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5. Co-administration of H-ferritin-doxorubicin and Trastuzumab in neoadjuvant setting improves efficacy and prevents cardiotoxicity in HER2 + murine breast cancer model

Author

Andreata, F, Bonizzi, A, Sevieri, M, Truffi, M, Monieri, M, Sitia, L, Silva, F, Sorrentino, L, Allevi, R, Zerbi, P, Marchini, B, Longhi, E, Ottria, R, Casati, S, Vanna, R, Morasso, C, Bellini, M, Prosperi, D, Corsi, F, Mazzucchelli, S, Andreata F., Bonizzi A., Sevieri M., Truffi M., Monieri M., Sitia L., Silva F., Sorrentino L., Allevi R., Zerbi P., Marchini B., Longhi E., Ottria R., Casati S., Vanna R., Morasso C., Bellini M., Prosperi D., Corsi F., Mazzucchelli S., Andreata, F, Bonizzi, A, Sevieri, M, Truffi, M, Monieri, M, Sitia, L, Silva, F, Sorrentino, L, Allevi, R, Zerbi, P, Marchini, B, Longhi, E, Ottria, R, Casati, S, Vanna, R, Morasso, C, Bellini, M, Prosperi, D, Corsi, F, Mazzucchelli, S, Andreata F., Bonizzi A., Sevieri M., Truffi M., Monieri M., Sitia L., Silva F., Sorrentino L., Allevi R., Zerbi P., Marchini B., Longhi E., Ottria R., Casati S., Vanna R., Morasso C., Bellini M., Prosperi D., Corsi F., and Mazzucchelli S.

Abstract

Neoadjuvant chemotherapy has been established as the standard of care for HER2-positive breast cancer since it allows cancer down-staging, up to pathological complete response. The standard of care in the neoadjuvant setting for HER2-positive breast cancer is a combination of highly cytotoxic drugs such as anthracyclines and the anti-HER2 monoclonal antibody. Despite this cocktail allows a pathological complete response in up to 50%, their co-administration is strongly limited by intrinsic cardiotoxicity. Therefore, only a sequential administration of anthracyclines and the anti-HER2 treatment is allowed. Here, we propose the anthracycline formulation in H-Ferritin nanocages as promising candidate to solve this unmet clinical need, thanks to its capability to increase anthracyclines efficacy while reducing their cardiotoxicity. Treating a murine model of HER2-positive breast cancer with co-administration of Trastuzumab and H-Ferritin anthracycline nanoformulation, we demonstrate an improved tumor penetration of drugs, leading to increased anticancer efficacy and reduced of cardiotoxicity.

Published
2020

9. Comparability of Raman Spectroscopic Configurations: A Large Scale Cross-Laboratory Study

Author

Guo, S. Beleites, C. Neugebauer, U. Abalde-Cela, S. Afseth, N.K. Alsamad, F. Anand, S. Araujo-Andrade, C. Aškrabić, S. Avci, E. Baia, M. Baranska, M. Baria, E. Batista De Carvalho, L.A.E. De Bettignies, P. Bonifacio, A. Bonnier, F. Brauchle, E.M. Byrne, H.J. Chourpa, I. Cicchi, R. Cuisinier, F. Culha, M. Dahms, M. David, C. Duponchel, L. Duraipandian, S. El-Mashtoly, S.F. Ellis, D.I. Eppe, G. Falgayrac, G. Gamulin, O. Gardner, B. Gardner, P. Gerwert, K. Giamarellos-Bourboulis, E.J. Gizurarson, S. Gnyba, M. Goodacre, R. Grysan, P. Guntinas-Lichius, O. Helgadottir, H. Grošev, V.M. Kendall, C. Kiselev, R. Kölbach, M. Krafft, C. Krishnamoorthy, S. Kubryck, P. Lendl, B. Loza-Alvarez, P. Lyng, F.M. Machill, S. Malherbe, C. Marro, M. Marques, M.P.M. Matuszyk, E. Morasso, C.F. Moreau, M. Muhamadali, H. Mussi, V. Notingher, I. Pacia, M.Z. Pavone, F.S. Penel, G. Petersen, D. Piot, O. Rau, J.V. Richter, M. Rybarczyk, M.K. Salehi, H. Schenke-Layland, K. Schlücker, S. Schosserer, M. Schütze, K. Sergo, V. Sinjab, F. Smulko, J. Sockalingum, G.D. Stiebing, C. Stone, N. Untereiner, V. Vanna, R. Wieland, K. Popp, J. Bocklitz, T.

