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PARIS -- More dramatic blood pressure reductions may be on the horizon for patients with resistant hypertension given the phalanx of renal denervation systems under development.

Results of pilot studies on a variety of novel renal sympathetic nerve ablation catheters are achieving in the range of 28/10 to 32/15 mm Hg blood pressure reductions at one month, researchers reported here at the EuroPCR meeting.

Clinical trials of the first such device -- the Symplicity single-electrode radiofrequency ablation device, on the market in Europe -- showed a 1-month drop in BP of 14/10 to 20/7 mm Hg in clinical trials.

"New second generation devices may be improving not only safety but also efficacy," Stephen Worthley, MBBS, PhD, of the University of Adelaide, Australia, told 麻豆传媒.

Although still in the early phases of clinical study, stenosis or other complications to the renal artery haven't been a problem across the systems, he and several other groups reported at sessions on the percutaneous renal denervation device pipeline.

"We do see local effects but they don't seem enduring," said one session chair Robert Whitbourn, MBBS, of St. Vincent's Hospital in Melbourne, Australia. "RF seems to be very clean energy. The artery does seem robust."

Nerves are more sensitive than arteries to damage from high temperatures, explained another moderator, Ron Waksman, MD, of Washington Hospital Center in Washington, D.C.

Arteries, too, vary in their tolerance, with the renal artery apparently able to handle damage better than the pulmonary artery, for example, he added.

Multi- or Large-Electrode Systems

First-in-man trial results with the four-electrode EnligHTN radiofrequency ablation device showed no serious complications related to the device or the procedure, such as renal artery dissection, aneurysm, stenosis, or flow-limiting vasospasm.

The 46 resistant hypertension patients treated did have some minor procedural events, including four cases of hematoma, three vasovagal responses at sheath removal, and two cases of post-procedural transient bradycardia.

Renal function didn't appear affected at one month.

But office-measured blood pressure dropped by an average 28/10 mm Hg from a mean of 176/96 at baseline to 148/87 at 1 month (P<0.0001), Worthley reported.

Altogether, 78% of the patients were considered responders with at least a 10 mm Hg systolic reduction, and 41% got down to the goal of 140 mm Hg.

Another device with eight electrodes on a balloon catheter gave similar results in the first 10 patients reported by Raymond Cohen, CEO of device maker Vessix Vascular, in the REDUCE-HTN study.

No complications were seen, but 1-month blood pressure fell by 30/11 mm Hg, with all patients being responders.

Another design strategy is a spiral electrode around the catheter head to provide multiple ablations at once.

Preclinical results reported with the OneShot system showed effective ablation of renal nerves and an 84% reduction in renal norepinephrine content compared with controls, which would limit the sympathetic activation that raises blood pressure.

RF Alternatives

But not all the devices are sticking with radiofrequency ablation, generating elevated temperatures with other strategies instead.

The Paradise system, for example, uses an ultrasound catheter to heat circumferentially at a depth while cooling the endothelium of the vessel it is in direct contact with.

In the pilot REDUCE trial with that novel strategy, no serious device-related adverse events occurred among the 15 treated patients, although there was one artery dissection from the catheter sheath.

Office-measured blood pressure fell by an average 30/14 mm Hg at 1 month and was 32/16 below baseline at 3 months, Raoul Bonan, MD, of the Montreal Heart Institute in Canada, reported at the conference.

Two other groups reported on strategies without clinical experience yet:

• One using nanomagnetic particles attached to Botox B as a neurotoxin that are injected into the renal artery and then manipulated with an external magnet
• Another using a balloon catheter with holes to push the cancer drug vincristine (Oncovin, Vincasar) into the renal arterial wall where it has a neurotoxic effect

Cautions for the Field

Despite the promise of renal denervation for treating a difficult condition -- by definition persistent hypertension despite treatment with three or more antihypertensives, including a diuretic -- experts in the field urged a careful path for clinical practice and research alike.

The alteration in the renal artery is irreversible, Jean Renkin, MD, of St. Luc University Hospital in Brussels, Belgium, noted at the conference's "great debate" session.

"One of the main messages will be proper selection of patients for this procedure," he said.

That's key because patients are going to be driving demand for renal denervation, noted nephrologist William McKane, MB, of the Sheffield Kidney Institute in Sheffield, England.

"You're going to have patients knocking on your door asking for this treatment," he told attendees. "It's important to understand what we know but also what we don't know."

Some of those questions are how the treatments compare with sham control, which none of the studies yet have used, and what the long term outcomes will be with the denervation procedure.

Renal nerves can regrow, although data from the Symplicity trials suggest a durable effect over at least 3 years.

Also, the epidemiologic data projecting the effect of a particular blood pressure difference on mortality and other outcomes hasn't panned out quite as well in interventional trials, McKane cautioned.

Another concern is that renal artery stenosis may develop slowly, taking up to a decade to show up after radiation, he added.

The Symplicity trial excluded patients with even moderate or more advanced kidney disease and its quality of surveillance for complications wasn't compelling, McKane argued.

"It's too early to tell what the impact on GFR [glomerular filtration rate] is really going to be," he said.

For the time being, it's important to reserve renal denervation procedures to only good renal teams with representation by hypertension specialists, radiologists, and nephrologists that can carefully screen patients for truly medication-resistant hypertension, Renkin suggested.

"We need to be very careful that we do not kill a promising technology with incorrect patient selection," agreed Pierre-Francois Plouin, MD, of the Hospital Europeen Georges Pompidou in Paris, and a past president of the French Society of Hypertension.