about
A randomized prospective mechanistic cardiac magnetic resonance study correlating catheter stability, late gadolinium enhancement and 3 year clinical outcomes in robotically assisted vs. standard catheter ablationA Planning and Guidance Platform for Cardiac Resynchronization Therapy.Evaluation of state-of-the-art segmentation algorithms for left ventricle infarct from late Gadolinium enhancement MR images.Standardized unfold mapping: a technique to permit left atrial regional data display and analysis.Simultaneous non-contact mapping fused with CMR derived grey zone to explore the relationship with ventricular tachycardia substrate in ischaemic cardiomyopathy.Three-Degree-of-Freedom MR-Compatible Multisegment Cardiac Catheter Steering Mechanism.Quantitative magnetic resonance imaging analysis of the relationship between contact force and left atrial scar formation after catheter ablation of atrial fibrillation.ECG imaging of ventricular tachycardia: evaluation against simultaneous non-contact mapping and CMR-derived grey zone.Biophysical Modeling Predicts Ventricular Tachycardia Inducibility and Circuit Morphology: A Combined Clinical Validation and Computer Modeling Approach.A work flow to build and validate patient specific left atrium electrophysiology models from catheter measurements.An automatic segmentation for improved visualization of atrial ablation lesions using magnetic resonance imaging.Magnetic resonance imaging of acute and chronic atrial ablation injury - a histological validation studyAlgorithms for left atrial wall segmentation and thickness – Evaluation on an open-source CT and MRI image databaseReal-Time X-MRI-Guided Left Ventricular Lead Implantation for Targeted Delivery of Cardiac Resynchronization TherapyValidation of a Novel Method for the Automatic Segmentation of Left Atrial Scar from Delayed-Enhancement Magnetic ResonanceAutomatic Segmentation of Left Atrial Scar from Delayed-Enhancement Magnetic Resonance ImagingAutomatic Segmentation of Left Atrial Geometry from Contrast-Enhanced Magnetic Resonance Images Using a Probabilistic AtlasAutomatic extraction of the left atrial anatomy from MR for atrial fibrillation ablationLeft atrium segmentation for atrial fibrillation ablationImage Data Analysis for Quantifying Scar Transmurality in MRI phantoms for Cardiac Resynchronisation Therapy
P50
Q35950560-F415F666-A42C-4DE0-9424-C6431CCD7FB7Q38692900-634D2226-3C37-47C4-8151-FC1FFCC4F0E3Q38906409-E2BFAEB9-E0DD-48B7-A01C-944CC3046CCDQ42373392-E01683BF-05CA-4968-A969-88B91E6B1BB5Q47112342-F97AABE5-854B-4318-90FA-C47A6ED94228Q48592451-C9198B8F-9D11-45D6-AC30-34C09A3C0E97Q48752994-9D0E5D7B-8782-487D-B2F3-DCA940761B9FQ51157879-3747B834-FC32-4B69-9675-5F0ABF9E2796Q53118997-F31A7419-A7AE-4E1F-800F-5764588C39BBQ55360307-1DDBD45B-59F0-40D8-A193-C1FDA1030F78Q55506910-28844987-D61A-4DEC-B9C2-9291FD1D5716Q58046396-E64C824B-15C4-44D4-AE38-FCD0EBB3F05EQ59296074-5104BEB5-E43D-4BCA-83D0-C13CC294FBE1Q59296082-D397A950-6031-4985-B65D-0177E64BF401Q59296115-0A31A9AF-1656-439D-AB16-B882FD307B26Q59296117-535C4179-5C04-4B0E-9225-19B948F055E1Q59296121-8D8F1120-31C1-4031-A42E-1F5135D27A36Q59296125-BAD58CDA-4998-40AE-9914-4FE7CC843768Q59296127-6749FC6D-F453-45CB-A160-8E5B1409E8EDQ93146133-DDB9E7AE-6389-4754-AE05-E6F3883D19EC
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Rashed Karim
@ast
Rashed Karim
@en
Rashed Karim
@es
Rashed Karim
@nl
Rashed Karim
@sl
type
label
Rashed Karim
@ast
Rashed Karim
@en
Rashed Karim
@es
Rashed Karim
@nl
Rashed Karim
@sl
prefLabel
Rashed Karim
@ast
Rashed Karim
@en
Rashed Karim
@es
Rashed Karim
@nl
Rashed Karim
@sl
P1053
R-1958-2016
P106
P1153
24344291100
P2456
P31
P3829
P4012
P496
0000-0002-2977-8997