Abstract

The variable configuration of Raman spectroscopic platforms is one of the major obstacles in establishing Raman spectroscopy as a valuable physicochemical method within real-world scenarios such as clinical diagnostics. For such real world applications like diagnostic classification, the models should ideally be usable to predict data from different setups. Whether it is done by training a rugged model with data from many setups or by a primary-replica strategy where models are developed on a 'primary' setup and the test data are generated on 'replicate' setups, this is only possible if the Raman spectra from different setups are consistent, reproducible, and comparable. However, Raman spectra can be highly sensitive to the measurement conditions, and they change from setup to setup even if the same samples are measured. Although increasingly recognized as an issue, the dependence of the Raman spectra on the instrumental configuration is far from being fully understood and great effort is needed to address the resulting spectral variations and to correct for them. To make the severity of the situation clear, we present a round robin experiment investigating the comparability of 35 Raman spectroscopic devices with different configurations in 15 institutes within seven European countries from the COST (European Cooperation in Science and Technology) action Raman4clinics. The experiment was developed in a fashion that allows various instrumental configurations ranging from highly confocal setups to fibre-optic based systems with different excitation wavelengths. We illustrate the spectral variations caused by the instrumental configurations from the perspectives of peak shifts, intensity variations, peak widths, and noise levels. We conclude this contribution with recommendations that may help to improve the inter-laboratory studies. © 2020 American Chemical Society.

Published
2020

14. Detection and Characterization of Different Brain-Derived Subpopulations of Plasma Exosomes by Surface Plasmon Resonance Imaging

Author

Picciolini, S, Gualerzi, A, Vanna, R, Sguassero, A, Gramatica, F, Bedoni, M, Masserini, M, Morasso, C, Picciolini, S, Gualerzi, A, Vanna, R, Sguassero, A, Gramatica, F, Bedoni, M, Masserini, M, and Morasso, C

Abstract

The use of exosomes for diagnostic and disease monitoring purposes is becoming particularly appealing in biomedical research because of the possibility to study directly in biological fluids some of the features related to the organs from which exosomes originate. A paradigmatic example are brain-derived exosomes that can be found in plasma and used as a direct read-out of the status of the central nervous system (CNS). Inspired by recent remarkable development of plasmonic biosensors, we have designed a surface plasmon resonance imaging (SPRi) assay that, taking advantage of the fact that exosome size perfectly fits within the surface plasmon wave depth, allows the detection of multiple exosome subpopulations of neural origin directly in blood. By use of an array of antibodies, exosomes derived from neurons and oligodendrocytes were isolated and detected with good sensitivity. Subsequently, by injecting a second antibody on the immobilized vesicles, we were able to quantify the amount of CD81 and GM1, membrane components of exosomes, on each subpopulation. In this way, we have been able to demonstrate that they are not homogeneously expressed but exhibit a variable abundance according to the exosome cellular origin. These results confirm the extreme variability of exosome composition and demonstrate how SPRi can provide an effective tool for their characterization. Besides, our work paves the road toward more precise clinical studies on the use of exosomes as potential biomarkers of neurodegenerative diseases.

Published
2018

15. Raman spectroscopy uncovers biochemical tissue-related features of extracellular vesicles from mesenchymal stromal cells

Author

Gualerzi, A, Niada, S, Giannasi, C, Picciolini, S, Morasso, C, Vanna, R, Rossella, V, Masserini, M, Bedoni, M, Ciceri, F, Bernardo, M, Brini, A, Gramatica, F, Gualerzi, Alice, Niada, Stefania, Giannasi, Chiara, Picciolini, Silvia, Morasso, Carlo, Vanna, Renzo, Rossella, Valeria, Masserini, Massimo, Bedoni, Marzia, Ciceri, Fabio, Bernardo, Maria Ester, Brini, Anna Teresa, Gramatica, Furio, Gualerzi, A, Niada, S, Giannasi, C, Picciolini, S, Morasso, C, Vanna, R, Rossella, V, Masserini, M, Bedoni, M, Ciceri, F, Bernardo, M, Brini, A, Gramatica, F, Gualerzi, Alice, Niada, Stefania, Giannasi, Chiara, Picciolini, Silvia, Morasso, Carlo, Vanna, Renzo, Rossella, Valeria, Masserini, Massimo, Bedoni, Marzia, Ciceri, Fabio, Bernardo, Maria Ester, Brini, Anna Teresa, and Gramatica, Furio

Abstract

Extracellular vesicles (EVs) from mesenchymal stromal cells (MSC) are emerging as valuable therapeutic agents for tissue regeneration and immunomodulation, but their clinical applications have so far been limited by the technical restraints of current isolation and characterisation procedures. This study shows for the first time the successful application of Raman spectroscopy as label-free, sensitive and reproducible means of carrying out the routine bulk characterisation of MSC-derived vesicles before their use in vitro or in vivo, thus promoting the translation of EV research to clinical practice. The Raman spectra of the EVs of bone marrow and adipose tissue-derived MSCs were compared with human dermal fibroblast EVs in order to demonstrate the ability of the method to distinguish the vesicles of the three cytotypes automatically with an accuracy of 93.7%. Our data attribute a Raman fingerprint to EVs from undifferentiated and differentiated cells of diverse tissue origin, and provide insights into the biochemical characteristics of EVs from different sources and into the differential contribution of sphingomyelin, gangliosides and phosphatidilcholine to the Raman spectra themselves

