Ultrasound-based imaging of nanoparticles: From molecular and cellular imaging to therapy guidance

S. Mallidi; B. Wang; M. Mehrmohammadi; M. Qu; Y. S. Chen; P. Joshi; S. Kim; K. A. Homan; A. B. Karpiouk; R. W. Smalling; K. Sokolov; S. Y. Emelianov

doi:10.1109/ULTSYM.2009.5441484

Ultrasound-based imaging of nanoparticles: From molecular and cellular imaging to therapy guidance

S. Mallidi, B. Wang, M. Mehrmohammadi, M. Qu, Y. S. Chen, P. Joshi, S. Kim, K. A. Homan, A. B. Karpiouk, R. W. Smalling, K. Sokolov, S. Y. Emelianov

Imaging Physics

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

12 Scopus citations

Abstract

The effectiveness of an imaging technique is often based on the ability to image quantitatively both morphological and physiological functions of the tissue. Here we present several ultrasound-based imaging techniques capable of visualizing both structural and functional properties of living tissue. Each imaging system utilizes custom-made, targeted nanoparticles developed to probe specific molecular events. Therefore, images of these nanoparticles display molecular processes in the body. Furthermore, the developed nanoparticle contrast agents can also be used for image-guided molecular therapy. For each imaging system, the basic physics and principles behind each approach are described. Experimental aspects of each imaging system including fabrication of integrated imaging probes and associated imaging hardware, and design of targeted contrast agents are discussed. Finally, biomedical and clinical applications of the developed imaging approaches ranging from microscopic to macroscopic imaging of cardiovascular diseases, cancer detection, diagnosis, therapy and therapy monitoring are demonstrated and discussed.

Original language	English (US)
Title of host publication	2009 IEEE International Ultrasonics Symposium and Short Courses, IUS 2009
DOIs	https://doi.org/10.1109/ULTSYM.2009.5441484
State	Published - 2009
Event	2009 IEEE International Ultrasonics Symposium, IUS 2009 - Rome, Italy Duration: Sep 20 2009 → Sep 23 2009

Publication series

Name	Proceedings - IEEE Ultrasonics Symposium
ISSN (Print)	1051-0117

Other

Other	2009 IEEE International Ultrasonics Symposium, IUS 2009
Country/Territory	Italy
City	Rome
Period	9/20/09 → 9/23/09

Keywords

Contrast agents
Image guidance
Magneto-motive ultrasound
Molecular imaging
Monitoring
Multi-modality imaging
Nanoparticles
Photoacoustics
Therapy
Ultrasound

ASJC Scopus subject areas

Acoustics and Ultrasonics

Access to Document

10.1109/ULTSYM.2009.5441484

Cite this

Mallidi, S., Wang, B., Mehrmohammadi, M., Qu, M., Chen, Y. S., Joshi, P., Kim, S., Homan, K. A., Karpiouk, A. B., Smalling, R. W., Sokolov, K., & Emelianov, S. Y. (2009). Ultrasound-based imaging of nanoparticles: From molecular and cellular imaging to therapy guidance. In 2009 IEEE International Ultrasonics Symposium and Short Courses, IUS 2009 Article 5441484 (Proceedings - IEEE Ultrasonics Symposium). https://doi.org/10.1109/ULTSYM.2009.5441484

Ultrasound-based imaging of nanoparticles: From molecular and cellular imaging to therapy guidance. / Mallidi, S.; Wang, B.; Mehrmohammadi, M. et al.
2009 IEEE International Ultrasonics Symposium and Short Courses, IUS 2009. 2009. 5441484 (Proceedings - IEEE Ultrasonics Symposium).

