower shapes. This allows the device to adapt to the different shapes and sizes of individual patient anatomies.
Boston Scientific already has a next-generation catheter for Farapulse that it hopes to roll out “in the near future,” Stein noted. The devicemaker also has alternative catheter designs under development that could offer utility in different arrhythmias beyond AFib.
“Unlike a lot of the competitors out there, Farapulse is unique in that it was designed from the ground up as a pulsed field ablation system,” Stein said. “It’s not a repurposed catheter that was designed for something completely different.”
Stein also highlighted the importance of the shape of the electrical field created by Farapulse and the waveform used to create it, and the system’s critical dependence on the dosing strategy applied to ablation procedures. Cardiac tissue targeted by ablation can be particularly susceptible to this energy source due to the geometry of cardiac muscle cells, he said.
“If you can create the right shape of an electrical field — that gets back to catheter design — and if you provide just the right amount of energy, and that gets to things like the waveform, then you can tune it in a way that is relatively selective for heart tissue, as opposed to other tissue,” Stein said.
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