ライフサイエンスコーパス: radiofrequency

1 the left ventricle with either cryoenergy or radiofrequency.

2 oups with evidence of nerve damage only with radiofrequency.

3 expense of incomplete SVC encirclement with radiofrequency.

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

5 Atrioventricular nodal radiofrequency ablation (AVNA) with permanent ventricula

6 actory paroxysmal AF to contact force-guided radiofrequency ablation (CF-RF; n=115), 4-minute cryobal

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

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

9 nd collateral injury compared with irrigated radiofrequency ablation (IRF).

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

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

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

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

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

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

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

17 Background Percutaneous radiofrequency ablation (RFA) is effective in the manage

18 safety and efficacy of one- vs. two-session radiofrequency ablation (RFA) of parathyroid hyperplasia

19 Radiofrequency ablation (RFA) of ventricular tachycardia

20 three-dimensional (3D)-navigated multiprobe radiofrequency ablation (RFA) with intraprocedural image

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

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

23 ergy that may provide safety advantages over radiofrequency ablation (RFA).

24 pared the effects of newer biphasic PFA with radiofrequency ablation (RFA).

25 linical outcomes of multi-probe stereotactic radiofrequency ablation (SRFA) for very large (>=8 cm) p

26 d quality of life (HRQoL) after stereotactic radiofrequency ablation (SRFA) of liver tumors and ident

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

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

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

30 low for programmable electrical stimulation, radiofrequency ablation and irreversible electroporation

31 d superior vena cava (SVC) isolation between radiofrequency ablation and PFA waveforms.

32 ed with a high rate of VT termination during radiofrequency ablation as well as noninducibility at st

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

34 lar tachycardia had unsuccessful response to radiofrequency ablation at critical sites (number of app

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

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

37 f PVs and requiring touch-up with a standard radiofrequency ablation catheter in 22.7% (45/198) PVs.

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

39 to assess the safety and outcome of a novel radiofrequency ablation catheter that used an extendable

40 Radiofrequency ablation depth can be inadequate to reach

41 Radiofrequency ablation eliminated AES leading to ECG no

42 peutic vagal denervation through endocardial radiofrequency ablation for these cases.

43 Radiofrequency ablation for ventricular arrhythmias is l

44 There is paucity of data regarding radiofrequency ablation for ventricular tachycardia (VT)

45 Radiofrequency ablation from the first suitable site was

46 in the ultrasound ablation group than in the radiofrequency ablation group of the main renal artery (

47 significant difference was found between the radiofrequency ablation groups (-8.3+/-11.7 mm Hg for ad

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

49 in 7 and 7 swine sequentially and irrigated radiofrequency ablation in 3 swine.

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

51 Dominant frequency decreased after radiofrequency ablation in both cases and VF terminated

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 lation (PFA) provides safety advantages over radiofrequency ablation in treating atrial fibrillation.

56 Radiofrequency ablation is a commonly used clinical proc

57 Conclusion Bone tumor radiofrequency ablation is safe, with a low rate of majo

58 Contact force-guided radiofrequency ablation is the dominant technique and pu

59 Radiofrequency ablation is the most common method, and c

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

61 Background Radiofrequency ablation of intramural ventricular substr

62 Contact force-guided radiofrequency ablation of persistent atrial fibrillatio

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

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

65 Percutaneous radiofrequency ablation of the CB abolished the adenosin

66 rteries only, whereas a combined approach of radiofrequency ablation of the main arteries, accessorie

67 y main renal artery ablation, 39 to combined radiofrequency ablation of the main artery and branches,

68 asound-based RDN was found to be superior to radiofrequency ablation of the main renal arteries only,

69 ardioneuroablation, the vagal denervation by radiofrequency ablation of the neuromyocardial interface

70 Catheter radiofrequency ablation of ventricular arrhythmias (VAs)

71 ntional catheter ablation, intramural needle radiofrequency ablation offers significant arrhythmia co

72 and either temperature-controlled irrigated radiofrequency ablation or PFA anteriorly (RF/PF or PF/P

73 nitinol tip is able to deliver either focal radiofrequency ablation or PFA lesions, each in 2 to 5 s

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

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

76 AES elimination by radiofrequency ablation results in ECG normalization and

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

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

79 cal model, a novel, high-current low-density radiofrequency ablation strategy created contiguous and

80 ed lung denervation (TLD) is a bronchoscopic radiofrequency ablation therapy for chronic obstructive

81 Radiofrequency ablation was performed during VF in 2 pat

82 Radiofrequency ablation was performed in a consecutive g

83 Radiofrequency ablation was used to create epicardial co

84 patients with atrial fibrillation undergoing radiofrequency ablation were included.

85 Radiofrequency ablation with contact force sensing was t

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

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

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

89 After radiofrequency ablation, flecainide and remap confirmed

90 After a failed response to radiofrequency ablation, impedance was modulated by addi

91 density to increase the therapeutic range of radiofrequency ablation.

92 ctive technique for increasing the effect of radiofrequency ablation.

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

94 ection accurately shows edema resulting from radiofrequency ablation.

95 lionated plexuses was performed, followed by radiofrequency ablation.

