Echogenic perfluorohexane-loaded macrophages adhere in vivo to activated vascular endothelium in mice, an explorative study

Liselotte M. Kornmann, Alma Zernecke, Danielle M. J. Curfs, Ben J. A. Janssen, Christian Weber, Menno P. J. de Winther, Robert S. Reneman, Arnold P. G. Hoeks, Koen D. Reesink*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review


Background: Macrophages may concentrate ultrasound contrast agents and exhibit selective adhesion to activated endothelium. The present study investigates in mice the potential of perfluorohexane (PFH) loaded macrophages to act as ultrasound contrast agent with high reflectivity and specifically targeted at (atherosclerotic) vascular lesions. Methods: Lung passage was evaluated with a mouse echo scanner after injection, at a slow pace or as a bolus, of varying doses of PFH-loaded and unloaded bone marrow macrophages (BMM) into the jugular vein. The interaction of PFH-loaded and unloaded BMM with TNF-alpha stimulated carotid artery endothelium after tail vein injection was assessed by means of intravital microscopy. Results: High doses of jugular vein injected PFH-loaded BMM were visible with ultrasound in the pulmonary artery and detectable in the carotid artery. At intravital microscopy, tail vein injected BMM exhibited rolling and adhesion behavior at the TNF-alpha stimulated carotid endothelium, similar to that of native blood leukocytes. Rolling behavior was not different between PFH-loaded and unloaded BMM (p = 0.38). Conclusion: In vivo, perfluorohexane loaded macrophages pass the pulmonary circulation and appear on the arterial side. Moreover, they roll and adhere selectively to activated endothelium under physiological flow conditions. These findings indicate that perfluorohexane loaded BMM could be used to study processes in vivo where endothelial activation plays a role, such as atherosclerosis.
Original languageEnglish
Article number1
JournalCardiovascular Ultrasound
Publication statusPublished - 8 Jan 2015


  • Atherosclerosis
  • Ultrasound contrast
  • Macrophage
  • Endothelium
  • Perfluorocarbon


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