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Статті в журналах з теми "Remote magnetic navigation"

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Автор: Grafiati
Опубліковано: 14 березня 2023

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1

Di Biase, Luigi, Tamer S. Fahmy, Dimpi Patel, Rong Bai, Kenneth Civello, Oussama M. Wazni, Mohamed Kanj, et al. "Remote Magnetic Navigation." Journal of the American College of Cardiology 50, no. 9 (August 2007): 868–74. http://dx.doi.org/10.1016/j.jacc.2007.05.023.

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2

Da Costa, Antoine, Patrick Lafond, Cécile Romeyer-Bouchard, Alexie Gate-Martinet, Laurence Bisch, Abdallah Nadrouss, and Karl Isaaz. "Remote magnetic navigation and arrhythmia ablation." Archives of Cardiovascular Diseases 105, no. 8-9 (August 2012): 446–53. http://dx.doi.org/10.1016/j.acvd.2012.02.009.

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3

Szili-Torok, Tamas, and Ferdi Akca. "Remote magnetic navigation in atrial fibrillation." Expert Review of Medical Devices 9, no. 3 (May 2012): 249–55. http://dx.doi.org/10.1586/erd.12.11.

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4

Dos Reis, Jesús E., Paul Soullié, Alberto Battaglia, Gregory Petitmangin, Philip Hoyland, Laurent Josseaume, Christian de Chillou, Freddy Odille, and Jacques Felblinger. "Electrocardiogram Acquisition During Remote Magnetic Catheter Navigation." Annals of Biomedical Engineering 47, no. 4 (January 30, 2019): 1141–52. http://dx.doi.org/10.1007/s10439-019-02214-3.

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5

Suman-Horduna, Irina, Sonya V. Babu-Narayan, and Sabine Ernst. "Remote Navigation for Complex Arrhythmia." Arrhythmia & Electrophysiology Review 2, no. 1 (2013): 53. http://dx.doi.org/10.15420/aer.2013.2.1.53.

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Анотація:
Magnetic navigation has been established as an alternative to conventional, manual catheter navigation for invasive electrophysiology interventions about a decade ago. Besides the obvious advantage of radiation protection for the operator who is positioned remotely from the patient, there are additional benefits of steering the tip of a very floppy catheter. This manuscript reviews the published evidence from simple arrhythmias in patients with normal cardiac anatomy to the most complex congenital heart disease. This progress was made possible by the introduction of improved catheters and most importantly irrigated-tip electrodes.
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6

Abraham, P., L. D. Abkenari, E. C. H. Peters, and T. Szili-Torok. "Feasibility of remote magnetic navigation for epicardial ablation." Netherlands Heart Journal 21, no. 9 (May 31, 2013): 391–95. http://dx.doi.org/10.1007/s12471-013-0431-x.

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7

Tavallaei, M. A., Y. Thakur, S. Haider, and M. Drangova. "A Magnetic-Resonance-Imaging-Compatible Remote Catheter Navigation System." IEEE Transactions on Biomedical Engineering 60, no. 4 (April 2013): 899–905. http://dx.doi.org/10.1109/tbme.2012.2229709.

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8

Ernst, S., F. Ouyang, and C. Linder. "Initial experience with remote catheter ablation using a novel magnetic navigation system. Magnetic remote catheter ablation." ACC Current Journal Review 13, no. 6 (June 2004): 51–52. http://dx.doi.org/10.1016/j.accreview.2004.06.039.

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9

Wu, Y., K. L. Li, J. Zheng, C. Y. Zhang, X. Y. Liu, Z. M. Cui, Z. M. Yu, R. X. Wang, and W. Wang. "Remote magnetic navigation vs. manual navigation for ablation of ventricular tachycardia: a meta-analysis." Netherlands Heart Journal 23, no. 10 (July 28, 2015): 485–90. http://dx.doi.org/10.1007/s12471-015-0734-1.

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10

Beloborodov, V. V., V. V. Shabanov, N. A. Yelemessov, A. G. Filippenko, I. L. Mikheenko, E. V. Fisher, and A. B. Romanov. "Remote magnetic navigation for treatment of patients with atrial fibrillation." Patologiya krovoobrashcheniya i kardiokhirurgiya 26, no. 1 (March 31, 2022): 24. http://dx.doi.org/10.21688/1681-3472-2022-1-24-31.