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

Mallidi, S, Wang, B, Mehrmohammadi, M, Qu, M, Chen, YS, Joshi, P, Kim, S, Homan, KA, Karpiouk, AB, Smalling, RW, Sokolov, K & Emelianov, SY 2009, Ultrasound-based imaging of nanoparticles: From molecular and cellular imaging to therapy guidance. in 2009 IEEE International Ultrasonics Symposium and Short Courses, IUS 2009., 5441484, Proceedings - IEEE Ultrasonics Symposium, 2009 IEEE International Ultrasonics Symposium, IUS 2009, Rome, Italy, 9/20/09. https://doi.org/10.1109/ULTSYM.2009.5441484

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abstract = "The effectiveness of an imaging technique is often based on the ability to image quantitatively both morphological and physiological functions of the tissue. Here we present several ultrasound-based imaging techniques capable of visualizing both structural and functional properties of living tissue. Each imaging system utilizes custom-made, targeted nanoparticles developed to probe specific molecular events. Therefore, images of these nanoparticles display molecular processes in the body. Furthermore, the developed nanoparticle contrast agents can also be used for image-guided molecular therapy. For each imaging system, the basic physics and principles behind each approach are described. Experimental aspects of each imaging system including fabrication of integrated imaging probes and associated imaging hardware, and design of targeted contrast agents are discussed. Finally, biomedical and clinical applications of the developed imaging approaches ranging from microscopic to macroscopic imaging of cardiovascular diseases, cancer detection, diagnosis, therapy and therapy monitoring are demonstrated and discussed.",

keywords = "Contrast agents, Image guidance, Magneto-motive ultrasound, Molecular imaging, Monitoring, Multi-modality imaging, Nanoparticles, Photoacoustics, Therapy, Ultrasound",

author = "S. Mallidi and B. Wang and M. Mehrmohammadi and M. Qu and Chen, {Y. S.} and P. Joshi and S. Kim and Homan, {K. A.} and Karpiouk, {A. B.} and Smalling, {R. W.} and K. Sokolov and Emelianov, {S. Y.}",

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AU - Qu, M.

AU - Chen, Y. S.

AU - Joshi, P.

AU - Kim, S.

AU - Homan, K. A.

AU - Karpiouk, A. B.

AU - Smalling, R. W.

AU - Sokolov, K.

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N2 - The effectiveness of an imaging technique is often based on the ability to image quantitatively both morphological and physiological functions of the tissue. Here we present several ultrasound-based imaging techniques capable of visualizing both structural and functional properties of living tissue. Each imaging system utilizes custom-made, targeted nanoparticles developed to probe specific molecular events. Therefore, images of these nanoparticles display molecular processes in the body. Furthermore, the developed nanoparticle contrast agents can also be used for image-guided molecular therapy. For each imaging system, the basic physics and principles behind each approach are described. Experimental aspects of each imaging system including fabrication of integrated imaging probes and associated imaging hardware, and design of targeted contrast agents are discussed. Finally, biomedical and clinical applications of the developed imaging approaches ranging from microscopic to macroscopic imaging of cardiovascular diseases, cancer detection, diagnosis, therapy and therapy monitoring are demonstrated and discussed.

AB - The effectiveness of an imaging technique is often based on the ability to image quantitatively both morphological and physiological functions of the tissue. Here we present several ultrasound-based imaging techniques capable of visualizing both structural and functional properties of living tissue. Each imaging system utilizes custom-made, targeted nanoparticles developed to probe specific molecular events. Therefore, images of these nanoparticles display molecular processes in the body. Furthermore, the developed nanoparticle contrast agents can also be used for image-guided molecular therapy. For each imaging system, the basic physics and principles behind each approach are described. Experimental aspects of each imaging system including fabrication of integrated imaging probes and associated imaging hardware, and design of targeted contrast agents are discussed. Finally, biomedical and clinical applications of the developed imaging approaches ranging from microscopic to macroscopic imaging of cardiovascular diseases, cancer detection, diagnosis, therapy and therapy monitoring are demonstrated and discussed.

KW - Contrast agents

KW - Image guidance

KW - Magneto-motive ultrasound

KW - Molecular imaging

KW - Monitoring

KW - Multi-modality imaging

KW - Nanoparticles

KW - Photoacoustics

KW - Therapy

KW - Ultrasound

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BT - 2009 IEEE International Ultrasonics Symposium and Short Courses, IUS 2009

Y2 - 20 September 2009 through 23 September 2009

ER -

Ultrasound-based imaging of nanoparticles: From molecular and cellular imaging to therapy guidance

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Keywords

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