Your search keyword '"Alessia Cedola"' showing total 133 results

1. Multilevel X-ray imaging approach to assess the sequential evolution of multi-organ damage in multiple sclerosis

Author

Francesca Palermo, Nicola Pieroni, Alessia Sanna, Benedetta Parodi, Consuelo Venturi, Ginevra Begani Provinciali, Lorenzo Massimi, Laura Maugeri, Gian Paolo Marra, Elena Longo, Lorenzo D’Amico, Giulia Saccomano, Jonathan Perrin, Giuliana Tromba, Inna Bukreeva, Michela Fratini, Giuseppe Gigli, Nicole Kerlero de Rosbo, and Alessia Cedola

Subjects

Astrophysics, QB460-466, Physics, QC1-999

Abstract

X-ray phase-contrast tomography offers a highly sensitive 3D imaging approach to investigate different disease-relevant networks at levels ranging from single cell through to intact organ. The authors present a concomitant study of the evolution of tissue damage and inflammation in different organs affected by the disease in the murine model for multiple sclerosis.

Published

2022

2. Deep Learning-Based Segmentation of Post-Mortem Human’s Olfactory Bulb Structures in X-ray Phase-Contrast Tomography

Author

Alexandr Meshkov, Anvar Khafizov, Alexey Buzmakov, Inna Bukreeva, Olga Junemann, Michela Fratini, Alessia Cedola, Marina Chukalina, Andrei Yamaev, Giuseppe Gigli, Fabian Wilde, Elena Longo, Victor Asadchikov, Sergey Saveliev, and Dmitry Nikolaev

Subjects

olfactory bulb, deep learning, convolutional neural network, segmentation, X-ray phase-contrast tomography, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

The human olfactory bulb (OB) has a laminar structure. The segregation of cell populations in the OB image poses a significant challenge because of indistinct boundaries of the layers. Standard 3D visualization tools usually have a low resolution and cannot provide the high accuracy required for morphometric analysis. X-ray phase contrast tomography (XPCT) offers sufficient resolution and contrast to identify single cells in large volumes of the brain. The numerous microanatomical structures detectable in XPCT image of the OB, however, greatly complicate the manual delineation of OB neuronal cell layers. To address the challenging problem of fully automated segmentation of XPCT images of human OB morphological layers, we propose a new pipeline for tomographic data processing. Convolutional neural networks (CNN) were used to segment XPCT image of native unstained human OB. Virtual segmentation of the whole OB and an accurate delineation of each layer in a healthy non-demented OB is mandatory as the first step for assessing OB morphological changes in smell impairment research. In this framework, we proposed an effective tool that could help to shed light on OB layer-specific degeneration in patients with olfactory disorder.

Published

2022

3. Corrigendum: Histone deacetylase functions and therapeutic implications for adult skeletal muscle metabolism

Author

Susanna Molinari, Carol Imbriano, Viviana Moresi, Alessandra Renzini, Silvia Belluti, Biliana Lozanoska-Ochser, Giuseppe Gigli, and Alessia Cedola

Subjects

HDACs, sarcopenia, type 2 diabetes, neurogenic muscle atrophy, sirtuins, glucose uptake, Biology (General), QH301-705.5

Published

2023

4. Histone deacetylase functions and therapeutic implications for adult skeletal muscle metabolism

Author

Susanna Molinari, Carol Imbriano, Viviana Moresi, Alessandra Renzini, Silvia Belluti, Biliana Lozanoska-Ochser, Giuseppe Gigli, and Alessia Cedola

Subjects

HDACs, sarcopenia, type 2 diabetes, neurogenic muscle atrophy, sirtuins, glucose uptake, Biology (General), QH301-705.5

Abstract

Skeletal muscle is a highly adaptive organ that sustains continuous metabolic changes in response to different functional demands. Healthy skeletal muscle can adjust fuel utilization to the intensity of muscle activity, the availability of nutrients and the intrinsic characteristics of muscle fibers. This property is defined as metabolic flexibility. Importantly, impaired metabolic flexibility has been associated with, and likely contributes to the onset and progression of numerous pathologies, including sarcopenia and type 2 diabetes. Numerous studies involving genetic and pharmacological manipulations of histone deacetylases (HDACs) in vitro and in vivo have elucidated their multiple functions in regulating adult skeletal muscle metabolism and adaptation. Here, we briefly review HDAC classification and skeletal muscle metabolism in physiological conditions and upon metabolic stimuli. We then discuss HDAC functions in regulating skeletal muscle metabolism at baseline and following exercise. Finally, we give an overview of the literature regarding the activity of HDACs in skeletal muscle aging and their potential as therapeutic targets for the treatment of insulin resistance.

Published

2023

5. The Study of the Caudal Vertebrae of Thick-Toed Geckos after a Prolonged Space Flight by X-ray Phase-Contrast Micro-CT

Author

Inna Bukreeva, Victoria I. Gulimova, Yuri S. Krivonosov, Alexey V. Buzmakov, Olga Junemann, Alessia Cedola, Michela Fratini, Laura Maugeri, Ginevra Begani Provinciali, Francesca Palermo, Alessia Sanna, Nicola Pieroni, Victor E. Asadchikov, and Sergey V. Saveliev

Subjects

spaceflight adaptation, Bion-M1, thick-toed gecko (Chondrodactylus turneri, Gray, 1864), proximal caudal vertebrae, notochord, intercentrae, Cytology, QH573-671

Abstract

The proximal caudal vertebrae and notochord in thick-toed geckos (TG) (Chondrodactylus turneri, Gray, 1864) were investigated after a 30-day space flight onboard the biosatellite Bion-M1. This region has not been explored in previous studies. Our research focused on finding sites most affected by demineralization caused by microgravity (G0). We used X-ray phase-contrast tomography to study TG samples without invasive prior preparation to clarify our previous findings on the resistance of TG’s bones to demineralization in G0. The results of the present study confirmed that geckos are capable of preserving bone mass after flight, as neither cortical nor trabecular bone volume fraction showed statistically significant changes after flight. On the other hand, we observed a clear decrease in the mineralization of the notochordal septum and a substantial rise in intercentrum volume following the flight. To monitor TG’s mineral metabolism in G0, we propose to measure the volume of mineralized tissue in the notochordal septum. This technique holds promise as a sensitive approach to track the demineralization process in G0, given that the volume of calcification within the septum is limited, making it easy to detect even slight changes in mineral content.

Published

2023

6. Hybrid Nanoparticles as Theranostics Platforms for Glioblastoma Treatment: Phototherapeutic and X-ray Phase Contrast Tomography Investigations

Author

Loredana Ricciardi, Sharmistha Chatterjee, Giovanna Palermo, Elisabeta I. Szerb, Alessia Sanna, Francesca Palermo, Nicola Pieroni, Michela Fratini, Roberto Bartolino, Alessia Cedola, Massimo La Deda, and Giuseppe Strangi

Subjects

gold–silica nanoparticles, phototherapy, glioblastoma multiforme, X-ray phase-contrast tomography, Medical technology, R855-855.5

Abstract

Glioblastoma multiforme (GBM) is one of the deadliest and most aggressive cancers, remarkably resilient to current therapeutic treatments. Here, we report preliminary in vivo studies of GBM treatments based on photo-nanotherapeutics to activate synergistic killing mechanisms. Core-shell nanoparticles have been weaponized by combining photophysical properties of a new generation PDT agent (Ir(III) complex) with the thermoplasmonic effects of resonant gold nanospheres. In order to investigate the damages induced in GBM treated with these photoactivable nanosystems, we employed X-ray phase-contrast tomography (XPCT). This high-resolution three-dimensional imaging technique highlighted a vast devascularization process by micro-vessels disruption, which is indicative of tumor elimination without relapse.

Published

2022

7. The Role of Graph Theory in Evaluating Brain Network Alterations in Frontotemporal Dementia

Author

Salvatore Nigro, Marco Filardi, Benedetta Tafuri, Roberto De Blasi, Alessia Cedola, Giuseppe Gigli, and Giancarlo Logroscino

Subjects

frontotemporal dementia, primary progressive aphasia, graph analysis, connectome analysis, small-world, brain networks, Neurology. Diseases of the nervous system, RC346-429

Abstract

Frontotemporal dementia (FTD) is a spectrum of clinical syndromes that affects personality, behavior, language, and cognition. The current diagnostic criteria recognize three main clinical subtypes: the behavioral variant of FTD (bvFTD), the semantic variant of primary progressive aphasia (svPPA), and the non-fluent/agrammatic variant of PPA (nfvPPA). Patients with FTD display heterogeneous clinical and neuropsychological features that highly overlap with those presented by psychiatric syndromes and other types of dementia. Moreover, up to now there are no reliable disease biomarkers, which makes the diagnosis of FTD particularly challenging. To overcome this issue, different studies have adopted metrics derived from magnetic resonance imaging (MRI) to characterize structural and functional brain abnormalities. Within this field, a growing body of scientific literature has shown that graph theory analysis applied to MRI data displays unique potentialities in unveiling brain network abnormalities of FTD subtypes. Here, we provide a critical overview of studies that adopted graph theory to examine the topological changes of large-scale brain networks in FTD. Moreover, we also discuss the possible role of information arising from brain network organization in the diagnostic algorithm of FTD-spectrum disorders and in investigating the neural correlates of clinical symptoms and cognitive deficits experienced by patients.

Published

2022

8. Asbestos bodies count and morphometry in bulk lung tissue samples by non-invasive X-ray micro-tomography

Author

Fabrizio Bardelli, Francesco Brun, Silvana Capella, Donata Bellis, Claudia Cippitelli, Alessia Cedola, and Elena Belluso

Subjects

Medicine, Science

Abstract

Abstract The number of the Asbestos Bodies (AB), i.e. asbestos that developed an iron-protein coating during its permanence in biological tissues, is one of the most accessible markers of asbestos exposure in individuals. The approaches developed to perform AB count in biological tissues are based on the manual examination of tissue digests or histological sections by means of light or electron microscopies. Although these approaches are well established and relatively accessible, manual examination is time-consuming and can be reader-dependent. Besides, approximations are applied because of the limitations of 2D readings and to speed up manual counts. In addition, sample preparation using tissue digests require an amount of tissue that can only be obtained by invasive surgery or post-mortem sampling. In this paper, we propose a new approach to AB counting based on non-destructive 3D imaging, which has the potential to overcome most of the limitations of conventional approaches. This method allows automating the AB count and determining their morphometry distribution in bulk tissue samples (ideally non-invasive needle biopsies), with minimal sample preparation and avoiding approximations. Although the results are promising, additional testing on a larger number of AB-containing biological samples would be required to fully validate the method.

