Heart Failure Clinical Trial
Official title:
The Assessment of Cardiac Magnetic Resonance Imaging Guided Left Ventricular Lead Placement During the Implantation of Cardiac Resynchronisation Therapy on Clinical Outcomes in Patients With Chronic Heart Failure
Heart failure is a common, costly, disabling and potentially lethal condition. Despite well
recognised and proven drug therapies, many patients remain breathless on exertion. A special
pacemaker (cardiac resynchronisation therapy) may help improve symptoms of breathlessness
and survival by restoring coordinated beating of the heart. However, despite careful
planning and the knowledge of the most appropriate selection criteria, up to a third of
patients do not get the desired beneficial effects after the pacemaker has been implanted.
The implantation of the special pacemaker requires three leads (wires) to be inserted within
the heart. Currently this is undertaken under X-ray guidance. Some patients may have
scarring of the heart muscle due to previous heart attacks or their underlying condition.
The X-ray technique cannot see this and therefore the doctor may implant the lead in such an
area of scar tissue. Cardiac magnetic resonance imaging (CMR) can demonstrate these areas of
scar. The study aims to investigate whether CMR can better predict where the wires should be
placed. The CMR pictures will be taken before the patient has the special pacemaker
implanted.
Cardiac Resynchronisation Therapy (CRT) is currently recommended for patients with heart
failure who have symptomatic left ventricular (LV) systolic impairment and a prolonged QRS
duration.1, 2 Up to a third of patients post CRT implantation do not derive the anticipated
clinical benefit. The reasons for this are multifactorial, with patient selection and
successful LV lead implantation likely to be key factors.
The mechanism by which CRT exerts its clinical benefits is fundamentally through the
correction of mechanical dyssynchrony. However, despite much research in this area the
optimal measures of dyssynchrony for the selection of suitable candidates for CRT have not
been established. The current guidelines were revised in light of the PROSPECT trial which
failed to prove validity and reproducibility in complex echocardiographic variables of
dyssynchrony.3 The 12 lead electrocardiogram (ECG) remains the most widely used criterion
for the assessment of dyssynchrony in patients being considered for CRT, with patients with
a broad QRS complex (>150ms) appearing to benefit the most.4, 5
Although the definition of left bundle branch block (LBBB) is well established, the precise
electrophysiological characteristics remain poorly understood. An arbitrary 'cut off' of 120
milliseconds was recommended by the New York Heart Association (NYHA) in 1948 for its
definition.6 This has subsequently become enshrined in the literature. The presence of LBBB,
a heterogeneous entity, is associated with both electrical and mechanical abnormalities
within the left ventricle.7 Septal and lateral wall delay frequently occur in this setting,
with delayed activation of the lateral LV wall forming the basis for bi-ventricular pacing.
It is well documented within populations with left ventricular impairment that there is
prolongation of the QRS complex which is associated with an adverse prognosis.8
The success of CRT is reliant upon achieving an acceptable position of the left ventricular
lead during implantation. The LV lead position needs to be anatomically stable to minimise
the risk of lead displacement and also to avoid diaphragmatic capture. Furthermore, patients
with myocardial scar tissue in the lateral LV segments as detected on CMR are known to have
a worse outcome following CRT 9 and pacing such sites may potentially be pro-arrhythmic.10
It is not known whether CMR guided placement of the LV lead in order to avoid sites of
myocardial scar and fibrosis can result in an improved clinical outcome in these patients.
A recently published study corroborates that myocardial scar in the region of activation of
the LV lead may have a detrimental effect on the delivery of CRT. A consecutive series of
397 patients with ischaemic cardiomyopathy were imaged prior to the implantation of CRT.
Using the complex echocardiographic technique of 'speckle tracking', myocardial scar was
demonstrated to have an adverse effect on patients' outcomes. It remained an independent
predictor of adverse clinical outcome. Notably due to the complexity of the technique, the
presence of myocardial scar was validated using CMR.11
CRT response is a contentious subject. It is well recognised within the literature that
approximately 30-40% of patients do not appear to improve clinically following CRT
implantation.12 However, the inter-study variability of what has been considered as a marker
of response has been wide and several different variables have been utilised.13 Several of
the studies have also been small, single centre, and non-randomised. There is currently a
lack of consensus in what constitutes 'response' vs 'non-response' following CRT, which may
be either defined in terms of markers of LV reverse remodelling or changes in the clinical
indices of heart failure or a combination of them both. In an effort to rationalise the
endpoints of CRT trials, clinical composite scores have been devised inclusive of both
imaging based and clinical endpoints. However, the correlation between both LV remodelling
and clinical endpoints when compared using correlation coefficients is marginally better
than chance. The realisation that clinical improvement post CRT implantation does not
necessarily accompany mechanical remodelling has also confused the issue.
Rationale for Study The aim of the present study is to provide pilot data, the results of
which should increase our understanding of the mechanisms by which CRT improves clinical
outcomes in patients with heart failure.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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