Published
2017

16. H-Ferritin Enriches the Curcumin Uptake and Improves the Therapeutic Efficacy in Triple Negative Breast Cancer Cells

Author

Pandolfi, L, Bellini, M, Vanna, R, Morasso, C, Zago, A, Carcano, S, Avvakumova, S, Bertolini, J, Rizzuto, M, Colombo, M, Prosperi, D, Pandolfi, Laura, Bellini, Michela, Vanna, Renzo, Morasso, Carlo, Zago, Andrea, Carcano, Sofia, Avvakumova, Svetlana, Bertolini, Jessica Armida, Rizzuto, Maria Antonietta, Colombo, Miriam, Prosperi, Davide, Pandolfi, L, Bellini, M, Vanna, R, Morasso, C, Zago, A, Carcano, S, Avvakumova, S, Bertolini, J, Rizzuto, M, Colombo, M, Prosperi, D, Pandolfi, Laura, Bellini, Michela, Vanna, Renzo, Morasso, Carlo, Zago, Andrea, Carcano, Sofia, Avvakumova, Svetlana, Bertolini, Jessica Armida, Rizzuto, Maria Antonietta, Colombo, Miriam, and Prosperi, Davide

Abstract

Triple negative breast cancer (TNBC) is a highly aggressive, invasive, and metastatic tumor. Although it is reported to be sensitive to cytotoxic chemotherapeutics, frequent relapse and chemoresistance often result in treatment failure. In this study, we developed a biomimetic nanodrug consisting of a self-assembling variant (HFn) of human apoferritin loaded with curcumin. HFn nanocage improved the solubility, chemical stability, and bioavailability of curcumin, allowing us to reliably carry out several experiments in the attempt to establish the potential of this molecule as a therapeutic agent and elucidate the mechanism of action in TNBC. HFn biopolymer was designed to bind selectively to the TfR1 receptor overexpressed in TNBC cells. HFn-curcumin (CFn) proved to be more effective in viability assays compared to the drug alone using MDA-MB-468 and MDA-MB-231 cell lines, representative of basal and claudin-low TNBC subtypes, respectively. Cellular uptake of CFn was demonstrated by flow cytometry and label-free confocal Raman imaging. CFn could act as a chemosensitizer enhancing the cytotoxic effect of doxorubicin by interfering with the activity of multidrug resistance transporters. In addition, CFn exhibited different cell cycle effects on these two TNBC cell lines, blocking MDA-MB-231 in G0/G1 phase, whereas MDA-MB-468 accumulated in G2/M phase. CFn was able to inhibit the Akt phosphorylation, suggesting that the effect on the proliferation and cell cycle involved the alteration of PI3K/Akt pathway.

Published
2017

18. Winter Pea Cultivar/Breeding Line Screening for Grain Crop Potential in the Southeastern United States

Author

Vanna, R. A., Reberg-Hortona, S. C., Castilloa, M. S., Mirskyb, S. B., and McGee, R. J.

Subjects
Crop yields -- Physiological aspects, Legumes -- Physiological aspects, Grain industry -- Physiological aspects, Monoculture -- Physiological aspects, Business, international
Abstract

Winter pea (Pisum sativum L.) is desirable for grain production in the southeastern United States to increase feed protein availability; however, there has not been any previous effort devoted to maximizing pea genetics for grain production in this region. Studies were conducted at six environments in North Carolina to assess pea grain potential. Nineteen pea cultivars/breeding lines were planted in monoculture and in mixture with three wheat (Triticum aestivum L.) cultivars of differing maturities. Pea cold tolerance, biomass production, disease incidence, maturity, lodging, and pea and wheat grain yield were assessed. The growth of only one pea cultivar/breeding line was severely inhibited by cold injury. Disease incidence was influenced by pea cultivars/breeding lines but not growth in monoculture or mixture with wheat. At the environments with heavy Sclerotinia pressure, grain yield of all pea cultivars/breeding lines was severely inhibited. All wheat cultivars reached physiological maturity prior to any pea cultivar/breeding line, and both species were harvested simultaneously using a combine with minimal difficulties. Pea yield was influenced by pea cultivar/breeding line but not growth in monoculture or mixture. Pea yield was greater with early maturing varieties. Pea grain yield potential across all pea cultivars/breeding lines was likely restricted by excessive heat during flowering. Many pea cultivars/breeding lines screened in this study out-yielded the current pea available in North Carolina. Results indicated that pea and wheat can be grown simultaneously and that regional pea cultivar recommendations will enhance pea grain yield in the southeastern United States., https://dl.sciencesocieties.org/publications/aj/abstracts/0/0/agronj2017.10.0594?access=0&view=article

