ライフサイエンスコーパス: radiofrequency

1 ps occurred in 3 attempts using conventional radiofrequency.

2 planted hearts from animals receiving needle radiofrequency.

3 the left ventricle with either cryoenergy or radiofrequency.

4 epicardial sparing (HIU 2.9+/-2.1 mm versus radiofrequency 0.1+/-0.2 mm) at all HIU powers, and incr

5 eased lesion depth (HIU 11.6+/-3.2 mm versus radiofrequency 4.7+/-1.6 mm; mean+/-SD) and epicardial s

6 gies was observed in 7 patients treated with radiofrequency (77.7%), whereas none was observed in tho

7 were found using needle versus conventional radiofrequency (90% versus 75%; P<0.05).

8 Atrioventricular nodal radiofrequency ablation (AVNA) with permanent ventricula

9 Computed tomography-guided radiofrequency ablation (CT-RFA) and laparoscopic RFA (L

10 sus endoscopic mucosal resection followed by radiofrequency ablation (EMR-RFA) for the treatment of B

11 inical trial comparing multielectrode-phased radiofrequency ablation (MEA) to standard focal irrigate

12 ressed genes in the periablational rim after radiofrequency ablation (RFA) and their role in driving

13 Resection and radiofrequency ablation (RFA) are treatment options for

14 ety of VGLB ablation with standard irrigated radiofrequency ablation (RFA) during catheter ablation o

15 en stereotactic body radiotherapy (SBRT) and radiofrequency ablation (RFA) for HCC.

16 patients treated with no-touch multibipolar radiofrequency ablation (RFA) for hepatocellular carcino

17 otactic body radiation therapy (SBRT) versus radiofrequency ablation (RFA) for patients with inoperab

18 Radiofrequency ablation (RFA) from the epicardial space

19 Radiofrequency ablation (RFA) has been shown to be an ef

20 pro-oncogenic effects compared with hepatic radiofrequency ablation (RFA) in an animal model.

21 ce on the efficacy, durability and safety of radiofrequency ablation (RFA) in Barrett's esophagus are

22 ivaroxaban administration during left atrial radiofrequency ablation (RFA) in comparison with uninter

23 of patients with BE and dysplasia treated by radiofrequency ablation (RFA) in the randomized controll

24 Percutaneous radiofrequency ablation (RFA) is a minimally invasive te

25 Radiofrequency ablation (RFA) is commonly used to treat

26 Radiofrequency ablation (RFA) of ventricular tachycardia

27 st-line curative treatment: liver resection, radiofrequency ablation (RFA), and liver transplantation

28 gus (BE) often requires multiple sessions of radiofrequency ablation (RFA).

29 y-stage hepatocellular carcinoma (HCC) after radiofrequency ablation (RFA).

30 y ablation (MEA) to standard focal irrigated radiofrequency ablation (STA) using 3-dimensional naviga

31 ollow up for computed tomography (CT)-guided radiofrequency ablation [RA] therapy for osteoid osteoma

32 ic tumors not suitable for thermal ablation (radiofrequency ablation [RFA] or microwave ablation).

33 usually be eliminated by sequential unipolar radiofrequency ablation and sometimes required simultane

34 ETHODS AND NYHA II-IV patients undergoing VT radiofrequency ablation at 12 international centers were

35 h structural heart disease presenting for VT radiofrequency ablation at 2 centers were included.

36 ed atrial tachycardias (AT) allows efficient radiofrequency ablation by targeting the critical isthmu

37 Despite greater baseline comorbidities, VT radiofrequency ablation can be safely performed among NY

38 ed using a specially designed open-irrigated radiofrequency ablation catheter incorporating 4 ultraso

39 afety and effectiveness of a novel irrigated radiofrequency ablation catheter that measures real-time

40 hout previous antiarrhythmic drug treatment, radiofrequency ablation compared with antiarrhythmic dru

41 Radiofrequency ablation eliminated AES leading to ECG no

42 Patients undergoing radiofrequency ablation for AF exhibit an inflammatory r

43 ith 7-day Holter recordings at 6 months post radiofrequency ablation for AF.

