High-frame-rate contrast-enhanced ultrasound particle image velocimetry in patients with a stented superficial femoral artery: a feasibility study

Background Local blood flow affects vascular disease and outcomes of endovascular treatment, but quantifying it is challenging, especially inside stents. We assessed the feasibility of blood flow quantification in native and stented femoral arteries, using high-frame-rate (HFR) contrast-enhanced ult...

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Published in:European radiology experimental 2022-07, Vol.6 (1), p.32-32, Article 32
Main Authors: van Helvert, Majorie, Engelhard, Stefan, Voorneveld, Jason, van der Vee, Marije, Bosch, Johan G., Versluis, Michel, Groot Jebbink, Erik, Reijnen, Michel M. P. J.
Format: Article
Language:English
Subjects:
Diagnostic Radiology
Feasibility studies
Imaging
Internal Medicine
Interventional Radiology
Medicine
Medicine & Public Health
Microbubbles
Neuroradiology
Original
Original Article
Peripheral arterial disease
Radiology
Rheology
Stents
Ultrasonic imaging
Ultrasonography
Ultrasound
Veins & arteries
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Summary:Background Local blood flow affects vascular disease and outcomes of endovascular treatment, but quantifying it is challenging, especially inside stents. We assessed the feasibility of blood flow quantification in native and stented femoral arteries, using high-frame-rate (HFR) contrast-enhanced ultrasound (CEUS) particle image velocimetry (PIV), also known as echoPIV. Methods Twenty-one patients with peripheral arterial disease, recently treated with a stent in the femoral artery, were included. HFR CEUS measurements were performed in the native femoral artery and at the inflow and outflow of the stent. Two-dimensional blood flow was quantified through PIV analysis. EchoPIV recordings were visually assessed by five observers and categorised as optimal, partial, or unfeasible. To evaluate image quality and tracking performance, contrast-to-tissue ratio (CTR) and vector correlation were calculated, respectively. Results Fifty-eight locations were measured and blood flow quantification was established in 49 of them (84%). Results were optimal for 17/58 recordings (29%) and partial for 32 recordings (55%) due to loss of correlation (5/32; 16%), short vessel segment (8/32; 25%), loss of contrast (14/32; 44%), and/or shadows (18/32; 56%). In the remaining 9/58 measurements (16%) no meaningful flow information was visualised. Overall, CTR and vector correlation were lower during diastole. CTR and vector correlation were not different between stented and native vessel segments, except for a higher native CTR at the inflow during systole ( p = 0.037). Conclusions Blood flow quantification is feasible in untreated and stented femoral arteries using echoPIV. Limitations remain, however, none of them related to the presence of the stent. Trial registration ClinicalTrials.gov, NCT04934501 (retrospectively registered).
ISSN:2509-9280
2509-9280
DOI:10.1186/s41747-022-00278-w