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Анотація:
<p>Atrial fibrillation (AF) remains an important medical and social health problem occupying a leading position among all cardiac arrhythmias in clinical practice. AF increases overall mortality by 1.9 times and the risk of stroke by 5 times, leads to disability among the working-age population, and reduces the quality of life.<br />Pulmonary veins isolation is the main approach in the treatment of AF symptomatic patients who are resistant to antiarrhythmic therapy. However, the use of this technique is associated with the need for long-term use of fluoroscopy and monitoring of the contact force of the ablation catheter with the heart tissue for an effective and safe exposure on the arrhythmia substrate. In addition, the complication rate can reach up to 5% even when using non-fluoroscopic navigation systems.<br />Over the past decade, robotic magnetic navigation was established as a safe and effective technology in the treatment of patients with different cardiac arrhythmias. The advantages of this technology are the flexibility and mobility of the ablation catheter to reach difficult areas during ablation procedure, as well as high efficiency and safety, with a low fluoroscopy exposure time. This review analyses the current literature and documents the experience of using robotic magnetic navigation for the treatment of patients with different forms of AF. We conducted searches on Scopus, Web of Science databases and PubMed.<br />The reviewed studies demonstrated that the use of robotic magnetic navigation is a safe and highly effective method of treating patients with AF. It also helps to reduce the time of fluoroscopy during ablation procedure.</p><p>Received 26 August 2021. Revised 21 September 2021. Accepted 22 September 2021.</p><p><strong>Funding:</strong> This work was carried out within the framework of the state task of Ministry of Health of Russian Federation No. 121031300225-8.</p><p><strong>Conflict of interest:</strong> The authors declare no conflict of interest.</p><p><strong>Contribution of the authors</strong><br />Conception and study design: V.V. Beloborodov, A.G. Filippenko, A.B. Romanov<br />Data collection and analysis: V.V. Beloborodov, N.А. Yelemessov, E.V. Fisher, A.G. Filippenko, V.V. Shabanov, A.B. Romanov<br />Statistical analysis: A.B. Romanov, I.L. Mikheenko<br />Drafting the article: V.V. Beloborodov, A.G. Filippenko, A.B. Romanov<br />Critical revision of the article: A.B. Romanov, I.L. Mikheenko, A.G. Filippenko, V.V. Shabanov<br />Final approval of the version to be published: V.V. Beloborodov, V.V. Shabanov, N.А. Yelemessov, A.G. Filippenko, I.L. Mikheenko, E.V. Fisher, A.B. Romanov</p>
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11

Dang, S., P. K. Jacobsen, S. Pehrson, and X. Chen. "P461Catheter ablation of idiopathic ventricular fibrillation using remote magnetic navigation." EP Europace 20, suppl_1 (March 1, 2018): i92. http://dx.doi.org/10.1093/europace/euy015.270.

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12

Jilek, C., C. Lennerz, B. Stracke, H. Badran, V. Semmler, T. Reents, S. Ammar, et al. "Forces on cardiac implantable electronic devices during remote magnetic navigation." Clinical Research in Cardiology 102, no. 3 (September 29, 2012): 185–92. http://dx.doi.org/10.1007/s00392-012-0513-6.

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13

de Groot, N. M. S. "Remote magnetic catheter navigation: more than just bells and whistles ?" Netherlands Heart Journal 21, no. 6 (May 8, 2013): 294–95. http://dx.doi.org/10.1007/s12471-013-0429-4.

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14

Hongtao, Yuan, Zhang Yuxiao, Lan Kai, Peng Li, Xue Qiao, and Lu Caiyi. "GW28-e1223 Remote magnetic navigation vs. manual navigation for catheter ablation of paroxysmal atrial fibrillation." Journal of the American College of Cardiology 70, no. 16 (October 2017): C127. http://dx.doi.org/10.1016/j.jacc.2017.07.457.

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15

K. Mischke, C. Knackstedt, M. Schmid, N. Hatam, M. Becker, J. Spillner, K. Fache, M. Kelm, and P. Schauerte. "Initial experience with remote magnetic navigation for left ventricular lead placement." Acta Cardiologica 64, no. 4 (August 31, 2009): 467–75. http://dx.doi.org/10.2143/ac.64.4.2041611.

