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| Name | Class |
|---|---|
| National Institute of Cardiology, Warsaw, Poland | OTHER |
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Pulmonary vein isolation using cryoballoon ablation is well established method for the treatment of atrial fibrillation. As a rule, cryoenergy delivery is preceded by documenting the full vein occlusion. It is assessed by venography, performed by injecting contrast through the inner lumen of the balloon catheter after the vein is blocked with a balloon. Achieving full vein occlusion in certain situations can be challenging and may require multiple attempts, which may expose the patient to increased doses of contrast and radiation.. At the same time, the purpose of ablation is an electrical isolation of pulmonary veins.
Experts postulate ablation in the antrum and the so-called "proximal-seal technique", which in some cases may require to start cryoapplication before the vein is fully sealed. This approach minimizes the risk of the pulmonary vein stenosis, damage to structures immediately adjacent to the atrium and phrenic nerve palsy. In addition, in many cases the displacement of the balloon after several dozen seconds of cryoapplication, usually by pulling it, causes full sealing of the vein, contributes to further lowering the temperature and leads to full electrical isolation of the vein, which is the aims of ablation.
All the above-mentioned facts indicate that demonstrating full vein occlusion using angiography before the initiation of cryoenergy application is of limited value. Moreover, there are a number of parameters related to cryoballoon ablation that indicate acute and long term vein isolation.
Taking into account the arguments presented above, it seems that it is possible to perform an effective and safe isolation of the pulmonary veins using the cryoballoon ablation technique without confirmation by venography that PV is occluded. Along with dissemination of the method, such attempts are and will be made by some operators. Therefore, a systematic approach to this issue is important. It should define the conditions that should be met in order for the procedure in the proposed modification to be implemented effectively and safely. In addition, a protocol of ablation for this modification is required.
Pulmonary vein isolation using cryoballoon ablation is well established method for the treatment of atrial fibrillation. As a rule, cryoenergy delivery is preceded by documenting the full vein occlusion. It is assessed by venography, performed by injecting contrast through the inner lumen of the balloon catheter after the vein is blocked with a balloon. Achieving full vein occlusion in certain situations can be challenging and may require multiple attempts, which may expose the patient to increased doses of contrast and radiation.. At the same time, the purpose of ablation is an electrical isolation of pulmonary veins.
Experts postulate ablation in the antrum and the so-called "proximal-seal technique", which in some cases may require to start cryoapplication before the vein is fully sealed. This approach minimizes the risk of the pulmonary vein stenosis, damage to structures immediately adjacent to the atrium and phrenic nerve palsy. In addition, in many cases the displacement of the balloon after several dozen seconds of cryoapplication, usually by pulling it, causes full sealing of the vein, contributes to further lowering the temperature and leads to full electrical isolation of the vein, which is the aims of ablation.
All the above-mentioned facts indicate that demonstrating full vein occlusion using angiography before the initiation of cryoenergy application is of limited value. Moreover, there are a number of parameters related to cryoballoon ablation that indicate acute and long term vein isolation.
Taking into account the arguments presented above, it seems that it is possible to perform an effective and safe isolation of the pulmonary veins using the cryoballoon ablation technique without confirmation by venography that PV is occluded. Along with dissemination of the method, such attempts are and will be made by some operators. Therefore, a systematic approach to this issue is important. It should define the conditions that should be met in order for the procedure in the proposed modification to be implemented effectively and safely. In addition, a protocol of ablation for this modification is required.
Course of ablation. All ablations will be performed using Medtronic Arctic Front Advance catheter system as well as future generations of Medtronic cryoballoon catheter systems.
Initially the cryoenergy will be delivered without previous venography confirming full vein occlusion. Then, in case of vein isolation failure after 5 minutes of cryoenergy delivery, further attempts to isolate the vein will be preceded by venography.
Statistical analysis. The assumed sample size (N = 50 patients/ 200 veins) will allow to estimate the number and percentage of pulmonary veins that will be isolated without the use of contrast.
The statistical analysis will use standard descriptive statistics tools: frequency tables for categorical variables; extreme values, mean value and standard deviation for normal distributed variables; and extreme values and quartiles for non-normal distributed variables.
Parameters assessed during the procedure:
Concerning a single energy cryoapplication
Possibility of registration (occurrence vs. non-occurrence) of pulmonary vein potentials before the cryoapplication, and after the occlusion of the vein by the balloon.
