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Artykuły w czasopismach na temat „Invasive electrophysiology”

Autor: Grafiati
Data publikacji: 2 czerwca 2025
Data aktualizacji: 31 lipca 2025

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1

Wang, J., B. Yang, H. w. Chen, et al. "Non-invasive Electrophysiology I." Europace 13, Supplement 1 (2011): i34—i35. http://dx.doi.org/10.1093/europace/euq484.

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Bao, T. T., H. Chen, K. Chen, et al. "Non-invasive Electrophysiology II." Europace 13, Supplement 1 (2011): i36—i37. http://dx.doi.org/10.1093/europace/euq485.

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3

Shurrab, Mohammed, Richard Schilling, Eli Gang, Ejaz M. Khan, and Eugene Crystal. "Robotics in invasive cardiac electrophysiology." Expert Review of Medical Devices 11, no. 4 (2014): 375–81. http://dx.doi.org/10.1586/17434440.2014.916207.

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Madias, John E. "Periprocedural Short/Ultrashort-Acting β-Blockers in the Electrophysiology Laboratory for Some Patients to Prevent Takotsubo Syndrome?" International Journal of Heart Rhythm 10, № 1 (2025): 14–16. https://doi.org/10.4103/ijhr.ijhr_1_25.

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Abstract This communication proposes the periprocedural use of intravenous short/ultrashort-acting β-blockers, in the course of invasive electrophysiologic procedures in general, to prevent the emergence of Takotsubo syndrome in seemingly susceptible patients. Such infusions could be stopped with impunity if the use of epinephrine or isoproterenol is deemed necessary as part of the implemented electrophysiology protocol or if side effects arise.
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5

Wellens, Hein J. "Forty Years of Invasive Clinical Electrophysiology." Circulation: Arrhythmia and Electrophysiology 1, no. 1 (2008): 49–53. http://dx.doi.org/10.1161/circep.108.770529.

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Pullan, A., D. Paterson, and F. Greensite. "Non–invasive imaging of cardiac electrophysiology." Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 359, no. 1783 (2001): 1277–86. http://dx.doi.org/10.1098/rsta.2001.0835.

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Kremers, Jan, Declan J. McKeefry, Ian J. Murray, and Neil R. A. Parry. "Developments in non-invasive visual electrophysiology." Vision Research 174 (September 2020): 50–56. http://dx.doi.org/10.1016/j.visres.2020.05.003.

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Al-Nosairy, Khaldoon O., Michael B. Hoffmann, and Michael Bach. "Non-invasive electrophysiology in glaucoma, structure and function—a review." Eye 35, no. 9 (2021): 2374–85. http://dx.doi.org/10.1038/s41433-021-01603-0.

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AbstractGlaucoma, its early diagnosis, and monitoring of interventions remain an ongoing challenge. We here review developments in functional assessment and its relation to morphology, evaluating recent insights in electrophysiology in glaucoma and highlighting how glaucoma research and diagnostics benefit from combined approaches of OCT and electrophysiological investigations. After concise overviews of OCT and non-invasive electrophysiology in glaucoma, we evaluate commonalities and complementarities of OCT and electrophysiology for our understanding of glaucoma. As a specific topic, the dyn
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9

Parry, Neil R. A., Declan J. McKeefry, Ian J. Murray, and Jan Kremers. "New developments in non-invasive visual electrophysiology." Vision Research 174 (September 2020): 77–78. http://dx.doi.org/10.1016/j.visres.2020.06.002.

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10

Huntrakul, Anurut, and Jackson J. Liang. "Management of Complex Arrythmias: Optimal Timing of Catheter Ablation for Ventricular Tachycardia." Journal of Clinical Medicine 11, no. 17 (2022): 5123. http://dx.doi.org/10.3390/jcm11175123.

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11

Van Hare, George F., Anne M. Dubin, and Kathryn K. Collins. "Invasive electrophysiology in children: State of the art." Journal of Electrocardiology 35, no. 4 (2002): 165–74. http://dx.doi.org/10.1054/jelc.2002.37175.

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Abrams, D. J. "Invasive electrophysiology in paediatric and congenital heart disease." Heart 93, no. 3 (2007): 383–91. http://dx.doi.org/10.1136/hrt.2005.069245.

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MODRE, R. "P2746 NICE ? non-invasive imaging of cardiac electrophysiology." European Heart Journal 24, no. 5 (2003): 512. http://dx.doi.org/10.1016/s0195-668x(03)95524-2.