Published

2021

9. A computational platform for the virtual unfolding of Herculaneum Papyri

Author

Sara Stabile, Francesca Palermo, Inna Bukreeva, Daniela Mele, Vincenzo Formoso, Roberto Bartolino, and Alessia Cedola

Subjects

Medicine, Science

Abstract

Abstract Ancient Herculaneum papyrus scrolls, hopelessly charred in the 79 A.D. Vesuvius eruption, contain valuable writings of the Greek philosophers of the day, including works of the Epicurean Philodemus. X-ray phase contrast tomography has recently begun unlocking their secrets. However, only small portions of the text hidden inside the scroll have been recover. One of the challenging tasks in Herculaneum papyri investigation is their virtual unfolding because of their highly complicated structure and three-dimensional arrangement. Although this procedure is feasible, problems in segmentation and flattening hinder the unrolling of a large portion of papyrus. We propose a computational platform for the virtual unfolding procedure, and we show the results of its application on two Herculaneum papyrus fragments. This work paves the way to a comprehensive survey and to further interpretation of larger portions of text hidden inside the carbonized Herculaneum papyri.

Published

2021

10. Micro-CT Study of Mongolian Gerbil Humeral Bone After Prolonged Spaceflight Based on a New Algorithm for Delimitation of Long-Bone Regions

Author

Yuri S. Krivonosov, Victoria I. Gulimova, Alexey V. Buzmakov, Denis A. Zolotov, Alessia Cedola, Inna Bukreeva, Victor E. Asadchikov, and Sergey V. Saveliev

Subjects

Mongolian gerbil, micro-computed tomography (μCT), micro-CT, humerus, weightlessness, microgravity, Physiology, QP1-981

Abstract

The Mongolian gerbil displays unique physiological and anatomical features that make this species an attractive object for biological experiments in space. However, until recently, the Mongolian gerbil has remained a novel, mostly unstudied animal model in investigating bone loss in weightlessness (G0). After 12 days of orbital Foton-M3 mission, the humerus of Mongolian gerbils has been studied here via micro-computed tomography (micro-CT) to quantify bone morphometric parameters. The samples from the flight group, delayed synchronous ground-control group, and basal control group were investigated, and main morphometric parameters were reported in the article. The accurate selection of a region of interest is an essential step for a correct assessment of bone parameters. We proposed a new, easy and efficient method for delimiting the bone’s basic regions in the humerus. It is based on quantitative estimation of X-ray attenuation in the cortical bone as a function of humerus bone length. The micro-CT analysis of the basic bone regions revealed a difference in bone morphometric parameters between the flight and control gerbils. The most significant bone loss was observed in the cortical part of the proximal humeral zone in the flight group. No statistically significant changes of volume fraction in the cancellous tissue of proximal and distal epiphyses and metaphyses were observed. A statistically significant increase in both cancellous bone volume and bone X-ray attenuation in the flight group was detected in the proximal part of the diaphyses. We assume that enhanced calcium deposition in the diaphyseal cancellous tissue occurred due to a bone response to G0 conditions.

Published

2021

11. Functional Nutrients to Ameliorate Neurogenic Muscle Atrophy

Author

Viviana Moresi, Alessandra Renzini, Giorgia Cavioli, Marilia Seelaender, Dario Coletti, Giuseppe Gigli, and Alessia Cedola

Subjects

nutraceuticals, natural compounds, muscle wasting, neurodegenerative diseases, sarcopenia, aging, Microbiology, QR1-502

Abstract

Neurogenic muscle atrophy is a debilitating condition that occurs from nerve trauma in association with diseases or during aging, leading to reduced interaction between motoneurons and skeletal fibers. Current therapeutic approaches aiming at preserving muscle mass in a scenario of decreased nervous input include physical activity and employment of drugs that slow down the progression of the condition yet provide no concrete resolution. Nutritional support appears as a precious tool, adding to the success of personalized medicine, and could thus play a relevant part in mitigating neurogenic muscle atrophy. We herein summarize the molecular pathways triggered by denervation of the skeletal muscle that could be affected by functional nutrients. In this narrative review, we examine and discuss studies pertaining to the use of functional ingredients to counteract neurogenic muscle atrophy, focusing on their preventive or curative means of action within the skeletal muscle. We reviewed experimental models of denervation in rodents and in amyotrophic lateral sclerosis, as well as that caused by aging, considering the knowledge generated with use of animal experimental models and, also, from human studies.

Published

2022

12. Hydroxycarboxylic Acid Receptor 2, a Pleiotropically Linked Receptor for the Multiple Sclerosis Drug, Monomethyl Fumarate. Possible Implications for the Inflammatory Response

Author

Benedetta Parodi, Alessia Sanna, Alessia Cedola, Antonio Uccelli, and Nicole Kerlero de Rosbo

Subjects

multiple sclerosis, dimethyl fumarate, hydroxycarboxylic acid receptor 2, experimental autoimmune encephalomyelitis, dendritic cells, intestinal epithelial cells, Immunologic diseases. Allergy, RC581-607

Abstract

Monomethyl fumarate (MMF), metabolite of dimethyl fumarate (DMF), an immunosuppressive drug approved for the treatment of multiple sclerosis (MS), is a potent agonist for hydroxycarboxylic acid receptor 2 (HCAR2), eliciting signals that dampen cell activation or lead to inflammation such as the skin flushing reaction that is one of the main side effects of the treatment, together with gastrointestinal inflammation. Our aim is to further understand the molecular basis underlying these differential effects of the drug. We have used wild-type and HCAR2 knock-out mice to investigate, in vitro and ex vivo under steady-state and pathological conditions, the HCAR2-mediated signaling pathways activated by MMF in dendritic cells (DC), which promote differentiation of T cells, and in intestinal epithelial cells (IEC) where activation of a pro-inflammatory pathway, such as the cyclooxygenase-2 pathway involved in skin flushing, could underlie gastrointestinal side effects of the drug. To understand how DMF treatment might impact on gut inflammation induced by experimental autoimmune encephalomyelitis (EAE), the animal model for MS, we have used 3D X-ray phase contrast tomography and flow cytometry to monitor possible intestinal alterations at morphological and immunological levels, respectively. We show that HCAR2 is a pleiotropically linked receptor for MMF, mediating activation of different pathways leading to different outcomes in different cell types, depending on experimental in-vitro and in-vivo conditions. In the small intestine of EAE-affected mice, DMF treatment affected migration of tolerogenic DC from lamina propria to mesenteric lymph nodes, and/or reverted their profile to pro-inflammatory, probably as a result of reduced expression of aldehyde dehydrogenase and transforming growth factor beta as well as the inflammatory environment. Nevertheless, DMF treatment did not amplify the morphological alterations induced by EAE. On the basis of our further understanding of MMF signaling through HCAR2, we suggest that the pleiotropic signaling of fumarate via HCAR2 should be addressed for its pharmaceutical relevance in devising new lead compounds with reduced inflammatory side effects.

Published

2021

13. 3D Spatial Distribution of Nanoparticles in Mice Brain Metastases by X-ray Phase-Contrast Tomography

Author

Elena Longo, Lucie Sancey, Alessia Cedola, Emmanuel L. Barbier, Alberto Bravin, Francesco Brun, Inna Bukreeva, Michela Fratini, Lorenzo Massimi, Imke Greving, Geraldine Le Duc, Olivier Tillement, Ombeline De La Rochefoucauld, and Philippe Zeitoun

Subjects

3D visualization, melanoma metastases, brain, nanoparticles, synchrotron radiation, X-ray phase-contrast tomography, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Characterizing nanoparticles (NPs) distribution in multiple and complex metastases is of fundamental relevance for the development of radiological protocols based on NPs administration. In the literature, there have been advances in monitoring NPs in tissues. However, the lack of 3D information is still an issue. X-ray phase-contrast tomography (XPCT) is a 3D label-free, non-invasive and multi-scale approach allowing imaging anatomical details with high spatial and contrast resolutions. Here an XPCT qualitative study on NPs distribution in a mouse brain model of melanoma metastases injected with gadolinium-based NPs for theranostics is presented. For the first time, XPCT images show the NPs uptake at micrometer resolution over the full brain. Our results revealed a heterogeneous distribution of the NPs inside the melanoma metastases, bridging the gap in spatial resolution between magnetic resonance imaging and histology. Our findings demonstrated that XPCT is a reliable technique for NPs detection and can be considered as an emerging method for the study of NPs distribution in organs.

Published

2021

14. Corrigendum: X-ray Phase Contrast Tomography Serves Preclinical Investigation of Neurodegenerative Diseases

Author

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

Subjects

X-ray phase contrast tomography, preclinical disease models, Alzheimer's disease, multiple sclerosis, 3D imaging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2021

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

Author

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

Subjects

X-ray phase contrast tomography, preclinical disease models, Alzheimer’s disease, multiple sclerosis, 3D imaging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

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.

