Enhanced Radiofrequency Ablation With Magnetically Directed Metallic Nanoparticles

Nguyen, Duy T.; Tzou, Wendy S.; Zheng, Lijun; Barham, Waseem; Schuller, Joseph L.; Shillinglaw, Benjamin; Quaife, Robert A.; Sauer, William H.

doi:10.1161/circep.115.003820

Cited by 23 publications

(5 citation statements)

References 19 publications

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“…This study builds upon prior research into varying certain biophysical parameters to facilitate RF ablation . In this case, by altering environmental impedance, which is most pertinent for epicardial ablation, we demonstrate that RF ablation can be augmented.…”

Section: Discussionmentioning

confidence: 84%

Effect of Environmental Impedance Surrounding a Radiofrequency Ablation Catheter Electrode on Lesion Characteristics

Nguyen¹,

Nguyen²,

Zheng³

et al. 2017

Cardiovasc electrophysiol

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Environmental Impedance and Ablation Lesions Introduction The electrical conductivity of the environment surrounding a catheter electrode may affect radiofrequency (RF) current. A higher impedance environment enveloping a catheter tip can be insulating and thus direct RF preferentially into targeted cardiac tissue. We sought to evaluate whether different environmental impedances will affect RF lesions. Methods An ex vivo model using bovine myocardium, load cell, and 4 mm ablation catheter was tested using a circulating bath of normal (0.9%; NS) and half normal (0.45%; HNS) saline. Ablations were performed at 50 W. In addition, using a porcine thigh prep model, warmed heparinized blood was circulated at 350 mL/min. Prior to ablation, circulating bath impedance was altered with NS and HNS. RF was applied at 30 W with a force‐sensing, open irrigated catheter. Results Ex vivo RF with a 4 mm catheter using an HNS bath led to larger lesions, 286.7 ± 64 mm³ versus 198.9 ± 61 mm³ (P < 0.001), compared to an NS bath. In the porcine thigh prep, for RF in the high impedance (HNS) bath, initial and final impedances were higher, and the measured impedance reductions during ablation were larger, compared to RF in the low impedance (NS) bath. In vivo ablation within a higher impedance bath created larger lesion sizes, compared to a lower impedance bath, 222.4 ± 63.4 mm3 versus 135.4 ± 61.7 mm3 (P < 0.001). Conclusions A higher impedance surrounding an RF catheter can facilitate more effective RF and thereby increase lesion size. This may have implications for RF safety and efficacy, especially in the epicardium where pericardial fluid can be altered with infusion of ionic solutions.

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Section: Discussionmentioning

confidence: 84%

Effect of Environmental Impedance Surrounding a Radiofrequency Ablation Catheter Electrode on Lesion Characteristics

Nguyen¹,

Nguyen²,

Zheng³

et al. 2017

Cardiovasc electrophysiol

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“…While not immediately therapeutically relevant, using these VLPs for diagnostics could also greatly improve patient quality‐of‐life by detecting the disease at an earlier stage and more accurately assessing therapeutic efficacy. Furthermore, iron oxide NPs have the possibility of being used for radio frequency ablation to actively destroy targeted tumor cells …”

Section: Design Considerations In Developing Vlps For Targeted Deliverymentioning

confidence: 99%

Virus‐like particles: Next‐generation nanoparticles for targeted therapeutic delivery

Rohovie

Nagasawa

Swartz

2017

Bioengineering & Transla Med

295

290

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Most drug therapies distribute the agents throughout the entire body, even though the drugs are typically only needed at specific tissues. This often limits dosage and causes discomfort and harmful side‐effects. Significant research has examined nanoparticles (NPs) for use as targeted delivery vehicles for therapeutic cargo, however, major clinical success has been limited. Current work focuses mainly on liposomal and polymer‐based NPs, but emerging research is exploring the engineering of viral capsids as noninfectious protein‐based NPs—termed virus‐like particles (VLPs). This review covers the research that has been performed thus far and outlines the potential for these VLPs to become highly effective delivery vehicles that overcome the many challenges encountered for targeted delivery of therapeutic cargo.

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“…Some have advocated the opposite approach, of mechanically displacing the esophagus away from the ablation catheter to minimize thermal injury . A “lightning rod” effect has recently been described wherein metal objects in proximity to radiofrequency energy increase tissue heating . Does the exposed metal of the ablation catheter's tip and ring electrodes similarly increase tissue cooling during cryoablation?…”

Section: Editorial Commentmentioning

confidence: 99%

Recipe for Ablation Success: Don't Cook the Goose

Frankel

2016

Cardiovasc electrophysiol

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Enhanced Radiofrequency Ablation With Magnetically Directed Metallic Nanoparticles

Cited by 23 publications

References 19 publications

Effect of Environmental Impedance Surrounding a Radiofrequency Ablation Catheter Electrode on Lesion Characteristics

Effect of Environmental Impedance Surrounding a Radiofrequency Ablation Catheter Electrode on Lesion Characteristics

Virus‐like particles: Next‐generation nanoparticles for targeted therapeutic delivery

Recipe for Ablation Success: Don't Cook the Goose

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