44 Fifteen patients undergoing first-time radiofrequency ablation for nonparoxysmal atrial fibrill

45 ged 63.0+/-13.2 years) who underwent a first radiofrequency ablation for sustained monomorphic VT ass

46 Radiofrequency ablation for ventricular arrhythmias is l

47 equential or simultaneous irrigated unipolar radiofrequency ablation from the endocardial and epicard

48 Radiofrequency ablation from the first suitable site was

49 the antiarrhythmic drug group and 66 in the radiofrequency ablation group were followed up for 24 mo

50 Ventricular tachycardia (VT) radiofrequency ablation has been associated with reduced

51 Compared with sequential focal radiofrequency ablation in a linear pattern, an irrigate

52 ndomized controlled trial of surveillance vs radiofrequency ablation in Europe.

53 2 first-degree family members) who underwent radiofrequency ablation in our institution and in anothe

54 ther cryoballoon ablation was noninferior to radiofrequency ablation in symptomatic patients with dru

55 Radiofrequency ablation induced platelet activation in b

56 Radiofrequency ablation inside pulmonary vein (PV) ostia

57 Radiofrequency ablation inside PV ostia causes considera

58 Radiofrequency ablation is the most common method, and c

59 ing (MRI) has been used to acutely visualize radiofrequency ablation lesions, but its accuracy in pre

60 Radiofrequency ablation of atrial fibrillation has been

61 any effect on platelet activation induced by radiofrequency ablation of atrial fibrillation.

62 Radiofrequency ablation of multiple or unmappable ventri

63 Radiofrequency ablation of previously stented RA demonst

64 The long-term efficacy of radiofrequency ablation of renal autonomic nerves has be

65 tients, including 6 who underwent successful radiofrequency ablation of the arrhythmic focus without

66 Percutaneous radiofrequency ablation of the CB abolished the adenosin

67 ased on carotid baroreceptor stimulation and radiofrequency ablation of the renal nerves.

68 Catheter radiofrequency ablation of ventricular arrhythmias (VAs)

69 al fibrillation, for which she had undergone radiofrequency ablation on two occasions.

70 We compared characteristics and VT radiofrequency ablation outcomes of those with and witho

71 our study was to determine if cooling during radiofrequency ablation preserved the RA while allowing

72 recurrence of atrial fibrillation (AF) after radiofrequency ablation remains significant.

73 AES elimination by radiofrequency ablation results in ECG normalization and

74 gus-related LGD undergoing ablative therapy, radiofrequency ablation should be used.

75 Remote heating of metal located near a radiofrequency ablation source has been previously demon

76 ble spectrum, which was in stark contrast to radiofrequency ablation that markedly increased the inte

77 is agent to take advantage of the ability of radiofrequency ablation to, at least temporarily, damage

78 Nerve injury after radiofrequency ablation was greatest at 7 days, with max

79 Focal nerve regeneration at the sites of radiofrequency ablation was observed in 17% of renal art

80 on was performed in 27 (61%), and epicardial radiofrequency ablation was performed in 4 (9%) patients

81 Inside the other PV, circular radiofrequency ablation was performed using 30 W radiofr

82 ndomized, controlled trial and randomized to radiofrequency ablation with either a novel CF-sensing c

83 ial, cryoballoon ablation was noninferior to radiofrequency ablation with respect to efficacy for the

84 of FeO nanoparticles allowed for facilitated radiofrequency ablation without direct infiltration into

85 to cryoballoon ablation and 384 assigned to radiofrequency ablation).

86 After 23.8 minutes (18.1-28.5) of radiofrequency ablation, abnormal electrograms disappear

87 terial and periarterial tissue damage during radiofrequency ablation, and there is a trend toward les

88 After radiofrequency ablation, flecainide and remap confirmed

89 arterial chemoembolization, liver resection, radiofrequency ablation, percutaneous ethanol injection,

90 tes, which may be definitively eliminated by radiofrequency ablation, remains unknown.

91 lity therapy consisted of hepatic resection, radiofrequency ablation, transarterial chemoembolization

92 ed to improve success rate of point-by-point radiofrequency ablation.

93 ients with persistent AF undergoing stepwise radiofrequency ablation.

94 areas of abnormal electrograms as target for radiofrequency ablation.

95 ection accurately shows edema resulting from radiofrequency ablation.

96 t a median of 462 days (Q1-Q3=319-1026) post radiofrequency ablation.

97 fine identification of substrate targets for radiofrequency ablation.

98 lionated plexuses was performed, followed by radiofrequency ablation.

99 gard to the risk of late AF recurrence after radiofrequency ablation.

