Supplementary material for doctorial thesis: "The mechanism of fibrillation control by low-energy anti-fibrillation pacing"
Buran, Can Pavel
Movie_4_1.mkv
Matroska Multimedia Container — 86.13 MBElectrical turbulence for the (LR) model.
Movie_4_2.mkv
Matroska Multimedia Container — 67.97 MBElectrical turbulence for the (FK) model.
Movie_4_3.mkv
Matroska Multimedia Container — 62.15 MBDefibrillation with one biphasic pulse for the (LR) model with field strength E = 5V/cm.
Movie_4_4.mkv
Matroska Multimedia Container — 38.25 MBDefibrillation with one biphasic pulse for the (FK) model with field strength E = 4V/cm.
Movie_4_5.mkv
Matroska Multimedia Container — 183.31 MBLEAP with five biphasic pulses for the (LR) model with field strength E = 0.75V/cm and pulse interval T = 330 ms.
Movie_4_6.mkv
Matroska Multimedia Container — 62.4 MBLEAP with five biphasic pulses for the (FK) model with field strength E = 2V/cm and pulse interval T = 85 ms.
Movie_5_1.mkv
Matroska Multimedia Container — 176.48 MBState of multiple spirals.
Movie_5_2.mkv
Matroska Multimedia Container — 171.25 MBState of a single spiral.
Movie_5_3.mkv
Matroska Multimedia Container — 170.44 MBState of a single pinned spiral.
Movie_5_4.mkv
Matroska Multimedia Container — 97.51 MBDefibrillation of multiple spirals with a single biphasic pulse for E = 6V/cm.
Movie_5_5.mkv
Matroska Multimedia Container — 95.99 MBDefibrillation of a single spiral with a single biphasic pulse for E = 6V/cm.
Movie_5_6.mkv
Matroska Multimedia Container — 95.09 MBDefibrillation of a single pinned spiral with a single biphasic pulse for E = 6V/cm.
Movie_5_7.mkv
Matroska Multimedia Container — 254.07 MBDefibrillation of multiple spirals by LEAP with five biphasic pulses for E = 3.5V/cm and pacing period T = 115 ms.
Movie_5_8.mkv
Matroska Multimedia Container — 250.91 MBDefibrillation of a single spiral by LEAP with five biphasic pulses for E = 3.5V/cm and pacing period T = 115 ms.
Movie_5_9.mkv
Matroska Multimedia Container — 252.09 MBDefibrillation of a single pinned spiral by LEAP with five biphasic pulses for E = 3.5V/cm and pacing period T = 115 ms.
Movie_6_1.mkv
Matroska Multimedia Container — 269.72 MBDefibrillation of a state of the (LRmod) model by LEAP with five biphasic pulses for a field strength E = 3.5V/cm and pacing period T = 115 ms.
Movie_6_2.mkv
Matroska Multimedia Container — 186.2 MBDefibrillation of a state of the (LRmod) model by LEAP with five biphasic pulses for a field strength E = 4.5V/cm and pacing period T = 115 ms.
Movie_6_3.mkv
Matroska Multimedia Container — 775.51 MBDefibrillation of a state of the (LR) model by LEAP with five biphasic pulses for a field strength E = 1.0V/cm and pacing period T = 340 ms.
Movie_6_4.mkv
Matroska Multimedia Container — 425.84 MBDefibrillation of a state of the (LR) model by LEAP with five biphasic pulses for a field strength E = 4.0V/cm and pacing period T = 340 ms.
Movie_6_5.mkv
Matroska Multimedia Container — 231.42 MBDefibrillation of a state of the (FK) model by LEAP with five biphasic pulses for a field strength E = 2.0V/cm and pacing period T = 100 ms.
Movie_6_6.mkv
Matroska Multimedia Container — 129.49 MBDefibrillation of a state of the (FK) model by LEAP with five biphasic pulses for a field strength E = 2.5V/cm and pacing period T = 100 ms.
Movie_6_7.mkv
Matroska Multimedia Container — 59.85 MBSingle pulse of a plane wave for the (LRmod) model and a field strength E = 3.0V/cm.
Movie_6_8.mkv
Matroska Multimedia Container — 62.14 MBSingle pulse of a plane wave for the (LRmod) model and a field strength E = 4.0V/cm.
Movie_6_9.mkv
Matroska Multimedia Container — 60.29 MBSingle pulse of a plane wave for the (LRmod) model and a field strength E = 5.0V/cm.
Movie_6_10.mkv
Matroska Multimedia Container — 57.31 MBSingle pulse of a plane wave for the (LRmod) model and a field strength E = 6.0V/cm.