Published

2020

16. Multiscale Imaging Approach for Studying the Central Nervous System: Methodology and Perspective

Author

Michela Fratini, Ali Abdollahzadeh, Mauro DiNuzzo, Raimo A. Salo, Laura Maugeri, Alessia Cedola, Federico Giove, Olli Gröhn, Jussi Tohka, and Alejandra Sierra

Subjects

multimodal image coregistration, magnetic resonance image, X-ray phase contrast microtomography, multiscale imaging, brain, spinal cord, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Non-invasive imaging methods have become essential tools for understanding the central nervous system (CNS) in health and disease. In particular, magnetic resonance imaging (MRI) techniques provide information about the anatomy, microstructure, and function of the brain and spinal cord in vivo non-invasively. However, MRI is limited by its spatial resolution and signal specificity. In order to mitigate these shortcomings, it is crucial to validate MRI with an array of ancillary ex vivo imaging techniques. These techniques include histological methods, such as light and electron microscopy (EM), which can provide specific information on the tissue structure in healthy and diseased brain and spinal cord, at cellular and subcellular level. However, these conventional histological techniques are intrinsically two-dimensional (2D) and, as a result of sectioning, lack volumetric information of the tissue. This limitation can be overcome with genuine three-dimensional (3D) imaging approaches of the tissue. 3D highly resolved information of the CNS achievable by means of other imaging techniques can complement and improve the interpretation of MRI measurements. In this article, we provide an overview of different 3D imaging techniques that can be used to validate MRI. As an example, we introduce an approach of how to combine diffusion MRI and synchrotron X-ray phase contrast tomography (SXRPCT) data. Our approach paves the way for a new multiscale assessment of the CNS allowing to validate and to improve our understanding of in vivo imaging (such as MRI).

Published

2020

17. High-Sensitivity X-ray Phase Imaging System Based on a Hartmann Wavefront Sensor

Author

Ginevra Begani Provinciali, Martin Piponnier, Laura Oudjedi, Xavier Levecq, Fabrice Harms, Alessia Cedola, Ombeline de La Rochefoucauld, and Philippe Zeitoun

Subjects

phase imaging, Hartmann sensor, tomography, X-rays, Physics, QC1-999

Abstract

The Hartman wavefront sensor can be used for X-ray phase imaging with high angular resolution. The Hartmann sensor is able to retrieve both the phase and absorption from a single acquisition. The system calculates the shift in a series of apertures imaged with a detector with respect to their reference positions. In this article, the impact of the reference image on the final image quality is investigated using a laboratory setup. Deflection and absorption images of the same sample are compared using reference images acquired in air and in water. It can be easily coupled with tomographic setups to obtain 3D images of both phase and absorption. Tomographic images of a test sample are shown, where deflection images revealed details that were invisible in absorption. The findings reported in this paper can be used for the improvement of image reconstruction and for expanding the applications of X-ray phase imaging towards materials characterization and medical imaging.

Published

2021

18. Metabolic Remodeling in Skeletal Muscle Atrophy as a Therapeutic Target

Author

Alessandra Renzini, Carles Sánchez Riera, Isidora Minic, Chiara D’Ercole, Biliana Lozanoska-Ochser, Alessia Cedola, Giuseppe Gigli, Viviana Moresi, and Luca Madaro

Subjects

skeletal muscle metabolism, muscle wasting, physical exercise, diet, epigenetics, Microbiology, QR1-502

Abstract

Skeletal muscle is a highly responsive tissue, able to remodel its size and metabolism in response to external demand. Muscle fibers can vary from fast glycolytic to slow oxidative, and their frequency in a specific muscle is tightly regulated by fiber maturation, innervation, or external causes. Atrophic conditions, including aging, amyotrophic lateral sclerosis, and cancer-induced cachexia, differ in the causative factors and molecular signaling leading to muscle wasting; nevertheless, all of these conditions are characterized by metabolic remodeling, which contributes to the pathological progression of muscle atrophy. Here, we discuss how changes in muscle metabolism can be used as a therapeutic target and review the evidence in support of nutritional interventions and/or physical exercise as tools for counteracting muscle wasting in atrophic conditions.

Published

2021

19. Brain Structural Covariance Networks in Behavioral Variant of Frontotemporal Dementia

Author

Salvatore Nigro, Benedetta Tafuri, Daniele Urso, Roberto De Blasi, Maria Elisa Frisullo, Maria Rosaria Barulli, Rosa Capozzo, Alessia Cedola, Giuseppe Gigli, and Giancarlo Logroscino

Subjects

behavioral variant frontotemporal dementia, structural covariance network, graph analysis, MRI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Recent research on behavioral variant frontotemporal dementia (bvFTD) has shown that personality changes and executive dysfunctions are accompanied by a disease-specific anatomical pattern of cortical and subcortical atrophy. We investigated the structural topological network changes in patients with bvFTD in comparison to healthy controls. In particular, 25 bvFTD patients and 20 healthy controls underwent structural 3T MRI. Next, bilaterally averaged values of 34 cortical surface areas, 34 cortical thickness values, and six subcortical volumes were used to capture single-subject anatomical connectivity and investigate network organization using a graph theory approach. Relative to controls, bvFTD patients showed altered small-world properties and decreased global efficiency, suggesting a reduced ability to combine specialized information from distributed brain regions. At a local level, patients with bvFTD displayed lower values of local efficiency in the cortical thickness of the caudal and rostral middle frontal gyrus, rostral anterior cingulate, and precuneus, cuneus, and transverse temporal gyrus. A significant correlation was also found between the efficiency of caudal anterior cingulate thickness and Mini-Mental State Examination (MMSE) scores in bvFTD patients. Taken together, these findings confirm the selective disruption in structural brain networks of bvFTD patients, providing new insights on the association between cognitive decline and graph properties.

Published

2021

20. Modelling of Phase Contrast Imaging with X-ray Wavefront Sensor and Partial Coherence Beams

Author

Ginevra Begani Provinciali, Alessia Cedola, Ombeline de La Rochefoucauld, and Philippe Zeitoun

Subjects

phase-contrast imaging, Hartmann sensor, simulation, partial coherence, Chemical technology, TP1-1185

Abstract

The Hartmann wavefront sensor is able to measure, separately and in absolute, the real δ and imaginary part β of the X-ray refractive index. While combined with tomographic setup, the Hartman sensor opens many interesting opportunities behind the direct measurement of the material density. In order to handle the different ways of using an X-ray wavefront sensor in imaging, we developed a 3D wave propagation model based on Fresnel propagator. The model can manage any degree of spatial coherence of the source, thus enabling us to model experiments accurately using tabletop, synchrotron or X-ray free-electron lasers. Beam divergence is described in a physical manner consistent with the spatial coherence. Since the Hartmann sensor can detect phase and absorption variation with high sensitivity, a precise simulation tool is thus needed to optimize the experimental parameters. Examples are displayed.

Published

2020

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

Author

Laura Maugeri, Mauro DiNuzzo, Marta Moraschi, Charles Nicaise, Inna Bukreeva, Fabio Mangini, Federico Giove, Alessia Cedola, and Michela Fratini

Subjects

fractal dimension, high-resolution X-Ray phase contrast micro tomography, ex vivo mouse spinal cord, Physics, QC1-999

Abstract

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.

Published

2018

22. Magnesium intracellular content and distribution map in drug-resistant and -sensitive whole cells

Author

Emil Malucelli, Stefano Lagomarsino, Lucia Merolle, Chiara Marraccini, Azzurra Sargenti, Concettina Cappadone, Giovanna Farruggia, Alessia Cedola, Michela Fratini, Andrea Notargiacomo, and Stefano Iotti

Subjects

magnesium, XRFM, AFM, drug-resistance, Biology (General), QH301-705.5

Abstract

Magnesium (Mg) plays crucial structural and regulatory roles within cells. Despite the extensive amount of data about the biochemistry of Mg, a complete picture of its regulation and cellular homeostasis is lacking. Thanks to recent improvements in third generation synchrotron X-ray sources, X-ray fluorescence microscopy (XRFM) is becoming a highly sensitive method for mapping elemental distributions in cells. XRFM maps the element content but not the concentration, which is a relevant variable in a biological context. We tackled this issue by combining XRFM with atomic force microscopy that was used to obtain morphological information of the sample. The aim of the present study was to compare the content and the distribution of Mg in drug-resistant and -sensitive tumor cell lines. Our data has shown a massive increase of Mg in LoVo drug-resistant cells. Moreover, the map of intracellular Mg showed marked differences in the pattern distribution between sensitive and resistant cells.

Published

2014

23. Artifacts suppression in biomedical images using a guided filter.

Author

Inna Bukreeva, Anastasia Ingacheva, Michela Fratini, Alessia Cedola, E. Longo, Julian Moosmann, Alexey V. Buzmakov, and Marina V. Chukalina

Published

2020

24. Micromorphology of pineal gland calcification in age‐related neurodegenerative diseases

Author

Inna Bukreeva, Olga Junemann, Alessia Cedola, Francesco Brun, Elena Longo, Giuliana Tromba, Fabian Wilde, Marina V. Chukalina, Yuri S. Krivonosov, Irina G. Dyachkova, Alexey V. Buzmakov, Denis A. Zolotov, Francesca Palermo, Giuseppe Gigli, Dmitry A. Otlyga, Sergey V. Saveliev, Michela Fratini, Victor E. Asadchikov, Bukreeva, Inna, Junemann, Olga, Cedola, Alessia, Brun, Francesco, Longo, Elena, Tromba, Giuliana, Wilde, Fabian, Chukalina, Marina V, Krivonosov, Yuri S, Dyachkova, Irina G, Buzmakov, Alexey V, Zolotov, Denis A, Palermo, Francesca, Gigli, Giuseppe, Otlyga, Dmitry A, Saveliev, Sergey V, Fratini, Michela, and Asadchikov, Victor E

Subjects

histology, human pineal gland, X-ray phase-contrast tomography, micro-tomography, neurodegenerative diseases, General Medicine

Abstract

The formation of concrements in human pineal gland (PG) is a physiological process and, according to many researchers, is associated with the involution of PG structures. The majority of scientific publications concern progressive calcification of PG, leaving out studies on the destruction of already formed calcified concrements. Our study fills the gap in knowledge about calcified zones destruction in PG in normal aging and neuropathological conditions, which has not been addressed until now.Our objective is to gain insight into human PG tissue impairment in both normal aging and neurodegenerative conditions. X-ray phase-contrast tomography (XPCT) allowed us to study PG tissue degeneration at high spatial resolution and, for the first time, to examine the damaged PG concrements in detail. Our research finding could potentially enhance the understanding of the PG involvement in the process of aging as well as in Alzheimer's disease (AD) and vascular dementia (VD).The research was carried out on human PG autopsy material in normal aging, VD, and AD conditions. Laboratory-based micro-computed tomography (micro-CT) was used to collect and evaluate samples of native, uncut, and unstained PG with different degrees of pineal calcification. The detailed high-resolution 3D images of the selected PGs were produced using synchrotron-based XPCT. Histology and immunohistochemistry of soft PG tissue confirmed XPCT results.We performed via micro-CT the evaluation of the morphometric parameters of PG such as total sample volume, calcified concrements volume, and percentage of concrements in the total volume of the sample. XPCT imaging revealed high-resolution details of age-related PG alteration. In particular, we noted signs of moderate degradation of concrements in some PGs from elderly donors. In addition, our analysis revealed noticeable degenerative change in both concrements and soft tissue of PGs with neuropathology. In particular, we observed a hollow core and separated layers as well as deep ragged cracks in PG concrements of AD and VD samples. In parenchyma of some samples, we detected wide pinealocyte-free fluid-filled areas adjacent to the calcified zones.The present work provides the basis for future scientific research focused on the dynamic nature of PG calcium deposits and PG soft tissue in normal aging and neurodegenerative diseases.

