Your search keyword '"P. Mazzinghi"' showing total 21 results

1. Ultrathin Tropical Tropopause Clouds (UTTCs): II. Stabilization mechanisms

Author

B. P. Luo, Th. Peter, H. Wernli, S. Fueglistaler, M. Wirth, C. Kiemle, H. Flentje, V. A. Yushkov, V. Khattatov, V. Rudakov, A. Thomas, S. Borrmann, G. Toci, P. Mazzinghi, J. Beuermann, C. Schiller, F. Cairo, G. Di Don-Francesco, A. Adriani, C. M. Volk, J. Strom, K. Noone, V. Mitev, R. A. MacKenzie, K. S. Carslaw, T. Trautmann, V. Santacesaria, and L. Stefanutti

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Mechanisms by which subvisible cirrus clouds (SVCs) might contribute to dehydration close to the tropical tropopause are not well understood. Recently Ultrathin Tropical Tropopause Clouds (UTTCs) with optical depths around 10-4 have been detected in the western Indian ocean. These clouds cover thousands of square kilometers as 200-300 m thick distinct and homogeneous layer just below the tropical tropopause. In their condensed phase UTTCs contain only 1-5% of the total water, and essentially no nitric acid. A new cloud stabilization mechanism is required to explain this small fraction of the condensed water content in the clouds and their small vertical thickness. This work suggests a mechanism, which forces the particles into a thin layer, based on upwelling of the air of some mm/s to balance the ice particles, supersaturation with respect to ice above and subsaturation below the UTTC. In situ measurements suggest that these requirements are fulfilled. The basic physical properties of this mechanism are explored by means of a single particle model. Comprehensive 1-D cloud simulations demonstrate this stabilization mechanism to be robust against rapid temperature fluctuations of +/- 0.5 K. However, rapid warming (Delta T > 2 K) leads to evaporation of the UTTC, while rapid cooling (Delta T < -2 K) leads to destabilization of the particles with the potential for significant dehydration below the cloud

Published

2003

2. Ultrathin Tropical Tropopause Clouds (UTTCs): I. Cloud morphology and occurrence

Author

Th. Peter, B. P. Luo, M. Wirth, C. Kiemle, H. Flentje, V. A. Yushkov, V. Khattatov, V. Rudakov, A. Thomas, S. Borrmann, G. Toci, P. Mazzinghi, J. Beuermann, C. Schiller, F. Cairo, G. Di Donfrancesco, A. Adriani, C. M. Volk, J. Strom, K. Noone, V. Mitev, R. A. MacKenzie, K. S. Carslaw, T. Trautmann, V. Santacesaria, and L. Stefanutti

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Subvisible cirrus clouds (SVCs) may contribute to dehydration close to the tropical tropopause. The higher and colder SVCs and the larger their ice crystals, the more likely they represent the last efficient point of contact of the gas phase with the ice phase and, hence, the last dehydrating step, before the air enters the stratosphere. The first simultaneous in situ and remote sensing measurements of SVCs were taken during the APE-THESEO campaign in the western Indian ocean in February/March 1999. The observed clouds, termed Ultrathin Tropical Tropopause Clouds (UTTCs), belong to the geometrically and optically thinnest large-scale clouds in the Earth's atmosphere. Individual UTTCs may exist for many hours as an only 200--300 m thick cloud layer just a few hundred meters below the tropical cold point tropopause, covering up to 105 km2. With temperatures as low as 181 K these clouds are prime representatives for defining the water mixing ratio of air entering the lower stratosphere.