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14

Bradley, Elisa A., Ali N. Zaidi, Justin Morrison, Curt J. Daniels, Steven Kalbfleisch, and Naomi J. Kertesz. "Effectiveness of Early Invasive Therapy for Atrial Tachycardia in Adult Atrial-Baffle Survivors." Texas Heart Institute Journal 44, no. 1 (2017): 16–21. http://dx.doi.org/10.14503/thij-15-5470.

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Adults who underwent complex atrial baffling as children via Mustard or Senning procedures are at heightened risk for atrial arrhythmias. Antiarrhythmic therapies are typically ineffective in this population. Accordingly, our team of pediatric and adult electrophysiologists investigated the effectiveness of early invasive transbaffle-access techniques to perform early radiofrequency ablation at the source of these clinically significant arrhythmias. For this retrospective study, we selected 11 adult survivors of atrial baffling (mean age, 34 ± 9 yr) who underwent clinically indicated electroph
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15

COUMEL, P. "The management of clinical arrhythmias. An overview on invasive versus non-invasive electrophysiology." European Heart Journal 8, no. 2 (1987): 92–99. http://dx.doi.org/10.1093/oxfordjournals.eurheartj.a062259.

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Anderson, Kelsey L., Sicheng Wang, Stephanie Pizzella, Valerie Ratts, and Yong Wang. "3D NON-INVASIVE ELECTROPHYSIOLOGY IMAGING OF HUMAN UTERINE PERISTALSIS." Fertility and Sterility 116, no. 3 (2021): e328. http://dx.doi.org/10.1016/j.fertnstert.2021.07.884.

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17

Regoli, F., and A. Auricchio. "The role of invasive mapping in the electrophysiology laboratory." Europace 11, Supplement 5 (2009): v40—v45. http://dx.doi.org/10.1093/europace/eup271.

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18

Saba, S. "Invasive Cardiac Electrophysiology in the Mouse Techniques and Applications." Trends in Cardiovascular Medicine 10, no. 3 (2000): 122–32. http://dx.doi.org/10.1016/s1050-1738(00)00060-8.

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19

Jayant, Krishna, Michael Wenzel, Yuki Bando, et al. "Flexible Nanopipettes for Minimally Invasive Intracellular Electrophysiology In Vivo." Cell Reports 26, no. 1 (2019): 266–78. http://dx.doi.org/10.1016/j.celrep.2018.12.019.

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20

Drozdov, D. V., L. M. Makarov, V. S. Barkan, et al. "Resting 12-lead electrocardiography for adults and children. 2023 Guidelines." Russian Journal of Cardiology 28, no. 10 (2023): 5631. http://dx.doi.org/10.15829/1560-4071-2023-5631.

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Russian Society of Cardiology (RSC)Developed with the special contribution of the Russian Functional Diagnostics Association, Russian Holter Monitoring and Non-invasive Electrophysiology Society, Russian Pediatric Cardiology Association.
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21

Shalganov, T., M. Stoyanov, and V. Traykov. "Interventional electrophysiology in Bulgaria in 2021: data from the electronic registry BG-EPHY." Bulgarian Cardiology 28, no. (2) (2022): 69–78. https://doi.org/10.3897/bgcardio.28.e82407.

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This study presents data from the national electronic registry BG-EPHY on electrophysiologic (EP) cardiac ablations in 2021. <strong>Material and methods:</strong> This is a retrospective study of a full one-year sample of the BG-EPHY registry. Sex and age distribution of the patients, number of ablations, electroanatomic mapping (EAM), irrigated and cryoablations, distribution of different types of arrhythmias, acute procedural success and complications are presented. <strong>Results:</strong> In 2021 fi ve EP centers performed 872 ablations in 546 men (62.6%) and 326 women (4.4% increase com
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22

Shalganov, T., M. Stoyanov, and V. Traykov. "Interventional electrophysiology in Bulgaria in 2022: data from the electronic registry BG-EPHY." Bulgarian Cardiology 29, no. (2) (2023): 36–45. https://doi.org/10.3897/bgcardio.29.e104528.

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This study presents data from the national electronic registry BG-EPHY on electrophysiologic (EP) cardiac ablations in 2022. <strong>Material and methods:</strong> This is a retrospective study of a full one-year sample of the BG-EPHY registry. Sex and age distribution of the patients, number of ablations, use of electroanatomic mapping (EAM), irrigated and cryoablations, distribution of different types of arrhythmias, acute procedural success and complications are presented. <strong>Results:</strong> In 2022 seven EP centers performed 1369 ablations in 872 men (63.7%) and 497 women (57% incre
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23

Wissner, Erik, Vitaly Kalinin, Alexander Kalinin, et al. "Noninvasive Phase Mapping of Atrial Flutter in Humans – Comparison with Invasive Mapping." European Journal of Arrhythmia & Electrophysiology 04, no. 01 (2018): 15. http://dx.doi.org/10.17925/ejae.2018.04.01.15.