Published
2018

20. Control of size and aspect ratio in hydroquinone-based synthesis of gold nanorods

Author

Morasso, C, Picciolini, S, Schiumarini, D, Mehn, D, Ojea Jiménez, I, Zanchetta, G, Vanna, R, Bedoni, M, Prosperi, D, Gramatica, F, PICCIOLINI, SILVIA, Gramatica, F., PROSPERI, DAVIDE, Morasso, C, Picciolini, S, Schiumarini, D, Mehn, D, Ojea Jiménez, I, Zanchetta, G, Vanna, R, Bedoni, M, Prosperi, D, Gramatica, F, PICCIOLINI, SILVIA, Gramatica, F., and PROSPERI, DAVIDE

Abstract

In this article, we describe how it is possible to tune the size and the aspect ratio of gold nanorods obtained using a highly efficient protocol based on the use of hydroquinone as a reducing agent by varying the amounts of CTAB and silver ions present in the “seed-growth” solution. Our approach not only allows us to prepare nanorods with a four times increased Au3+ reduction yield, when compared with the commonly used protocol based on ascorbic acid, but also allows a remarkable reduction of 50–60 % of the amount of CTAB needed. In fact, according to our findings, the concentration of CTAB present in the seed-growth solution do not linearly influence the final aspect ratio of the obtained nanorods, and an optimal concentration range between 30 and 50 mM has been identified as the one that is able to generate particles with more elongated shapes. On the optimized protocol, the effect of the concentration of Ag+ ions in the seed-growth solution and the stability of the obtained particles has also been investigated.

Published
2015

22. Label-free imaging and identification of typical cells of acute myeloid leukaemia and myelodysplastic syndrome by Raman microspectroscopy

Author

Vanna, R., primary, Ronchi, P., additional, Lenferink, A. T. M., additional, Tresoldi, C., additional, Morasso, C., additional, Mehn, D., additional, Bedoni, M., additional, Picciolini, S., additional, Terstappen, L. W. M. M., additional, Ciceri, F., additional, Otto, C., additional, and Gramatica, F., additional

Published
2015
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23. Polymer nanopillar-gold arrays as surface-enhanced Raman spectroscopy substrate for the simultaneous detection of multiple genes

Author

Picciolini, S, Mehn, D, Morasso, C, Vanna, R, Bedoni, M, Pellacani, P, Marchesini, G, Valsesia, A, Prosperi, D, Tresoldi, C, Ciceri, F, Gramatica, F, PICCIOLINI, SILVIA, Gramatica, F., PROSPERI, DAVIDE, Picciolini, S, Mehn, D, Morasso, C, Vanna, R, Bedoni, M, Pellacani, P, Marchesini, G, Valsesia, A, Prosperi, D, Tresoldi, C, Ciceri, F, Gramatica, F, PICCIOLINI, SILVIA, Gramatica, F., and PROSPERI, DAVIDE

Abstract

In our study, 2D nanopillar arrays with plasmonic crystal properties are optimized for surface-enhanced Raman spectroscopy (SERS) application and tested in a biochemical assay for the simultaneous detection of multiple genetic leukemia biomarkers. The special fabrication process combining soft lithography and plasma deposition techniques allows tailoring of the structural and chemical parameters of the crystal surfaces. In this way, it has been possible to tune the plasmonic resonance spectral position close to the excitation wavelength of the monochromatic laser light source in order to maximize the enhancing properties of the substrate. Samples are characterized by scanning electron microscopy and reflectance measurements and tested for SERS activity using malachite green. Besides, as the developed substrate had been prepared on a simple glass slide, SERS detection from the support side is also demonstrated. The optimized substrate is functionalized with thiol-modified capture oligonucleotides, and concentration-dependent signal of the target nucleotide is detected in a sandwich assay with labeled gold nanoparticles. Gold nanoparticles functionalized with different DNA and various Raman reporters are applied in a microarray-based assay recognizing a disease biomarker (Wilms tumor gene) and housekeeping gene expressions in the same time on spatially separated microspots. The multiplexing performance of the SERS-based bioassay is illustrated by distinguishing Raman dyes based on their complex spectral fingerprints.

Published
2014

24. Antiproliferative effect of ASC-J9 delivered by PLGA nanoparticles against estrogen-dependent breast cancer cells

Author

Verderio, P, Pandolfi, L, Mazzucchelli, S, Marinozzi, M, Vanna, R, Gramatica, F, Corsi, F, Colombo, M, Morasso, C, Prosperi, D, VERDERIO, PAOLO, PANDOLFI, LAURA, MAZZUCCHELLI, SERENA, COLOMBO, MIRIAM, PROSPERI, DAVIDE, Verderio, P, Pandolfi, L, Mazzucchelli, S, Marinozzi, M, Vanna, R, Gramatica, F, Corsi, F, Colombo, M, Morasso, C, Prosperi, D, VERDERIO, PAOLO, PANDOLFI, LAURA, MAZZUCCHELLI, SERENA, COLOMBO, MIRIAM, and PROSPERI, DAVIDE

