Physicists discover mechanism for the formation of blood platelets

Physicists discover mechanism for the formation of blood platelets
Individual droplets are formed from an elongated finger-shaped cell (blue) in the blood flow. Each droplet develops into a blood platelet. Image: UBT / Christian Bächer. Credit: University of Bayreuth

Blood platelets, also called thrombocytes, are all-important cells with a diameter of between only 0.0015 and 0.003 millimeters. They have the task of resealing injuries to the blood vessels as quickly as possible, for which they constantly patrol the bloodstream, ready to react immediately to any leaks. However, the biological capabilities of the organism alone are not sufficient to ensure that the immense number of platelets required for this is available at all times. Indeed, it takes the support of a particularly efficient physical mechanism. This mechanism has now been discovered and scientifically described by a Bayreuth research team led by Prof. Dr. Stephan Gekle, together with partners at University Hospital Würzburg.

The platelets are formed in the by special cells that are localized in the , and from which thin finger-like structures extend into the bloodstream. From there, it is rather similar to a water tap: just as a thin stream of water disintegrates into individual droplets due to surface tension, these finger-like structures break up into individual droplets. From each of these droplets one new platelet is formed. "With , it is possible to follow these processes in detail and to visualize them. This basic research promises to be of great practical value to medicine—especially when it comes to optimizing bioreactors currently used in the artificial production of thrombocytes," says Gekle, who holds a Lichtenberg professorship for the simulation and modeling of biofluids at the University of Bayreuth.

The interest in biological-medical questions, combined with large-scale computer simulation, has a long tradition in physics at the University of Bayreuth. Ever since his bachelor studies, Christian Bächer, doctoral researcher and graduate of the Bayreuth study program "Biological Physics," and first author of the study published in PNAS, has been fascinated by how modern IT technology brings together physical and . "It is always fascinating how processes in living beings, that seem so incredibly complicated at first glance, can often be understood on the basis of simple physical principles," says Bächer.


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More information: Christian Bächer et al. Flow-accelerated platelet biogenesis is due to an elasto-hydrodynamic instability, Proceedings of the National Academy of Sciences (2020). DOI: 10.1073/pnas.2002985117
Citation: Physicists discover mechanism for the formation of blood platelets (2020, July 30) retrieved 22 October 2020 from https://phys.org/news/2020-07-physicists-mechanism-formation-blood-platelets.html
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