Molecular Imaging of Pulmonary Tuberculosis in an Ex-Vivo Mouse Model Using Spectral Photon-Counting Computed Tomography and Micro-CT

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Version: Final published version
License: CC BY 4.0
Serval ID
serval:BIB_2A9ED1676DAE
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Molecular Imaging of Pulmonary Tuberculosis in an Ex-Vivo Mouse Model Using Spectral Photon-Counting Computed Tomography and Micro-CT
Journal
IEEE Access
Author(s)
Lowe Chiara, Ortega-Gil Ana, Moghiseh Mahdieh, Anderson Nigel G., Munoz-Barrutia Arrate, Vaquero Juan Jose, Raja Aamir Y., Matanaghi Aysouda, Chernoglazov Alexander I., Dapamede Theodorus, Adebileje Sikiru A, Alexander Steven, Amma Maya R., Anjomrouz Marzieh, Asghariomabad Fatemeh, Atharifard Ali, Atlas James, Baer Kenzie, Bell Stephen T., Bheesette Srinidhi, Butler Philip H., Carbonez Pierre, Chambers Claire, Chapagain Krishna M., Clark Jennifer A., Colgan Frances, Crighton Jonathan S., Dahal Shishir, Damet Jerome, De Ruiter Niels J. A., Doesburg Robert M. N., Duncan Neryda, Ghodsian Nooshin, Gieseg Steven P., Goulter Brian P., Gurney Sam, Healy Joseph L., Kanithi Praveen Kumar, Kirkbride Tracy, Lansley Stuart P., Mandalika V. B. H., Marfo Emmanuel, Palmer David, Panta Raj K., Prebble Hannah M., Renaud Peter, Sayous Yann, Schleich Nanette, Searle Emily, Sheeja Jereena S., Broeke Lieza Vanden, V. S. Vivek, Walker E. Peter, Walsh Michael F., Wijesooriya Manoj, Younger W Ross, Butler Anthony P. H.
ISSN
2169-3536
Publication state
Published
Issued date
2021
Volume
9
Pages
67201-67208
Language
english
Abstract
Assessment of disease burden and drug efficacy is achieved preclinically using high resolution micro computed tomography (CT). However, micro-CT is not applicable to clinical human imaging due to operating at high dose. In addition, the technology differences between micro-CT and standard clinical CT prevent direct translation of preclinical applications. The current proof-of-concept study presents spectral photon-counting CT as a clinically translatable, molecular imaging tool by assessing contrast uptake in an ex-vivo mouse model of pulmonary tuberculosis (TB). Iodine, a common contrast used in clinical CT imaging, was introduced into a murine model of TB. The excised mouse lungs were imaged using a standard micro-CT subsystem (SuperArgus) and the contrast enhanced TB lesions quantified. The same lungs were imaged using a spectral photoncounting CT system (MARS small-bore scanner). Iodine and soft tissues (water and lipid) were materially separated, and iodine uptake quantified. The volume of the TB infection quantified by spectral CT and micro-CT was found to be 2.96 mm(3) and 2.83 mm(3), respectively. This proof-of-concept study showed that spectral photon-counting CT could be used as a predictive preclinical imaging tool for the purpose of facilitating drug discovery and development. Also, as this imaging modality is available for human trials, all applications are translatable to human imaging. In conclusion, spectral photon-counting CT could accelerate a deeper understanding of infectious lung diseases using targeted pharmaceuticals and intrinsic markers, and ultimately improve the efficacy of therapies by measuring drug delivery and response to treatment in animal models and later in humans.
Keywords
General Engineering, General Materials Science, General Computer Science
Web of science
Open Access
Yes
Create date
14/05/2021 16:57
Last modification date
02/12/2023 7:18
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