Published

2003

3. Renal Progenitors Derived from Urine for Personalized Diagnosis of Kidney Diseases

Author

Benedetta Mazzinghi, Maria Elena Melica, Laura Lasagni, Paola Romagnani, and Elena Lazzeri

Subjects

renal progenitors, disease models, genetic kidney disease, acute kidney injury, chronic kidney disease, Dermatology, RL1-803, Diseases of the circulatory (Cardiovascular) system, RC666-701, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Background: Chronic kidney disease affects 10% of the world population, and it is associated with progression to end-stage kidney disease and increased morbidity and mortality. The advent of multi-omics technologies has expanded our knowledge on the complexity of kidney diseases, revealing their frequent genetic etiology, particularly in children and young subjects. Genetic heterogeneity and drug screening require patient-derived disease models to establish a correct diagnosis and evaluate new potential treatments and outcomes. Summary: Patient-derived renal progenitors can be isolated from urine to set up proper disease modeling. This strategy allows to make diagnosis of genetic kidney disease in patients carrying unknown significance variants or uncover variants missed from peripheral blood analysis. Furthermore, urinary-derived tubuloids obtained from renal progenitors of patients appear to be potentially valuable for modeling kidney diseases to test ex vivo treatment efficacy or to develop new therapeutic approaches. Finally, renal progenitors derived from urine can provide insights into acute kidney injury and predict kidney function recovery and outcome. Key Messages: Renal progenitors derived from urine are a promising new noninvasive and easy-to-handle tool, which improves the rate of diagnosis and the therapeutic choice, paving the way toward a personalized healthcare.

Published

2024

4. Spectral Mapping Techniques for the Stratigraphic and Compositional Characterisation of a 16th-Century Painting

Author

Alice Dal Fovo, Margherita Morello, Anna Mazzinghi, Caterina Toso, Monica Galeotti, and Raffaella Fontana

Subjects

reflectance imaging, spectral correlation, MA-XRF, SEM-EDS, stratigraphy, pigment mapping, Archaeology, CC1-960

Abstract

Identifying a painting’s pigment palette is crucial for comprehending the author’s technique, as well as for evaluating the degradation of the materials. This paper investigates the stratigraphy and pigments distribution of a 16th-century painting from the Uffizi Galleries collection. Firstly, we obtained compositional information through the cross-sectional analysis of samples using scanning electron microscopy. Secondly, we performed elemental mapping using macro-X-ray fluorescence followed by reflectance imaging spectroscopy. The painting image cube was analysed using the spectral correlation mapping (SCM) classification algorithm to accurately identify the distribution and composition of the pigment mixtures.

Published

2024

5. The Non-Invasive Spectroscopic Study of a Parchment Object from the National Central Library of Florence: The Hebrew Scroll

Author

Giovanni Bartolozzi, Andrea Casini, Lisa Castelli, Costanza Cucci, Francesco Grazzi, Anna Mazzinghi, Irene Pieralli, Chiara Ruberto, Rachel Sarfati, Alessandro Sidoti, Lorenzo Stefani, and Marcello Picollo

Subjects

Hebrew Scroll, Florence Scroll, state of conservation, non-invasive analyses, restoration, parchment, Archaeology, CC1-960

Abstract

The Hebrew Scroll, catalogued as Magliabekian Manuscript III 43 and belonging to the National Central Library of Florence (BNCF), is a membranous richly decorated scroll, with colorful depictions of sacred sites through the Holy Land to Lebanon along with handwritten texts in Hebrew and notes in Italian. Despite the fact that the manuscript was originally catalogued as an “object of no artistic or scientific value”, recent paleographic studies dated it to the XIV century and highlighted it as the oldest scroll still available, depicting holy places from Egypt to Lebanon. Nevertheless, precise dating, authorship, and the interpretation of its original function are still uncertain. A suite of complementary techniques was used, including photographic documentation in visible (VIS) light in diffuse light, grazing light, and transillumination, luminescence induced by ultraviolet (UV) radiation, imaging spectroscopy (IS), Macro Area X-ray Fluorescence (MA-XRF), and spot analyses such as fiber-optic reflectance spectroscopy (FORS) in the UV, VIS, and near-infrared (NIR) regions, Fourier transform infrared spectroscopy (FT-IR) in external reflectance mode (ER), and micro-Raman spectroscopy. The results of the non-invasive diagnostic campaign enabled the identification of several constituting materials (parchment, pigments, binder, and inks). The identified materials were consistent with the proposed dating and geographical manufacturing area of the artefact.

