'Virtual human' shows that stiff arteries can explain the cause of high blood pressure

Stig W. Omholt from the Norwegian University of Science and Technology was the senior investigator for an article in PLOS Computational Biology that used a "virtual human" to explore causes of high blood pressure. Credit: Geir Mogen/NTNU

High blood pressure is highly age-related and affects more than 1 billion people worldwide. But doctors can't fully explain the cause of 90 per cent of all cases. A computer model of a "virtual human" suggests that stiff arteries alone are enough to cause high blood pressure.

"Our results suggest that arterial stiffness represents a major therapeutic target. This is contrary to existing models, which typically explain high blood pressure in terms of defective kidney function," says Klas Pettersen, a researcher at the Norwegian University of Life Sciences and first author of the study, recently published in PLOS Computational Biology.

High blood pressure is a major source of morbidity and mortality, because it makes individuals more prone to heart failure, stroke and kidney disease.

When blood pressure travels down the aorta from the heart, a special group of cells in the aortic wall, called baroreceptors, sense the pressure in this stretch of the and send signals with this information to the nervous system.

If the blood pressure is too high, these cells send stronger signals and the body is able to . However, if the aorta gets stiffer, as typically happens with age, this stretch of the aorta is not as sensitive as it once was in measuring blood pressure. Thus, although a person's blood pressure may have increased, the baroreceptors do not signal as intensively as they should and the body does not get the message to lower blood pressure.

"With the stiffening of the wall that follows ageing, these sensors become less able to send signals that reflect the actual blood pressure. Our mathematical model predicts the quantitative effects of this process on blood pressure," says Pettersen.

"If our hypothesis is proven right, and baroreceptor signaling will become hotspot targets for the treatment of and the development of new medicines and medical devices," says Stig W. Omholt from the Norwegian University of Science and Technology, who was the senior investigator of the research project.

With the use of existing experimental data and models of the aging human aorta, the researchers were able to show quantitatively how the stiffening of the aorta with age causes the baroreceptors to misinform the central nervous system about blood pressure, thus preventing the system from downregulating . The model predictions were compared with data from the Nord-Trøndelag Health Study (HUNT2), which is comprised of information on the health history of 74,000 people, including blood sample collection from 65,000 people.

NTNU's Omholt says that the study is a good example of how very complex human disease can be understood by use of mathematical models and thus allow for much better treatment strategies.

"If we are to succeed in developing predictive, preventive and participatory medicine envisioned by so many, there is no substitute for building much stronger transdisciplinary ties between the , the mathematical sciences and engineering across the whole spectrum of basic, translational and applied research. And mathematical models of the human physiology will be at the core of this development," he says.

More information: www.ploscompbiol.org/article/i… journal.pcbi.1003634

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