100 ead to a promising alternative to epicardial radiofrequency ablation.

101 tial impedance are poor predictors of CF for radiofrequency ablation.

102 familial AVNRT among patients who underwent radiofrequency ablation.

103 chycardia underwent catheter cryoablation or radiofrequency ablation.

104 Forty-eight radiofrequency ablations were performed.

105 e-centre cohort of consecutive patients post radiofrequency AFCA, we retrospectively derived a novel

106 urfaces, and relying on a combined action of radiofrequency and DC electric fields and specific buffe

107 the strength of wave-matter interactions for radiofrequency and optical applications.

108 Radiofrequency and static magnetic field calculations ar

109 At constant radiofrequency and time, lesion size increased significa

110 The decrease in impedance during the radiofrequency application correlated well with lesion s

111 Most of them were seen after radiofrequency application especially in 50-W ablations,

112 cedural and fluoroscopic duration as well as radiofrequency application time.

113 rditis (n = 3), heart block (n = 1, prior to radiofrequency application), and vascular access complic

114 guided iron oxide (FeO) nanoparticles during radiofrequency application.

115 catheter inserted and 160 patients underwent radiofrequency application.

116 versus 244 +/- 71 minutes; P = 0.027), fewer radiofrequency applications (19 +/- 11% versus 27 +/- 18

117 ircumferential pulmonary vein isolation, 914 radiofrequency applications (530 in sinus rhythm and 384

118 ein venography, and sheath exchange) and 333 radiofrequency applications (power setting, 30/50 W; poi

119 observed after conventional, R+10, and R+20 radiofrequency applications but were not observed after

120 R morphology achievement; and conventional: radiofrequency applications lasting 30 seconds irrespect

121 electrogram (R morphology completion) during radiofrequency applications reflects transmural lesions

122 ofrequency ablation was performed using 30 W radiofrequency applications via an irrigated 4-mm ablati

123 Jude Medical), radiofrequency applications were delivered to 3 separate

124 In 7 sheep, 60-s radiofrequency applications were performed using an irri

125 Longer radiofrequency applications were required in the MM grou

126 theter ablation, a mean number of 10.4+/-7.4 radiofrequency applications with a duration of 1099+/-10

127 njections and steam pops, whereas high-power radiofrequency applications, drag ablations, and steam p

128 electrophysiological testing with or without radiofrequency catheter ablation (RFA).

129 Radiofrequency catheter ablation (RFCA) of idiopathic ve

130 Radiofrequency catheter ablation (RFCA) of ventricular t

131 Safe and successful radiofrequency catheter ablation depends on creation of

132 f atrial fibrillation (ERAF) is common after radiofrequency catheter ablation for AF.

133 Radiofrequency catheter ablation for atrial fibrillation

134 dely varying published success rates such as radiofrequency catheter ablation for atrial fibrillation

135 cacy of sequential and simultaneous unipolar radiofrequency catheter ablation from the endocardial an

136 Radiofrequency catheter ablation has become the treatmen

137 We analyzed results of radiofrequency catheter ablation in a large cohort of pa

138 Radiofrequency catheter ablation is used to treat recurr

139 Its use during radiofrequency catheter ablation may allow the operator

140 Among studies of radiofrequency catheter ablation of atrial fibrillation,

141 When anatomic obstacles preclude radiofrequency catheter ablation of idiopathic ventricul

142 s (age, 54.7+/-11 years; 17 male) undergoing radiofrequency catheter ablation of paroxysmal atrial fi

143 decompensation (AHD) in patients undergoing radiofrequency catheter ablation of scar-related ventric

144 AHD occurs in 11% of patients undergoing radiofrequency catheter ablation of scar-related VT and

145 l AHD in 193 consecutive patients undergoing radiofrequency catheter ablation of scar-related VT.

146 Epicardial radiofrequency catheter ablation of ventricular tachycar

147 aired congenital heart disease who underwent radiofrequency catheter ablation of VT in 2 centers were

148 Radiofrequency catheter ablation reduced implantable car

149 anatomic isthmuses that can be transected by radiofrequency catheter ablation similar to isthmus bloc

150 luated long-term safety and effectiveness of radiofrequency catheter ablation using an open-irrigated

151 Bottom Line: Radiofrequency catheter ablation was found to be superio

152 h CHD and atrial tachyarrhythmias undergoing radiofrequency catheter ablation were classified accordi

153 At 24 hours after the radiofrequency catheter ablation, 20 (74%) patients had

154 uccess rates and lower recurrence rates than radiofrequency catheter ablation, better catheter stabil

155 monary artery denervation, using a prototype radiofrequency catheter and generator, or a sham procedu

156 yoablation catheter or a 4-mm open-irrigated radiofrequency catheter, via transmitral approach.