Published

2024

6. Disclosure of a Concealed Michelangelo-Inspired Depiction in a 16th-Century Painting

Author

Alice Dal Fovo, Margherita Morello, Anna Mazzinghi, Caterina Toso, Enrico Pampaloni, and Raffaella Fontana

Subjects

painting, underpainting, underdrawing, Michelangelo, microprofilometry, X-ray fluorescence, Photography, TR1-1050, Computer applications to medicine. Medical informatics, R858-859.7, Electronic computers. Computer science, QA75.5-76.95

Abstract

Some paintings may have hidden depictions beneath the visible surface, which can provide valuable insights into the artist’s creative process and the genesis of the artwork. Studies have shown that these covered paintings can be revealed through image-based techniques and integrated data processing. This study analyzes an oil painting by Beceri from the mid-16th century depicting the Holy Family, owned by the Uffizi Galleries. During the analysis of the materials, we discovered evidence of pictorial layers beneath the visible scene. To uncover the hidden figuration, we applied a multimodal approach that included microprofilometry, reflectance imaging spectroscopy, macro X-ray fluorescence, and optical coherence tomography. We analyzed the brushstrokes of the hidden painting, visualized the underdrawing, located the painted areas beneath the outermost painting, and quantified the thicknesses of the pictorial layers. The pigments used for the underpainting were identified through cross-analysis of X-ray fluorescence and spectral correlation maps. The underlying pictorial subject, Leda and the Swan, appears to be inspired by a long-lost and replicated work by Michelangelo. This information places Beceri and his production in a more defined context.

Published

2024

7. The Ethiopian Magic Scrolls: A Combined Approach for the Characterization of Inks and Pigments Composition

Author

Monia Vadrucci, Davide Bussolari, Massimo Chiari, Claudia De Rose, Michele Di Foggia, Anna Mazzinghi, Noemi Orazi, Carlotta L. Zanasi, and Cristina Cicero

Subjects

magic scroll, mixed ink, infrared reflectography, ATR-FTIR spectroscopy, ion beam analysis, Archaeology, CC1-960

Abstract

The Ethiopian magic scrolls are traditional parchment artifacts used by the Christians of Ethiopia as protection against disease and demonic possessions. On the occasion of their restoration in the Accademia delle Belle Arti di Bologna (Italy); a preliminary characterization before the treatments has been performed on four Ethiopian scrolls belonging to the Archivio storico della provincia di Cristo Re dei Frati Minori dell’Emilia Romagna of Bologna (Italy). In order to plan an effective preservative restoration procedure and; at the same time; to investigate the manufacturing techniques; the text and the decorations on the magic scrolls were studied and characterized. A combined approach by imaging and compositional techniques was used: Infrared Reflectography (IRR) for the preliminary characterization of the graphic supports and the identification of the points to sample the chemical measurements; and the spectroscopic analyses to clarify the hypothesized investigations and confirm the chemical composition of the inks. In particular; Attenuated Total Reflectance-Fourier Transform Infrared (ATR-FTIR) spectroscopy has provided information relating to the molecular composition of inks and pigments; while a characterization of the constituent elements is obtained with the Ion Beam Analysis (IBA). The ink composition proved to be consistent with data generally documented in the literature and contributing to the expansion of knowledge on Ethiopian magic scrolls and their production.

Published

2023

8. Mapping with Macro X-ray Fluorescence Scanning of Raffaello’s Portrait of Leo X

Author

Anna Mazzinghi, Chiara Ruberto, Lorenzo Giuntini, Pier Andrea Mandò, Francesco Taccetti, and Lisa Castelli

Subjects

MA-XRF, heritage science, non-invasive analysis, portable equipment, pigment identification, Raffaello, Archaeology, CC1-960

Abstract

Raffaello is renowned as one of the Old Renaissance Masters and his paintings and painting technique are famous for the details and naturality of the characters. Raffaello is famous in particular for the then-new technique of oil painting, which he mastered and perfected. On the occasion of the 500th anniversary of the death of Raffaello (2020), there was a large exhibition at the Scuderie del Quirinale in Rome, where many paintings and drawings by the Old Master were on show. One of these paintings was the portrait of Leo X with two cardinals belonging to the collection of the Uffizi galleries in Florence. Before going to Rome, the painting underwent conservation treatments at the Opificio delle Pietre Dure, where a comprehensive diagnostic campaign was carried out with the aim of understanding the painting materials and technique of the Old Master. In this paper, the results of macro X-ray fluorescence (MA-XRF) analysis, carried out exploiting the instrument developed by INFN-CHNet, are shown. Among the results, “bismuth black” and the likely use of glass powders in lakes are discussed.