Abstract

Among polymeric nanoparticles designed for cancer therapy, PLGA nanoparticles have become one of the most popular polymeric devices for chemotherapeutic-based nanoformulations against several kinds of malignant diseases. Promising properties, including long-circulation time, enhanced tumor localization, interference with "multidrug" resistance effects, and environmental biodegradability, often result in an improvement of the drug bioavailability and effectiveness. In the present work, we have synthesized 1,7-bis(3,4-dimethoxyphenyl)-5-hydroxyhepta-1,4,6-trien-3-one (ASC-J9) and developed uniform ASC-J9-loaded PLGA nanoparticles of about 120 nm, which have been prepared by a single-emulsion process. Structural and morphological features of the nanoformulation were analyzed, followed by an accurate evaluation of the in vitro drug release kinetics, which exhibited Fickian law diffusion over 10 days. The intracellular degradation of ASC-J9-bearing nanoparticles within estrogen-dependent MCF-7 breast cancer cells was correlated to a time- and dose-dependent activity of the released drug. A cellular growth inhibition associated with a specific cell cycle G2/M blocking effect caused by ASC-J9 release inside the cytosol allowed us to put forward a hypothesis on the action mechanism of this nanosystem, which led to the final cell apoptosis. Our study was accomplished using Annexin V-based cell death analysis, MTT assessment of proliferation, radical scavenging activity, and intracellular ROS evaluation. Moreover, the intracellular localization of nanoformulated ASC-J9 was confirmed by a Raman optical imaging experiment designed ad hoc. PLGA nanoparticles and ASC-J9 proved also to be safe for a healthy embryo fibroblast cell line (3T3-L1), suggesting a possible clinical translation of this potential nanochemotherapeutic to expand the inherently poor bioavailability of hydrophobic ASC-J9 that could be proposed for the treatment of malignant breast cancer. © 2014 American Chemi

Published
2014

25. One-step synthesis of star-like gold nanoparticles for surface enhanced Raman spectroscopy

Author

Marasso, C, Mehn, D, Vanna, R, Bedoni, M, Forvi, E, Colombo, M, Prosperi, D, Gramatica, F, Gramatica, F., COLOMBO, MIRIAM, PROSPERI, DAVIDE, Marasso, C, Mehn, D, Vanna, R, Bedoni, M, Forvi, E, Colombo, M, Prosperi, D, Gramatica, F, Gramatica, F., COLOMBO, MIRIAM, and PROSPERI, DAVIDE

Abstract

In this paper we present a new protocol for the synthesis of Star-Like Gold Nanoparticles (SGNs) by a simple one-step, room temperature procedure not involving the use of seeds or surfactants, that can be performed in seconds in any laboratory without the need of special technologies. These particles exhibited excellent properties for Surface Enhanced Raman Spectroscopy (SERS) and, when compared with spherical nanoparticles with similar size and concentration, showed enhancing factors from 10 to 50 times higher depending on the dye and on the wavelength employed. SGNs could be used directly in suspension as single, non-aggregating particles and were shown to be active in a remarkably broad range of the light spectrum from green to near infrared. Moreover, SGNs were adsorbed on the surface of a silicon slide to prepare SERS active solid substrate. Despite the fact that the surface of the solid substrate was not perfectly homogeneous, the signals recorded from different positions acquired through DuoScan averaging mode show excellent reproducibility, demonstrating how this simple and cheap protocol can be applied in order to generate reliable and homogeneous SERS substrates

Published
2014

27. Star-like gold nanoparticles as highly active substrate for surface enhanced Raman spectroscopy

Author

Morasso, C, Mehn, D, Vanna, R, Bedoni, M, Pascual García, C, Prosperi, D, Gramatica, F, Gramatica, F., PROSPERI, DAVIDE, Morasso, C, Mehn, D, Vanna, R, Bedoni, M, Pascual García, C, Prosperi, D, Gramatica, F, Gramatica, F., and PROSPERI, DAVIDE

Abstract

Surface Enhanced Raman Spectroscopy (SERS) is a popular method in bio-analytical chemistry and a potentially powerful enabling technology for in vitro diagnostics. SERS combines the excellent chemical specificity of Raman spectroscopy with the good sensitivity provided by enhancement of the signal that is observed when a molecule is located on (or very close to) the surface of nanostructured metallic materials. Star-like gold nanoparticles (SGN) are a new class of multibranched nanoparticles that in the last few years have attracted the attention of SERS community for their plasmonic properties. In this work we present a new method to prepare star-like gold nanoparticles with a simple one step protocol at room temperature using hydroquinone as reducing agent. Besides we compare the enhancement of Raman signal of malachite green, a dye commonly employed as label in biological studies, by star-like gold nanoparticles having different size, directly in liquid. This study shows that SGN provide good enhancement of Raman signal and that the effect of their dimension is strongly dependent on the wavelength used. Moreover preliminary results suggest that SGN produced using this method are characterized by good physical-chemical properties and they can be functionalized using the standard thiol chemistry. Overall, these results suggest that star-like gold nanoparticles produced through this method could be used for the further development of highly specific and sensitive SERS-based bio-analytical tests. © 2013 Copyright SPIE.

