X-Ray Phase Contrast Tomography Reveals Early Vascular Alterations and Neuronal Loss in a Multiple Sclerosis Model

Cedola, Alessia; Bravin, A.; Bukreeva, Inna; Fratini, Michela; Pacureanu, Alexandra; Mittone, Alberto; Massimi, Lorenzo; Cloetens, Peter; Coan, Paola; Campi, Gaetano; Spanò, Raffaele; Brun, Francesco; Grigoryev, Vladislav; Petrosino, Valentina; Venturi, Consuelo; Mastrogiacomo, M.; Rosbo, Nicole Kerlero de; Uccelli, Antonio

doi:10.1038/s41598-017-06251-7

Cited by 67 publications

(67 citation statements)

References 36 publications

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“…In contrast, recent works demonstrated that X-ray phasecontrast tomography (XPCT) enables the visualization of the 3D distribution of neuronal and vascular network of the whole spinal cord (Fratini et al, 2015;Cedola et al, 2017), with a micrometric to sub-micrometric spatial resolution with a simple and rapid sample preparation. In conventional radiography, the collected transmitted intensity is formed by the interaction of the incident X-ray beam with absorbing structures inside the sample.…”

Section: Introductionmentioning

confidence: 99%

X-ray phase contrast tomography for the investigation of amyotrophic lateral sclerosis

Provinciali

Pieroni²,

Bukreeva³

et al. 2020

J Synchrotron Radiat

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Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder affecting motor neurons. Pre-clinical studies drive the development of animal models that well mimic ALS disorder and enable both the dissection of disease processes and an early assessment of therapy efficacy. A comprehensive knowledge of neuronal and vascular lesions in the brain and spinal cord is an essential factor to understand the development of the disease. Spatial resolution and bidimensional imaging are important drawbacks limiting current neuroimaging tools, while neuropathology relies on protocols that may alter tissue chemistry and structure. In contrast, recent ex vivo studies in mice demonstrated that X-ray phase-contrast tomography enables study of the 3D distribution of both vasculature and neuronal networks, without sample sectioning or use of staining. Here we present our findings on ex vivo SOD1G93A ALS mice spinal cord at a micrometric scale. An unprecedented direct quantification of neuro-vascular alterations at different stages of the disease is shown.

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Section: Introductionmentioning

confidence: 99%

X-ray phase contrast tomography for the investigation of amyotrophic lateral sclerosis

Provinciali

Pieroni²,

Bukreeva³

et al. 2020

J Synchrotron Radiat

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“…Applications of X-ray Phase Contrast imaging (XPCi) are rapidly expanding, thanks to its ability to visualize and quantify features invisible to conventional X-ray imaging techniques on scales spanning from tens of microns to nanometers. [1][2][3][4][5] While for a long period this technique was limited to synchrotron radiation facilities, the development of new phase detection methodologies now enables XPCi with laboratory-based sources. [6][7][8][9][10] Despite XPCi not yet being available in hospitals, the improved visualization capabilities demonstrated so far suggest that healthcare would strongly benefit from a widespread application of XPCi.…”

Section: Introductionmentioning

confidence: 99%

Laboratory-based x-ray phase contrast CT technology for clinical intra-operative specimen imaging

Massimi

Hagen

Endrizzi

et al. 2019

Medical Imaging 2019: Physics of Medical Imaging

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The design of an X-ray phase contrast tomography system for intra-operative specimen imaging based on edge illumination is presented. The use of edge illumination makes possible working with large focus, polychromatic X-ray sources reducing acquisition times of tomography scans down to values compatible with clinical use, while maintaining phase sensitivity in a compact device. The results collected so far show that application of this technology to breast conservation surgery has great potential to reduce re-operations, thus saving additional costs for healthcare services and stress for patients.

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“…We have recently demonstrated that X-ray phase contrast micro-tomography (XrPCµT) enables the study of the vascular and neuronal networks simultaneously without sample sectioning [25]. In particular, XrPCµT imaging is a multiscale (spanning from mm to <µm) 3D imaging technique that can be used to evaluate morphological alterations in central nervous system (CNS) tissue [26]. However, XrPCµT images are characterized by small intensity variations which make the segmentation process challenging.…”

Section: Introductionmentioning

confidence: 99%

Fractal Dimension Analysis of High-Resolution X-Ray Phase Contrast Micro-Tomography Images at Different Threshold Levels in a Mouse Spinal Cord

et al. 2018

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Fractal analysis is a powerful method for the morphological study of complex systems that is increasingly applied to biomedical images. Spatial resolution and image segmentation are crucial for the discrimination of tissue structures at the multiscale level. In this work, we have applied fractal analysis to high-resolution X-ray phase contrast micro-tomography (XrPCμT) images in both uninjured and injured tissue of a mouse spinal cord. We estimated the fractal dimension (FD) using the box-counting method on tomographic slices segmented at different threshold levels. We observed an increased FD in the ipsilateral injured hemicord compared with the contralateral uninjured tissue, which was almost independent of the chosen threshold. Moreover, we found that images exhibited the highest fractality close to the global histogram threshold level. Finally, we showed that the FD estimate largely depends on the image histogram regardless of tissue appearance. Our results demonstrate that the pre-processing of XrPCμT images is critical to fractal analysis and the estimation of FD.

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X-Ray Phase Contrast Tomography Reveals Early Vascular Alterations and Neuronal Loss in a Multiple Sclerosis Model

Cited by 67 publications

References 36 publications

X-ray phase contrast tomography for the investigation of amyotrophic lateral sclerosis

X-ray phase contrast tomography for the investigation of amyotrophic lateral sclerosis

Laboratory-based x-ray phase contrast CT technology for clinical intra-operative specimen imaging

Fractal Dimension Analysis of High-Resolution X-Ray Phase Contrast Micro-Tomography Images at Different Threshold Levels in a Mouse Spinal Cord

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