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16

AAGAARD, PHILIP, ANDREA NATALE, DAVID BRICENO, HIROSHI NAKAGAWA, SANGHAMITRA MOHANTY, CAROLA GIANNI, J. DAVID BURKHARDT, and LUIGI DI BIASE. "Remote Magnetic Navigation: A Focus on Catheter Ablation of Ventricular Arrhythmias." Journal of Cardiovascular Electrophysiology 27, S1 (March 2016): S38—S44. http://dx.doi.org/10.1111/jce.12938.

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17

NAKAGAWA, HIROSHI, and ANDREA NATALE. "Catheter Ablation of Complex Tachyarrhythmias Using Remote Magnetic Catheter Navigation System." Journal of Cardiovascular Electrophysiology 27, S1 (March 2016): S3—S4. http://dx.doi.org/10.1111/jce.12949.

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18

THORNTON, ANDREW S., and LUC JORDAENS. "A Left-Sided Accessory Pathway Revisited with Remote Retrograde Magnetic Navigation." Pacing and Clinical Electrophysiology 30, no. 4 (April 2007): 573–76. http://dx.doi.org/10.1111/j.1540-8159.2007.00712.x.

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19

Arnoult, Mathieu, Decebal Gabriel Latcu, Philippe Ricard, and Nadir Saoudi. "221 Remote magnetic navigation in catheter ablation of persistent atrial fibrillation." Archives of Cardiovascular Diseases Supplements 4, no. 1 (January 2012): 70. http://dx.doi.org/10.1016/s1878-6480(12)70617-1.

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20

Sodhi, Sandeep, Curtis Steyers, Geoffrey Orme, Jose Betancourt, Timothy Smith, Amit Noheria, Phillip Cuculich, and Daniel Cooper. "ACUTE AND LONGITUDINAL EFFICACY WITH REMOTE MAGNETIC NAVIGATION FOR PVC ABLATION." Journal of the American College of Cardiology 73, no. 9 (March 2019): 457. http://dx.doi.org/10.1016/s0735-1097(19)31065-4.

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21

Schilling, Richard. "Utilisation of Robotic Navigation Systems in the Treatment of Atrial Fibrillation." European Cardiology Review 6, no. 3 (2010): 60. http://dx.doi.org/10.15420/ecr.2010.6.3.60.

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Анотація:
Atrial fibrillation (AF) is linked to an increased risk of adverse cardiovascular events. While rhythm control with antiarrhythmic drugs (AADs) is a common strategy for managing patients with AF, catheter ablation may be a more efficacious and safer alternative to AADs for sinus rhythm control. Conventional catheter ablation has been associated with challenges during the arrhythmia mapping and ablation stages; however, the introduction of two remote catheter navigation systems (a robotic and a magnetic navigation system) may potentially overcome these challenges. Initial clinical experience with the robotic navigation system suggests that it offers similar procedural times, efficacy and safety to conventional manual ablation. Furthermore, it has been associated with reduced fluoroscopy exposure to the patient and the operator as well as a shorter fluoroscopy time compared with conventional catheter ablation. In the future, the remote navigation systems may become routinely used for complex catheter ablation procedures.
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22

Burylin, Ia V. "Interface for indication and remote control of an unmanned vessel in automatic and manual modes." Journal of Physics: Conference Series 2061, no. 1 (October 1, 2021): 012074. http://dx.doi.org/10.1088/1742-6596/2061/1/012074.

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Abstract The article proposes a method for organizing the communication interface of an unmanned vessel and its operator. The interface contains manual controls for the course and speed of the vessel by regulating the angle of the rudder blade shift and the speed of rotation of the propeller shaft, an automatic system for keeping the vessel on a given trajectory for the purpose of navigating the vessel in automatic and manual modes. The interface comprises a system for obtaining filtration, storing the required kinematic and navigation data for identifying mathematical models of the vessel’s movement and the functioning of the autopilot. The interface allows adjusting the PID controller for automatic guidance of the vessel along the trajectory in real time to optimize automatic control, to correct the readings of the GPS and the Earth’s magnetic field sensors, to calibrate the Earth’s magnetic field sensor. The interface includes graphic and digital fields for displaying kinematic and navigation data on the vessel, autopilot and information on the operation of the operator-vessel complex. The interface allows the exchange of data between the operator and the vessel by means of a data transfer protocol via TCP-IP stack protocols on the radio frequencies of public Wi-Fi networks. The interface is created by means of appdesigner tools on the MATLAB platform.
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23

