Virtual heart helps shed new light on heart defects
Washington, January 16 (ANI): A virtual heart developed by researchers is revealing new information about one of the world's most common heart conditions.
Researchers at The University of Manchester used cutting edge technology to build an advanced computational model of an anatomically correct sheep's heart.
It was made by taking a series of very thin slices of the heart, imaging them in 2D and then using a computer programme to render them into a 3D model.
The reconstruction includes details of the complex fibre structure of the tissue, and the segmentation of the upper chambers of the heart into known distinctive atrial regions.
Single-cell models that take into account information about the electrical activity in different atrial parts of regions the heart were then incorporated into the model. The virtual heart was then used to investigate the condition atrial fibrillation (AF).
"Atrial fibrillation (AF) affects approximately 1.5 percent of the world's population. In the UK more than 500,000 patients have been diagnosed with the condition which causes an irregular heart rate," Professor Henggui Zhang, lead researchers of the study, said.
"It is also known to increase the risk and severity of stroke. Despite its prevalence very little is known about what causes AF. We hoped our model would allow us to understand the mechanisms of this condition to ultimately help create better treatments," Zhang said.
AF occurs when abnormal electrical impulses suddenly start firing in the upper chambers of the heart. These impulses override the heart's natural pacemaker, which can no longer control the rhythm of the heart.
This desynchronises the heart muscle contraction and reduces the heart's efficiency and performance.
Professor Zhang and his team focussed on the pulmonary vein which is a common area that initially triggers AF. They simulated erratic electrical waves passing through the vein and the surrounding atrial tissue, and then studied the impact this had on the rest of the heart.
What they found was that regional differences in the electrical activity across the tissue of the heart, known as electrical heterogeneity, is key to the initiation of AF.
The largest electrical difference was between the pulmonary vein and the left atrium which may go some way to explaining why the pulmonary vein region is a common source of irregular heartbeats.
The scientists also identified that the fibre structure of the heart plays an important role in the development of AF. There were directional variations in the conduction of electrical waves along and across the fibres, this is known as anisotropy.
The fibre structure in the left atrium is much more organised compared with the complex structures of the pulmonary vein region. The sudden variation in conduction at the junction between the left atrium and the pulmonary vein regions appeared to contribute to the development of AF.
"This study has for the first time identified the individual role of electrical heterogeneity and fibre structure in the initiation and development of AF," Professor Zhang said.
"It has not previously been possible to study the contribution of the two separately but using our computational model we've been able to clearly see that both electrical heterogeneity and fibre structure need to be taken into consideration when treatment strategies for AF are being devised," Zhang added. (ANI)
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