Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer

Mohamed A. Naser; Nina Munoz; Diego R.T. Sampaio; Houra Taghavi; Trevor Mitcham; Kiersten Maldonado; Charles Kingsley; Rony Avritscher; Richard Bouchard

doi:10.1117/12.2293597

Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer

Mohamed A. Naser, Nina Munoz, Diego R.T. Sampaio, Houra Taghavi, Trevor Mitcham, Kiersten Maldonado, Charles Kingsley, Rony Avritscher, Richard Bouchard

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

1 Scopus citations

Abstract

Treatment of hepatocellular carcinoma (HCC) with sorafenib, a multikinase inhibitor, results in decreased microvessel density associated with increased levels of tumor hypoxia. However, the response rate is relatively poor, and recently it has been shown that tumor hypoxia and perfusion have predictive correlations with HCC response to sorafenib. In this study, we have investigated the correlation of oxygen saturation (SO₂) and perfusion, estimated using photoacoustic-ultrasonic (PAUS) imaging, to the sorafenib treatment response in an orthotopic rat model of HCC. Following spectroscopic photoacoustic (sPA) imaging, microbubble contrast was introduced and harmonic imaging data were acquired for perfusion measurements. An FEM-based fluence correction model based on the diffusion approximation with empirically estimated tissue surface fluence and an SNR-based thresholding approach have been developed and validated on ex vivo and in vivo rat data to estimate SO₂ using sPA imaging. The SO₂ estimate has been obtained by solving an iterative minimization problem and then thresholded based on a pixel-wise empirically estimated SNR mask. For the treated cohort, the results show that the change in SO₂ during an oxygen challenge is positively correlated with disease progression, while it is negatively correlated for the untreated cohort. Additionally, perfusion was significantly decreased in the treated group compared to baseline pretreatment and untreated cohort measurements. The reduced treatment-mediated perfusion leads to lack of oxygen supply and thus reduced oxygen levels. This study shows the potential of PAUS estimation of SO₂ and perfusion to monitor and predict HCC sorafenib treatment response, ultimately leading to improved future treatment.

Original language	English (US)
Title of host publication	Medical Imaging 2018
Subtitle of host publication	Ultrasonic Imaging and Tomography
Editors	Neb Duric, Brett C. Byram
Publisher	SPIE
ISBN (Electronic)	9781510616493
DOIs	https://doi.org/10.1117/12.2293597
State	Published - 2018
Event	Medical Imaging 2018: Ultrasonic Imaging and Tomography - Houston, United States Duration: Feb 13 2018 → Feb 15 2018

Publication series

Name	Progress in Biomedical Optics and Imaging - Proceedings of SPIE
Volume	10580
ISSN (Print)	1605-7422

Other

Other	Medical Imaging 2018: Ultrasonic Imaging and Tomography
Country/Territory	United States
City	Houston
Period	2/13/18 → 2/15/18

Keywords

FEM Modeling
Fluence Correction
Hepatocellular Carcinoma
Microbubble Perfusion
Oxygen Saturation
Rat Model
Spectroscopic Photoacoustic Imaging

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Biomaterials
Atomic and Molecular Physics, and Optics
Radiology Nuclear Medicine and imaging

Access to Document

10.1117/12.2293597

Cite this

Naser, M. A., Munoz, N., Sampaio, D. R. T., Taghavi, H., Mitcham, T., Maldonado, K., Kingsley, C., Avritscher, R., & Bouchard, R. (2018). Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer. In N. Duric, & B. C. Byram (Eds.), Medical Imaging 2018: Ultrasonic Imaging and Tomography Article 1058007 (Progress in Biomedical Optics and Imaging - Proceedings of SPIE; Vol. 10580). SPIE. https://doi.org/10.1117/12.2293597

Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer. / Naser, Mohamed A.; Munoz, Nina; Sampaio, Diego R.T. et al.
Medical Imaging 2018: Ultrasonic Imaging and Tomography. ed. / Neb Duric; Brett C. Byram. SPIE, 2018. 1058007 (Progress in Biomedical Optics and Imaging - Proceedings of SPIE; Vol. 10580).

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

Naser, MA, Munoz, N, Sampaio, DRT, Taghavi, H, Mitcham, T, Maldonado, K, Kingsley, C, Avritscher, R & Bouchard, R 2018, Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer. in N Duric & BC Byram (eds), Medical Imaging 2018: Ultrasonic Imaging and Tomography., 1058007, Progress in Biomedical Optics and Imaging - Proceedings of SPIE, vol. 10580, SPIE, Medical Imaging 2018: Ultrasonic Imaging and Tomography, Houston, United States, 2/13/18. https://doi.org/10.1117/12.2293597

Naser MA, Munoz N, Sampaio DRT, Taghavi H, Mitcham T, Maldonado K et al. Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer. In Duric N, Byram BC, editors, Medical Imaging 2018: Ultrasonic Imaging and Tomography. SPIE. 2018. 1058007. (Progress in Biomedical Optics and Imaging - Proceedings of SPIE). doi: 10.1117/12.2293597