Jez, Jiri, Tomasz Jadczyk, Frantisek Lehar, Martin Pesl, Tomas Kulik, Silvie Belaskova, Filip Soucek, Guido Caluori, Wojciech Wojakowski, and Zdenek Starek. "Comparison of atrial fibrillation ablation efficacy using remote magnetic navigation vs. manual navigation with contact-force control." Biomedical Papers 164, no. 4 (December 14, 2020): 387–93. http://dx.doi.org/10.5507/bp.2019.045.

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24

Jia, Kangni, Qi Jin, Ao Liu, and Liqun Wu. "Remote magnetic navigation versus manual control navigation for atrial fibrillation ablation: A systematic review and meta-analysis." Journal of Electrocardiology 55 (July 2019): 78–86. http://dx.doi.org/10.1016/j.jelectrocard.2019.05.001.

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25

Saoudi, Nadir. "Remote Magnetic Navigation Combined with 3-D Electroanatomical Mapping and Ablation System." European Cardiology Review 3, no. 1 (2007): 46. http://dx.doi.org/10.15420/ecr.2007.0.1.46.

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26

KIM, ALBERT M., MINTU TURAKHIA, JONATHAN LU, NITISH BADHWAR, BYRON K. LEE, RANDALL J. LEE, GREGORY M. MARCUS, ZIAN H. TSENG, MELVIN SCHEINMAN, and JEFFREY E. OLGIN. "Impact of Remote Magnetic Catheter Navigation on Ablation Fluoroscopy and Procedure Time." Pacing and Clinical Electrophysiology 31, no. 11 (November 2008): 1399–404. http://dx.doi.org/10.1111/j.1540-8159.2008.01202.x.

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27

BRADFIELD, JASON, RODERICK TUNG, RAVI MANDAPATI, NOEL G. BOYLE, and KALYANAM SHIVKUMAR. "Catheter Ablation Utilizing Remote Magnetic Navigation: A Review of Applications and Outcomes." Pacing and Clinical Electrophysiology 35, no. 8 (April 17, 2012): 1021–34. http://dx.doi.org/10.1111/j.1540-8159.2012.03382.x.

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28

Malik, Amit Kumar, Chi Keong Ching, Reginald Liew, Daniel Thuan Tee Chong, and Wee Siong Teo. "Successful ablation of sinus node reentrant tachycardia using remote magnetic navigation system." EP Europace 14, no. 3 (September 4, 2011): 455–56. http://dx.doi.org/10.1093/europace/eur283.

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29

Ernst, Sabine, Feifan Ouyang, Christian Linder, Klaus Hertting, Fabian Stahl, Julian Chun, Hitoshi Hachiya, Dietmar Bänsch, Matthias Antz, and Karl-Heinz Kuck. "Initial Experience With Remote Catheter Ablation Using a Novel Magnetic Navigation System." Circulation 109, no. 12 (March 30, 2004): 1472–75. http://dx.doi.org/10.1161/01.cir.0000125126.83579.1b.

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30

BURKHARDT, J. DAVID, WALID I. SALIBA, ROBERT A. SCHWEIKERT, JENNIFER CUMMINGS, and ANDREA NATALE. "Remote Magnetic Navigation to Map and Ablate Left Coronary Cusp Ventricular Tachycardia." Journal of Cardiovascular Electrophysiology 17, no. 10 (October 2006): 1142–44. http://dx.doi.org/10.1111/j.1540-8167.2006.00559.x.

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31

Ernst, Sabine, Feifan Ouyang, Christian Linder, Matthais Antz, and Karl-Heinz Kuck. "860-4 Remote catheter ablation using the new magnetic navigation system niobe." Journal of the American College of Cardiology 43, no. 5 (March 2004): A149. http://dx.doi.org/10.1016/s0735-1097(04)90632-8.

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32

Parreira, Leonor, Diogo Cavaco, Pedro Carmo, Katya Reis-Santos, Rita Quaresma, Tiago Teixeira, Marta Marques, and Pedro Adragão. "Remote magnetic navigation for ablation of typical atrial flutter: Long-term results." Revista Portuguesa de Cardiologia (English Edition) 33, no. 12 (December 2014): 773–79. http://dx.doi.org/10.1016/j.repce.2014.05.006.

