3D imaging reduces x-ray exposure
More cardiac arrhythmia patients can now benefit from zero radiation exposure during transcatheter procedures, thanks to innovative three dimensional (3D) mapping systems.
Arrhythmias or heart rhythm problems are experienced by more than two million people a year in the UK. At Royal Brompton & Harefield Hospitals Specialist Care, our specially-trained cardiologists can use electrophysiology procedures to determine the cause of a slow, fast or irregular heart rhythm.
During the procedure to ablate the arrhythmia, the consultant uses imaging devices to find the precise areas in the patient’s heart that are responsible for the faulty electrical impulses. The site is then treated to stop the faulty rhythm and allow the normal, regular rhythm to take over.
An effective way of visualising the position of the catheters is to use conventional x-ray imaging. However, exposure to x-rays can cumulate over a patient’s lifetime and is associated with an increased risk of developing cancer later in life. Unfortunately, medical imaging is recognised as being one of the contributors to this lifetime risk. Those at the highest risk are patients who are young or who need repeat procedures.
When possible, it is important to apply all measures to reduce the overall radiation exposure to a patient during an ablation procedure. This is known as the ‘as low as reasonably achievable’ or ALARA principle.
A different roadmap
In recent years, consultants have developed alternative electroanatomical mapping systems which use 3D images. Over the last decade, Dr Sabine Ernst has developed a structured approach to implementing 3D reconstructions from cardiac magnetic resonance (CMR) imaging or computed tomography (CT).
These 3D ‘roadmaps’ are used to show the detailed anatomy of an individual’s heart. The mapping systems need special catheters equipped with sensors to allow exact localisation of the catheter during the procedure.
Zero or minimal radiation
Because of the 3D mapping, the total radiation time from x-rays can be substantially reduced. For a growing number of patients who need to undergo an ablation, the exposure to x-ray radiation can be zero, or reduced to just a few seconds.
With this approach, the patient’s lifetime ‘radiation bill’ is not added to with potentially harmful radiation, therefore the cancer risk is not altered by the procedure.
Which arrhythmias can be treated
Various types of arrhythmia can now be treated using 3D mapping – without exposure to x-rays – including:
- atrial fibrillation
- atrial tachycardia
- supraventricular tachycardia
- some types of ventricular tachycardia or extra beats.
Young patients and female patients with childbearing potential are benefitting the most, whilst it is the only possible way to treat pregnant women with drug-refractory arrhythmia.
Some patients do need to undergo x-rays for their treatment, for example those with implanted devices such as pacemakers, defibrillators (ICDs), and biventricular devices. Depending on the position of the valve, patients with a metallic heart valve also may also require navigation using x-rays.
As the ablation procedure is otherwise carried out in the same fashion, the success rates and are equally as good when using x-ray or 3D mapping systems for navigation. The recovery period is also the same, and patients are able to return to normal physical activity after 10 days.
At 36 years old, Jennifer* is a young arrhythmia patient.
Referring an arrhythmia patient
Our team of clinicians at Royal Brompton & Harefield Hospitals Specialist Care are highly skilled in treating a wide range of arrhythmias, using the best method to suit the patient. We accept private patient referrals from other cardiologists.