Probing the in vivo changes in oxygen saturation with photoacoustic imaging as a non-invasive means of assessing treatment progression
Probing the in vivo changes in oxygen saturation with photoacoustic imaging as a non-invasive means of assessing treatment progression
In-vivo photoacoustic estimations of tumor oxygenation were used to assess the therapeutic efficacy of a thermosensitive liposome treatment in a pre-clinical mouse model. The treated group (n = 12) was administered doxorubicin-loaded, heat sensitive liposomes and exposed to mild hyperthermia (43°C) in order to deliver doxorubicin locally within the tumor micro-vessels. Control groups received systemic doxorubicin (n = 7) or saline (n = 12). The changes in tumor blood vessels after treatment were probed by analyzing the frequency content of the photoacoustic radiofrequency signals. Tumor oxygenation dropped by 15-20% during the first 30 minutes post-treatment when the tumors were exposed to encapsulated (Heat-Activated cyToxic - HaT-DOX) or free doxorubicin (DOX). The early (30 minutes to 5 hours) decrease in oxygen saturation strongly correlated to the reduction in tumor size assessed by caliper measurements. Control animals did not exhibit significant changes in tumor oxygenation at the early time points. The oxygenation at 7 days increased significantly for all groups. Measurements of the spectral slope from the normalized power spectra of the photoacoustic signals could also be used to differentiate between responder and non-responder mice. The results of this study suggest that photoacoustic imaging of tumors undergoing vascular-targeted cancer therapy can be used to assess treatment response early (hours) post-treatment through a combined analysis of oxygen saturation and photoacoustic radiofrequency spectroscopy.
Cancer treatment progression, In vivo oxygen saturation, Photoacoustic imaging, Radiofrequency spectroscopy
Hysi, Eno
930da6bf-baf4-4334-8cc8-ee0264476b32
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Writzfeld, Lauren
502912f7-67c5-4742-9939-c4517885e0f3
Undyzs, Elijus
a19ebd1c-b7ca-4e4c-b0b2-f91cb74e2420
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d
Kolios, Michael C.
524bd088-1670-4d3c-9817-5298a4b1eebd
11 March 2015
Hysi, Eno
930da6bf-baf4-4334-8cc8-ee0264476b32
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Writzfeld, Lauren
502912f7-67c5-4742-9939-c4517885e0f3
Undyzs, Elijus
a19ebd1c-b7ca-4e4c-b0b2-f91cb74e2420
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d
Kolios, Michael C.
524bd088-1670-4d3c-9817-5298a4b1eebd
Hysi, Eno, May, Jonathan P., Writzfeld, Lauren, Undyzs, Elijus, Li, Shyh Dar and Kolios, Michael C.
(2015)
Probing the in vivo changes in oxygen saturation with photoacoustic imaging as a non-invasive means of assessing treatment progression.
Oraevsky, Alexander A. and Wang, Lihong V.
(eds.)
In Photons Plus Ultrasound: Imaging and Sensing 2015.
vol. 9323,
SPIE.
8 pp
.
(doi:10.1117/12.2080372).
Record type:
Conference or Workshop Item
(Paper)
Abstract
In-vivo photoacoustic estimations of tumor oxygenation were used to assess the therapeutic efficacy of a thermosensitive liposome treatment in a pre-clinical mouse model. The treated group (n = 12) was administered doxorubicin-loaded, heat sensitive liposomes and exposed to mild hyperthermia (43°C) in order to deliver doxorubicin locally within the tumor micro-vessels. Control groups received systemic doxorubicin (n = 7) or saline (n = 12). The changes in tumor blood vessels after treatment were probed by analyzing the frequency content of the photoacoustic radiofrequency signals. Tumor oxygenation dropped by 15-20% during the first 30 minutes post-treatment when the tumors were exposed to encapsulated (Heat-Activated cyToxic - HaT-DOX) or free doxorubicin (DOX). The early (30 minutes to 5 hours) decrease in oxygen saturation strongly correlated to the reduction in tumor size assessed by caliper measurements. Control animals did not exhibit significant changes in tumor oxygenation at the early time points. The oxygenation at 7 days increased significantly for all groups. Measurements of the spectral slope from the normalized power spectra of the photoacoustic signals could also be used to differentiate between responder and non-responder mice. The results of this study suggest that photoacoustic imaging of tumors undergoing vascular-targeted cancer therapy can be used to assess treatment response early (hours) post-treatment through a combined analysis of oxygen saturation and photoacoustic radiofrequency spectroscopy.
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More information
Published date: 11 March 2015
Additional Information:
Publisher Copyright:
© 2015 SPIE.
Copyright:
Copyright 2015 Elsevier B.V., All rights reserved.
Venue - Dates:
Photons Plus Ultrasound: Imaging and Sensing 2015, , San Francisco, United States, 2015-02-08 - 2015-02-10
Keywords:
Cancer treatment progression, In vivo oxygen saturation, Photoacoustic imaging, Radiofrequency spectroscopy
Identifiers
Local EPrints ID: 480337
URI: http://eprints.soton.ac.uk/id/eprint/480337
ISSN: 1605-7422
PURE UUID: 6a816010-d776-4dde-a3bd-1d83d253e8aa
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Date deposited: 01 Aug 2023 17:23
Last modified: 17 Mar 2024 03:53
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Contributors
Author:
Eno Hysi
Author:
Lauren Writzfeld
Author:
Elijus Undyzs
Author:
Shyh Dar Li
Author:
Michael C. Kolios
Editor:
Alexander A. Oraevsky
Editor:
Lihong V. Wang
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