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title = "Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer",

abstract = "Treatment of hepatocellular carcinoma (HCC) with sorafenib, a multikinase inhibitor, results in decreased microvessel density associated with increased levels of tumor hypoxia. However, the response rate is relatively poor, and recently it has been shown that tumor hypoxia and perfusion have predictive correlations with HCC response to sorafenib. In this study, we have investigated the correlation of oxygen saturation (SO2) and perfusion, estimated using photoacoustic-ultrasonic (PAUS) imaging, to the sorafenib treatment response in an orthotopic rat model of HCC. Following spectroscopic photoacoustic (sPA) imaging, microbubble contrast was introduced and harmonic imaging data were acquired for perfusion measurements. An FEM-based fluence correction model based on the diffusion approximation with empirically estimated tissue surface fluence and an SNR-based thresholding approach have been developed and validated on ex vivo and in vivo rat data to estimate SO2 using sPA imaging. The SO2 estimate has been obtained by solving an iterative minimization problem and then thresholded based on a pixel-wise empirically estimated SNR mask. For the treated cohort, the results show that the change in SO2 during an oxygen challenge is positively correlated with disease progression, while it is negatively correlated for the untreated cohort. Additionally, perfusion was significantly decreased in the treated group compared to baseline pretreatment and untreated cohort measurements. The reduced treatment-mediated perfusion leads to lack of oxygen supply and thus reduced oxygen levels. This study shows the potential of PAUS estimation of SO2 and perfusion to monitor and predict HCC sorafenib treatment response, ultimately leading to improved future treatment.",

keywords = "FEM Modeling, Fluence Correction, Hepatocellular Carcinoma, Microbubble Perfusion, Oxygen Saturation, Rat Model, Spectroscopic Photoacoustic Imaging",

author = "Naser, {Mohamed A.} and Nina Munoz and Sampaio, {Diego R.T.} and Houra Taghavi and Trevor Mitcham and Kiersten Maldonado and Charles Kingsley and Rony Avritscher and Richard Bouchard",

note = "Funding Information: T. Sampaio was supported by FAPESP grant Funding Information: This work was supported by CPRIT Grant RP 170314. Diego R. 2016/22720-3. Publisher Copyright: {\textcopyright} 2018 SPIE.; Medical Imaging 2018: Ultrasonic Imaging and Tomography ; Conference date: 13-02-2018 Through 15-02-2018",

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AU - Taghavi, Houra

AU - Mitcham, Trevor

AU - Maldonado, Kiersten

AU - Kingsley, Charles

AU - Avritscher, Rony

AU - Bouchard, Richard

PY - 2018

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N2 - Treatment of hepatocellular carcinoma (HCC) with sorafenib, a multikinase inhibitor, results in decreased microvessel density associated with increased levels of tumor hypoxia. However, the response rate is relatively poor, and recently it has been shown that tumor hypoxia and perfusion have predictive correlations with HCC response to sorafenib. In this study, we have investigated the correlation of oxygen saturation (SO2) and perfusion, estimated using photoacoustic-ultrasonic (PAUS) imaging, to the sorafenib treatment response in an orthotopic rat model of HCC. Following spectroscopic photoacoustic (sPA) imaging, microbubble contrast was introduced and harmonic imaging data were acquired for perfusion measurements. An FEM-based fluence correction model based on the diffusion approximation with empirically estimated tissue surface fluence and an SNR-based thresholding approach have been developed and validated on ex vivo and in vivo rat data to estimate SO2 using sPA imaging. The SO2 estimate has been obtained by solving an iterative minimization problem and then thresholded based on a pixel-wise empirically estimated SNR mask. For the treated cohort, the results show that the change in SO2 during an oxygen challenge is positively correlated with disease progression, while it is negatively correlated for the untreated cohort. Additionally, perfusion was significantly decreased in the treated group compared to baseline pretreatment and untreated cohort measurements. The reduced treatment-mediated perfusion leads to lack of oxygen supply and thus reduced oxygen levels. This study shows the potential of PAUS estimation of SO2 and perfusion to monitor and predict HCC sorafenib treatment response, ultimately leading to improved future treatment.

AB - Treatment of hepatocellular carcinoma (HCC) with sorafenib, a multikinase inhibitor, results in decreased microvessel density associated with increased levels of tumor hypoxia. However, the response rate is relatively poor, and recently it has been shown that tumor hypoxia and perfusion have predictive correlations with HCC response to sorafenib. In this study, we have investigated the correlation of oxygen saturation (SO2) and perfusion, estimated using photoacoustic-ultrasonic (PAUS) imaging, to the sorafenib treatment response in an orthotopic rat model of HCC. Following spectroscopic photoacoustic (sPA) imaging, microbubble contrast was introduced and harmonic imaging data were acquired for perfusion measurements. An FEM-based fluence correction model based on the diffusion approximation with empirically estimated tissue surface fluence and an SNR-based thresholding approach have been developed and validated on ex vivo and in vivo rat data to estimate SO2 using sPA imaging. The SO2 estimate has been obtained by solving an iterative minimization problem and then thresholded based on a pixel-wise empirically estimated SNR mask. For the treated cohort, the results show that the change in SO2 during an oxygen challenge is positively correlated with disease progression, while it is negatively correlated for the untreated cohort. Additionally, perfusion was significantly decreased in the treated group compared to baseline pretreatment and untreated cohort measurements. The reduced treatment-mediated perfusion leads to lack of oxygen supply and thus reduced oxygen levels. This study shows the potential of PAUS estimation of SO2 and perfusion to monitor and predict HCC sorafenib treatment response, ultimately leading to improved future treatment.

KW - FEM Modeling

KW - Fluence Correction

KW - Hepatocellular Carcinoma

KW - Microbubble Perfusion

KW - Oxygen Saturation

KW - Rat Model

KW - Spectroscopic Photoacoustic Imaging

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Imaging biomarker development based on microbubble perfusion and oxygen saturation in a rat model of liver cancer

Abstract

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Keywords

ASJC Scopus subject areas

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