Modelling the effects of cerebral microthrombi on tissue oxygenation and cell death

Xue, Yidan, El-Bouri, Wahbi K ORCID: 0000-0002-2732-5927, Józsa, Tamás I and Payne, Stephen J
(2021) Modelling the effects of cerebral microthrombi on tissue oxygenation and cell death. Journal of Biomechanics, 127. p. 110705.

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Thrombectomy, the mechanical removal of a clot, is the most common way to treat ischaemic stroke with large vessel occlusions. However, perfusion cannot always be restored after such an intervention. It has been hypothesised that the absence of reperfusion is at least partially due to the clot fragments that block the downstream vessels. In this paper, we present a new way of quantifying the effects of cerebral microthrombi on oxygen transport to tissue in terms of hypoxia and ischaemia. The oxygen transport was simulated with the Green's function method on physiologically representative microvascular cubes, which was found independent of both microvascular geometry and length scale. The microthrombi occlusions were then simulated in the microvasculature, which were extravasated over time with a new thrombus extravasation model. The tissue hypoxic fraction was fitted as a sigmoidal function of vessel blockage fraction, which was then taken to be a function of time after the formation of microthrombi occlusions. A novel hypoxia-based 3-state cell death model was finally proposed to simulate the hypoxic tissue damage over time. Using the cell death model, the impact of a certain degree of microthrombi occlusions on tissue viability and microinfarct volume can be predicted over time. Quantifying the impact of microthrombi on oxygen transport and tissue death will play an important role in full brain models of ischaemic stroke and thrombectomy.

Item Type: Article
Uncontrolled Keywords: Oxygen transport, Hypoxia, Cell death, Stroke, Thrombus
Divisions: Faculty of Health and Life Sciences
Faculty of Health and Life Sciences > Institute of Life Courses and Medical Sciences
Depositing User: Symplectic Admin
Date Deposited: 17 Sep 2021 07:28
Last Modified: 10 Mar 2023 08:36
DOI: 10.1016/j.jbiomech.2021.110705
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