Published

2022

25. Element differentiation with a Hartmann- based X-ray phase imaging system

Author

Ombeline de La Rochefoucauld, Ginevra Begani Provinciali, Alessia Cedola, Philip K. Cook, Francesca Di Lillo, Guillaume Dovillaire, Fabrice Harms, Mourad Idir, Xavier Levecq, Laura Oudjedi, Tan-Binh Phan, Martin Piponnier, Giuliana Tromba, and Philippe Zeitoun

Subjects

Mechanics of Materials, Mechanical Engineering, General Physics and Astronomy, General Materials Science

Published

2022

26. Human Pineal Gland Involutionary Process: New Findings

Author

Olga Junemann, Inna Bukreeva, Dmitry A Otlyga, Alessia Cedola, Michela Fratini, and Sergei V Saveliev

Subjects

Aging, Geriatrics and Gerontology

Abstract

In this work, we report preliminary results about the involution of the human pineal gland involution. The detailed analysis of pineal structure was done on autopsy material of 77 persons in age 27–96 using x-ray phase-contrast tomography, histology, and immunohistochemistry. Our study suggests that the pineal gland alteration in older adults may be more profound than has been reported to date. We identified and described a new form of pineal gland involution that eventually led to the total degradation of the pineal gland. To our knowledge, this study is the first to report on the complete replacement of pineal gland parenchyma with connective tissue in older adults.

Published

2023

27. Orthotropic artifacts suppression for THz and x-ray images using guided filtering.

Author

Anastasiya V. Dolmatova, E. E. Berlovskaya, Inna Bukreeva, Alessia Cedola, B. R. Islamov, Elena G. Kuznetsova, I. A. Ozheredov, and Dmitry P. Nikolaev

Published

2019

28. Simultaneous iterative reconstruction method for high resolution x-ray phase-contrast tomography.

Author

Inna Bukreeva, Victor E. Asadchikov, Alexey V. Buzmakov, Marina V. Chukalina, Anastasia Ingacheva, F. Palermo, Michela Fratini, and Alessia Cedola

Published

2019

29. Magnetic Resonance Micro-imaging (µMRI): studying human bone tissue in archaeological contexts

Author

Trocchi, Martina, Palermo, Francesca, Coppa, Alfredo, Inna, Bukreeva, Fratini, Michela, Alessia, Cedola, and Capuani, Silvia

Subjects

µMRI, Virtual Anthropology, Bone tissue analysis, Virtual Anthropology, Bone tissue analysis, µMRI

Published

2023

30. Histone Deacetylases: Molecular Mechanisms and Therapeutic Implications for Muscular Dystrophies

Author

Martina Sandonà, Giorgia Cavioli, Alessandra Renzini, Alessia Cedola, Giuseppe Gigli, Dario Coletti, Timothy A. McKinsey, Viviana Moresi, and Valentina Saccone

Subjects

Inorganic Chemistry, clinical trials, Organic Chemistry, histone deacetylase, Settore BIO/13 - BIOLOGIA APPLICATA, muscular dystrophies, General Medicine, Duchenne Muscular Dystrophy, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Histone deacetylases (HDACs) are enzymes that regulate the deacetylation of numerous histone and non-histone proteins, thereby affecting a wide range of cellular processes. Deregulation of HDAC expression or activity is often associated with several pathologies, suggesting potential for targeting these enzymes for therapeutic purposes. For example, HDAC expression and activity are higher in dystrophic skeletal muscles. General pharmacological blockade of HDACs, by means of pan-HDAC inhibitors (HDACi), ameliorates both muscle histological abnormalities and function in preclinical studies. A phase II clinical trial of the pan-HDACi givinostat revealed partial histological improvement and functional recovery of Duchenne Muscular Dystrophy (DMD) muscles; results of an ongoing phase III clinical trial that is assessing the long-term safety and efficacy of givinostat in DMD patients are pending. Here we review the current knowledge about the HDAC functions in distinct cell types in skeletal muscle, identified by genetic and -omic approaches. We describe the signaling events that are affected by HDACs and contribute to muscular dystrophy pathogenesis by altering muscle regeneration and/or repair processes. Reviewing recent insights into HDAC cellular functions in dystrophic muscles provides new perspectives for the development of more effective therapeutic approaches based on drugs that target these critical enzymes.

Published

2023

31. Lesion Extension and Neuronal Loss after Spinal Cord Injury Using X-Ray Phase-Contrast Tomography in Mice

Author

Laura Maugeri, Aleksandar Jankovski, Emil Malucelli, Fabio Mangini, Jean-Michel Vandeweerd, Jacques Gilloteaux, Kathleen De Swert, Francesco Brun, Ginevra Begani Provinciali, Mauro DiNuzzo, Alberto Mittone, Alberto Bravin, Giuseppe Gigli, Federico Giove, Alessia Cedola, Charles Nicaise, Michela Fratini, Maugeri, L, Jankovski, A, Malucelli, E, Mangini, F, Vandeweerd, J, Gilloteaux, J, Swert, K, Brun, F, Provinciali, G, Dinuzzo, M, Mittone, A, Bravin, A, Gigli, G, Giove, F, Cedola, A, Nicaise, C, Fratini, M, Maugeri, Laura, Jankovski, Aleksandar, Malucelli, Emil, Mangini, Fabio, Vandeweerd, Jean-Michel, Gilloteaux, Jacque, Swert, Kathleen De, Brun, Francesco, Provinciali, Ginevra Begani, Dinuzzo, Mauro, Mittone, Alberto, Bravin, Alberto, Gigli, Giuseppe, Giove, Federico, Cedola, Alessia, Nicaise, Charle, and Fratini, Michela

Subjects

FIS/07 - FISICA APPLICATA (A BENI CULTURALI, AMBIENTALI, BIOLOGIA E MEDICINA), synchrotron X-ray phase-contrast tomography, Neurology (clinical), quantification, spinal cord injury

Abstract

Following spinal cord injury (SCI) the degree of functional (motor, autonomous, or sensory) loss correlates with the severity of nervous tissue damage. An imaging technique able to capture non-invasively and simultaneously the complex mechanisms of neuronal loss, vascular damage, and peri-lesional tissue reorganization is currently lacking in experimental SCI studies. Synchrotron X-ray phase-contrast tomography (SXPCT) has emerged as a non-destructive three-dimensional (3D) neuroimaging technique with high contrast and spatial resolution. In this framework, we developed a multi-modal approach combining SXPCT, histology and correlative methods to study neurovascular architecture in normal and spinal level C4-contused mouse spinal cords (C57BL/6J mice, age 2-3 months). The evolution of SCI lesion was imaged at the cell resolution level during the acute (30 min) and subacute (7 day) phases. Spared motor neurons (MNs) were segmented and quantified in different volumes localized at and away from the epicenter. SXPCT was able to capture neuronal loss and blood-brain barrier breakdown following SCI. Three-dimensional quantification based on SXPCT acquisitions showed no additional MN loss between 30 min and 7 days post-SCI. In addition, the analysis of hemorrhagic (at 30 min) and lesion (at 7 days) volumes revealed a high similarity in size, suggesting no extension of tissue degeneration between early and later time-points. Moreover, glial scar borders were unevenly distributed, with rostral edges being the most extended. In conclusion, SXPCT capability to image at high resolution cellular changes in 3D enables the understanding of the relationship between hemorrhagic events and nervous structure damage in SCI.

Published

2023

32. Altered structural brain networks in linguistic variants of frontotemporal dementia

Author

Salvatore Nigro, Roberto De Blasi, Daniele Urso, Giuseppe Gigli, Alessia Cedola, Giancarlo Logroscino, Benedetta Tafuri, Nigro, Salvatore, Tafuri, Benedetta, Urso, Daniele, De Blasi, Roberto, Cedola, Alessia, Gigli, Giuseppe, and Logroscino, Giancarlo

Subjects

Power graph analysis, Frontal cortex, Semantic variant of primary progressive aphasia, Cognitive Neuroscience, Neuropsychology, Gray matter structural covariance network, Biology, Brain network, medicine.disease, Lateralization of brain function, Primary progressive aphasia, Functional networks, White matter, Behavioral Neuroscience, Psychiatry and Mental health, Cellular and Molecular Neuroscience, medicine.anatomical_structure, Neurology, Graph analysi, Nonfluent variant of primary progressive aphasia, medicine, Radiology, Nuclear Medicine and imaging, Neurology (clinical), Neuroscience, Frontotemporal dementia

Abstract

Semantic (svPPA) and nonfluent (nfvPPA) variants of primary progressive aphasia (PPA) have recently been associated with distinct patterns of white matter and functional network alterations in left frontoinsular and anterior temporal regions, respectively. Little information exists, however, about the topological characteristics of gray matter covariance networks in these two PPA variants. In the present study, we used a graph theory approach to describe the structural covariance network organization in 34 patients with svPPA, 34 patients with nfvPPA and 110 healthy controls. All participants underwent a 3 T structural MRI. Next, we used cortical thickness values and subcortical volumes to define subject-specific connectivity networks. Patients with svPPA and nfvPPA were characterized by higher values of normalized characteristic path length compared with controls. Moreover, svPPA patients had lower values of normalized clustering coefficient relative to healthy controls. At a regional level, patients with svPPA showed a reduced connectivity and impaired information processing in temporal and limbic brain areas relative to controls and nfvPPA patients. By contrast, local network changes in patients with nfvPPA were focused on frontal brain regions such as the pars opercularis and the middle frontal cortex. Of note, a predominance of local metric changes was observed in the left hemisphere in both nfvPPA and svPPA brain networks. Taken together, these findings provide new evidences of a suboptimal topological organization of the structural covariance networks in svPPA and nfvPPA patients. Moreover, we further confirm that distinct patterns of structural network alterations are related to neurodegenerative mechanisms underlying each PPA variant.

