Heart Failure Clinical Trial
Official title:
Assessing the Capability of Cardiogoniometry (CGM) to Detect Changes in Cardiac Resynchronisation Therapy Device Settings
Some patients with heart failure require treatment called cardiac-resynchronisation therapy
(CRT) which involves putting a pacemaker into the heart to make both ventricles (the lower
chambers of the heart) contract together, making the pumping of the blood to the rest of the
body more efficient.
it is important to get the CRT pacemaker checked to make sure that it is working correctly
and performing its job. However, it can be difficult to adjust the settings of the pacemaker
just the right amount to ensure the heart is pumping efficiently.
One of the ways this can be done is by using a special machine which uses ultrasound to make
a 2-dimensional image of the heart called an echocardiogram. This technique can also be used
to measure the flow of blood in the heart and calculate how efficient it is at pumping blood.
However adjusting the settings of the pacemaker with this device is difficult to use and time
consuming.
Electrocardiogram (ECG) a 2-dimensional electrical tracing of the hearts activity is another
tool used to help adjust the settings of pacemakers, to make the heart pump more efficiently.
Furthermore, recent research has shown that this is better than echocardiogram at optimising
pacemaker device settings.
A new type of ECG called cardiogoniometry (CGM) has recently been developed which creates a
3-dimensional view of the hearts electrical activity and has already been shown to be better
than normal ECG at diagnosing certain conditions like angina and heart attacks. However it
has never been used to try optimise the settings of the pacemakers used in CRT and may be
quicker and easier to use than then other methods available. More importantly it is hoped by
doing this it will reduce the symptoms that patients suffer as it is making the heart pump
more efficiently.
As it has been untested and never used in this setting before, and there it is necessary to
find out if the CGM machine will recognise when the settings on the pacemaker are changed.
The aims of this study is to see if the CGM machine can pick up changes to pacemaker
settings, with the hope of running a later study to see if it can be used to optimise
settings on the pacemaker used in CRT.
Cardiac resynchronisation therapy (CRT) improves symptoms and quality of life and improves
the prognosis of patients with chronic heart failure. CRT works by improving co-ordination of
cardiac contraction, and is indicated in people with heart failure and left bundle branch
block (LBBB) on an ECG. The importance of LBBB is that it indicates that the electricity is
spreading only very slowly over the surface of the heart with each heart beat, thereby making
contraction very "dyssynchronous"; that is, instead of all the heart muscle contracting
simultaneously, parts contract and are relaxing before other parts even start to contract.
With a standard pacemaker, a pacing lead is implanted in the right ventricle. In those
patients with a normal heart rhythm ("sinus rhythm"), a second lead is usually placed in the
right atrium close to the heart's natural pacemaker. The lead in the ventricle can then track
the heart's natural heart rate as detected by the lead in the atrium, or, if the natural rate
is too slow, the pacemaker can sequentially pace the atrium and then the ventricle.
A CRT system is similar, but with the addition of an extra lead positioned to pace the left
ventricle. Now, the pacemaker is able to stimulate both left and right ventricles
simultaneously, restoring the normal co-ordination of ventricular contraction.
Approximately 25% of patients do not achieve significant clinical benefit with CRT. Such
patients are termed "non-responders", and lack of response is typically measured as a failure
to improve exercise capacity with CRT, or a failure of the heart to improve on
echocardiography. One option to reduce the number of non-responders may be to optimise the
CRT device by adjusting its settings based on clinical variables (such as ECG and
echocardiogram findings). Both ECG and echocardiogram optimisation give similar results in
terms of clinical response to CRT, but patients who had their CRT optimised using ECG
variables had a significantly greater impact on echocardiographic response, that is a greater
proportion of that group had a LV end-systolic volume reduction >10%) 3. Another possibility
for optimising CRT is cardiogoniometry (CGM), which is what the study aims to investigate.
CGM is form of 3D vector electrocardiography which can provide quantitative analysis of
myocardial depolarisation and repolarisation. Like standard 12 lead electrocardiogram (ECG),
CGM uses different electrodes to identify electrical potential gradients produced by cardiac
electrical activity. The ECG can only visually represent this information in a two
dimensional way, whereas CGM can create a three dimensional display. Electrode placement is
important: and complex mathematical modelling is used to generate the displays. CGM gives the
same output as a standard ECG. One additional output is vector loop graphs. These are
sequentially plotted values of electrical activity of the heart in the x, y and z axis, in
three orthogonal planes. When the vector loops follow the same pathway it means that the
electrical activity of the heart is following the same pathway with each ventricular
depolarisation and repolarisation. By contrast, when there is abnormal electrical conduction,
the vector loop pathways can vary. CGM is useful for identifying stable coronary artery
disease and recognising the acute coronary syndromes, but its clinical value outside patients
with acute ischaemic heart disease is unclear. This feasibility study aims to see if CGM can
detect the different settings of a CRT device, by assessing the CGM vector loops with
different device settings.
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