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33

Kim, Sung-Hwan, Yong-Seog Oh, Dong-Hwi Kim, Ik Jun Choi, Tae-Seok Kim, Woo-Seung Shin, Ji-Hoon Kim, Sung-Won Jang, Man Young Lee, and Tai-Ho Rho. "Long-term outcomes of remote magnetic navigation for ablation of supraventricular tachycardias." Journal of Interventional Cardiac Electrophysiology 43, no. 2 (March 18, 2015): 187–92. http://dx.doi.org/10.1007/s10840-015-9991-6.

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34

Burkhardt, J. David. "Remote magnetic navigation for ventricular ablation: did the machine win this round?" Journal of Interventional Cardiac Electrophysiology 48, no. 1 (October 8, 2016): 5–7. http://dx.doi.org/10.1007/s10840-016-0197-3.

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35

Teo, Wee Siong, Amit Malik, Daniel Chong, Reginald Liew, and Chi Keong Ching. "Remote Magnetic Navigation for Mapping and Ablation of Outflow Tract Ventricular Arrhythmia." Journal of Arrhythmia 27, Supplement (2011): OP63_4. http://dx.doi.org/10.4020/jhrs.27.op63_4.

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36

Malik, Amit Kumar, Wee Siong Teo, Chi Keong Ching, Reginald Liew, Boon Yew Tan, and Daniel Chong. "EndoEpicardial Ablation of Recurrent Ventricular Tachycardia Using Remote Magnetic Navigation System (Stereotaxis)." Journal of Arrhythmia 27, Supplement (2011): OP66_5. http://dx.doi.org/10.4020/jhrs.27.op66_5.

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37

Thornton, Andrew S., and Luc J. Jordaens. "Remote magnetic navigation for mapping and ablating right ventricular outflow tract tachycardia." Heart Rhythm 3, no. 6 (June 2006): 691–96. http://dx.doi.org/10.1016/j.hrthm.2006.01.028.

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38

Ernst, Sabine, Nelly Samchkuashvili, Suraj Kadiwar, Bruce Barton, Christoph Nienaber, and Jan Till. "Peripheral vascular access for catheter ablation of supraventricular tachycardia using remote magnetic navigation." HeartRhythm Case Reports 7, no. 6 (June 2021): 351–53. http://dx.doi.org/10.1016/j.hrcr.2021.03.004.

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39

Miyazaki, Shinsuke, Ashok J. Shah, Olivier Xhaët, Nicolas Derval, Seiichiro Matsuo, Matthew Wright, Isabelle Nault, et al. "Remote Magnetic Navigation With Irrigated Tip Catheter for Ablation of Paroxysmal Atrial Fibrillation." Circulation: Arrhythmia and Electrophysiology 3, no. 6 (December 2010): 585–89. http://dx.doi.org/10.1161/circep.110.957803.

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40

EITEL, CHARLOTTE, GERHARD HINDRICKS, PHILIPP SOMMER, ULRIKE WETZEL, ANDREAS BOLLMANN, THOMAS GASPAR, CHRISTOPHER PIORKOWSKI, and ARASH ARYA. "Safety of Remote Magnetic Navigation in Patients With Pacemakers and Implanted Cardioverter Defibrillators." Journal of Cardiovascular Electrophysiology 21, no. 10 (April 28, 2010): 1130–35. http://dx.doi.org/10.1111/j.1540-8167.2010.01777.x.

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41

Vollmann, D., L. Luethje, J. Seegers, C. Sohns, S. Sossalla, G. Hasenfuss, and M. Zabel. "Remote magnetic navigation for pulmonary vein ablation: role of a circular mapping catheter." European Heart Journal 34, suppl 1 (August 2, 2013): P2320. http://dx.doi.org/10.1093/eurheartj/eht308.p2320.

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42

Lim, Paul Chun Yih, Joseph Jia Hong Toh, Julian Kenrick Xing Yuan Loh, Edward Chun Yi Lee, Daniel Thuan Tee Chong, Boon Yew Tan, Kah Leng Ho, Chi Keong Ching, and Wee Siong Teo. "Remote magnetic catheter navigation versus conventional ablation in atrial fibrillation ablation: Fluoroscopy reduction." Journal of Arrhythmia 33, no. 3 (June 2017): 167–71. http://dx.doi.org/10.1016/j.joa.2016.08.007.

