Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms: A Pilot Study

Callum Little; Shaoyan Zhang; Richard Colchester; Sacha Noimark; Sunish Mathews; Edward Zhang; Paul Beard; Malcolm Finlay; Tara Mastracci; Roby Rakhit; Adrien Desjardins

doi:10.1007/978-3-031-43996-4_67

Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms: A Pilot Study

Callum Little, Shaoyan Zhang, Richard Colchester, Sacha Noimark, Sunish Mathews, Edward Zhang, Paul Beard, Malcolm Finlay, Tara Mastracci, Roby Rakhit, Adrien Desjardins (Lead / Corresponding author)

Biomedical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

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Abstract

An abdominal aortic aneurysm (AAA) is a persistent localized dilatation of the aorta to more than 1.5 times the expected diameter, which may lead to rupture with resultant high mortality. Endovascular repair (EVAR) of AAAs is a minimally invasive procedure that involves the peripheral delivery of one or more covered endografts to the aneurysmal segment, via a catheter-based system. A particularly challenging group of patients to treat are those in which the aneurysmal sac extends proximally to include the origin of the renal arteries (15% of all AAAs). To maintain the patency of renal side branches in these “complex” cases, in situ fenestration (ISF) of endografts during AAA procedures has been proposed. The challenges addressed in this study were a) to develop an endovascular imaging system for visualizing side branches beyond deployed endografts and thereby to determine the locations for ISF; b) to obtain an initial assessment of the clinical utility of this system. Here, all-optical ultrasound (OpUS) imaging with a fiber optic transducer was used for real-time guidance, wherein ultrasonic pulses are generated in nanocomposite coatings via the photoacoustic effect and received optically using a Fabry-Perot cavity. These custom OpUS transducer components were integrated into a steerable sheath (6 Fr) that also included a separate optical fiber for delivering laser pulses for fenestrating the endograft. In an ex-vivo model, it was shown that OpUS imaging extended through the endograft and underlying aortic tissue, and permitted aortic side-branch visualization. During an EVAR procedure in a porcine model in vivo, an aortic side branch was visualized with OpUS imaging after the endograft was deployed and optical fenestration of the stent graft was successfully performed. This study showed that OpUS is a promising modality for guiding EVAR and could find particularly utility with identifying aortic side branches for ISF during treatment of complex AAAs.

Original language	English
Title of host publication	Medical Image Computing and Computer Assisted Intervention – MICCAI 2023
Subtitle of host publication	26th International Conference, Vancouver, BC, Canada, October 8–12, 2023, Proceedings, Part IX
Editors	Hayit Greenspan, Anant Madabhushi, Parvin Mousavi, Septimiu Salcudean, James Duncan, Tanveer Syeda-Mahmood, Russell Taylor
Place of Publication	Cham
Publisher	Springer
Pages	699–707
Number of pages	8
Edition	1
ISBN (Electronic)	9783031439964
ISBN (Print)	9783031439957
DOIs	https://doi.org/10.1007/978-3-031-43996-4_67
Publication status	Published - 1 Oct 2023

Publication series

Name	Lecture Notes in Computer Science (LNCS)
Publisher	Springer
Volume	14228
ISSN (Print)	0302-9743
ISSN (Electronic)	1611-3349

Keywords

Optical ultrasound imaging
abdominal aortic aneurysm
endovascular repair

Access to Document

10.1007/978-3-031-43996-4_67

Author accepted manuscriptAccepted author manuscript, 880 KBLicence: Other

Cite this

Little, C., Zhang, S., Colchester, R., Noimark, S., Mathews, S., Zhang, E., Beard, P., Finlay, M., Mastracci, T., Rakhit, R., & Desjardins, A. (2023). Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms: A Pilot Study. In H. Greenspan, A. Madabhushi, P. Mousavi, S. Salcudean, J. Duncan, T. Syeda-Mahmood, & R. Taylor (Eds.), Medical Image Computing and Computer Assisted Intervention – MICCAI 2023: 26th International Conference, Vancouver, BC, Canada, October 8–12, 2023, Proceedings, Part IX (1 ed., pp. 699–707). (Lecture Notes in Computer Science (LNCS); Vol. 14228). Springer . https://doi.org/10.1007/978-3-031-43996-4_67

Little, Callum ; Zhang, Shaoyan ; Colchester, Richard et al. / Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms : A Pilot Study. Medical Image Computing and Computer Assisted Intervention – MICCAI 2023: 26th International Conference, Vancouver, BC, Canada, October 8–12, 2023, Proceedings, Part IX. editor / Hayit Greenspan ; Anant Madabhushi ; Parvin Mousavi ; Septimiu Salcudean ; James Duncan ; Tanveer Syeda-Mahmood ; Russell Taylor. 1. ed. Cham : Springer , 2023. pp. 699–707 (Lecture Notes in Computer Science (LNCS)).