Published

2022

9. Tubular cell polyploidy protects from lethal acute kidney injury but promotes consequent chronic kidney disease

Author

Letizia De Chiara, Carolina Conte, Roberto Semeraro, Paula Diaz-Bulnes, Maria Lucia Angelotti, Benedetta Mazzinghi, Alice Molli, Giulia Antonelli, Samuela Landini, Maria Elena Melica, Anna Julie Peired, Laura Maggi, Marta Donati, Gilda La Regina, Marco Allinovi, Fiammetta Ravaglia, Daniele Guasti, Daniele Bani, Luigi Cirillo, Francesca Becherucci, Francesco Guzzi, Alberto Magi, Francesco Annunziato, Laura Lasagni, Hans-Joachim Anders, Elena Lazzeri, and Paola Romagnani

Subjects

Science

Abstract

Acute kidney injury is frequent, often fatal and can leave survivors with chronic kidney disease. Here the authors show that tubular cell polyploidy reduces early fatality sustaining residual function but promotes chronic kidney disease, which can be prevented by blocking YAP1

Published

2022

10. Preparation of Human Kidney Progenitor Cultures and Their Differentiation into Podocytes

Author

Maria Elena Melica, Maria Lucia Angelotti, Giulia Antonelli, Anna Peired, Carolina Conte, Letizia De Chiara, Benedetta Mazzinghi, Elena Lazzeri, Laura Lasagni, and Paola Romagnani

Subjects

Biology (General), QH301-705.5

Abstract

Kidney diseases are a global health concern. Modeling of kidney disease for translational research is often challenging because of species specificities or the postmitotic status of kidney epithelial cells that make primary cultures, for example podocytes. Here, we report a protocol for preparing primary cultures of podocytes based on the isolation and in vitro propagation of immature kidney progenitor cells subsequently differentiated into mature podocytes. This protocol can be useful for studying physiology and pathophysiology of human kidney progenitors and to obtain differentiated podocytes for modeling podocytopathies and other kidney disorders involving podocytes.Graphical overview

Published

2023

11. The Importance of Preventive Analysis in Heritage Science: MA-XRF Supporting the Restoration of Madonna with Child by Mantegna

Author

Anna Mazzinghi, Lisa Castelli, Francesca Giambi, Chiara Ruberto, Leandro Sottili, Francesco Taccetti, and Lorenzo Giuntini

Subjects

MA-XRF, heritage science, non-invasive analysis, portable equipment, pigment identification, Mantegna, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The Madonna with Child by Andrea Mantegna owned by the Museo Poldi Pezzoli in Milan is painted on canvas with an unusual distemper technique. During the period of 1863–1865, the painting was restored by Giuseppe Molteni. The identification of potential retouchings by Molteni, possibly covering part of the original layer, was the object of this work carried at the Opificio delle Pietre Dure. To evaluate the extent of both Molteni’s intervention and Mantegna’s original layer, the MA-XRF spectrometer developed by CHNet-INFN was used to discriminate between the two paint layers and identify the materials and the extension of both “artists”. Indeed, the elemental maps showed that Molteni’s work entirely covered the mantle of the Virgin, even changing the fold of the draperies and enriching the red robe with shell gold highlights, giving a different appearance to the painting. Moreover, MA-XRF also revealed that the original Mantegna was still mostly intact underneath Molteni’s layer, thereby providing a decisive guide for conservation works. These results indeed formed the basis for the technical decision to remove the varnish and Molteni’s version, unveiling the original Mantegna. A second MA-XRF campaign was then carried out to fully characterise the materials of this unusual painting technique.