Time to vein isolation
Cryoenergy application time / freezing time
The minimum temperature obtained during cryoapplication
Time to obtain temperature - 30 ° C and - 40 ° C
Temperature after 30, 60 and 90 seconds from the beginning of cryoenergy application
Cryoballoon heating time from -30 C to +15 C Concerning the isolation of a single vein
Total time to complete isolation of a vein
The number of cryoenergy applications
Total time of cryoenergy application per vein
Concerning the entire procedure:
Total cryoenergy application time per procedure / patient
The total amount of contrast
Radiation dose
Time of radiation
Left atrial dwelling time
Duration of the procedure (from puncture of the vein to sheaths removal)
Termination of cryoenergy delivery:
Effective cryoenergy applications will be terminated 120 seconds after vein isolation.
Veins with no recordable pulmonary vein potentials - The above-mentioned veins will be isolated - 1 application 240 seconds. Applications will be considered effective if the minimum temperature achieved will be less than 35C and the stimulation performed from the vein after application will be ineffective.
Supplemental cryoapplications. Supplemental cryoenergy applications will not be delivered after successful isolation of the vein
Vein isolation assessment. Pulmonary vein isolation will be assessed by demonstrating entrance and exit block
Phrenic nerve function monitoring. In order to prevent PN injury/ palsy the balloon will be inflated outside PV ostia and maintained as antrally as possible during vein isolation. For phrenic nerve function monitoring pacing of the nerve during right pulmonary vein isolation will be performed. Additionally, intermittent fluoroscopy during pacing will be used for monitoring diaphragmatic motion. The ablation will be stopped at the first sign of imminent phrenic nerve injury.
Complications assessed. Transient phrenic nerve injury or palsy (resolving until discharge after index procedure) is considered a minor complication. Death, stroke, tamponade, arteriovenous fistula or pseudoaneurysm, persistent (resolving during follow up) or permanent (if not resolved at end of follow up, but >12 months) phrenic nerve palsy, bleeding with a decrease in haemoglobin of at least 2 g / dl or any other state requiring prolongation of hospitalization are considered major complications.
The duration of the project and follow-up. The study is expected to last two years. Approximately 50 patients will be enrolled, with one year follow-up. All patients will have follow-up visits in an out-patient clinic at least 3 and 12 months post PVI. Additionally at 6 weeks, 6 and 9 months post ablation telephone follow-up will be conducted by the study coordinator using standardized questionnaire.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Cryoballoon ablation without contrast | Experimental | Cryoballoon ablation without contrast |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Cryoballoon ablation without contrast | Device | Cryoballoon ablation without contrast |
|
| Measure | Description | Time Frame |
|---|---|---|
| Isolation of a pulmonary vein without the use of contrast and within the scheduled timeframe | Acute result will be assessed. Vein isolation assessment will be done using a diagnostic circular catheter (Achieve, Medtronic), by demonstrating entrance and exit block | Through study completion, an average of 2 years |
| Measure | Description | Time Frame |
|---|---|---|
| Percentage of patients in whom isolation of all pulmonary veins will be achieved without the use of contrast | Through study completion, an average of 2 years | |
| Percentage of patients with stable sinus rhythm, without atrial fibrillation episodes during follow-up |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Pawel Derejko, MD, PhD | Contact | +48603338871 | pawel.derejko@medicover.pl |
| Name | Affiliation | Role |
|---|---|---|
| Pawel Derejko, MD, PhD | Medicover Hospital, Warsaw, Poland | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Medicover Hospital | Recruiting | Warsaw | Poland |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 38287689 | Derived | Derejko P, Kusnierz J, Bardyszewski A, Orczykowski M, Dzwonkowska D, Polanska-Skrzypczyk M, Szumowski LJ. Cryoballoon ablation without use of contrast for the treatment of paroxysmal atrial fibrillation. Cardiol J. 2024;31(5):665-674. doi: 10.5603/cj.95969. Epub 2024 Jan 30. |
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Individual participant data that underlie the results reported in this article, after deidentification (text, tables,figures, and appendices).
Beginning 3 months and ending 5 years following article publication.
Investigators whose proposed use of the data has been approved by an independent review committee ("learned intermediary") identified for this purpose.
For individual participant data meta-analysis
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| ID | Term |
|---|---|
| D001281 | Atrial Fibrillation |
| ID | Term |
|---|---|
| D001145 | Arrhythmias, Cardiac |
| D006331 | Heart Diseases |
| D002318 | Cardiovascular Diseases |
| D010335 | Pathologic Processes |
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| During one year follow-up |
| The amount of contrast dye used | Through study completion, an average of 2 years |
| X-ray time exposure | Through study completion, an average of 2 years |
| Radiation dose | Through study completion, an average of 2 years |
| Left atrial dwelling time | Through study completion, an average of 2 years |
| Number of complications assessed | Through study completion, an average of 2 years |
| National Institute of Cardiology | Recruiting | Warsaw | Poland |
|
| D013568 |
| Pathological Conditions, Signs and Symptoms |