96 ear lesions were created using either PFA or radiofrequency ablation.

97 familial AVNRT among patients who underwent radiofrequency ablation.

98 chycardia underwent catheter cryoablation or radiofrequency ablation.

99 ients with persistent AF undergoing stepwise radiofrequency ablation.

100 areas of abnormal electrograms as target for radiofrequency ablation.

101 s, posterior mitral line was performed using radiofrequency ablation.

102 lsed-field ablation), expandable lattice-tip radiofrequency ablation/electroporation, and ultra-low t

103 and had failed multiple antiarrhythmics and radiofrequency ablations.

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

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

106 Radiofrequency and static magnetic field calculations ar

107 Both radiofrequency and ultrasound endovascular renal sympath

108 h the external environment such as solar and radiofrequency, and the human body itself such as body h

109 edictive of rapid VT termination by a single radiofrequency application (r=-0.41, P=0.023).

110 The median total radiofrequency application duration was 29 min (21-38 mi

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

112 versus 102 minutes, P<0.001), shorter total radiofrequency application time (16 versus 26 minutes, P

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

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

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

116 Ventricular radiofrequency applications of 500 J (25 W.20 s versus 5

117 Lesion index values obtained during 40 W radiofrequency applications reliably monitor safe and ef

118 Atrial radiofrequency applications were stopped 2 s (study grou

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

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

121 The compliant radiofrequency balloon can directionally tailor energy d

122 electroanatomical mapping, a novel compliant radiofrequency balloon catheter with 10 irrigated, flexi

123 ion patients underwent PV isolation with the radiofrequency balloon delivered over-the-wire with a de

124 ity, safety, and short-term efficacy of this radiofrequency balloon in a multicenter, single-arm, fir

125 The radiofrequency balloon isolated all targeted PVs (152/15

126 lmonary vein isolation using a contact force radiofrequency catheter (Thermocool SmartTouch, Biosense

127 idirectional mitral isthmus (MI) block using radiofrequency catheter ablation (RFCA) alone is challen

128 Radiofrequency catheter ablation (RFCA) of idiopathic ve

129 Safe and successful radiofrequency catheter ablation depends on creation of

130 Radiofrequency catheter ablation for atrial fibrillation

131 Radiofrequency catheter ablation has become the treatmen

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

133 Radiofrequency catheter ablation is used to treat recurr

134 Its use during radiofrequency catheter ablation may allow the operator

135 When anatomic obstacles preclude radiofrequency catheter ablation of idiopathic ventricul

136 Radiofrequency catheter ablation of the apical LVS-VAs w

137 Radiofrequency catheter ablation reduced implantable car

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

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

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

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

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

143 A novel radiofrequency catheter with an expandable lattice elect

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

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

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

147 ion depth and contiguity within the deployed radiofrequency circle.

148 smurality and contiguity within the deployed radiofrequency circle.

149 lmonary vein narrowing was noted only in the radiofrequency cohort.

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

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

152 hazard ratio, 2.78 [95% CI, 1.063-4.74]) and radiofrequency consolidation time < 90 seconds (hazard r

153 In our institutional experience, radiofrequency consolidation time <90 seconds after abla

154 f full power radiofrequency lesions (<50 W), radiofrequency consolidation time <90 seconds and the us

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

156 vein (PV) isolation using cryoballoon versus radiofrequency current (RFC) ablation in patients with d

157 Fluoroscopy and radiofrequency current delivery times were not different

158 Radiofrequency current had been used in 168 patients (70

159 d evaluate deep learning algorithms that use radiofrequency data for NAFLD assessment, with MRI-deriv

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

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

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

163 yocardial substrates requires catheter-based radiofrequency delivery at the root of a great artery.

164 cy parameters associated with catheter-based radiofrequency delivery at the root of the aorta and pul

165 tact-force, and time) monitoring during 60-s radiofrequency delivery with an open-irrigated tip cathe

166 d ablation, obviating the need for extensive radiofrequency delivery.

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

168 confirmed by rapid termination of VT during radiofrequency delivery.

169 ess of conductive heating produced by nearby radiofrequency delivery.

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

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

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

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

174 Radiofrequency denervation is a commonly used treatment

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

176 tion, and testing of a safe, and easy to use radiofrequency device to detect osteoporotic bone condit

177 et LSI of 5 when using 20 W despite a longer radiofrequency duration.

178 Significantly, shorter radiofrequency durations were required to achieve the ta

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

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

181 tal versus left sided), cryoablation (versus radiofrequency), empirical ablation, the lack of full po

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

183 are concerns about the potential for greater radiofrequency energy administered to the fetus at 3.0-T

184 meters that characterize patient exposure to radiofrequency energy and changes in device and lead par

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

186 High-current short-duration radiofrequency energy delivery has potential advantages

187 is study was to examine a novel strategy for radiofrequency energy delivery using a new electrode des

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

189 re was no evidence of an association between radiofrequency energy deposition, dB/dt, or scan duratio

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

191 en delivering biphasic pulsed field (PF) and radiofrequency energy from a 9-mm lattice-tip catheter.