157 linear pattern over 3.5 cm with an irrigated radiofrequency catheter.

158 Ablations using open-irrigated radiofrequency catheters were performed in 18 of 25 pigs

159 ion depth and contiguity within the deployed radiofrequency circle.

160 smurality and contiguity within the deployed radiofrequency circle.

161 Compared to conventional radiofrequency, circumferential medial damage in highest

162 ical pumping (129)Xe polarizer, custom-built radiofrequency coils, and an optimized gradient-echo MR

163 gnificant advances for compact and efficient radiofrequency communication systems, as well as for ene

164 ial pulmonary vein isolation using irrigated radiofrequency current (RF) ablation and 3-dimensional m

165 Fluoroscopy and radiofrequency current delivery times were not different

166 Radiofrequency current had been used in 168 patients (70

167 ectral-analysis techniques were performed on radiofrequency data to generate parametric maps of mid-b

168 Ultrasound B-mode images and radiofrequency data were acquired from 78 patients with

169 At each examination, radiofrequency data were collected from SHAPE and subhar

170 The mean radiofrequency delivery to AF termination was 28+/-17 mi

171 ion of AF in 45 (73%) after 11 +/- 9 minutes radiofrequency delivery.

172 To evaluate the effectiveness of radiofrequency denervation added to a standardized exerc

173 ean difference in pain intensity between the radiofrequency denervation and control groups at 3 month

174 ticipants in the intervention group received radiofrequency denervation as well.

175 sacroiliac joints, or intervertebral disks, radiofrequency denervation combined with a standardized

176 Radiofrequency denervation is a commonly used treatment

177 The findings do not support the use of radiofrequency denervation to treat chronic low back pai

178 The pathology of radiofrequency-derived sympathetic renal denervation has

179 al shifts in 2-dimensional (2D) finite-pulse radiofrequency-driven recoupling NMR spectra, spatial pr

180 Radiofrequency duration during CFAE ablation was signifi

181 Procedure duration, fluoroscopy time, and radiofrequency duration were significantly longer in the

182 ns between modeled and perceived exposure to radiofrequency electromagnetic fields (RF-EMF) from mobi

183 The disruptive effect of radiofrequency electromagnetic fields is not confined to

184 Monitoring changes in non-ionizing radiofrequency electromagnetic waves as they traverse th

185 sions were created in the right atrium using radiofrequency energy (30 W/48 degrees C/17 mL/min as pr

186 Initial radiofrequency energy application rendered 74% of target

187 The use of radiofrequency energy delivered through a guidewire was

188 ransseptal needle, radiofrequency needle, or radiofrequency energy delivered through a guidewire.

189 challenging, requiring a large amount of the radiofrequency energy delivery for a successful ablation

190 Finally, a high-SAR regimen maximized the radiofrequency energy deposition (constrained by the 2-W

191 The total radiofrequency energy duration was 22+/-8 minutes for ME

192 The active electrode and its cord emit radiofrequency energy that couples (or transfers) to nea

193 ficantly shorter procedure, fluoroscopy, and radiofrequency energy times.

194 Radiofrequency energy was used for ablation in all cases

195 netic nanoparticles on tissue sensitivity to radiofrequency energy.

196 all PVs, and reablation was performed using radiofrequency energy.

197 e, and epicardial fat that limit delivery of radiofrequency energy.

198 Although chemotherapy combined with radiofrequency exposure has shown promise in cancer trea

199 hest, cervical, and head regions to maximize radiofrequency exposure up to 2 W/kg specific absorption

200 in, the application of an external low-power radiofrequency field was sufficient to remotely trigger

201 , but rather on the spatial variation of the radiofrequency field within a conductor.