Published

2023

12. 2-Dipoles Circularly-Polarized Antenna Integrated in Lamp Holder for Fixed RFID Reader

Author

Agnese Mazzinghi and Angelo Freni

Subjects

UHF-RFID reader, circular polarization, antenna, lamp, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The paper presents a solution to integrate a circularly polarized antenna in a tracklight housing that contains both a lamp and a UHF-RFID reader. The antenna is located outside the tracklight housing since the cylindrical lamp holder is metallic and small in terms of wavelength, and there is no space enough inside it. Furthermore, the antenna does not interact with the lamp, so no specific lamp is required. The solution makes use of a standard print-circuit-board fabrication technique combined with a low-cost metal sheet cavity, that can be also drilled for aesthetical reasons. An antenna prototype has been designed for the North America market. The measurements showed a reflection coefficient less than -15dB and a gain greater than 6dBi in the band of interest (902-928 MHz).

Published

2020

13. Towards Space Deployment of the NDSA Concept for Tropospheric Water Vapour Measurements

Author

Luca Facheris, Andrea Antonini, Fabrizio Argenti, Flavio Barbara, Ugo Cortesi, Fabrizio Cuccoli, Samuele Del Bianco, Federico Dogo, Arjan Feta, Marco Gai, Anna Gregorio, Giovanni Macelloni, Agnese Mazzinghi, Samantha Melani, Francesco Montomoli, Alberto Ortolani, Luca Rovai, Luca Severin, and Tiziana Scopa

Subjects

tropospheric water vapour, total column and vertical profile, active microwave sounding, Normalised Differential Spectral Attenuation, assimilation methods, Meteorology. Climatology, QC851-999

Abstract

A novel measurement concept specifically tuned to monitoring tropospheric water vapour’s vertical distribution has been demonstrated on a theoretical basis and is currently under development for space deployment. The NDSA (Normalised Differential Spectral Attenuation) technique derives the integrated water vapour (IWV) along the radio link between a transmitter and a receiver carried by two LEO satellites, using the linear correlation between the IWV and a parameter called spectral sensitivity. This is the normalised incremental ratio of the spectral attenuation at two frequencies in the Ku and K bands, with the slope of the water vapour absorption line at 22.235 GHz. Vertical profiles of WV can be retrieved by inverting a set of IWV measurements acquired in limb geometry at different tangent altitudes. This paper provides a comprehensive insight into the NDSA approach for sounding lower tropospheric WV, from the theoretical investigations in previous ESA studies, to the first experimental developments and testing, and to the latest advancements achieved with the SATCROSS project of the Italian Space Agency. The focus is on the new results from SATCROSS activities; primarily, on the upgrading of the instrument prototype, with improved performance in terms of its power stability and the time resolution of the measurements. Special emphasis is also placed on discussing tomographic inversion methods capable of retrieving tropospheric WV content from IWV measurements, i.e., the least squares and the external reconstruction approaches, showing results with different spatial features when applied to a given atmospheric scenario. The ultimate goal of deploying the NDSA measurement technique from space is thoroughly examined and conclusions are drawn after presenting the results of an Observing System Simulation Experiment conducted to assess the impact of NDSA data assimilation on environmental model simulations.

Published

2023

14. The Role of PIXE and XRF in Heritage Science: The INFN-CHNet LABEC Experience

Author

Leandro Sottili, Lorenzo Giuntini, Anna Mazzinghi, Mirko Massi, Luca Carraresi, Lisa Castelli, Caroline Czelusniak, Francesca Giambi, Pier Andrea Mandò, Marco Manetti, Chiara Ruberto, Laura Guidorzi, Alessandro Re, Alessandro Lo Giudice, Rodrigo Torres, Francesco Arneodo, Simi Maria Emilia Mangani, Silvia Calusi, and Francesco Taccetti