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Introduction: The present study compared invasive activation and phase mapping to noninvasive phase mapping in patients with cavotricuspid isthmus (CTI)-dependent atrial flutter (AFl) using a novel noninvasive epicardial and endocardial electrophysiology system (NEEES). Methods: Four patients with CTI-dependent AFl underwent simultaneous invasive and noninvasive mapping using an electroanatomical mapping system and the NEEES. A mapping catheter aligned along the tricuspid valve region provided data on local activation times analysing unipolar and bipolar electrograms (EGs). Invasive and noninv
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24

Greenlee, Jeremy, Roozbeh Behroozmand, Nandakumar Narayanan, et al. "Sensorimotor integration during human self-vocalization: Insights from invasive electrophysiology." Journal of the Acoustical Society of America 133, no. 5 (2013): 3520. http://dx.doi.org/10.1121/1.4806311.

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25

Dubin, Anne M., Kathryn K. Collins, Nancy Chiesa, Debra Hanisch, and George F. Van Hare. "Use of electrophysiologic testing to assess risk in children with Wolff-Parkinson-White syndrome." Cardiology in the Young 12, no. 3 (2002): 248–52. http://dx.doi.org/10.1017/s1047951102000549.

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In adults with Wolff-Parkinson-White syndrome, the likelihood of sudden death can be estimated based upon the presence or absence of symptoms. Comparable data in children do not exist. To date, therefore, invasive risk stratification has been used to guide management regarding radiofrequency ablation in symptomatic children. As the safety of electrophysiology study and radiofrequency ablation in children has improved, asymptomatic patients have been referred more commonly for invasive risk stratification. We sought to compare the findings from electrophysiologic studies in symptomatic children
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26

Leur, Rutger R. van de, Machteld J. Boonstra, Ayoub Bagheri, et al. "Big Data and Artificial Intelligence: Opportunities and Threats in Electrophysiology." Arrhythmia & Electrophysiology Review 9, no. 3 (2020): 146–54. http://dx.doi.org/10.15420/aer.2020.26.

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The combination of big data and artificial intelligence (AI) is having an increasing impact on the field of electrophysiology. Algorithms are created to improve the automated diagnosis of clinical ECGs or ambulatory rhythm devices. Furthermore, the use of AI during invasive electrophysiological studies or combining several diagnostic modalities into AI algorithms to aid diagnostics are being investigated. However, the clinical performance and applicability of created algorithms are yet unknown. In this narrative review, opportunities and threats of AI in the field of electrophysiology are desc
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27

Enright, H. A., S. H. Felix, N. O. Fischer, et al. "Long-term non-invasive interrogation of human dorsal root ganglion neuronal cultures on an integrated microfluidic multielectrode array platform." Analyst 141, no. 18 (2016): 5346–57. http://dx.doi.org/10.1039/c5an01728a.

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28

Baranchuk, Adrian, Dhruv Krishnan, and Andrés F. Miranda-Arboleda. "Accessory pathway location algorithms: Planning invasive procedures in the electrophysiology laboratory." Kardiologia Polska 80, no. 1 (2022): 3–4. http://dx.doi.org/10.33963/kp.a2022.0024.

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29

Benko, Ivica, Mateja Lovrić, Marina Budetić, et al. "Patient approach during invasive electrophysiology procedures guided by magnetic resonance imaging." Cardiologia Croatica 19, no. 11-12 (2024): 623. http://dx.doi.org/10.15836/ccar2024.623.

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30

Helbling, Saskia, Sundeep Teki, Martina F. Callaghan, et al. "Structure predicts function: Combining non-invasive electrophysiology with in-vivo histology." NeuroImage 108 (March 2015): 377–85. http://dx.doi.org/10.1016/j.neuroimage.2014.12.030.

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31

Kahn, Yosef, Kathleen Benson, Francisco Gonzalez, Kenneth B. Desser, Kenneth Fang, and Wilber Su. "MINIMALLY INVASIVE SURGICAL MAZE IS INADEQUATE WITHOUT INTRA-OPERATIVE ELECTROPHYSIOLOGY TESTING." Journal of the American College of Cardiology 55, no. 10 (2010): A8.E75. http://dx.doi.org/10.1016/s0735-1097(10)60076-9.

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32

Fenici, Riccardo, and Donatella Brisinda. "Magnetocardiography provides non-invasive three-dimensional electroanatomical imaging of cardiac electrophysiology." International Journal of Cardiovascular Imaging 22, no. 3-4 (2006): 595–97. http://dx.doi.org/10.1007/s10554-006-9076-9.