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43

Turagam, Mohit K., Donita Atkins, Roderick Tung, Moussa Mansour, Jeremy Ruskin, Jie Cheng, Luigi Di Biase, Andrea Natale, and Dhanunjaya Lakkireddy. "A meta-analysis of manual versus remote magnetic navigation for ventricular tachycardia ablation." Journal of Interventional Cardiac Electrophysiology 49, no. 3 (June 17, 2017): 227–35. http://dx.doi.org/10.1007/s10840-017-0257-3.

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44

Tavallaei, M. A., M. K. Lavdas, D. Gelman, and M. Drangova. "Magnetic resonance imaging compatible remote catheter navigation system with 3 degrees of freedom." International Journal of Computer Assisted Radiology and Surgery 11, no. 8 (December 24, 2015): 1537–45. http://dx.doi.org/10.1007/s11548-015-1337-4.

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45

Virk, S., and S. Kumar. "Meta-Analysis of Remote Magnetic Versus Manual Catheter Navigation for Atrial Fibrillation Ablation." Heart, Lung and Circulation 28 (2019): S218—S219. http://dx.doi.org/10.1016/j.hlc.2019.06.199.

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46

Noten, Anna M. E., Nicolas M. Van Mieghem, and Tamas Szili-Torok. "Remote magnetic navigation–guided ventricular tachycardia ablation with continuous-flow mechanical circulatory support." HeartRhythm Case Reports 5, no. 4 (April 2019): 217–20. http://dx.doi.org/10.1016/j.hrcr.2019.01.002.

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47

Katsiyiannis, William T., Daniel P. Melby, Jayme L. Matelski, Vanessa L. Ervin, Kerri L. Laverence, and Charles C. Gornick. "Feasibility and Safety of Remote-Controlled Magnetic Navigation for Ablation of Atrial Fibrillation." American Journal of Cardiology 102, no. 12 (December 2008): 1674–76. http://dx.doi.org/10.1016/j.amjcard.2008.08.012.

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48

Yu, Shimin, Ningze Ma, Hao Yu, Haoran Sun, Xiaocong Chang, Zhiguang Wu, Jiaxuan Deng, et al. "Self-Propelled Janus Microdimer Swimmers under a Rotating Magnetic Field." Nanomaterials 9, no. 12 (November 22, 2019): 1672. http://dx.doi.org/10.3390/nano9121672.

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Анотація:
Recent strides in micro- and nanofabrication technology have enabled researchers to design and develop new micro- and nanorobots for biomedicine and environmental monitoring. Due to its non-invasive remote actuation and convenient navigation abilities, magnetic propulsion has been widely used in micro- and nanoscale robotic systems. In this article, a highly efficient Janus microdimer swimmer propelled by a rotating uniform magnetic field was investigated experimentally and numerically. The velocity of the Janus microdimer swimmer can be modulated by adjusting the magnetic field frequency with a maximum speed of 133 μm·s−1 (≈13.3 body length s−1) at the frequency of 32 Hz. Fast and accurate navigation of these Janus microdimer swimmers in complex environments and near obstacles was also demonstrated. This efficient propulsion behavior of the new Janus microdimer swimmer holds considerable promise for diverse future practical applications ranging from nanoscale manipulation and assembly to nanomedicine.
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49

Gagyi, Rita B., Anna M. E. Noten, Sip Wijchers, Sing-Chien Yap, Rohit E. Bhagwandien, Mark G. Hoogendijk, and Tamas Szili-Torok. "Dipole charge density mapping integrated in remote magnetic navigation: First-in-human feasibility study." IJC Heart & Vasculature 42 (October 2022): 101095. http://dx.doi.org/10.1016/j.ijcha.2022.101095.

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50

Benali, Karim, Nefissa Hammache, Jean‐Marc Sellal, Elfarra Mazen, and Christian Chillou. "Catheter knot around the mitral valve apparatus: An exceptional complication of remote magnetic navigation." Journal of Cardiovascular Electrophysiology 33, no. 1 (December 16, 2021): 137–39. http://dx.doi.org/10.1111/jce.15313.

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