Sick Sinus Syndrome Clinical Trial
Official title:
Left Ventricular Pacing to Prevent Iatrogenic Tricuspid Regurgitation Caused by Conventional Right Ventricular Pacing: a Pilot Study
Background and Aims Pacemaker implantation for treating bradyarrhythmias typically involves
placing a pacing lead through the tricuspid valve (TV) into the right ventricular (RV) apex.
It is now known that tricuspid regurgitation (TR) frequently results from this and may lead
to increased morbidity or mortality. Recently, left ventricular (LV) pacing through an
epicardial vein via the coronary sinus has been widely practiced due to the advent of
biventricular pacing. This lead does not cross the TV, potentially reducing the risk of TV
dysfunction and may also reduce the risk of LV dysfunction. The investigators hypothesize
that LV pacing will prevent the onset of new TR or worsening of pre-existing TR in patients
undergoing pacemaker implantation.
Methods Patients receiving a pacemaker for sick sinus syndrome (n=20) with an LV ejection
fraction <40% will be randomly allocated to receive either conventional RV pacing or LV
pacing via the coronary sinus. Serial 2D and 3D transthoracic echocardiography will be
performed before implantation, one day post implantation, then at 1 week, 1 month, 6 months
and 1 year. The primary endpoints will be new onset TR and the diagnosis of at least moderate
TR. Other endpoints include biventricular function, ventricular dyssynchrony, complications
of device implantation, mortality and major cardiovascular events.
We hypothesize that left ventricular pacing via a coronary sinus approach can reduce the
incidence of significant tricuspid regurgitation after pacemaker implantation in patients
with normal left ventricular function.
The aim of this study is to compare the degree of tricuspid regurgitation caused by pacemaker
implantation between the conventional techniques of implanting a ventricular lead implanted
in the right ventricular apex versus implanting a ventricular lead in a left ventricular
epicardial vein via a coronary sinus approach.
The secondary objective of our study is to evaluate whether left ventricular pacing is also
less likely to cause ventricular dyssynchrony and dysfunction than right ventricular apical
pacing.
This study is a single centre randomised clinical pilot study comparing 2 different lead
implantation techniques to be assessed using both imaging techniques and follow up for
clinical outcomes.
(i) Proposed study interventions The procedures in both arms of the study will be identical
except for where the ventricular lead is placed. All parts of these procedures, including all
the implanting equipment and pacing leads are standard routine clinical practice. The left
ventricular leads used in this study are routinely used for pacing the left ventricle in
patients receiving biventricular pacemakers or defibrillators for heart failure.
The implant site will be the left or right prepectoral region and venous access will be via
either an axillary or subclavian vein approach. These choices will be left to the implanting
physician's discretion. Once venous access has been established successfully the patient will
then be randomly allocated to either of the study arms.
Patients randomized to have an LV lead will have a long coronary sinus sheath inserted which
will be used to perform an occlusive venogram of the coronary sinus to determine if there are
veins suitable for left ventricular lead placement. Those in the left ventricular pacing arm
will instead have a left ventricular epicardial pacing lead placed as apically as possible in
a large calibre left ventricular branch of the coronary sinus.
Patients in the right ventricular apical pacing arm will have an endocardial active fixation
pacing leads placed in the right ventricular apex in the conventional manner.
Patients in both arms will then go on to have a right atrial active fixation lead placed in
the right atrial appendage.
(ii) Methods for protecting against other sources of bias All patients referred to our
Arrhythmia Service will be assessed for suitability to take part in this study. Once
recruited, study subjects will be block randomised in a 1:1 fashion to either conventional
right ventricular lead implantation or left ventricular coronary sinus lead implantation.
They will be blinded to their allocation during the course of this study to remove any bias.
Assessment of the echocardiograms will be performed by 2 investigators who are not blinded to
the patient's treatment allocation. This is because the pacemaker lead is nearly always well
visualised during echocardiographic studies making blinding impossible. However, the main
outcomes of this study will be quantitative measures of TR and biventricular function derived
from 3D echocardiography rather than qualitative measures used in previous studies and this
will protect against bias that may be caused by the echocardiogram assessors knowing the
allocation of the patients. The studies will also be assessed for interobserver and
intraobserver variability to look for the likelihood of bias.
(iii) Duration of follow up period Patients will be seen post discharge at 1 week for wound
care and at 1 months, 6 months and 12 months for pacemaker checks in the pacemaker clinic.
(iv) Frequency and duration of follow-up The scheduled follow up is as follows. Note that all
transthoracic echocardiography studies will include both 2D and 3D echocardiography
1. Pre implant: transthoracic echocardiography
2. Pacemaker implantation: randomisation when venous access is achieved. Blood samples
taken for biomarker assays.
3. Post implant day 1: Pacemaker check, transthoracic echocardiography
4. Post implant week 1: Wound check, pacemaker check, transthoracic echocardiography
5. Post implant month 1: Wound check, pacemaker check, transthoracic echocardiography
6. Post implant month 6: Pacemaker check, transthoracic echocardiography, blood samples
taken for biomarker assays.
7. Post implant month 12: Pacemaker check, transthoracic echocardiography
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