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33

McDonald, Matthew, David Sebinger, Lisa Brauns, et al. "A mesh microelectrode array for non-invasive electrophysiology within neural organoids." Biosensors and Bioelectronics 228 (May 2023): 115223. http://dx.doi.org/10.1016/j.bios.2023.115223.

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34

Kim, Eun-Jeong, Giovanni Davogustto, William G. Stevenson, and Roy M. John. "Non-invasive Cardiac Radiation for Ablation of Ventricular Tachycardia: a New Therapeutic Paradigm in Electrophysiology." Arrhythmia & Electrophysiology Review 7, no. 1 (2018): 8. http://dx.doi.org/10.15420/aer.7.1.eo1.

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Non-invasive ablation of cardiac tissue to control ventricular tachycardia (VT) is a novel therapeutic consideration in the management of ventricular arrhythmias associated with structural heart disease. The technique involves the use of stereotactic radiotherapy delivered to VT substrates. Although invasive mapping can be used to identify the target, the use of non-invasive ECG and imaging techniques combined with multi-electrode body-surface ECG recordings offers the potential of a completely non-invasive approach. Early case series have demonstrated a consistent decrease in VT burden and su
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35

Shalganov, T., M. Stoyanov, and K. Dzhinsov. "Interventional electrophysiology in Bulgaria in 2023: data from the electronic registry BG-EPHY." Bulgarian Cardiology 30, no. (1) (2024): 41–52. https://doi.org/10.3897/bgcardio.30.e120728.

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This study presents data from the national electronic registry BG-EPHY on electrophysiologic (EP) cardiac ablations in 2023. <b>Material and methods.</b> This is a retrospective study of a full one-year sample of the BG-EPHY registry. Sex and age distribution of the patients, number of ablations, use of electroanatomic mapping (EAM), irrigated and cryoablations, distribution of different types of arrhythmias, acute procedural success, and complications are presented. <b>Results. </b>In 2023 nine EP centers performed 2021 ablations in 1309 men (61.8%) and 807 women, incl. 20 ablations in pediat
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36

Shalganov, T., M. Stoyanov, and K. Dzhinsov. "Interventional electrophysiology in Bulgaria in 2024: data from the electronic registry BG-EPHY." Bulgarian Cardiology 31, no. (1) (2025): 95–101. https://doi.org/10.3897/bgcardio.31.e152746.

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This study presents data from the national electronic registry BG-EPHY on electrophysiologic (EP) studies and catheter ablations in 2024. Material and methods: Full one-year sample of the BG-EPHY registry was analysed retrospectively. Sex and age distribution of the patients, number of ablations, use of electroanatomic mapping (EAM), ablation energy source, distribution of different types of arrhythmias, acute procedural success, complications, recurrences and redo procedures are presented. Results: In 2024 ten EP centers performed 2624 ablations in 1714 men (65.3%) and 910 women, incl. 16 abl
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37

Shalganov, Tchavdar, Milko Stoyanov, and Vassil Traykov. "Review of interventional electrophysiology in Bulgaria in 2019 and 2020: data from the electronic ablation registry BG-EPHY." Bulgarian Cardiology 27, no. (3) (2021): 31–42. https://doi.org/10.3897/bgcardio.27.e66077.

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This study presents data from the national electronic registry BG-EPHY on electrophysiologic (EP) cardiac ablations in 2019 and 2020. <strong>Material and methods.</strong> This is a retrospective study of a full two-year sample of the BG-EPHY registry. Sex and age distribution of the patients, number of ablations, electroanatomic mapping (EAM), irrigated ablations, distribution of different types of arrhythmia, intraprocedural success and complications are presented. <strong>Results. </strong>In 2019 four EP laboratories performed 1033 ablations in 652 men (63.1%) and 381 women, incl. 12 pedi
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38

Munte, Thomas F. "Contribution of subcortical structures to cognition assessed with invasive electrophysiology in humans." Frontiers in Neuroscience 2, no. 1 (2008): 72–85. http://dx.doi.org/10.3389/neuro.01.006.2008.

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39

Pfeifer, B., F. Hanser, M. Seger, G. Fischer, R. Modre-Osprian, and B. Tilg. "Patient-Specific Volume Conductor Modeling for Non-Invasive Imaging of Cardiac Electrophysiology." Open Medical Informatics Journal 2, no. 1 (2008): 32–41. http://dx.doi.org/10.2174/1874431100802010032.