Published
2013

28. Immobilized gold nanostars in a paper based test system for Surface Enhanced Raman Spectroscopy

Author

Mehn, D, Morasso, C, Vanna, R, Bedoni, M, Prosperi, D, Gramatica, F, Gramatica, F., PROSPERI, DAVIDE, Mehn, D, Morasso, C, Vanna, R, Bedoni, M, Prosperi, D, Gramatica, F, Gramatica, F., and PROSPERI, DAVIDE

Abstract

Paper-based SERS active substrates were prepared adsorbing spherical and star-shaped gold nanoparticles on a standard filter paper support. Besides the deposition conditions, morphological parameters of the particles were found to strongly affect the enhancer properties of the substrates. The developed substrate was tested regarding surface homogeneity as well as in the quantitative analysis of malachite green, - a well documented Raman reporter dye - and proved to be capable also to detect the oxidation products of apomorphine, a well-known drug molecule used in Parkinson's disease. This material is simple to prepare, easy to handle and dispose and as such it could be a perfect target for further development of a new family of mass-produced, cheap solid SERS substrates. © 2013 Elsevier B.V.

Published
2013

33. Clinical Activity and Tolerability of Trazodone, Mianserin, and Amitriptyline in Elderly Subjects with Major Depression: A Controlled Multicenter Trial

Author

Altamura, A. C., primary, Mauri, M. C., additional, Rudas, N., additional, Carpiniello, B., additional, Montanini, R., additional, Perini, M., additional, Scapicchio, P. L., additional, Hadjchristos, C., additional, Carucci, G., additional, Minervini, M., additional, DʼAloise, A., additional, Malinconico, A., additional, Aguglia, E., additional, De Vanna, R., additional, and DʼAronco, R., additional

Published
1989
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34. Label-free multimodal nonlinear optical microscopy reveals features of bone composition in pathophysiological conditions

Author

Benedetta, Talone, Arianna, Bresci, Francesco, Manetti, Federico, Vernuccio, Alejandro, De la Cadena, Chiara, Ceconello, Maria Lucia, Schiavone, Stefano, Mantero, Ciro, Menale, Renzo, Vanna, Giulio, Cerullo, Cristina, Sobacchi, Dario, Polli, Talone, B., Bresci, A., Manetti, F., Vernuccio, F., De la Cadena, A., Ceconello, C., Schiavone, M. L., Mantero, S., Menale, C., Vanna, R., Cerullo, G., Sobacchi, C., and Polli, D.

Subjects
collagen, lipids, Histology, lipid, Biomedical Engineering, Bioengineering, multimodal imaging, stimulated Raman scattering, nonlinear microscopy, bone and marrow composition, Biotechnology
Abstract

Bone tissue features a complex microarchitecture and biomolecular composition, which determine biomechanical properties. In addition to state-of-the-art technologies, innovative optical approaches allowing the characterization of the bone in native, label-free conditions can provide new, multi-level insight into this inherently challenging tissue. Here, we exploited multimodal nonlinear optical (NLO) microscopy, including co-registered stimulated Raman scattering, two-photon excited fluorescence, and second-harmonic generation, to image entire vertebrae of murine spine sections. The quantitative nature of these nonlinear interactions allowed us to extract accurate biochemical, morphological, and topological information on the bone tissue and to highlight differences between normal and pathologic samples. Indeed, in a murine model showing bone loss, we observed increased collagen and lipid content as compared to the wild type, along with a decreased craniocaudal alignment of bone collagen fibres. We propose that NLO microscopy can be implemented in standard histopathological analysis of bone in preclinical studies, with the ambitious future perspective to introduce this technique in the clinical practice for the analysis of larger tissue sections.

Published
2022

35. Surface Enhanced Raman Spectroscopy for Quantitative Analysis: Results of a Large-Scale European Multi-Instrument Interlaboratory Study