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abstract = "An abdominal aortic aneurysm (AAA) is a persistent localized dilatation of the aorta to more than 1.5 times the expected diameter, which may lead to rupture with resultant high mortality. Endovascular repair (EVAR) of AAAs is a minimally invasive procedure that involves the peripheral delivery of one or more covered endografts to the aneurysmal segment, via a catheter-based system. A particularly challenging group of patients to treat are those in which the aneurysmal sac extends proximally to include the origin of the renal arteries (15\% of all AAAs). To maintain the patency of renal side branches in these “complex” cases, in situ fenestration (ISF) of endografts during AAA procedures has been proposed. The challenges addressed in this study were a) to develop an endovascular imaging system for visualizing side branches beyond deployed endografts and thereby to determine the locations for ISF; b) to obtain an initial assessment of the clinical utility of this system. Here, all-optical ultrasound (OpUS) imaging with a fiber optic transducer was used for real-time guidance, wherein ultrasonic pulses are generated in nanocomposite coatings via the photoacoustic effect and received optically using a Fabry-Perot cavity. These custom OpUS transducer components were integrated into a steerable sheath (6 Fr) that also included a separate optical fiber for delivering laser pulses for fenestrating the endograft. In an ex-vivo model, it was shown that OpUS imaging extended through the endograft and underlying aortic tissue, and permitted aortic side-branch visualization. During an EVAR procedure in a porcine model in vivo, an aortic side branch was visualized with OpUS imaging after the endograft was deployed and optical fenestration of the stent graft was successfully performed. This study showed that OpUS is a promising modality for guiding EVAR and could find particularly utility with identifying aortic side branches for ISF during treatment of complex AAAs.",

keywords = "Optical ultrasound imaging, abdominal aortic aneurysm, endovascular repair",

author = "Callum Little and Shaoyan Zhang and Richard Colchester and Sacha Noimark and Sunish Mathews and Edward Zhang and Paul Beard and Malcolm Finlay and Tara Mastracci and Roby Rakhit and Adrien Desjardins",

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Little, C, Zhang, S, Colchester, R, Noimark, S, Mathews, S, Zhang, E, Beard, P, Finlay, M, Mastracci, T, Rakhit, R & Desjardins, A 2023, Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms: A Pilot Study. in H Greenspan, A Madabhushi, P Mousavi, S Salcudean, J Duncan, T Syeda-Mahmood & R Taylor (eds), Medical Image Computing and Computer Assisted Intervention – MICCAI 2023: 26th International Conference, Vancouver, BC, Canada, October 8–12, 2023, Proceedings, Part IX. 1 edn, Lecture Notes in Computer Science (LNCS), vol. 14228, Springer , Cham, pp. 699–707. https://doi.org/10.1007/978-3-031-43996-4_67

Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms: A Pilot Study. / Little, Callum; Zhang, Shaoyan; Colchester, Richard et al.
Medical Image Computing and Computer Assisted Intervention – MICCAI 2023: 26th International Conference, Vancouver, BC, Canada, October 8–12, 2023, Proceedings, Part IX. ed. / Hayit Greenspan; Anant Madabhushi; Parvin Mousavi; Septimiu Salcudean; James Duncan; Tanveer Syeda-Mahmood; Russell Taylor. 1. ed. Cham: Springer , 2023. p. 699–707 (Lecture Notes in Computer Science (LNCS); Vol. 14228).