Published

2021

33. Chemo-physical properties of asbestos bodies in human lung tissues studied at the nano-scale by non-invasive, label free x-ray imaging and spectroscopic techniques

Author

Francesco Brun, Arianna Di Napoli, Simone De Panfilis, Peter Cloetens, Fabrizio Bardelli, Donata Bellis, Elena Belluso, Silvana Capella, Alessia Cedola, Bardelli, F., Brun, F., De Panfilis, S., Cloetens, P., Capella, S., Belluso, E., Bellis, D., Di Napoli, A., and Cedola, A.

Subjects

Male, 0301 basic medicine, asbestos, imaging, lungs, spectroscopy, synchrotron radiation, tomography, x-ray fluorescence, X-ray fluorescence, Asbesto, Toxicology, medicine.disease_cause, Asbestos, Fluorescence spectroscopy, Imaging, 03 medical and health sciences, 0302 clinical medicine, Chrysotile, medicine, Humans, Sample preparation, Fiber, Spectroscopy, Lung, Tomography, Aged, 80 and over, Synchrotron radiation, Tomography, X-Ray, Chemistry, General Medicine, Spectrometry, Fluorescence, 030104 developmental biology, Chemical engineering, Elemental analysis, Asbestosis, Female, Lungs, 030217 neurology & neurosurgery

Abstract

In the lungs, asbestos develops an Fe-rich coating (Asbestos Body, AB) that becomes the actual interface between the foreign fibers and the host organism. Conventional approaches to study ABs require an invasive sample preparation that can alter them. In this work, a novel combination of x-ray tomography and spectroscopy allowed studying unaltered lung tissue samples with chrysotile and crocidolite asbestos. The thickness and mass density maps of the ABs obtained by x-ray tomography were used to derive a truly quantitative elemental analysis from scanning x-ray fluorescence spectroscopy data. The average mass density of the ABs is compatible with that of highly loaded ferritin, or hemosiderin. The composition of all ABs analyzed was similar, with only minor differences in the relative elemental fractions. Silicon concentration decreased in the core-to-rim direction, indicating a possible partial dissolution of the inner fiber. The Fe content in the ABs was higher than that possibly contained in chrysotile and crocidolite. This finding opens two opposite scenarios, the first with Fe coming from the fiber bulk and concentrating on the surface as long as the fiber dissolves, the second where the Fe that takes part to the formation of the AB originates from the host organism Fe-pool.

Published

2021

34. Innovative hierarchical X-ray imaging approach to assess the sequential evolution of multi-organ damage in multiple sclerosis

Author

Francesca Palermo, Nicola Pieroni, Alessia Sanna, Benedetta Parodi, Consuelo Venturi, Ginevra Begani Provinciali, Lorenzo Massimi, Laura Maugeri, Gian Paolo Marra, Elena Longo, Lorenzo D'Amico, Giulia Saccomano, Jonathan Perrin, Giuliana Tromba, Inna Bukreeva, Michela Fratini, Giuseppe Gigli, Nicole Kerlero de Rosbo, and Alessia Cedola

Abstract

The 3D complexity of biological tissues and the intricate structural-functional connections call for modern X-ray imaging approaches to overcome the limitations of classical imaging. Unlike other imaging techniques, X-ray phase-contrast tomography (XPCT) offers an unprecedented hierarchical 3D imaging approach to investigate different disease-relevant networks at levels ranging from the single cell through to the intact organ as a whole. We study the evolution of tissue damage and inflammation in different organs affected by the disease in the murine model for multiple sclerosis (MS), a demyelinating autoimmune disorder of the central nervous system (CNS). XPCT identifies and monitors structural and cellular alterations throughout the CNS, but also in the gut and eye, of mice induced to develop MS-like disease and sacrificed at pre-symptomatic and symptomatic time points. This study provides the sequential evolution of multi-organ damages in MS murine model showing the disease development and progression which is of obvious relevance for the human case.

Published

2022

35. Asbestos bodies count and morphometry in bulk lung tissue samples by non-invasive X-ray micro-tomography

Author

Silvana Capella, Elena Belluso, Donata Bellis, Claudia Cippitelli, Francesco Brun, Alessia Cedola, Fabrizio Bardelli, Bardelli, F., Brun, F., Capella, S., Bellis, D., Cippitelli, C., Cedola, A., and Belluso, E.

Subjects

Male, Science, Diseases, medicine.disease_cause, Asbestos, Article, 03 medical and health sciences, 0302 clinical medicine, Imaging, Three-Dimensional, medicine, Humans, Sample preparation, Sampling (medicine), 030212 general & internal medicine, asbestos bodies, x-ray microtomography, count, morphometry, Lung, Aged, 80 and over, Multidisciplinary, Non invasive, X-ray, Natural hazards, Health care, Micro tomography, X-Ray Microtomography, Environmental sciences, 030228 respiratory system, Invasive surgery, Medicine, Female, Lung tissue, Biomedical engineering

Abstract

The number of the Asbestos Bodies (AB), i.e. asbestos that developed an iron-protein coating during its permanence in biological tissues, is one of the most accessible markers of asbestos exposure in individuals. The approaches developed to perform AB count in biological tissues are based on the manual examination of tissue digests or histological sections by means of light or electron microscopies. Although these approaches are well established and relatively accessible, manual examination is time-consuming and can be reader-dependent. Besides, approximations are applied because of the limitations of 2D readings and to speed up manual counts. In addition, sample preparation using tissue digests require an amount of tissue that can only be obtained by invasive surgery or post-mortem sampling. In this paper, we propose a new approach to AB counting based on non-destructive 3D imaging, which has the potential to overcome most of the limitations of conventional approaches. This method allows automating the AB count and determining their morphometry distribution in bulk tissue samples (ideally non-invasive needle biopsies), with minimal sample preparation and avoiding approximations. Although the results are promising, additional testing on a larger number of AB-containing biological samples would be required to fully validate the method.

Published

2021

36. Multiscale pink-beam microCT imaging at the ESRF-ID17 biomedical beamline

Author

Luca Fardin, Herwig Requardt, Giacomo E. Barbone, Alberto Mittone, Lorenzo Massimi, P.-A. Douissard, Anthony Mauro, Johannes Stroebel, Paola Coan, Francesca Palermo, Sam Bayat, Roberto Arturo Homs-Regojo, Ginevra Begani-Provinciali, Francesca Di Lillo, Alessia Cedola, Alberto Bravin, Mariele Romano, Michela Fratini, Laboratoire d'optique appliquée (LOA), École Nationale Supérieure de Techniques Avancées (ENSTA Paris)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Mittone, A, Fardin, L, Lillo, F, Fratini, M, Requardt, H, Mauro, A, Homs-Regojo, R, Douissard, P, Barbone, V, Stroebel, V, Romano, M, Massimi, L, Begani-Provinciali, G, Palermo, F, Bayat, S, Cedola, A, Coang, P, and Bravin, A

Subjects

Nuclear and High Energy Physics, Image quality, [PHYS.PHYS.PHYS-BIO-PH]Physics [physics]/Physics [physics]/Biological Physics [physics.bio-ph], Physics::Medical Physics, 030303 biophysics, multiscale imaging, FIS/07 - FISICA APPLICATA (A BENI CULTURALI, AMBIENTALI, BIOLOGIA E MEDICINA), Synchrotron radiation, In Vitro Techniques, 030218 nuclear medicine & medical imaging, law.invention, pink-beam imaging, Mice, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Optics, law, Medical imaging, image quality, Animals, Humans, Lung, Instrumentation, ComputingMilieux_MISCELLANEOUS, Physics, [PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics], 0303 health sciences, Radiation, Phantoms, Imaging, business.industry, X-ray imaging, computed tomography, Equipment Design, X-Ray Microtomography, Synchrotron, Europe, Spinal Cord, Beamline, Physics::Accelerator Physics, Photon beams, Tomography, biomedical imaging, business, Synchrotrons, Beam (structure)

Abstract

Recent trends in hard X-ray micro-computed tomography (microCT) aim at increasing both spatial and temporal resolutions. These challenges require intense photon beams. Filtered synchrotron radiation beams, also referred to as `pink beams', which are emitted by wigglers or bending magnets, meet this need, owing to their broad energy range. In this work, the new microCT station installed at the biomedical beamline ID17 of the European Synchrotron is described and an overview of the preliminary results obtained for different biomedical-imaging applications is given. This new instrument expands the capabilities of the beamline towards sub-micrometre voxel size scale and simultaneous multi-resolution imaging. The current setup allows the acquisition of tomographic datasets more than one order of magnitude faster than with a monochromatic beam configuration.