192 Radiofrequency energy is delivered simultaneously from a

193 trial fibrillation (AF) using point-by-point radiofrequency energy or single-application one-shot bal

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

195 n irrigated-tip ablation catheter delivering radiofrequency energy to discrete sites in a spiral patt

196 rgery refers to a family of procedures using radiofrequency energy to vaporize and traverse or lacera

197 Radiofrequency energy was used for ablation in all cases

198 fety of PFA and the years of experience with radiofrequency energy) or an entirely PF approach.

199 iving 40 W (n=9), 50 W (n=10), or 60 W (n=9) radiofrequency energy, and acute (n=22) and chronic (n=6

200 netic nanoparticles on tissue sensitivity to radiofrequency energy.

201 innovation in our experiment-and measure the radiofrequency excitation spectrum as a function of exte

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

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

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

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

206 The radiofrequency filters reduced emission into the MRI sca

207 ion and linear ablation, (2) combined PF and radiofrequency focal ablation, and (3) PF delivered dire

208 a collection on low-concentration samples by radiofrequency gating, enabling rapid 1D NMR spectral ac

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

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

211 i-Fi communications have remained elusive to radiofrequency harvesters (that is, rectennas) made of f

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

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

214 Radiofrequency heating was within US Food and Drug Admin

215 ced degrees of invasiveness including laser, radiofrequency, high frequency focused ultrasound, cryol

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

217 solution is not sufficient to guide discrete radiofrequency lesion delivery via catheter ablation wit

218 , empirical ablation, the lack of full power radiofrequency lesions (<50 W), radiofrequency consolida

219 f contact-forces correlated with the size of radiofrequency lesions (R(2)=0.57; P=0.03), with no angi

220 Intercaval radiofrequency lesions created a substrate for sustained

221 Less than 50% of the radiofrequency lesions reached the target LSI of 5 when

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

223 PF(HD) and radiofrequency lesions were delivered in 4 and 1 swine f

224 eriorly and >400 posteriorly) point-by-point radiofrequency lesions.

225 cterize the chronological progression of the radiofrequency lesions.

226 in quantum physical hypotheses, a weak 7 MHz radiofrequency magnetic field significantly reduces the

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

228 e implanted device and static, gradient, and radiofrequency magnetic fields.

229 Of these, 39 were randomly assigned to radiofrequency main renal artery ablation, 39 to combine

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

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

232 fibrillation using thermal energies such as radiofrequency or cryothermy is associated with indiscri

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

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

235 ) group (18/18 PFA(Bi), 10/18 PFA(Mono), 3/6 radiofrequency, P=0.002).

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

237 In comparison, radiofrequency+PF(HD) sections revealed similar transmur

238 F(LD)), 6 mitral (PF(HD)), and 6 roof lines (radiofrequency+PF(HD)).

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

240 ablation protocols combining higher or lower radiofrequency power and different target LSI values.

241 d and randomized to one of 4 combinations of radiofrequency power and target LSI for ablation on the

242 andomized controlled study shows that a 45 W radiofrequency power CLOSE protocol in patients with par

243 Forces on metallic implants and radiofrequency power deposition and heating are safety c

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

245 The optimal radiofrequency power remains unknown.

246 terations were significantly associated with radiofrequency power, although chronic assessment reveal

247 Low radiofrequency powers are commonly used on the posterior

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

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

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

251 nterval were measured before and after every radiofrequency pulse.

252 manipulation of the nuclear spin states with radiofrequency pulses.

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

254 requency RDN of the main renal arteries; (2) radiofrequency RDN of the main renal arteries, side bran

255 manner to receive either treatment with (1) radiofrequency RDN of the main renal arteries; (2) radio

256 This can be achieved using radiofrequency reflectometry on a single gate electrode

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

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

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

260 method to commercial cells has been that the radiofrequency, required for NMR excitation and detectio

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

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

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

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

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

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

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

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

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

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

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

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

273 uring MRI due to interaction with excitatory radiofrequency (RF) fields.

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

275 y experimental observations that exposure to radiofrequency (RF) in the MHz range disrupt bird orient

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

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

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

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

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

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

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

283 inflammation, and fibrosis were seen in all radiofrequency sections, as compared with no PF sections

284 ion formation using a heated saline-enhanced radiofrequency (SERF) needle-tip catheter, compared with

285 Using radiofrequency spectroscopy, we probed the energy, spect

286 This novel radiofrequency system produces larger ventricular lesion

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

288 on time (16 versus 26 minutes, P<0.001), and radiofrequency time per application (26 versus 37 s ante

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

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

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

292 The inclusion of radiofrequency transmission data does add supplementary

293 te free precession sequence with an external radiofrequency transmit field, or B(1)(+), correction wa

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

295 Conclusion Deep learning algorithms using radiofrequency ultrasound data are accurate for diagnosi

296 Background Radiofrequency ultrasound data from the liver contain ri

297 on terminated PersAF in 92.3% of procedures (radiofrequency until termination, 16.9 [IQR, 9.2-35.8] m

298 nes (atrial and ventricular septal puncture, radiofrequency valve repair, transcaval access, Potts an

299 3-dimensional imaging, and type of ablation (radiofrequency versus cryoablation).

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