Subjects

PIXE, MA-XRF, IBA, material analysis, heritage science, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Analytical techniques play a fundamental role in heritage science. Among them, Particle Induced X-ray Emission (PIXE) and X-ray Fluorescence (XRF) techniques are widely used in many laboratories for elemental composition analysis. Although they are well-established, a strong effort is put on their upgrade, making them suitable for more and more applications. Over the years, at the INFN-LABEC (the laboratory of nuclear techniques for the environment and cultural heritage of the Italian National Institute of Nuclear Physics), the INFN-CHNet group, the network devoted to cultural heritage, has carried out many technological improvements to the PIXE and XRF set-ups for the analysis of works of art and archaeological finds. Among the many, we recall here the scanning external microbeam facility at the TANDEM accelerator and the MA-XRF scanner. The two instruments have shown complementary features: the former permits quantitative analysis of elements heavier than sodium, which is not possible with the latter in most of the case studies. On the contrary, the scanner has the undeniable advantage of portability, allowing it to work in situ. In this framework of technological developments in heritage science, INFN, CERN, and OPD are jointly carrying on the MACHINA (Movable Accelerator for Cultural Heritage In-situ Non-destructive Analysis) project for on-site Ion Beam Analysis (IBA) studies on cultural heritage.

Published

2022

15. Tomographic Inversion Methods for Retrieving the Tropospheric Water Vapor Content Based on the NDSA Measurement Approach

Author

Agnese Mazzinghi, Fabrizio Cuccoli, Fabrizio Argenti, Arjan Feta, and Luca Facheris

Subjects

tropospheric water vapor, LEO satellites, tomographic inversion methods, Science

Abstract

In this paper, we deal with the problem of retrieving maps of tropospheric Water Vapor (WV) concentration by means of a set of Low Earth Orbit (LEO) satellites orbiting in the same plane and along the same direction. It is assumed that a number of microwave links is deployed between a group of satellites with microwave transmitters onboard and another group with receivers. It is also assumed that the Normalized Differential Spectral Absorption (NDSA) approach is used to provide time series of Integrated Water Vapor (IWV) along each link. The set of links scans an annular region belonging to the orbital plane of the LEO satellites, so that the time series of the IWV measurements can be exploited to retrieve the WV concentration in such a region. This is a typical tomographic inversion problem. The geometry of the acquisition system and the path-integrated nature of measurements well fit the application of the Exterior Reconstruction Tomographic Algorithm (ERTA), which was proposed several decades ago in contexts different from remote sensing. In this paper, we investigate the potential of ERTA for the WV retrieval and compare its performance with that of a least square inversion approach already presented in the literature. The compared analysis has been carried out through simulations that have highlighted the peculiarities and retrieval capabilities of the two tomographic methods, as well as the impact of the richness of the satellite constellation on the overall performance.

Published

2022

16. Endocycle-related tubular cell hypertrophy and progenitor proliferation recover renal function after acute kidney injury

Author

Elena Lazzeri, Maria Lucia Angelotti, Anna Peired, Carolina Conte, Julian A. Marschner, Laura Maggi, Benedetta Mazzinghi, Duccio Lombardi, Maria Elena Melica, Sara Nardi, Elisa Ronconi, Alessandro Sisti, Giulia Antonelli, Francesca Becherucci, Letizia De Chiara, Ricardo Romero Guevara, Alexa Burger, Beat Schaefer, Francesco Annunziato, Hans-Joachim Anders, Laura Lasagni, and Paola Romagnani

Subjects

Science

Abstract

The recovery of function upon acute kidney injury is thought to involve tubular cell dedifferentiation and proliferation. Here the authors show that Pax2+ progenitors regenerate tubules via cell division while other tubular cells support function recovery by undergoing hypertrophy through endoreplication.

Published

2018

17. MA-XRF for the Characterisation of the Painting Materials and Technique of the Entombment of Christ by Rogier van der Weyden

Author

Anna Mazzinghi, Chiara Ruberto, Lisa Castelli, Caroline Czelusniak, Lorenzo Giuntini, Pier Andrea Mandò, and Francesco Taccetti

Subjects

MA-XRF, heritage science, non-invasive analysis, portable equipment, pigment identification, van der Weyden, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

At present, macro X-ray fluorescence (MA-XRF) is one of the most essential analytical methods exploited by heritage science. By providing spatial distribution elemental maps, not only does it allow for material characterisation but also to understand, or at least to have a likely idea of, the production techniques of an analysed object. INFN-CHNet, the Cultural Heritage Network of the Italian National Institute of Nuclear Physics, designed and developed a MA-XRF scanner aiming to be a lightweight, easy to transport piece of equipment for use in in situ measurements. In this study, the INFN-CHNet MA-XRF scanner was employed for the analysis of a painting by the Flemish artist Rogier van der Weyden. The painting belongs to the collection of the Uffizi gallery in Florence and was analysed during conservation treatments at the Opificio delle Pietre Dure, one of the main conservation centres in Italy. The research aims were to characterise the materials employed by the artist and to possibly understand his painting technique. Although MA-XRF alone cannot provide a comprehensive characterisation, it nonetheless proved to be an invaluable tool for providing an initial overview or hypothesis of the painting materials and techniques used.