202 ld, or B0, and combined transmit and receive radiofrequency field, or B1, maps were acquired, and ima

203 sla MRI-conditional by the addition of novel radiofrequency filters between the generator and commerc

204 The radiofrequency filters reduced emission into the MRI sca

205 s in the cryoballoon group and in 143 in the radiofrequency group (1-year Kaplan-Meier event rate est

206 cryoballoon group and in 51 patients in the radiofrequency group (1-year Kaplan-Meier event rate est

207 jury was significantly less in the irrigated radiofrequency group (depth of medial injury, circumfere

208 and thinning) than that in the conventional radiofrequency group (P<0.001 for circumference; P=0.003

209 the irrigated compared with the conventional radiofrequency group (P<0.001).

210 igated radiofrequency group and conventional radiofrequency group (P=0.36), there was a trend toward

211 tatistically different between the irrigated radiofrequency group and conventional radiofrequency gro

212 l damage in highest-temperature nonirrigated radiofrequency group was significantly greater (P<0.001)

213 The use of cryoenergy versus radiofrequency has not been compared yet.

214 ith metallic nanoparticles may improve local radiofrequency heating and lead to larger ablation lesio

215 Radiofrequency heating was within US Food and Drug Admin

216 Compared with radiofrequency, HIU ablation in vivo demonstrates signif

217 s observed in 4 apical attempts using needle radiofrequency, however, with no adverse effects.

218 nts after epicardial ablation, using bipolar radiofrequency instruments, required endocardial cathete

219 ctance, which may be utilized to miniaturize radiofrequency integrated circuits.

220 unication link using microscopic antennas at radiofrequency is severely limited by the requirement no

221 Radiofrequency-labeled Xe@CrAma complexes exhibit charac

222 elation between electrode-tissue contact and radiofrequency lesion generation.

223 anine heart, the relationship between CF and radiofrequency lesion size and the accuracy of predictin

224 Comparing needle versus conventional radiofrequency: lesion volume was larger (1030+/-362 ver

225 (GKS), Microvascular Decompression (MVD) and Radiofrequency Lesioning (RFL).

226 Compared with irrigated radiofrequency lesions in control swine (n = 5), HIU dem

227 DS AND In a canine model (n=10), ventricular radiofrequency lesions were created using ThermoCool Sma

228 cterize the chronological progression of the radiofrequency lesions.

229 el irrigated needle catheter to conventional radiofrequency lesions.

230 approach, we explore the effects of various radiofrequency magnetic fields on biologically plausible

231 x, 22.7; range, 9.5-77.1) were ablated using radiofrequency (n = 16) or microwave (n = 9) energy in a

232 erature setting: 50 degrees C), conventional radiofrequency (n=6 RAs, nonirrigated, temperature setti

233 setting: 65 degrees C), and high-temperature radiofrequency (n=6 RAs, nonirrigated, temperature setti

234 s) were included, and allocated to irrigated radiofrequency (n=6 RAs, temperature setting: 50 degrees

235 e was 100% for cryoenergy (n=12) and 78% for radiofrequency (n=9; P=0.08).

236 le sheath and a standard transseptal needle, radiofrequency needle, or radiofrequency energy delivere

237 the device characteristics induce a tunable radiofrequency oscillatory current that has potential fo

238 y, and only in 2 (25%) patients treated with radiofrequency (P=0.001).

239 ollow-up was 0% for cryoablation and 44% for radiofrequency (P=0.03).

240 We measure the radiofrequency performance of the switch up to 110 GHz a

241 requencies--we create wavelength-insensitive radiofrequency photonic filters with frequency selectivi

242 nt circuit via a gate and probes the qubit's radiofrequency polarizability.

243 standardization, consistency, and clarity in radiofrequency power deposition guidelines and terminolo

244 pulmonary artery, to determine the effect of radiofrequency pulmonary artery denervation on acute pul

245 rillation underwent epicardial thoracoscopic radiofrequency pulmonary vein isolation, linear ablation

246 The power of the SL radiofrequency pulse was set to 120 Hz to sensitize the

247 ns in a magnetic field after excitation by a radiofrequency pulse.

248 nterval were measured before and after every radiofrequency pulse.

249 manipulation of the nuclear spin states with radiofrequency pulses.

250 e efficacy and consistency of catheter-based radiofrequency RDN in pigs.

251 Clinical trials applying catheter-based radiofrequency renal denervation (RDN) demonstrated a fa

252 This study investigated the effects of radiofrequency renal nerve denervation (RF-RDN) on the p

253 s to investigate chronological changes after radiofrequency-renal denervation in the swine model.