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40

Maggi, R., V. Viscardi, T. Furukawa, and M. Brignole. "Non-invasive continuous blood pressure monitoring of tachycardic episodes during interventional electrophysiology." Europace 12, no. 11 (2010): 1616–22. http://dx.doi.org/10.1093/europace/euq333.

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41

von Olshausen, Gesa, Tara Bourke, Jonas Schwieler, et al. "Long-term outcome of patients with invasive electrophysiology procedure-related cardiac tamponade." EP Europace 22, no. 10 (2020): 1547–57. http://dx.doi.org/10.1093/europace/euaa155.

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Abstract Aims Iatrogenic cardiac tamponades are a rare but dreaded complication of invasive electrophysiology procedures (EPs). Their long-term impact on clinical outcomes is unknown. This study analysed the risk of death or serious cardiovascular events in patients suffering from EP-related cardiac tamponade requiring pericardiocentesis during long-term follow-up. Methods and results Out of 19 997 invasive EPs at the Karolinska University Hospital between January 1998 and September 2018, all patients with EP-related periprocedural cardiac tamponade were identified (n = 60) and matched (1:3 ra
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42

Silveira, A., E. Garcia Campo, M. Pardo Fresno, et al. "PS231 Security Checklist: Reduce Risk of Invasive Electrophysiology Procedures Using New Technology." Global Heart 11, no. 2 (2016): e52. http://dx.doi.org/10.1016/j.gheart.2016.03.182.

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Gupta, Sujasha, José Javier Otero, Vishnu Baba Sundaresan, and Catherine Miriam Czeisler. "Near field non-invasive electrophysiology of retrotrapezoid nucleus using amperometric cation sensor." Biosensors and Bioelectronics 151 (March 2020): 111975. http://dx.doi.org/10.1016/j.bios.2019.111975.

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44

Fenici, R., D. Brisinda, G. Morana, and P. Fenici. "Multichannel MCG Imaging of Ventricular Preexcitation in an Unshielded Invasive Electrophysiology Laboratory." Biomedizinische Technik/Biomedical Engineering 46, s2 (2001): 73–75. http://dx.doi.org/10.1515/bmte.2001.46.s2.73.

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45

Shugman, I., T. Tran, P. Broyd, V. Dang, T. Nguyen, and U. Premawardhana. "797 Cardiac Invasive Electrophysiology Studies and Radiofrequency Catheter Ablation - Single Centre Experience." Heart, Lung and Circulation 29 (2020): S395. http://dx.doi.org/10.1016/j.hlc.2020.09.804.

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46

Barber, Sean M., Tatiana Wolfe, Alex Steele, et al. "404 A Novel Minimally Invasive Porcine Model of Acute Spinal Cord Injury." Neurosurgery 71, Supplement_1 (2025): 96. https://doi.org/10.1227/neu.0000000000003360_404.

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INTRODUCTION: Spinal cord injury (SCI) animal models often utilize an open surgical laminectomy, which results in animal morbidity and also leads to changes in spinal canal diameter, spinal cord perfusion, cerebrospinal fluid flow dynamics, and spinal stability which may confound SCI research. METHODS: The model was validated in 5 YucatÁn pigs. Each animal underwent MRI and electrophysiology assessment at baseline, immediately after injury, and at experimental endpoint. Under general anesthesia, a kyphoplasty balloon was inserted into the dorsolateral epidural space of the animal's thoracic sp
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47

Shugman, I., C. Charna Randall, T. Tuan Nguyen, et al. "Cardiac Invasive Electrophysiology Studies with Radiofrequency Ablation Without Onsite Cardiothoracic Surgical Back-Up in a New Cardiac Electrophysiology Laboratory: Single-Centre Experience." Heart, Lung and Circulation 27 (2018): S65—S66. http://dx.doi.org/10.1016/j.hlc.2018.06.049.

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48

Luo, Yifei, Wenlong Li, Qianyu Lin, et al. "A Morphable Ionic Electrode Based on Thermogel for Non‐Invasive Hairy Plant Electrophysiology." Advanced Materials 33, no. 14 (2021): 2007848. http://dx.doi.org/10.1002/adma.202007848.

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49

Ueda, Akiko, Karen P. McCarthy, Damián Sánchez-Quintana, and Siew Yen Ho. "Right atrial appendage and vestibule: further anatomical insights with implications for invasive electrophysiology†." EP Europace 15, no. 5 (2012): 728–34. http://dx.doi.org/10.1093/europace/eus382.

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50

Neuberger, H. R., R. R. Tilz, H. Bonnemeier, et al. "A survey of German centres performing invasive electrophysiology: structure, procedures, and training positions." Europace 15, no. 12 (2013): 1741–46. http://dx.doi.org/10.1093/europace/eut149.

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