Published

2021

18. Detectors and Cultural Heritage: The INFN-CHNet Experience

Author

Lorenzo Giuntini, Lisa Castelli, Mirko Massi, Mariaelena Fedi, Caroline Czelusniak, Nicla Gelli, Lucia Liccioli, Francesca Giambi, Chiara Ruberto, Anna Mazzinghi, Serena Barone, Francesca Marchegiani, Stefano Nisi, Carmine Lubritto, Simona Altieri, Luca Tortora, Paolo Branchini, Andrea Fabbri, Valerio Graziani, Sergio Barcellos Lins, Laura Guidorzi, Alessandro Lo Giudice, Alessandro Re, Leandro Sottili, Antonella Balerna, Mariangela Cestelli Guidi, Lucilla Pronti, Martina Romani, Fauzia Albertin, Matteo Bettuzzi, Rosa Brancaccio, Maria Pia Morigi, Daniele Alloni, Andrea Salvini, Barbara Smilgys, Michele Prata, Saverio Altieri, Maurizio Bonesini, Daniela Di Martino, Massimiliano Clemenza, Massimo Carpinelli, Piernicola Oliva, Valeria Sipala, Anna Maria Gueli, Stefania Pasquale, Giuseppe Stella, Giancarlo Pepponi, Francesco Grazzi, and Francesco Taccetti

Subjects

X-ray detectors, gamma-ray detectors, photon-counting detectors, particle detectors, neutron detectors, detectors for mass spectrometry, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Detectors are a key feature of the contemporary scientific approach to cultural heritage (CH), both for diagnostics and conservation. INFN-CHNet is the network of the Italian National Institute of Nuclear Physics that develops and applies new instrumentation for the study of CH. This process results in both optimized traditional state-of-the-art and highly innovative detection setups for spectrometric techniques. Examples of the former are X-rays, gamma-rays, visible-light and particles spectrometers tailored for CH applications, with optimized performances, reliability, weight, transportability, cost, absorbed power, and complementarity with other techniques. Regarding the latter, examples are ARDESIA, the array of detectors at the DAΦNE-Light facility, the MAXRS detection setup at the Riken-RAL muon beamline and the imaging facilities at the LENA Laboratory. Paths for next-generation instruments have been suggested, as in the case of the X-ray Superconductive Detectors and X-ray Microcalorimeter Spectrometers, allowing astonishing improvement in energy resolution. Many issues in CH can now be addressed thanks to scientific techniques exploiting the existing detectors, while many others are still to be addressed and require the development of new approaches and detectors.

Published

2021

19. The Importance of Being Versatile: INFN-CHNet MA-XRF Scanner on Furniture at the CCR 'La Venaria Reale'

Author

Leandro Sottili, Laura Guidorzi, Anna Mazzinghi, Chiara Ruberto, Lisa Castelli, Caroline Czelusniak, Lorenzo Giuntini, Mirko Massi, Francesco Taccetti, Marco Nervo, Stefania De Blasi, Rodrigo Torres, Francesco Arneodo, Alessandro Re, and Alessandro Lo Giudice

Subjects

MA-XRF, conservation studies, furniture, Pietro Piffetti, chinoiserie lacquered cabinet, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