254 med by two surfaces, each having an array of radiofrequency (RF) "rung" electrodes, bordered by DC "g

255 tically different types of ablation: thermal radiofrequency (RF) ablation and electroporative ablatio

256 cterize the systemic "off-target" effects of radiofrequency (RF) ablation and irreversible electropor

257 and shape of ablations created by a bipolar radiofrequency (RF) ablation device.

258 emical, clinical, and recurrence outcomes of radiofrequency (RF) ablation in treating primary aldoste

259 time to local tumor progression (LTP) after radiofrequency (RF) ablation of colorectal cancer liver

260 Saline irrigation improved the safety of radiofrequency (RF) ablation, but the thermal feedback f

261 tocellular carcinoma (HCC) development after radiofrequency (RF) ablation, partial surgical hepatecto

262 nical success rates and clinical outcomes of radiofrequency (RF) ablation, Yan et al validated the us

263 um et al ( 1 ) were able to demonstrate that radiofrequency (RF) ablation-induced liver regeneration

264 cacy and procedural safety of open irrigated radiofrequency (RF) and cryoballoon catheter (CB) ablati

265 scans and neutral loss scans under constant radiofrequency (rf) conditions: (1) in the latter experi

266 rdial substrate elimination with endocardial radiofrequency (RF) delivery in patients with scar-relat

267 bined and differential biokinetic effects of radiofrequency (RF) electric-field hyperthermia as an ad

268 gh-intensity short-wave capacitively coupled radiofrequency (RF) electric-fields may reach inaccessib

269 Radiofrequency (RF) energy can be emitted into the skin,

270 cation of a tissue site with the delivery of radiofrequency (RF) energy for ablation, high-spatial-re

271 However, residual radiofrequency (RF) field inhomogeneities are often unav

272 ine the feasibility of using intraesophageal radiofrequency (RF) hyperthermia to enhance local chemot

273 ease in CT patient dose was assessed, and MR radiofrequency (RF) interference was monitored.

274 long-lived singlet (LLS) form after suitable radiofrequency (rf) pulses.

275 Previous CEST studies have been limited to radiofrequency (rf) saturation transfer or excitation tr

276 ntoms were executed to acquire backscattered radiofrequency (RF) signals, which were processed to exp

277 t on a clever magnetic resonance (MR)-guided radiofrequency (RF) system that enables focal hypertherm

278 al method for cancer therapy, a non-invasive radiofrequency (RF) treatment, which is currently being

279 y air (LHA), 50 degrees C and 28-30% RH; and radiofrequency (RF), 50 degrees C, 56-60% RH) were inves

280 clinical use; however, PET stability during radiofrequency (RF)-intensive and gradient-intensive seq

281 We examined whether treatment with radiofrequency (RF)-RDN would protect the heart against

282 The heat results from focusing energy in the radiofrequency spectrum through a needle.

283 alues were acquired with a three-dimensional radiofrequency spoiled gradient-recalled-echo sequence.

284 ive devices are also a leading contender for radiofrequency switch applications.

285 Here we propose and demonstrate a nanoscale radiofrequency switch based on a memristive device.

286 Radiofrequency switches are critical components in wirel

287 For each radiofrequency tag within the circle, we collected data

288 Linear ablation required significantly less radiofrequency time than focal ablation (56+/-11 versus

289 acute AF termination with significantly less radiofrequency time.

290 Compared with the validation set, radiofrequency times (49 +/- 21 min vs. 85 +/- 34.5 min;

291 yscale intravascular ultrasound (IVUS); IVUS radiofrequency tissue characterization; optical coherenc

292 Antennas, from radiofrequencies to optics, are bound to transmit and re

293 ion trap and retrapped in a cryogenic linear radiofrequency trap by means of sympathetic motional coo

294 ural outcomes in a porcine model whether the radiofrequency treatment is delivered within, adjacent,

295 Prior to biopsy, additional radiofrequency US images were obtained, and a 3-second c

296 3-dimensional imaging, and type of ablation (radiofrequency versus cryoablation).

297 ryoablation was performed in 2 patients, and radiofrequency was used in the remaining 3 cases.

298 ng and ablating the renal artery nerves with radiofrequency waves without permanent implantation.

299 ossibilities for controlling localization at radiofrequencies, which can benefit applications such as

300 Insulated radiofrequency wires were positioned 2 to 5 mm from the