Artery Research

Volume 26, Issue Supplement 1, December 2020, Pages S66 - S67

P.44 Application of an Algorithm Developed for Measuring Gastrointestinal Motility to the Assessment of Arterial Mechanical Properties

Authors
Andrew Bard1, 2, *, Stephen Greenwald1, 2, Sandip Sarkar1
1Department of Vascular Surgery, Barts Health NHS Trust
2Blizard Institute, Queen Mary University of London
*Corresponding author. Email: andrew.bard@nhs.net
Corresponding Author
Andrew Bard
Available Online 31 December 2020.
DOI
10.2991/artres.k.201209.056How to use a DOI?
Keywords
MRI; post-processing; motion_extraction; abdominal_aorta
Abstract

Background: GIQuant (Motilent, London) is an algorithm for analysing cine-MRI, using the displacement fields generated by registration of indivisdual ciné frames. It produces a summary of how much movement occurs (“motility”) for anatomical locations within a reference image [1]. Although it is used clinically for quantifying gut motility [2], it can process any ciné-MRI. In this study, we explore the hypothesis that it can be used to examine the functionality of blood vessels.

Methods: Using ciné-MRI of the abdomen, obtained in initially to assess small-bowel motility in patients with Crohn’s disease, we tested the feasibility of using GIQuant to examine the mechanical properties of blood vessels. In such data, coronal slices often intersect the abdominal aorta and the common iliac arteries. The reference images were manually segmented (see Figure 1A) for statistical analysis of the motility scores.

Figure 1

A. Example reference image, with abdominal aorta and common iliacs false-coloured according to GlQuant motility score. B-C. Scatter plots showing mean motility scores for both common iliacs (B) and comparisons with aorta (C). D. Scatter plot showing pixelwise motility scores against craniocaudal position, for the image shown in (a) E. r- values from n=25 subjects treated as per (D).

Results: We compared the mean motility score in the common iliac arteries, finding that the inter-subject, is greater than the intra-subject variability (Figure 1B). Additionally, motility in the right and left common iliacs is not correlated with that of the abdominal aorta (Figure 1C). When assessed spatially along the abdominal aorta, the motility score is correlated with position in a physiologically plausible manner, showing a general decrease in the caudal direction (Figure 1D–1E).

Conclusions: It appears that GIQuant can be used to provide biologically meaningful information about blood vessel properties. Further validation work will use this technique to examine function in patients with bicuspid aortic valves, and to examine its predictive value for aortic aneurysm prognosis.

Copyright
© 2020 Association for Research into Arterial Structure and Physiology. Publishing services by Atlantis Press International B.V.
Open Access
This is an open access article distributed under the CC BY-NC 4.0 license (http://creativecommons.org/licenses/by-nc/4.0/).

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Journal
Artery Research
Volume-Issue
26 - Supplement 1
Pages
S66 - S67
Publication Date
2020/12/31
ISSN (Online)
1876-4401
ISSN (Print)
1872-9312
DOI
10.2991/artres.k.201209.056How to use a DOI?
Copyright
© 2020 Association for Research into Arterial Structure and Physiology. Publishing services by Atlantis Press International B.V.
Open Access
This is an open access article distributed under the CC BY-NC 4.0 license (http://creativecommons.org/licenses/by-nc/4.0/).

Cite this article

TY  - JOUR
AU  - Andrew Bard
AU  - Stephen Greenwald
AU  - Sandip Sarkar
PY  - 2020
DA  - 2020/12/31
TI  - P.44 Application of an Algorithm Developed for Measuring Gastrointestinal Motility to the Assessment of Arterial Mechanical Properties
JO  - Artery Research
SP  - S66
EP  - S67
VL  - 26
IS  - Supplement 1
SN  - 1876-4401
UR  - https://doi.org/10.2991/artres.k.201209.056
DO  - 10.2991/artres.k.201209.056
ID  - Bard2020
ER  -