At present, the use of non-destructive, non-invasive X-ray-based techniques is well established in heritage science for the analysis and conservation of works of art. X-ray fluorescence (XRF) plays a fundamental role since it provides information on the elemental composition, contributing to the identification of the materials present on the superficial layers of an artwork. Whenever XRF is combined with the capability of scanning an area to provide the elemental distribution on a surface, the technique is referred to as macro X-ray fluorescence (MA-XRF). The heritage science field, in which the technique is extensively applied, presents a large variety of case studies. Typical examples are paintings, ceramics, metallic objects and manuscripts. This work presents an uncommon application of MA-XRF analysis to furniture. Measurements have been carried out with the MA-XRF scanner of the INFN-CHNet collaboration at the Centro di Conservazione e Restauro “La Venaria Reale”, a leading conservation centre in the field. In particular, a chinoiserie lacquered cabinet of the 18th century and a desk by Pietro Piffetti (1701–1777) have been analysed with a focus on the characterisation of decorative layers and different materials (e.g., gilding in the former and ivory in the latter). The measurements have been carried out using a telemeter for non-planar surfaces, and with collimators of 0.8 mm and 0.4 mm diameter, depending on the spatial resolution needed. The combination of the small measuring head with the use of the telemeter and of a small collimator has guaranteed the ability to scan difficult-to-reach areas with high spatial resolution in a reasonable time (20 × 10 mm2 with 0.2 mm step in less than 20 min).

Published

2021

20. The Choir Books of San Giorgio Maggiore in Venice: Results of in Depth Non-Invasive Analyses

Author

Paola Ricciardi, Anna Mazzinghi, Stefano Legnaioli, Chiara Ruberto, and Lisa Castelli

Subjects

15th-century illuminated manuscripts, smalt, bismuth ink, non-invasive analyses, Raman spectroscopy, XRF mapping, UV-vis-NIR reflectance spectroscopy, Archaeology, CC1-960

Abstract

This paper discusses a cross-disciplinary, international collaboration aimed at researching a series of 15th century choir books at the abbey of San Giorgio Maggiore on the homonymous island in Venice. Produced for the abbey itself, the books have never left the island during their 500-year history, thereby allowing a unique opportunity to analyse historic artefacts, which have undergone little modification over time. Prompted by ongoing cataloguing work on the manuscripts, a week-long analytical campaign using a combination of non-invasive analytical methods used in portable configuration allowed the comprehensive characterisation of ten volumes. The manuscripts’ palette and painting techniques were analysed using near-infrared imaging, reflectance spectroscopy in the UV-vis-NIR range, Raman spectroscopy, X-ray fluorescence mapping and digital microscopy. The paper will discuss the challenges linked to the fragility and the large dimensions of the volumes as well as the most interesting results of the investigation. These include the detection of unusual painting materials such as bismuth ink, as well as the discovery of a less homogeneous palette than originally expected, which prompted a partial revision of the attribution of the decoration in one of the volumes to a single artist.

Published

2019

21. Podocyte Regeneration Driven by Renal Progenitors Determines Glomerular Disease Remission and Can Be Pharmacologically Enhanced

Author

Laura Lasagni, Maria Lucia Angelotti, Elisa Ronconi, Duccio Lombardi, Sara Nardi, Anna Peired, Francesca Becherucci, Benedetta Mazzinghi, Alessandro Sisti, Simone Romoli, Alexa Burger, Beat Schaefer, Annamaria Buccoliero, Elena Lazzeri, and Paola Romagnani

Subjects

Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Podocyte loss is a general mechanism of glomerular dysfunction that initiates and drives the progression of chronic kidney disease, which affects 10% of the world population. Here, we evaluate whether the regenerative response to podocyte injury influences chronic kidney disease outcome. In models of focal segmental glomerulosclerosis performed in inducible transgenic mice where podocytes are tagged, remission or progression of disease was determined by the amount of regenerated podocytes. When the same model was established in inducible transgenic mice where renal progenitors are tagged, the disease remitted if renal progenitors successfully differentiated into podocytes, while it persisted if differentiation was ineffective, resulting in glomerulosclerosis. Treatment with BIO, a GSK3s inhibitor, significantly increased disease remission by enhancing renal progenitor sensitivity to the differentiation effect of endogenous retinoic acid. These results establish renal progenitors as critical determinants of glomerular disease outcome and a pharmacological enhancement of their differentiation as a possible therapeutic strategy.

Published

2015