Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment

Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment

Magnetic fluid hyperthermia (MFH) has been widely investigated as a treatment tool for cancer and other diseases. However, focusing traditional MFH to a tumor deep in the body is not feasible because the in vivo wavelength of 300 kHz very low frequency (VLF) excitation fields is longer than 100 m. R...

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Main Authors: Yao Lu, Angelie Rivera-Rodriguez, Zhi Wei Tay, Daniel Hensley, K.L. Barry Fung, Caylin Colson, Chinmoy Saayujya, Quincy Huynh, Leyla Kabuli, Benjamin Fellows, Prashant Chandrasekharan, Carlos Rinaldi, Steven Conolly
Format: Article
Language:English
Published: Taylor & Francis Group 2020-12-01
Series:International Journal of Hyperthermia
Subjects:
magnetic particle imaging
magnetic fluid hyperthermia
localized heating
image-guided treatment
magnetic nanoparticles
Online Access:http://dx.doi.org/10.1080/02656736.2020.1853252
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spelling doaj-e7a463d75bbd4922aa8cb9488ced3adf2021-01-26T11:50:08ZengTaylor & Francis GroupInternational Journal of Hyperthermia0265-67361464-51572020-12-0137314115410.1080/02656736.2020.18532521853252Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatmentYao Lu0Angelie Rivera-Rodriguez1Zhi Wei Tay2Daniel Hensley3K.L. Barry Fung4Caylin Colson5Chinmoy Saayujya6Quincy Huynh7Leyla Kabuli8Benjamin Fellows9Prashant Chandrasekharan10Carlos Rinaldi11Steven Conolly12Department of Bioengineering, University of California BerkeleyJ. Crayton Pruitt Family Department of Biomedical Engineering, University of FloridaDepartment of Bioengineering, University of California BerkeleyMagnetic Insight, IncDepartment of Bioengineering, University of California BerkeleyDepartment of Bioengineering, University of California BerkeleyDepartment of Electrical Engineering and Computer Sciences, University of CaliforniaDepartment of Electrical Engineering and Computer Sciences, University of CaliforniaDepartment of Electrical Engineering and Computer Sciences, University of CaliforniaDepartment of Bioengineering, University of California BerkeleyDepartment of Bioengineering, University of California BerkeleyJ. Crayton Pruitt Family Department of Biomedical Engineering, University of FloridaDepartment of Bioengineering, University of California BerkeleyMagnetic fluid hyperthermia (MFH) has been widely investigated as a treatment tool for cancer and other diseases. However, focusing traditional MFH to a tumor deep in the body is not feasible because the in vivo wavelength of 300 kHz very low frequency (VLF) excitation fields is longer than 100 m. Recently we demonstrated that millimeter-precision localized heating can be achieved by combining magnetic particle imaging (MPI) with MFH. In principle, real-time MPI imaging can also guide the location and dosing of MFH treatments. Hence, the combination of MPI imaging plus real time localized MPI–MFH could soon permit closed-loop high-resolution hyperthermia treatment. In this review, we will discuss the fundamentals of localized MFH (e.g. physics and biosafety limitations), hardware implementation, MPI real-time guidance, and new research directions on MPI–MFH. We will also discuss how the scale up to human-sized MPI–MFH scanners could proceed.http://dx.doi.org/10.1080/02656736.2020.1853252magnetic particle imagingmagnetic fluid hyperthermialocalized heatingimage-guided treatmentmagnetic nanoparticles
collection DOAJ
language English
format Article
sources DOAJ
author Yao Lu
Angelie Rivera-Rodriguez
Zhi Wei Tay
Daniel Hensley
K.L. Barry Fung
Caylin Colson
Chinmoy Saayujya
Quincy Huynh
Leyla Kabuli
Benjamin Fellows
Prashant Chandrasekharan
Carlos Rinaldi
Steven Conolly
spellingShingle Yao Lu
Angelie Rivera-Rodriguez
Zhi Wei Tay
Daniel Hensley
K.L. Barry Fung
Caylin Colson
Chinmoy Saayujya
Quincy Huynh
Leyla Kabuli
Benjamin Fellows
Prashant Chandrasekharan
Carlos Rinaldi
Steven Conolly
Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment
International Journal of Hyperthermia
magnetic particle imaging
magnetic fluid hyperthermia
localized heating
image-guided treatment
magnetic nanoparticles
author_facet Yao Lu
Angelie Rivera-Rodriguez
Zhi Wei Tay
Daniel Hensley
K.L. Barry Fung
Caylin Colson
Chinmoy Saayujya
Quincy Huynh
Leyla Kabuli
Benjamin Fellows
Prashant Chandrasekharan
Carlos Rinaldi
Steven Conolly
author_sort Yao Lu
title Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment
title_short Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment
title_full Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment
title_fullStr Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment
title_full_unstemmed Combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment
title_sort combining magnetic particle imaging and magnetic fluid hyperthermia for localized and image-guided treatment
publisher Taylor & Francis Group
series International Journal of Hyperthermia
issn 0265-6736
1464-5157
publishDate 2020-12-01
description Magnetic fluid hyperthermia (MFH) has been widely investigated as a treatment tool for cancer and other diseases. However, focusing traditional MFH to a tumor deep in the body is not feasible because the in vivo wavelength of 300 kHz very low frequency (VLF) excitation fields is longer than 100 m. Recently we demonstrated that millimeter-precision localized heating can be achieved by combining magnetic particle imaging (MPI) with MFH. In principle, real-time MPI imaging can also guide the location and dosing of MFH treatments. Hence, the combination of MPI imaging plus real time localized MPI–MFH could soon permit closed-loop high-resolution hyperthermia treatment. In this review, we will discuss the fundamentals of localized MFH (e.g. physics and biosafety limitations), hardware implementation, MPI real-time guidance, and new research directions on MPI–MFH. We will also discuss how the scale up to human-sized MPI–MFH scanners could proceed.
topic magnetic particle imaging
magnetic fluid hyperthermia
localized heating
image-guided treatment
magnetic nanoparticles
url http://dx.doi.org/10.1080/02656736.2020.1853252
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