Research output: Chapter in Book/Report/Conference proceeding › Chapter

TY - CHAP

T1 - Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms

T2 - A Pilot Study

AU - Little, Callum

AU - Zhang, Shaoyan

AU - Colchester, Richard

AU - Noimark, Sacha

AU - Mathews, Sunish

AU - Zhang, Edward

AU - Beard, Paul

AU - Finlay, Malcolm

AU - Mastracci, Tara

AU - Rakhit, Roby

AU - Desjardins, Adrien

PY - 2023/10/1

Y1 - 2023/10/1

N2 - An abdominal aortic aneurysm (AAA) is a persistent localized dilatation of the aorta to more than 1.5 times the expected diameter, which may lead to rupture with resultant high mortality. Endovascular repair (EVAR) of AAAs is a minimally invasive procedure that involves the peripheral delivery of one or more covered endografts to the aneurysmal segment, via a catheter-based system. A particularly challenging group of patients to treat are those in which the aneurysmal sac extends proximally to include the origin of the renal arteries (15% of all AAAs). To maintain the patency of renal side branches in these “complex” cases, in situ fenestration (ISF) of endografts during AAA procedures has been proposed. The challenges addressed in this study were a) to develop an endovascular imaging system for visualizing side branches beyond deployed endografts and thereby to determine the locations for ISF; b) to obtain an initial assessment of the clinical utility of this system. Here, all-optical ultrasound (OpUS) imaging with a fiber optic transducer was used for real-time guidance, wherein ultrasonic pulses are generated in nanocomposite coatings via the photoacoustic effect and received optically using a Fabry-Perot cavity. These custom OpUS transducer components were integrated into a steerable sheath (6 Fr) that also included a separate optical fiber for delivering laser pulses for fenestrating the endograft. In an ex-vivo model, it was shown that OpUS imaging extended through the endograft and underlying aortic tissue, and permitted aortic side-branch visualization. During an EVAR procedure in a porcine model in vivo, an aortic side branch was visualized with OpUS imaging after the endograft was deployed and optical fenestration of the stent graft was successfully performed. This study showed that OpUS is a promising modality for guiding EVAR and could find particularly utility with identifying aortic side branches for ISF during treatment of complex AAAs.

AB - An abdominal aortic aneurysm (AAA) is a persistent localized dilatation of the aorta to more than 1.5 times the expected diameter, which may lead to rupture with resultant high mortality. Endovascular repair (EVAR) of AAAs is a minimally invasive procedure that involves the peripheral delivery of one or more covered endografts to the aneurysmal segment, via a catheter-based system. A particularly challenging group of patients to treat are those in which the aneurysmal sac extends proximally to include the origin of the renal arteries (15% of all AAAs). To maintain the patency of renal side branches in these “complex” cases, in situ fenestration (ISF) of endografts during AAA procedures has been proposed. The challenges addressed in this study were a) to develop an endovascular imaging system for visualizing side branches beyond deployed endografts and thereby to determine the locations for ISF; b) to obtain an initial assessment of the clinical utility of this system. Here, all-optical ultrasound (OpUS) imaging with a fiber optic transducer was used for real-time guidance, wherein ultrasonic pulses are generated in nanocomposite coatings via the photoacoustic effect and received optically using a Fabry-Perot cavity. These custom OpUS transducer components were integrated into a steerable sheath (6 Fr) that also included a separate optical fiber for delivering laser pulses for fenestrating the endograft. In an ex-vivo model, it was shown that OpUS imaging extended through the endograft and underlying aortic tissue, and permitted aortic side-branch visualization. During an EVAR procedure in a porcine model in vivo, an aortic side branch was visualized with OpUS imaging after the endograft was deployed and optical fenestration of the stent graft was successfully performed. This study showed that OpUS is a promising modality for guiding EVAR and could find particularly utility with identifying aortic side branches for ISF during treatment of complex AAAs.

KW - Optical ultrasound imaging

KW - abdominal aortic aneurysm

KW - endovascular repair

U2 - 10.1007/978-3-031-43996-4_67

DO - 10.1007/978-3-031-43996-4_67

M3 - Chapter

SN - 9783031439957

T3 - Lecture Notes in Computer Science (LNCS)

SP - 699

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BT - Medical Image Computing and Computer Assisted Intervention – MICCAI 2023

A2 - Greenspan, Hayit

A2 - Madabhushi, Anant

A2 - Mousavi, Parvin

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A2 - Duncan, James

A2 - Syeda-Mahmood, Tanveer

A2 - Taylor, Russell

PB - Springer

CY - Cham

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Little C, Zhang S, Colchester R, Noimark S, Mathews S, Zhang E et al. Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms: A Pilot Study. In Greenspan H, Madabhushi A, Mousavi P, Salcudean S, Duncan J, Syeda-Mahmood T, Taylor R, editors, Medical Image Computing and Computer Assisted Intervention – MICCAI 2023: 26th International Conference, Vancouver, BC, Canada, October 8–12, 2023, Proceedings, Part IX. 1 ed. Cham: Springer . 2023. p. 699–707. (Lecture Notes in Computer Science (LNCS)). doi: 10.1007/978-3-031-43996-4_67

Optical Ultrasound Imaging for Endovascular Repair of Abdominal Aortic Aneurysms: A Pilot Study

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