X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases

Francesca Palermo; Nicola Pieroni; Laura Maugeri; Ginevra Begani Provinciali; Alessia Sanna; Lorenzo Massimi; Maura Catalano; Margie P. Olbinado; Inna Bukreeva; Michela Fratini; Antonio Uccelli; Nicole Kerlero de Rosbo; Claudia Balducci; Alessia Cedola

doi:10.3389/fnins.2020.584161

X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases

Francesca Palermo, Nicola Pieroni, Laura Maugeri, Ginevra Begani Provinciali, Alessia Sanna, Lorenzo Massimi, Maura Catalano, Margie P. Olbinado, Inna Bukreeva, Michela Fratini, Antonio Uccelli, Nicole Kerlero de Rosbo, Claudia Balducci, Alessia Cedola

Research output: Contribution to journal › Article › peer-review

Abstract

We report a qualitative study on central nervous system (CNS) damage that demonstrates the ability of X-ray phase contrast tomography (XPCT) to confirm data obtained with standard 2D methodology and permits the description of additional features that are not detected with 2D or other 3D techniques. In contrast to magnetic resonance or computed tomography, XPCT makes possible the high-resolution 3D imaging of soft tissues classically considered “invisible” to X-rays without the use of additional contrast agents, or without the need for intense processing of the tissue required by 2D techniques. Most importantly for studies of CNS diseases, XPCT enables a concomitant multi-scale 3D biomedical imaging of neuronal and vascular networks ranging from cells through to the CNS as a whole. In the last years, we have used XPCT to investigate neurodegenerative diseases, such as Alzheimer’s disease (AD) and multiple sclerosis (MS), to shed light on brain damage and extend the observations obtained with standard techniques. Here, we show the cutting-edge ability of XPCT to highlight in 3D, concomitantly, vascular occlusions and damages, close associations between plaques and damaged vessels, as well as dramatic changes induced at neuropathological level by treatment in AD mice. We corroborate data on the well-known blood-brain barrier dysfunction in the animal model of MS, experimental autoimmune encephalomyelitis, and further show its extent throughout the CNS axis and at the level of the single vessel/capillary.

Original language	English
Article number	584161
Journal	Frontiers in Neuroscience
Volume	14
DOIs	https://doi.org/10.3389/fnins.2020.584161
Publication status	Published - Nov 9 2020

Keywords

3D imaging
Alzheimer’s disease
multiple sclerosis
preclinical disease models
X-ray phase contrast tomography

ASJC Scopus subject areas

Neuroscience(all)

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Palermo, F., Pieroni, N., Maugeri, L., Provinciali, G. B., Sanna, A., Massimi, L., Catalano, M., Olbinado, M. P., Bukreeva, I., Fratini, M., Uccelli, A., Kerlero de Rosbo, N., Balducci, C., & Cedola, A. (2020). X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases. Frontiers in Neuroscience, 14, [584161]. https://doi.org/10.3389/fnins.2020.584161

X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases. / Palermo, Francesca; Pieroni, Nicola; Maugeri, Laura; Provinciali, Ginevra Begani; Sanna, Alessia; Massimi, Lorenzo; Catalano, Maura; Olbinado, Margie P.; Bukreeva, Inna; Fratini, Michela ; Uccelli, Antonio; Kerlero de Rosbo, Nicole; Balducci, Claudia; Cedola, Alessia.

In: Frontiers in Neuroscience, Vol. 14, 584161, 09.11.2020.

Research output: Contribution to journal › Article › peer-review

Palermo, F, Pieroni, N, Maugeri, L, Provinciali, GB, Sanna, A, Massimi, L, Catalano, M, Olbinado, MP, Bukreeva, I, Fratini, M , Uccelli, A, Kerlero de Rosbo, N, Balducci, C & Cedola, A 2020, 'X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases', Frontiers in Neuroscience, vol. 14, 584161. https://doi.org/10.3389/fnins.2020.584161

Palermo, Francesca ; Pieroni, Nicola ; Maugeri, Laura ; Provinciali, Ginevra Begani ; Sanna, Alessia ; Massimi, Lorenzo ; Catalano, Maura ; Olbinado, Margie P. ; Bukreeva, Inna ; Fratini, Michela ; Uccelli, Antonio ; Kerlero de Rosbo, Nicole ; Balducci, Claudia ; Cedola, Alessia. / X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases. In: Frontiers in Neuroscience. 2020 ; Vol. 14.

