Restricted blood flow in the coronary arteries can result in a heart attack. A narrowing in the arteries providing oxygen to the heart can therefore be deadly. Today, doctors examine patients using a catheter to determine whether an obstructive coronary artery disease is present or not. New technology can make it possible to evaluate the severity of blood vessel narrowings without inserting a catheter.
“Even though blood is different from oil, and blood vessels differ from pipes, there are several similarities,” says Jan Ludvig Vinningland at IRIS (International research Institute of Stavanger) (Now NORCE after merger on 1 January 2018).
This means that blood supply to the heart can be calculated in much the same way as oil flowing through reservoirs and pipes.
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“Mathematically it’s very similar – more or less identical in fact” says Aksel Hiorth at the National IOR centre of Norway at the University of Stavanger.
Together with doctors from Stavanger University hospital, the two physicists are adapting oil technology to medicine.
Risky examination
The coronary arteries provide critical blood and oxygen supply to the heart. If one or several coronary arteries are narrowed, the heart might not receive enough oxygen. These blockages develop to cause a heart attack.
Cardiologists use a catheter to investigate the narrowing of coronary artery. The catheter is inserted into an artery, usually in the patient’s arm, and from there directed to the coronary artery supply of the heart. A sensor at the end of pressure measuring wire registers drop of pressure over the narrowing. This indicates how severe the narrowing is.
“The problem is that a catheter based measurement is potentially both risky and painful for the patient. For instance, the catheter might damage the arteries,” explains interventional cardiologist Nigussie Bogale at a gathering of petroleum researchers and hospital doctors.
From oil to blood
According to Vinningland and Hiorth, the human body can be compared to porous rock.
“In the same way as oil is spread in a network consisting of gaps and pores in porous rock, blood spreads through a very fine network of veins and arteries in our body,” Hiorth explains.
Fluid dynamics describe the flow of liquids and gases. By applying the basic laws of fluid dynamics, physicists and other researchers are able to simulate several real-life situations.
For instance, this can be used to simulate airflow round the blades on a windmill. Or how water flows round a propeller. Or how oil, gas and water flow through a reservoir.