Published

2020

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

Author

Alberto Mittone, Giuseppe Gigli, Lorenzo Massimi, Laura Maugeri, Michela Fratini, Andrea Fossaghi, Alessia Cedola, Nilo Riva, Ginevra Begani Provinciali, Francesco Gentile, Fabrizio Bardelli, Nicola Pieroni, Alberto Bravin, Angelo Quattrini, Inna Bukreeva, Francesca Palermo, Provinciali, G, Pieroni, N, Bukreeva, I, Fratini, M, Massimi, L, Maugeri, L, Palermo, F, Bardelli, F, Mittone, A, Bravin, A, Gigli, G, Gentile, F, Fossaghi, A, Riva, N, Quattrini, A, Cedola, A, Laboratoire d'optique appliquée (LOA), and École Nationale Supérieure de Techniques Avancées (ENSTA Paris)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Nuclear and High Energy Physics, [PHYS.PHYS.PHYS-BIO-PH]Physics [physics]/Physics [physics]/Biological Physics [physics.bio-ph], FIS/07 - FISICA APPLICATA (A BENI CULTURALI, AMBIENTALI, BIOLOGIA E MEDICINA), Mice, Transgenic, Neuropathology, Disease, Signal-To-Noise Ratio, Sensitivity and Specificity, Mice, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Neuroimaging, medicine, Animals, Therapy efficacy, Amyotrophic lateral sclerosis, Instrumentation, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, [PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics], 0303 health sciences, Phase contrast tomography, Radiation, Amyotrophic Lateral Sclerosis, Progressive neurodegenerative disorder, Spinal cord, medicine.disease, Research Papers, Disease Models, Animal, medicine.anatomical_structure, Spinal Cord, ALS, X-ray phase contrast tomography, Tomography, X-Ray Computed, spinal cord, Neuroscience, 030217 neurology & neurosurgery

Abstract

Ex vivo X-ray phase contrast tomography of amyotrophic lateral sclerosis of a SOD1G93A mouse model is presented. Quantification of neuronal and vascular alteration in the central nervous system is described., 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.

Published

2020

38. Sex and HDAC4 differently affect the pathophysiology of amyotrophic lateral sclerosis in SOD1-G93A mice

Author

Alessandra Renzini, Eva Pigna, Marco Rocchi, Alessia Cedola, Giuseppe Gigli, Viviana Moresi, and Dario Coletti

Subjects

neurogenic muscle atrophy, Organic Chemistry, General Medicine, transgenic mice, Catalysis, Computer Science Applications, Inorganic Chemistry, ALS, velocity of weight loss, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Amyotrophic Lateral Sclerosis (ALS) is a devastating adult-onset neurodegenerative disease, with ineffective therapeutic options. ALS incidence and prevalence depend on the sex of the patient. Histone deacetylase 4 (HDAC4) expression in skeletal muscle directly correlates with the progression of ALS, pointing to the use of HDAC4 inhibitors for its treatment. Contrarily, we have found that deletion of HDAC4 in skeletal muscle worsened the pathological features of ALS, accelerating and exacerbating skeletal muscle loss and negatively affecting muscle innervations in male SOD1-G93A (SOD1) mice. In the present work, we compared SOD1 mice of both sexes with the aim to characterize ALS onset and progression as a function of sex differences. We found a global sex-dependent effects on disease onset and mouse lifespan. We further investigated the role of HDAC4 in SOD1 females with a genetic approach, and discovered morpho-functional effects on skeletal muscle, even in the early phase of the diseases. The deletion of HDAC4 decreased muscle function and exacerbated muscle atrophy in SOD1 females, and had an even more dramatic effect in males. Therefore, the two sexes must be considered separately when studying ALS.

Published

2022

39. Steerable3D: An ImageJ plugin for neurovascular enhancement in 3-D segmentation

Author

Olli Gröhn, Alejandra Sierra, Marta Moraschi, Paolo Miocchi, Charles Nicaise, Alessia Cedola, Laura Maugeri, Francesco Brun, Alberto Mittone, Fabio Mangini, Michela Fratini, Lorenzo Massimi, Inna Bukreeva, Jussi Tohka, Federico Giove, Alberto Bravin, Eleonora Stefanutti, Ali Abdollahzadeh, Miocchi, P, Sierra, A, Maugeri, L, Stefanutti, E, Abdollahzadeh, A, Mangini, F, Moraschi, M, Bukreeva, I, Massimi, L, Brun, F, Tohka, J, Grohn, O, Mittone, A, Bravin, A, Nicaise, C, Giove, F, Cedola, A, Fratini, M, Miocchi, P., Sierra, A., Maugeri, L., Stefanutti, E., Abdollahzadeh, A., Mangini, F., Moraschi, M., Bukreeva, I., Massimi, L., Brun, F., Tohka, J., Grohn, O., Mittone, A., Bravin, A., Nicaise, C., Giove, F., Cedola, A., and Fratini, M.

Subjects

Computer science, Gaussian, Biophysics, General Physics and Astronomy, Image processing, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Imaging, Three-Dimensional, Contrast-to-noise ratio, Steerable filter, Image noise, Image Processing, Computer-Assisted, X ray phase contrast tomography, Radiology, Nuclear Medicine and imaging, Segmentation, Orientation (computer vision), business.industry, Pattern recognition, General Medicine, Filter (signal processing), 3D steerable filter, Vascular network, 030220 oncology & carcinogenesis, symbols, Artificial intelligence, business, Algorithms

Abstract

Purpose Image processing plays a fundamental role in the study of central nervous system, for example in the analysis of the vascular network in neurodegenerative diseases. Synchrotron X-ray Phase-contrast micro-Tomography (SXPCT) is a very attractive method to study weakly absorbing samples and features, such as the vascular network in the spinal cord (SC). However, the identification and segmentation of vascular structures in SXPCT images is seriously hampered by the presence of image noise and strong contrast inhomogeneities, due to the sensitivity of the technique to small electronic density variations. In order to help with these tasks, we implemented a user-friendly ImageJ plugin based on a 3D Gaussian steerable filter, tuned up for the enhancement of tubular structures in SXPCT images. Methods The developed 3D Gaussian steerable filter plugin for ImageJ is based on the steerability properties of Gaussian derivatives. We applied it to SXPCT images of ex-vivo mouse SCs acquired at different experimental conditions. Results The filter response shows a strong amplification of the source image contrast-to-background ratio (CBR), independently of structures orientation. We found that after the filter application, the CBR ratio increases by a factor ranging from ~6 to ~60. In addition, we also observed an increase of 35% of the contrast to noise ratio in the case of injured mouse SC. Conclusion The developed tool can generally facilitate the detection/segmentation of capillaries, veins and arteries that were not clearly observable in non-filtered SXPCT images. Its systematic application could allow obtaining quantitative information from pre-clinical and clinical images.

Published

2021

40. Brain Structural Covariance Networks in Behavioral Variant of Frontotemporal Dementia

Author

Giancarlo Logroscino, Benedetta Tafuri, Rosa Capozzo, Alessia Cedola, Roberto De Blasi, Daniele Urso, Maria Elisa Frisullo, Maria Rosaria Barulli, Salvatore Nigro, Giuseppe Gigli, Nigro, Salvatore, Tafuri, Benedetta, Urso, Daniele, De Blasi, Roberto, Frisullo, Maria Elisa, Barulli, Maria Rosaria, Capozzo, Rosa, Cedola, Alessia, Gigli, Giuseppe, and Logroscino, Giancarlo

Subjects

business.industry, General Neuroscience, Precuneus, structural covariance network, behavioral variant frontotemporal dementia, medicine.disease, Article, Cuneus, graph analysis, lcsh:RC321-571, Correlation, Personality changes, medicine.anatomical_structure, Transverse temporal gyrus, graph analysi, medicine, Middle frontal gyrus, Cognitive decline, business, Neuroscience, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Frontotemporal dementia, MRI

Abstract

Recent research on behavioral variant frontotemporal dementia (bvFTD) has shown that personality changes and executive dysfunctions are accompanied by a disease-specific anatomical pattern of cortical and subcortical atrophy. We investigated the structural topological network changes in patients with bvFTD in comparison to healthy controls. In particular, 25 bvFTD patients and 20 healthy controls underwent structural 3T MRI. Next, bilaterally averaged values of 34 cortical surface areas, 34 cortical thickness values, and six subcortical volumes were used to capture single-subject anatomical connectivity and investigate network organization using a graph theory approach. Relative to controls, bvFTD patients showed altered small-world properties and decreased global efficiency, suggesting a reduced ability to combine specialized information from distributed brain regions. At a local level, patients with bvFTD displayed lower values of local efficiency in the cortical thickness of the caudal and rostral middle frontal gyrus, rostral anterior cingulate, and precuneus, cuneus, and transverse temporal gyrus. A significant correlation was also found between the efficiency of caudal anterior cingulate thickness and Mini-Mental State Examination (MMSE) scores in bvFTD patients. Taken together, these findings confirm the selective disruption in structural brain networks of bvFTD patients, providing new insights on the association between cognitive decline and graph properties.

Published

2021

41. Metabolic remodeling in skeletal muscle atrophy as a therapeutic target

Author

Alessia Cedola, Luca Madaro, Carles Sánchez Riera, Alessandra Renzini, Viviana Moresi, Biliana Lozanoska-Ochser, Isidora Minic, Giuseppe Gigli, Chiara D’Ercole, Renzini, Alessandra, Riera, Carles Sánchez, Minic, Isidora, D'Ercole, Chiara, Lozanoska-Ochser, Biliana, Cedola, Alessia, Gigli, Giuseppe, Moresi, Viviana, and Madaro, Luca

Subjects

medicine.medical_specialty, skeletal muscle metabolism, Endocrinology, Diabetes and Metabolism, Physical exercise, Review, Microbiology, Biochemistry, Cachexia, physical exercise, Internal medicine, medicine, Glycolysis, Epigenetics, Amyotrophic lateral sclerosis, Molecular Biology, Wasting, epigenetics, business.industry, Skeletal muscle, muscle wasting, medicine.disease, QR1-502, Muscle atrophy, Endocrinology, medicine.anatomical_structure, diet, medicine.symptom, business, epigenetic

Abstract

Skeletal muscle is a highly responsive tissue, able to remodel its size and metabolism in response to external demand. Muscle fibers can vary from fast glycolytic to slow oxidative, and their frequency in a specific muscle is tightly regulated by fiber maturation, innervation, or external causes. Atrophic conditions, including aging, amyotrophic lateral sclerosis, and cancer-induced cachexia, differ in the causative factors and molecular signaling leading to muscle wasting; nevertheless, all of these conditions are characterized by metabolic remodeling, which contributes to the pathological progression of muscle atrophy. Here, we discuss how changes in muscle metabolism can be used as a therapeutic target and review the evidence in support of nutritional interventions and/or physical exercise as tools for counteracting muscle wasting in atrophic conditions.