Author

Fatima Alsamad, Pellegrino Musto, Jakub Dybas, Valérie Untereiner, Michael Stenbæk Schmidt, Fabrizio Giorgis, Elena Rusu, Howbeer Muhamadali, Maria Paula M. Marques, Alessandro Chiadò, Karen Faulds, Stefano Fornasaro, Guillaume Falgayrac, Hrvoje Gebavi, Duncan Graham, Malama Chisanga, Valter Sergo, Tomas Rindzevicius, Cédric Malherbe, Chiara Novara, Amuthachelvi Daniel, Ewelina Wiercigroch, Fiona M. Lyng, Alois Bonifacio, Lucio Litti, Stacey Laing, Monica Baia, Renzo Vanna, Olivier Piot, Carlo Morasso, Claudia Beleites, Elisa Mitri, Hugh J. Byrne, Moreno Meneghetti, Vlasta Mohaček-Grošev, Pietro La Manna, Gauthier Eppe, Ganesh D. Sockalingum, Kamilla Malek, Mihaela Chis, Luís A. E. Batista de Carvalho, Royston Goodacre, Guillaume Penel, Marianna Pannico, Fornasaro, S., Alsamad, F., Baia, M., Batista De Carvalho, L. A. E., Beleites, C., Byrne, H. J., Chiado, A., Chis, M., Chisanga, M., Daniel, A., Dybas, J., Eppe, G., Falgayrac, G., Faulds, K., Gebavi, H., Giorgis, F., Goodacre, R., Graham, D., La Manna, P., Laing, S., Litti, L., Lyng, F. M., Malek, K., Malherbe, C., Marques, M. P. M., Meneghetti, M., Mitri, E., Mohacek-Grosev, V., Morasso, C., Muhamadali, H., Musto, P., Novara, C., Pannico, M., Penel, G., Piot, O., Rindzevicius, T., Rusu, E. A., Schmidt, M. S., Sergo, V., Sockalingum, G. D., Untereiner, V., Vanna, R., Wiercigroch, E., and Bonifacio, A.

Subjects
Analyte, Standardization, Surface enhanced Raman, 010402 general chemistry, Physical Chemistry, 01 natural sciences, Article, SERS spectroscopy quantitative analysis Raman, Analytical Chemistry, Surface chemical, QD, Cost action, interlaboratory study, Analytic Chemistry, SERS, Chemistry, Scale (chemistry), 010401 analytical chemistry, Analytical technique, Surface-enhanced Raman spectroscopy, 0104 chemical sciences, Interdisciplinary Natural Sciences, Quantitative analysis (finance), Biochemical engineering, SERS, Raman, substrates, colloids, interlaboratory study
Abstract

Surface-enhanced Raman scattering (SERS) is a powerful and sensitive technique for the detection of fingerprint sig-nals of molecules and for the investigation of a series of surface chemical reactions. Many studies introduced quantita-tive applications of SERS in various fields and several SERS methods have been implemented for each specific applica- tion, ranging in performance characteristics, analytes used, instruments, and analytical matrices. In general, very few methods have been validated according to international guidelines. As a consequence, the application of SERS in high-ly- regulated environments is still considered risky and the perception of a poorly reproducible and insufficiently robust analytical technique has persistently retarded its routine implementation. Collaborative trials are a type of interlabora-tory study (ILS) frequently performed to ascertain the quality of a single analytical method. The idea of an ILS of quan- tification with SERS arose within the framework of Working Group 1 (WG1) of the COST Action BM1401 Ra-man4Clinics32 in an effort to overcome the problematic perception of quantitative SERS methods. Here we report the first interlaboratory SERS study ever conducted, involving 15 laboratories and 41 researchers. In this study we tried to define a methodology to assess the reproducibility and trueness of a quantitative SERS method, and to compare differ- ent methods. In our opinion, this is a first important step toward a “standardization” process of SERS protocols, not proposed by a single laboratory but by a larger community.

Published
2020
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36. Detection and Characterization of Different Brain-Derived Subpopulations of Plasma Exosomes by Surface Plasmon Resonance Imaging

Author

Silvia Picciolini, Carlo Morasso, Renzo Vanna, Furio Gramatica, Alice Gualerzi, Marzia Bedoni, Andrea Sguassero, Massimo Masserini, Picciolini, S, Gualerzi, A, Vanna, R, Sguassero, A, Gramatica, F, Bedoni, M, Masserini, M, and Morasso, C

Subjects
0301 basic medicine, Adult, Male, G(M1) Ganglioside, Exosomes, Exosome, Analytical Chemistry, Tetraspanin 28, 03 medical and health sciences, Plasma, 0302 clinical medicine, Surface plasmon resonance imaging, Humans, Plasmon, Neurons, Chemistry, Vesicle, Brain, Disease monitoring, Surface Plasmon Resonance, Microvesicles, Characterization (materials science), Oligodendroglia, 030104 developmental biology, Biophysics, Female, exosomes, surface plasmon resonance imaging, brain, neurodegenerative diseases, Biosensor, Antibodies, Immobilized, 030217 neurology & neurosurgery
Abstract

The use of exosomes for diagnostic and disease monitoring purposes is becoming particularly appealing in biomedical research because of the possibility to study directly in biological fluids some of the features related to the organs from which exosomes originate. A paradigmatic example are brain-derived exosomes that can be found in plasma and used as a direct read-out of the status of the central nervous system (CNS). Inspired by recent remarkable development of plasmonic biosensors, we have designed a surface plasmon resonance imaging (SPRi) assay that, taking advantage of the fact that exosome size perfectly fits within the surface plasmon wave depth, allows the detection of multiple exosome subpopulations of neural origin directly in blood. By use of an array of antibodies, exosomes derived from neurons and oligodendrocytes were isolated and detected with good sensitivity. Subsequently, by injecting a second antibody on the immobilized vesicles, we were able to quantify the amount of CD81 and GM1, membrane components of exosomes, on each subpopulation. In this way, we have been able to demonstrate that they are not homogeneously expressed but exhibit a variable abundance according to the exosome cellular origin. These results confirm the extreme variability of exosome composition and demonstrate how SPRi can provide an effective tool for their characterization. Besides, our work paves the road toward more precise clinical studies on the use of exosomes as potential biomarkers of neurodegenerative diseases.

