Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03322085 |
| Other study ID # |
xierqdoctorER |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
September 1, 2017 |
| Est. completion date |
October 30, 2019 |
Study information
| Verified date |
March 2020 |
| Source |
The Second Hospital of Hebei Medical University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
This study explored the influence of radiofrequency catheter ablation and cryoballoon
ablation on atrial electrical remodeling in patients with atrial fibrillation,the
relationship between atrial electrical remodeling and structural remodeling,and which
indicators are associated with atrial recurrence after catheter ablation.
Description:
From September 2017 to September 2019, the investigators enroll consecutive patients with
symptomatic atrial fibrillation (AF) who were scheduled for an initial catheter ablation,
including paroxysmal and persistent AF.Patients are divided in to three group: paroxysmal AF
in radiofrequency ablation group, persistent AF in radiofrequency ablation group, and
paroxysmal AF in Cryoablation group.
1. Paroxysmal AF group: The p-wave duration, P wave dispersion and P wave amplitude are
detected before and 24 hours after procedure.The atrial effective refractory period,
refractory period dispersion, frequency adaptation and atrial conduction time were
tested before and after procedure. Detect atrial electromechanical conduction time in
the tissue doppler before and 1 week after procedure.
2. Persistent AF group: The p-wave duration, P wave dispersion and P wave amplitude are
detected 24 hours after procedure.The atrial effective refractory period, refractory
period dispersion, frequency adaptation and atrial conduction time were tested after
procedure. Detect atrial electromechanical conduction time in the tissue doppler 1 week
after procedure.
3. Method of detection of atrial electrical remodeling: 1). the measurement of surface
electrocardiogram: the p-wave amplitude, P wave time duration and the p-wave duration
dispersion (dP =Pmax- Pmin) of the same 12 lead electrocardiogram in the same cardiac
cycle.Two cardiologists measured the value separately.The investigators record the mean
value. 2). Atrial effective refractory period (AERP) measured from the high right
atrium(HRA,the junction of superior vena cava and the right atrium , near the sinus
node), low lateral right atrium(LLRA,the junction of inferior vena cava and the right
atrium,on the right atrium free wall side), coronary sinus electrode (CS)7.8, and CS1.2
at 3 basic drive cycle lengths (CLs) of 600, 500, and 400 ms. Pacing was performed using
a pulse width of 2 ms and a current output of twice the local diastolic threshold. If
the latter was 2.0 milliampere (mA), the catheter was replaced and the threshold
repeated. AERP was measured using an 8-beat drive train and a single extrastimulus
incremented by 10 ms from a starting point of 170 ms. Every AERP was repeated 3 times,
and the mean was taken. 3). At each CL, the dispersion of refractoriness was measured by
subtracting the minimum from the maximum AERP across the 4 sites.
4. Rate adaption of AERP: With the gradual shortening of the pacing cycle lengths, the
atrial effective refractory should be shortened accordingly. The rate adaption of AERP
was observed in different pacing cycle lengths.
5. Atrial conduction time measured at the HRA after 30 seconds of constant pacing at a CL
of 600, 500, and 400 ms. Conduction time is measured from the pacing artifact to the
onset of the first initial sharp deflection recorded to the first A wave at CS1.10 and
CS1.2. Total atrial conduction time=Pace HRA-Acs1.2; Right atrial conduction
time=PaceHRA-Acs9.10; Left atrial conduction time=Acs9.10-Acs1.2.6). Atrial
electromechanical conduction time: three sampling points are taken at lateral mitral
valve(Sa1), septal mitral valve(Sa2), lateral tricuspid valve (Sa3), in the tissue
doppler four-chamber view. Atrial electromechanical conduction time is measured from
electrocardiogram P wave initiation to ultrasound A wave initiation. Total atrial
electromechanical conduction time=T1-T3;Right atrial electromechanical conduction
time=T2-T3; Light atrial electromechanical conduction time=T2-T1.
All patients fill the follow-up form before procedure. After catheter ablation therapy, all
patients invited to come back to the outpatient clinic every week in the first month, and
then at 2, 3, 6, 9, and 12 month to follow up. Patients received electrocardiogram and Holter
monitor examination if with symptoms of palpitations. Those patients with no symptoms
received electrocardiogram every month and Holter monitor examination every 6 months.
Recurrence of atrial fibrillation was defined as atrial fibrillation/flutter or atrial
tachycardia lasting ≥ 30 seconds 3 months after radiofrequency catheter ablation therapy.
Patients who have AF recurrence within three months after therapy will not be considered for
repeated radiofrequency ablation.Blood samples (routine blood, high sensitivity c-reactive
protein,B-type natriuretic peptide (BNP), cystatin C,homocysteine,β2-microglobulin) and
transthoracic echocardiography indexes (left atrial anterior to posterior diameter, left
atrial length-diameter,left atrial transverse-diameter,left atrial volume index, mitral e', E
peak, A peak, E/A,velocity time integral (VTI), left atrial ejection fraction, left atrial
strain, strain rate and atrial electrical - mechanical conduction time) are recorded in all
patients at each follow-up. Patients with AF recurrence must have an electrocardiogram or a
24 hour holter monitor evidence.
