about
Irrigated tip catheters for radiofrequency ablation in ventricular tachycardiaBetter Lesion Creation And Assessment During Catheter Ablation.Visualization of epicardial cryoablation lesions using endogenous tissue fluorescence.Lumped Element Electrical Model based on Three Resistors for Electrical Impedance in Radiofrequency Cardiac Ablation: Estimations from Analytical Calculations and Clinical Data.Contact force mapping during catheter ablation for atrial fibrillation: procedural data and one-year follow-upMyocardial electrical conduction block induced by photosensitization reaction in exposed porcine hearts in vivo.In vivo left-ventricular contact force analysis: comparison of antegrade transseptal with retrograde transaortic mapping strategies and correlation of impedance and electrical amplitude with contact forceContact geometry affects lesion formation in radio-frequency cardiac catheter ablation.Improving ablation strategies for the treatment of atrial fibrillation.The magnetic navigation system allows safety and high efficacy for ablation of arrhythmias.Advances in imaging for atrial fibrillation ablation.Investigating a Novel Activation-Repolarisation Time Metric to Predict Localised Vulnerability to Reentry Using Computational Modelling.The symbiosis of contact force catheter use for hybrid ablation for atrial fibrillationRemote magnetic navigation vs. manual navigation for ablation of ventricular tachycardia: a meta-analysisNoninvasive assessment of tissue heating during cardiac radiofrequency ablation using MRI thermographyDifferences In Tissue Injury and Ablation Outcomes In Atrial Fibrillation Patients - Manual versus Robotic Catheters.Cardiovascular magnetic resonance guided electrophysiology studies.Biophysics and clinical utility of irrigated-tip radiofrequency catheter ablation.The Hot and the Cold: Radiofrequency Versus Cryoballoon Ablation for Atrial Fibrillation.The quest for durable lesions in catheter ablation of atrial fibrillation - technological advances in radiofrequency catheters and balloon devices.Optimizing contact force during ablation of atrial fibrillation: available technologies and a look to the future.Novel method for electrode-tissue contact measurement with multi-electrode catheters.Atrial Fibrillation Radiofrequency Ablation: Safety Using Contact Force Catheter In A Low-Volume Centre.Multi-Electrode Ablation Catheters for AF Ablation: Effective Reality or Elegant Experiment?Role of Cardiac Imaging (CT/MR) Before and After RF Catheter Ablation in Patients with Atrial Fibrillation.MRI-Guided Electrophysiology Intervention.Visualizing intramyocardial steam formation with a radiofrequency ablation catheter incorporating near-field ultrasound.Contact force monitoring during catheter ablation of intraatrial reentrant tachycardia in patients with congenital heart disease.Comparison of remote magnetic navigation ablation and manual ablation of idiopathic ventricular arrhythmia after failed manual ablation.Bipolar irrigated radiofrequency ablation of resistant ventricular tachycardia with a septal intramural origin: the initial experience and a description of the method.Accelerated idioventricular rhythm after left atrial tachycardia ablation as a marker of acute coronary ischemia.Contemporary Mapping Techniques of Complex Cardiac Arrhythmias - Identifying and Modifying the Arrhythmogenic Substrate.Direct cooling of the catheter tip increases safety for CMR-guided electrophysiological proceduresRationale and Design of FIRE AND ICE: A multicenter randomized trial comparing efficacy and safety of pulmonary vein isolation using a cryoballoon versus radiofrequency ablation with 3D-reconstruction.Is there a potential benefit to increased irrigation channels during radiofrequency ablation? Results from a two-center prospective randomized study.In vivo intracardiac optical coherence tomography imaging through percutaneous access: toward image-guided radio-frequency ablation.Thoracic impedance measures tissue characteristics in the vicinity of the electrodes, not intervening lung water: implications for heart failure monitoring.Time to electrode rewarming after cryoablation predicts lesion size.High spatial resolution thermal mapping of radiofrequency ablation lesions using a novel thermochromic liquid crystal myocardial phantom.Regional difference of optimal contact force to prevent acute pulmonary vein reconnection during radiofrequency catheter ablation for atrial fibrillation.
