Biosensors (Oct 2024)

Prediction of Thrombus Formation within an Oxygenator via Bioimpedance Analysis

  • Jan Korte,
  • Tobias Lauwigi,
  • Lisa Herzog,
  • Alexander Theißen,
  • Kai Suchorski,
  • Lasse J. Strudthoff,
  • Jannis Focke,
  • Sebastian V. Jansen,
  • Thomas Gries,
  • Rolf Rossaint,
  • Christian Bleilevens,
  • Patrick Winnersbach

DOI
https://doi.org/10.3390/bios14100511
Journal volume & issue
Vol. 14, no. 10
p. 511

Abstract

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Blood clot formation inside the membrane oxygenator (MO) remains a risk in extracorporeal membrane oxygenation (ECMO). It is associated with thromboembolic complications and normally detectable only at an advanced stage. Established clinical monitoring techniques lack predictive capabilities, emphasizing the need for refinement in MO monitoring towards an early warning system. In this study, an MO was modified by integrating four sensor fibers in the middle of the hollow fiber mat bundle, allowing for bioimpedance measurement within the MO. The modified MO was perfused with human blood in an in vitro test circuit until fulminant clot formation. The optical analysis of clot residues on the extracted hollow fibers showed a clot deposition area of 51.88% ± 14.25%. This was detectable via an increased bioimpedance signal with a significant increase 5 min in advance to fulminant clot formation inside the MO, which was monitored by the clinical gold standard (pressure difference across the MO (dp-MO)). This study demonstrates the feasibility of detecting clot growth early and effectively by measuring bioimpedance within an MO using integrated sensor fibers. Thus, bioimpedance may even outperform the clinical gold standard of dp-MO as a monitoring method by providing earlier clot detection.

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