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title = "X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases",

abstract = "We report a qualitative study on central nervous system (CNS) damage that demonstrates the ability of X-ray phase contrast tomography (XPCT) to confirm data obtained with standard 2D methodology and permits the description of additional features that are not detected with 2D or other 3D techniques. In contrast to magnetic resonance or computed tomography, XPCT makes possible the high-resolution 3D imaging of soft tissues classically considered “invisible” to X-rays without the use of additional contrast agents, or without the need for intense processing of the tissue required by 2D techniques. Most importantly for studies of CNS diseases, XPCT enables a concomitant multi-scale 3D biomedical imaging of neuronal and vascular networks ranging from cells through to the CNS as a whole. In the last years, we have used XPCT to investigate neurodegenerative diseases, such as Alzheimer{\textquoteright}s disease (AD) and multiple sclerosis (MS), to shed light on brain damage and extend the observations obtained with standard techniques. Here, we show the cutting-edge ability of XPCT to highlight in 3D, concomitantly, vascular occlusions and damages, close associations between plaques and damaged vessels, as well as dramatic changes induced at neuropathological level by treatment in AD mice. We corroborate data on the well-known blood-brain barrier dysfunction in the animal model of MS, experimental autoimmune encephalomyelitis, and further show its extent throughout the CNS axis and at the level of the single vessel/capillary.",

keywords = "3D imaging, Alzheimer{\textquoteright}s disease, multiple sclerosis, preclinical disease models, X-ray phase contrast tomography",

author = "Francesca Palermo and Nicola Pieroni and Laura Maugeri and Provinciali, {Ginevra Begani} and Alessia Sanna and Lorenzo Massimi and Maura Catalano and Olbinado, {Margie P.} and Inna Bukreeva and Michela Fratini and Antonio Uccelli and {Kerlero de Rosbo}, Nicole and Claudia Balducci and Alessia Cedola",

note = "Funding Information: The FISR Project “Tecnopolo di nanotecnologia e fotonica per la medicina di precisione” (funded by MIUR/CNR, CUP B83B17000010001) and the TECNOMED project (funded by Regione Puglia, CUP B84I18000540002). The bilateral project CNR/RFBR (2018–2020) – accordo CNR-RFBR delle Relazioni Internazionali (CUP B86C17000210005). Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2020 Palermo, Pieroni, Maugeri, Provinciali, Sanna, Massimi, Catalano, Olbinado, Bukreeva, Fratini, Uccelli, Kerlero de Rosbo, Balducci and Cedola. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.",

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doi = "10.3389/fnins.2020.584161",

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AU - Palermo, Francesca

AU - Pieroni, Nicola

AU - Maugeri, Laura

AU - Provinciali, Ginevra Begani

AU - Sanna, Alessia

AU - Massimi, Lorenzo

AU - Catalano, Maura

AU - Olbinado, Margie P.

AU - Bukreeva, Inna

AU - Fratini, Michela

AU - Uccelli, Antonio

AU - Kerlero de Rosbo, Nicole

AU - Balducci, Claudia

AU - Cedola, Alessia

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PY - 2020/11/9

Y1 - 2020/11/9

N2 - We report a qualitative study on central nervous system (CNS) damage that demonstrates the ability of X-ray phase contrast tomography (XPCT) to confirm data obtained with standard 2D methodology and permits the description of additional features that are not detected with 2D or other 3D techniques. In contrast to magnetic resonance or computed tomography, XPCT makes possible the high-resolution 3D imaging of soft tissues classically considered “invisible” to X-rays without the use of additional contrast agents, or without the need for intense processing of the tissue required by 2D techniques. Most importantly for studies of CNS diseases, XPCT enables a concomitant multi-scale 3D biomedical imaging of neuronal and vascular networks ranging from cells through to the CNS as a whole. In the last years, we have used XPCT to investigate neurodegenerative diseases, such as Alzheimer’s disease (AD) and multiple sclerosis (MS), to shed light on brain damage and extend the observations obtained with standard techniques. Here, we show the cutting-edge ability of XPCT to highlight in 3D, concomitantly, vascular occlusions and damages, close associations between plaques and damaged vessels, as well as dramatic changes induced at neuropathological level by treatment in AD mice. We corroborate data on the well-known blood-brain barrier dysfunction in the animal model of MS, experimental autoimmune encephalomyelitis, and further show its extent throughout the CNS axis and at the level of the single vessel/capillary.

AB - We report a qualitative study on central nervous system (CNS) damage that demonstrates the ability of X-ray phase contrast tomography (XPCT) to confirm data obtained with standard 2D methodology and permits the description of additional features that are not detected with 2D or other 3D techniques. In contrast to magnetic resonance or computed tomography, XPCT makes possible the high-resolution 3D imaging of soft tissues classically considered “invisible” to X-rays without the use of additional contrast agents, or without the need for intense processing of the tissue required by 2D techniques. Most importantly for studies of CNS diseases, XPCT enables a concomitant multi-scale 3D biomedical imaging of neuronal and vascular networks ranging from cells through to the CNS as a whole. In the last years, we have used XPCT to investigate neurodegenerative diseases, such as Alzheimer’s disease (AD) and multiple sclerosis (MS), to shed light on brain damage and extend the observations obtained with standard techniques. Here, we show the cutting-edge ability of XPCT to highlight in 3D, concomitantly, vascular occlusions and damages, close associations between plaques and damaged vessels, as well as dramatic changes induced at neuropathological level by treatment in AD mice. We corroborate data on the well-known blood-brain barrier dysfunction in the animal model of MS, experimental autoimmune encephalomyelitis, and further show its extent throughout the CNS axis and at the level of the single vessel/capillary.

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