Published

2021

42. X-ray microtomography and phylogenomics provide insights into the morphology and evolution of an enigmatic Mesozoic insect larva

Author

Thomas Weiterschan, Alessia Cedola, Andrea Di Giulio, Maurizio Mei, Joachim T. Haug, Michela Fratini, Nicola Pieroni, Davide Badano, Pierfilippo Cerretti, Jürgen Velten, Laura Maugeri, Francesca Palermo, Badano, D., Fratini, M. Maugeri L., Palermo, F., Pieroni, N., Haug, J. T., Weiterschan, T., Velten, J., Mei, M., Di Giulio, A., and Cerretti, P.

Subjects

phylogenetics, Larva, X-ray microtomography, fossil, Evolutionary biology, Insect Science, Phylogenomics, Morphology (biology), insect, Mesozoic, Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Fossils sometimes show unusual morphological features absent in living organisms, making it difficult to reconstruct both their affinity and their function. We describe here a newlacewing larva, Ankyloleon caudatus gen. et sp.n. (Neuroptera) from the Cretaceous amber of Myanmar, characterized by an abdomen unique among insects, with ‘tail-like’ terminal segments bearing a ventral pair of vesicles. Phase-contrast X-ray microtomography reveals that these structures were dense and equipped with a median duct, suggesting that they were likely pygopods used for locomotion, holding the position through adhesive secretions. Our phylogenetic analyses, combining genomic and morphological data from both living and fossil lacewings, proved critical to placing Ankyloleon gen.n. on the lacewing tree of life as an early representative of the antlion clade, Myrmeleontiformia. These results corroborate the view that derived myrmeleontiform lacewings ‘experimented’ with unusual combinations of features and specializations during their evolutionary history, some of which are now lost.

Published

2021

43. Orthotropic artifacts suppression for THz and x-ray images using guided filtering

Author

Dmitry P. Nikolaev, E. E. Berlovskaya, Inna Bukreeva, B. R. Islamov, Alessia Cedola, Anastasiya Dolmatova, Elena G. Kuznetsova, and Ilya A. Ozheredov

Subjects

Materials science, Optics, business.industry, Terahertz radiation, X ray image, business, Orthotropic material

Published

2020

44. Investigation of the human pineal gland 3D organization by X-ray phase contrast tomography

Author

Ginevra Begani Provinciali, Alexey Buzmakov, Marina Chukalina, D. A. Zolotov, Alessia Cedola, Anna G. Ivanova, Victor E. Asadchikov, Inna Bukreeva, Yuri Krivonosov, Dmitry Otlyga, Olga Junemann, Sergey Saveliev, Alessia Sanna, Francesca Palermo, Nicola Pieroni, Michela Fratini, Laura Maugeri, CNR Istituto di Nanotecnologia (NANOTEC), and Consiglio Nazionale delle Ricerche [Roma] (CNR)

Subjects

Male, Pathology, medicine.medical_specialty, [PHYS.PHYS.PHYS-BIO-PH]Physics [physics]/Physics [physics]/Biological Physics [physics.bio-ph], x-ray phase contrast imaging, x-ray micro-tomography, human pineal gland, pinealocytes, pineal cysts, pineal calcifications, Biology, Pineal Gland, Pinealocyte, 03 medical and health sciences, Pineal gland, Imaging, Three-Dimensional, Structural Biology, Parenchyma, medicine, Humans, Epithalamus, Microscopy, Phase-Contrast, Circadian rhythm, Pathological, ComputingMilieux_MISCELLANEOUS, Aged, 030304 developmental biology, [PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics], 0303 health sciences, Tomography, X-Ray, X-Rays, 030302 biochemistry & molecular biology, Brain, Calcinosis, Histology, Human brain, Middle Aged, 3. Good health, medicine.anatomical_structure, ddc:540, Female

Abstract

Pineal gland (PG) is a part of the human brain epithalamus that plays an important role in sleep, circadian rhythm, immunity, and reproduction. The calcium deposits and lesions in PG interfere with normal function of the organ and can be associated with different health disorders including serious neurological diseases. At the moment, the detailed mechanisms of PG calcifications and PG lesions formation as well as their involvement in pathological processes are not fully understood. The deep and comprehensive study of the structure of the uncut human PG with histological details, poses a stiff challenge to most imaging techniques, due to low spatial resolution, low visibility or to exceedingly aggressive sample preparation. Here, we investigate the whole uncut and unstained human post-mortem PGs by X-ray phase contrast tomography (XPCT). XPCT is an advanced 3D imaging technique, that permits to study of both soft and calcified tissue of a sample at different scales: from the whole organ to cell structure. In our research we simultaneously resolved 3D structure of parenchyma, vascular network and calcifications. Moreover, we distinguished structural details of intact and degenerated PG tissue. We discriminated calcifications with different structure, pinealocytes nuclei and the glial cells processes. All results were validated by histology. Our research clear demonstrated that XPCT is a potential tool for the high resolution 3D imaging of PG morphological features. This technique opens a new perspective to investigate PG dysfunction and understand the mechanisms of onset and progression of diseases involving the pineal gland.

Published

2020

45. High resolution 3D visualization of the spinal cord in a post-mortem murine model

Author

Alessia Cedola, Inna Bukreeva, Victor E. Asadchikov, Gabriele Biella, Francesco Brun, Marina Chukalina, Michela Fratini, Alexey Buzmakov, Lorenzo Massimi, Alberto Bravin, Alberto Mittone, N. A. Korolev, Anastasya Ingacheva, Alejandra Sierra, Bukreeva, I., Asadchikov, V., Buzmakov, A., Chukalina, M., Ingacheva, A., Korolev, N. A., Bravin, A., Mittone, A., Biella, G. E. M., Sierra, A., Brun, F., Massimi, L., Fratini, M., Cedola, A., Bukreeva, I, Asadchikov, V, Buzmakov, A, Chukalina, M, Ingacheva, A, Korolev, N, Bravin, A, Mittone, A, Biella, G, Sierra, A, Brun, F, Massimi, L, Fratini, M, and Cedola, A

Subjects

Phase contrast microscopy, Central nervous system, Imaging technique, FIS/07 - FISICA APPLICATA (A BENI CULTURALI, AMBIENTALI, BIOLOGIA E MEDICINA), High resolution, Imaging techniques, 01 natural sciences, Article, law.invention, 010309 optics, 03 medical and health sciences, Image processing, Phase contrast, law, 0103 physical sciences, medicine, Spinal canal, Neuronal organization, Phase retrieval, 030304 developmental biology, 0303 health sciences, business.industry, X ray computed tomography, X ray imaging, Spinal cord, Atomic and Molecular Physics, and Optics, Visualization, medicine.anatomical_structure, Murine model, spinal cord, mice, phase contrast imaging, business, Biotechnology, Biomedical engineering

Abstract

A crucial issue in the development of therapies to treat pathologies of the central nervous system is represented by the availability of non-invasive methods to study the threedimensional morphology of spinal cord, with a resolution able to characterize its complex vascular and neuronal organization. X-ray phase contrast micro-tomography enables a highquality, 3D visualization of both the vascular and neuronal network simultaneously without the need of contrast agents, destructive sample preparations or sectioning. Until now, high resolution investigations of the post-mortem spinal cord in murine models have mostly been performed in spinal cords removed from the spinal canal. We present here post-mortem phase contrast micro-tomography images reconstructed using advanced computational tools to obtain high-resolution and high-contrast 3D images of the fixed spinal cord without removing the bones and preserving the richness of micro-details available when measuring exposed spinal cords. We believe that it represents a significant step toward the in-vivo application. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Published

2019

46. Numerical simulation of the blood oxygenation level–dependent functional magnetic resonance signal using finite element method

Author

Laura Maugeri, Fabio Mangini, Fabrizio Frezza, Federico Giove, Mauro DiNuzzo, Marta Moraschi, Alessia Cedola, Daniele Mascali, and Michela Fratini

Subjects

Quantitative Biology::Tissues and Organs, Physics::Medical Physics, 0206 medical engineering, Finite Element Analysis, finite element method, Biomedical Engineering, Perturbation (astronomy), 02 engineering and technology, 030204 cardiovascular system & hematology, Cylinder (engine), law.invention, numerical simulations, 03 medical and health sciences, 0302 clinical medicine, law, Perpendicular, Humans, Computer Simulation, Molecular Biology, Brownian motion, transverse relaxation rate, Physics, biophysical modelling, BOLD, fMRI, Computer simulation, Applied Mathematics, Mathematical analysis, Water, Models, Theoretical, Magnetostatics, 020601 biomedical engineering, Magnetic Resonance Imaging, Finite element method, Magnetic field, Oxygen, Computational Theory and Mathematics, Modeling and Simulation, Software

Abstract

Since the introduction of functional magnetic resonance imaging (fMRI), several computational approaches have been developed to examine the effect of the morphology and arrangement of blood vessels on the blood oxygenation-level dependent (BOLD) signal in the brain. In the present work, we implemented the original Ogawa's model using a numerical simulation based on the finite element method (FEM) instead of the analytical models. In literature, there are different works using analytical methods to analyse the transverse relaxation rate ( R 2 ∗ ), which BOLD signal is related to, modelling the vascular system with simple and canonical geometries such as an infinite cylinder model (ICM) or a set of cylinders. We applied the numerical simulation to the extravascular BOLD signal as a function of angular vessel distribution (perpendicular vs parallel to the static magnetic field) relevant for anatomical districts characterized by geometrical symmetries, such as spinal cord. Numerical simulations confirmed analytical results for the canonical ICM. Moreover, the perturbation to the magnetic field induced by blood deoxyhaemoglobin, as quantified assuming Brownian diffusion of water molecules around the vessel, revealed that vessels contribute the most to the variation of the R 2 ∗ when they are preferentially perpendicular to the external magnetic field, regardless of their size. Our results indicate that the numerical simulation method is sensitive to the effects of different vascular geometry. This work highlights the opportunity to extend R 2 ∗ simulations to realistic models of vasculature based on high-resolution anatomical images.