P2860
Q26853413-7BE20004-317D-4F96-A212-12B48C6AC64EQ30368110-BD1A0E36-FFB9-41BC-B4DE-EC090C9C400AQ30595441-E962EE22-3107-447E-AD5B-394D2B20681FQ30662485-7A159EFE-9CC0-4FD6-AFFA-CFE82DC5D67FQ30829413-711780D1-01F2-4549-99A9-5A198EC28912Q34081113-3F9C5DA7-391D-4F27-8676-DC3F4D2CE900Q34110811-46719D60-EDB5-47B9-B653-34694C2F5597Q35004723-5BBFE771-8C6A-408A-9DF9-D27FAA7BDC69Q35059670-4A809BF4-8161-49C4-9FA8-191DA81BBE0CQ35059993-E5C9EAD5-169C-4722-A8EB-5BBDA085AE58Q35430776-83F9C1C9-124C-4ABD-9E2A-408EFC6A841DQ35943221-F5955FCC-7B8F-4798-91FA-6FFD71153EBEQ35991810-422868BC-5E86-4922-ACC8-338A508999B5Q36087400-E7CC5699-0B20-4F42-BFC8-E6346B2F7AD7Q36135666-7AC2366A-5BCF-4E9D-8E57-72E4087DE326Q37496304-C1409784-FEBF-4FD0-94C9-60EE0C94F0F4Q37542367-41306775-D217-4CEF-95A0-C45ACD21350EQ37965245-DD81667C-D8DF-4BC4-B7AB-3A4B0B1AB1BBQ38565270-EB1E2C9C-9C33-4C0C-A5A4-0C2E6A13D0EEQ38655225-3AB4E250-63ED-4A59-8419-0C2702D58192Q38750464-E98A64CC-C3E9-4710-B7F5-547B0DD44A74Q39033905-04547E93-8823-4544-94A3-68D3B15A56BFQ39106835-08444D9D-500F-4EBB-8846-ADDF6C0C703AQ39300843-6A901317-E324-4E99-A8B8-913C798A9CA7Q39300894-C010225A-047A-43BF-8F99-C2CD9ACF8483Q39832901-DA90CCCA-54F2-4C67-A2C3-739439440C05Q40127018-5CE31472-CD55-4D19-8DF1-6CF96ABA6D62Q40131413-326FC985-0704-4806-8F32-560DFE957ADEQ40695361-93169C88-F7BF-4793-B87E-9E107488082FQ41361391-794673B5-892E-4751-8774-6AFEE43D77FCQ41808841-A0293A58-DDD4-405F-A940-F591FA0D963AQ42146782-E3C5A8EC-79AF-46CE-99D1-47B9F1C1BCE4Q42608974-1248E80F-0B9A-4733-8E08-D83F9E2DE17AQ42678437-185171FA-D1F5-48B0-B76E-026CDDA4BF2FQ42692153-CF939637-A09D-4498-96D3-5E408F9A13E7Q43002711-42E15665-D9E5-4FF4-AB91-70F1DC9F8909Q43121660-95E18798-F642-4929-842C-8B6A70D707E2Q44929961-1CFD2F1C-7346-4180-A9B9-C8CF3A258F89Q45342754-6405E385-FFB3-43E7-9AF7-D83819890B3CQ46244261-DD42E442-2832-474D-9451-F87D33386ABE
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
RF catheter ablation: Lessons on lesions.
@en
RF catheter ablation: Lessons on lesions.
@nl
type
label
RF catheter ablation: Lessons on lesions.
@en
RF catheter ablation: Lessons on lesions.
@nl
prefLabel
RF catheter ablation: Lessons on lesions.
@en
RF catheter ablation: Lessons on lesions.
@nl
P2860
P1476
RF catheter ablation: Lessons on lesions.
@en
P2093
Fred H M Wittkampf
Hiroshi Nakagawa
P2860
P304
P356
10.1111/J.1540-8159.2006.00533.X
P577
2006-11-01T00:00:00Z