Published

2019

47. Exploring Alzheimer's disease mouse brain through X-ray phase contrast tomography: From the cell to the organ

Author

Francesco Brun, Alessia Cedola, Peter Cloetens, Antonio Uccelli, Inna Bukreeva, Stefano Fumagalli, Nicole Kerlero de Rosbo, Gianluigi Forloni, Lorenzo Massimi, Claudia Balducci, Nicola Pieroni, Fabio Fiordaliso, Laura Maugeri, Alessandro Corbelli, Giulia Santamaria, Michela Fratini, Alexandra Pacureanu, Massimi, Lorenzo, Bukreeva, Inna, Santamaria, Giulia, Fratini, Michela, Corbelli, Alessandro, Brun, Francesco, Fumagalli, Stefano, Maugeri, Laura, Pacureanu, Alexandra, Cloetens, Peter, Pieroni, Nicola, Fiordaliso, Fabio, Forloni, Gianluigi, Uccelli, Antonio, Kerlero de Rosbo, Nicole, Balducci, Claudia, and Cedola, Alessia

Subjects

Male, Cognitive Neuroscience, Cell, Mice, Transgenic, Alzheimer disease neuropathology, Animal model, Beta-amyloid plaques, Synchrotron radiation, X-ray phase contrast tomography, Neurology, Neuroimaging, Disease, 050105 experimental psychology, Transgenic, Imaging, Beta-amyloid plaque, 03 medical and health sciences, Mice, Imaging, Three-Dimensional, 0302 clinical medicine, Alzheimer Disease, medicine, Dementia, Animals, 0501 psychology and cognitive sciences, Pathological, Tomography, Phase contrast tomography, Animal, 05 social sciences, Disease progression, Brain, Translation (biology), Progressive neurodegenerative disorder, medicine.disease, 3. Good health, X-Ray Computed, Disease Models, Animal, medicine.anatomical_structure, Disease Models, Three-Dimensional, Tomography, X-Ray Computed, alzheimer disease neuropathology, animal model, beta-amyloid plaques, synchrotron radiation, x-ray phase contrast tomography, Neuroscience, 030217 neurology & neurosurgery

Abstract

Alzheimer's disease (AD), the most common form of dementia, is a progressive neurodegenerative disorder associated with aberrant production of beta-amyloid (Aβ) peptide depositing in brain as amyloid plaques. While animal models allow investigation of disease progression and therapeutic efficacy, technology to fully dissect the pathological mechanisms of this complex disease at cellular and vascular levels is lacking. X-ray phase contrast tomography (XPCT) is an advanced non-destructive 3D multi-scale direct imaging from the cell through to the whole brain, with exceptional spatial and contrast resolution. We exploit XPCT to simultaneously analyse disease-relevant vascular and neuronal networks in AD mouse brain, without sectioning and staining. The findings clearly show the different typologies and internal structures of Aβ plaques, together with their interaction with patho/physiological cellular and neuro-vascular microenvironment. XPCT enables for the first time a detailed visualization of amyloid-angiopathy at capillary level, which is impossible to achieve with other approaches. XPCT emerges as added-value technology to explore AD mouse brain as a whole, preserving tissue chemistry and structure, enabling the comparison of physiological vs. pathological states at the level of crucial disease targets. In-vivo translation will permit to monitor emerging therapeutic approaches and possibly shed new light on pathological mechanisms of neurodegenerative diseases.

Published

2019

48. Investigation of Herculaneum Papyri by X-Ray Phase-Contrast Tomography

Author

Lorenzo Massimi, Michele Alessandrelli, Michela Fratini, Vincenzo Formoso, Graziano Ranocchia, Inna Bukreeva, and Alessia Cedola

Subjects

010302 applied physics, Papyrology, Phase contrast tomography, Papyrus, Ancient philosophy, media_common.quotation_subject, Art history, X-Ray Phase-Contrast Tomography, 02 engineering and technology, Art, Herculaneum Papyri, engineering.material, 021001 nanoscience & nanotechnology, 01 natural sciences, Cultural heritage, 0103 physical sciences, engineering, 0210 nano-technology, media_common

Abstract

Advanced X-ray phase-contrast tomography (XPCT) and modern computing technologies allow extremely fragile papyrus rolls to be efficiently analyzed from micro- to macro-levels. 3D virtual study of the Herculaneum papyri structure provides a unique opportunity not only for the tracking of the valuable texts contained in them, but also for reconstructing their original format and the historical events undergone by them, including modern ways to unroll them. In particular, XPCT combined with scanning electron microscopy and fluorescence analysis looks into the world of ancient bookrolls in a way that has never been imagined before. From this point of view, XPCT and computing technologies serve as unique tools for the nondestructive investigation, conservation, and exploitation of this extraordinary cultural heritage. This research shows that Herculaneum papyri disclose priceless information not only for scholars of papyrology, ancient philosophy and literature, but also for scientists from other fields.

Published

2019

49. A computational platform for the virtual unfolding of Herculaneum Papyri

Author

Francesca Palermo, Sara Stabile, Inna Bukreeva, Alessia Cedola, Daniela Mele, Roberto Bartolino, and Vincenzo Formoso

Subjects

0301 basic medicine, Science, media_common.quotation_subject, Scroll, 02 engineering and technology, Imaging techniques, engineering.material, Article, 03 medical and health sciences, 0202 electrical engineering, electronic engineering, information engineering, Computational methods, Epicureanism, media_common, Multidisciplinary, Papyrus, Computational science, 020207 software engineering, Art, Computer science, Applied physics, 030104 developmental biology, engineering, Medicine, Classics, Software

Abstract

Ancient Herculaneum papyrus scrolls, hopelessly charred in the 79 A.D. Vesuvius eruption, contain valuable writings of the Greek philosophers of the day, including works of the Epicurean Philodemus. X-ray phase contrast tomography has recently begun unlocking their secrets. However, only small portions of the text hidden inside the scroll have been recover. One of the challenging tasks in Herculaneum papyri investigation is their virtual unfolding because of their highly complicated structure and three-dimensional arrangement. Although this procedure is feasible, problems in segmentation and flattening hinder the unrolling of a large portion of papyrus. We propose a computational platform for the virtual unfolding procedure, and we show the results of its application on two Herculaneum papyrus fragments. This work paves the way to a comprehensive survey and to further interpretation of larger portions of text hidden inside the carbonized Herculaneum papyri.

Published

2021

50. Three dimensional visualization of engineered bone and soft tissue by combined x-ray micro-diffraction and phase contrast tomography

Author

Inna Bukreeva, Daniele Pelliccia, Ranieri Cancedda, Diego Dreossi, Manfred Burghammer, Maddalena Mastrogiacomo, Luigi Rigon, Michela Fratini, Fulvia Arfelli, Rongchang Chen, Alessia Cedola, Giuliana Tromba, Sara Mohammadi, Gaetano Campi, Nicola Sodini, Alessia, Cedola, Gaetano, Campi, Daniele, Pelliccia, Inna, Bukreeva, Michela, Fratini, Manfred, Burghammer, Rigon, Luigi, Arfelli, Fulvia, Rong Chang, Chen, Diego, Dreossi, Nicola, Sodini, Sara, Mohammadi, Giuliana, Tromba, Ranieri, Cancedda, Maddalena, Mastrogiacomo, Cedola, Alessia, Campi, Gaetano, Pelliccia, Daniele, Bukreeva, Inna, Fratini, Michela, Burghammer, Manfred, Chen Rong, Chang, Dreossi, Diego, Sodini, Nicola, Mohammadi, Sara, Tromba, Giuliana, Cancedda, Ranieri, and Mastrogiacomo, Maddalena

Subjects

MARROW STROMAL CELLS, SYNCHROTRON-RADIATION, CALCIUM-PHOSPHATE, MICRODIFFRACTION, INTERFEROMETER, GRATINGS, COLLAGEN, Materials science, 02 engineering and technology, Matrix (biology), Bone and Bones, law.invention, Mice, 03 medical and health sciences, Calcification, Physiologic, Imaging, Three-Dimensional, X-Ray Diffraction, Tissue engineering, law, Animals, Radiology, Nuclear Medicine and imaging, Amorphous calcium phosphate, Tomography, 030304 developmental biology, 0303 health sciences, Tomographic reconstruction, Tissue Engineering, Tissue Scaffolds, Radiological and Ultrasound Technology, Soft tissue, 021001 nanoscience & nanotechnology, Synchrotron, Radiography, Interferometry, 0210 nano-technology, Biomedical engineering, Biomineralization

Abstract

Computed x-ray phase contrast micro-tomography is the most valuable tool for a three dimensional (3D) and non destructive analysis of the tissue engineered bone morphology. We used a Talbot interferometer installed at SYRMEP beamline of the ELETTRA synchrotron (Trieste, Italy) for a precise 3D reconstruction of both bone and soft connective tissue, regenerated in vivo within a porous scaffold. For the first time the x-ray tomographic reconstructions have been combined with x-ray scanning micro-diffraction measurement on the same sample, in order to give an exhaustive identification of the different tissues participating to the biomineralization process. As a result, we were able to investigate in detail the different densities in the tissues, distinguishing the 3D organization of the amorphous calcium phosphate from the collagen matrix. Our experimental approach allows for a deeper understanding of the role of collagen matrix in the organic-mineral transition, which is a crucial issue for the development of new bio-inspired composites.

Published

2013