Published
2018

37. A simple and universal enzyme-free approach for the detection of multiple microRNAs using a single nanostructured enhancer of surface plasmon resonance imaging

Author

Furio Gramatica, Álvaro Artiga, Roberta Mancuso, Andrea Sguassero, Simone Agostini, Rafael Martín Rapún, Carlo Morasso, Rafael Ramírez Jiménez, Alice Gualerzi, Silvia Picciolini, Arturs Abols, Renzo Vanna, Marzia Bedoni, Ambra Hernis, Aija Linē, Jesús M. de la Fuente, Marco Rovaris, Sguassero, A, Artiga, Á, Morasso, C, Jimenez, R, Rapún, R, Mancuso, R, Agostini, S, Hernis, A, Abols, A, Linē, A, Gualerzi, A, Picciolini, S, Bedoni, M, Rovaris, M, Gramatica, F, de la Fuente, J, Vanna, R, Ministero della Salute, European Commission, Ministerio de Educación, Cultura y Deporte (España), and Diputación General de Aragón

Subjects
Surface Properties, SPR, 02 engineering and technology, Computational biology, Ligands, 01 natural sciences, Biochemistry, Proof of Concept Study, Multiplexing, Analytical Chemistry, chemistry.chemical_compound, Nanoparticle, Limit of Detection, Lab-On-A-Chip Devices, Enhancer, miRNA, Detection limit, Chemistry, Enhancement, Hybridization probe, 010401 analytical chemistry, RNA, Nucleic Acid Hybridization, DNA, Surface Plasmon Resonance, 021001 nanoscience & nanotechnology, Ligand (biochemistry), 3. Good health, 0104 chemical sciences, Enzymes, MicroRNAs, Colloidal gold, Biotinylation, Microscopy, Electron, Scanning, Indicators and Reagents, Adsorption, 0210 nano-technology, Nanobiosensor
Abstract

Here we describe a simple approach for the simultaneous detection of multiple microRNAs (miRNAs) using a single nanostructured reagent as surface plasmon resonance imaging (SPRi) enhancer and without using enzymatic reactions, sequence specific enhancers or multiple enhancing steps as normally reported in similar studies. The strategy involves the preparation and optimisation of neutravidin-coated gold nanospheres (nGNSs) functionalised with a previously biotinylated antibody (Ab) against DNA/RNA hybrids. The Ab guarantees the recognition of any miRNA sequence adsorbed on a surface properly functionalised with different DNA probes; at the same time, gold nanoparticles permit to detect this interaction, thus producing enough SPRi signal even at a low ligand concentration. After a careful optimisation of the nanoenhancer and after its characterisation, the final assay allowed the simultaneous detection of four miRNAs with a limit of detection (LOD) of up to 0.5 pM (equal to 275 attomoles in 500 μL) by performing a single enhancing injection. The proposed strategy shows good signal specificity and permits to discriminate wild-type, single- and triple-mutated sequences much better than non-enhanced SPRi. Finally, the method works properly in complex samples (total RNA extracted from blood) as demonstrated by the detection of four miRNAs potentially related to multiple sclerosis used as case study. This proof-of-concept study confirms that the approach provides the possibility to detect a theoretically unlimited number of miRNAs using a simple protocol and an easily prepared enhancing reagent, and may further facilitate the development of affordable multiplexing miRNA screening for clinical purposes., Research funding was provided by the Italian Ministry of Health within the framework of the European EuroNanoMedII Project (Call 2015) entitled “NanoPlasmiRNA”; DGA-FSE (Diputación General de Aragón–Fondo Social Europeo); Ministerio de Educación, Cultura y Deportes of Spanish Government, FPU grant (FPU014/06249).

Published
2018

38. Antiproliferative Effect of ASC-J9 Delivered by PLGA Nanoparticles against Estrogen-Dependent Breast Cancer Cells

Author

Serena Mazzucchelli, Carlo Morasso, Renzo Vanna, Paolo Verderio, Davide Prosperi, Fabio Corsi, Furio Gramatica, Maria Rosaria Marinozzi, Miriam Colombo, Laura Pandolfi, Verderio, P, Pandolfi, L, Mazzucchelli, S, Marinozzi, M, Vanna, R, Gramatica, F, Corsi, F, Colombo, M, Morasso, C, and Prosperi, D

Subjects
Curcumin, Time Factors, Cell Survival, medicine.drug_class, ASC-J9, Pharmaceutical Science, Nanoparticle, Apoptosis, Biocompatible Materials, Breast Neoplasms, Pharmacology, chemotherapy, Spectrum Analysis, Raman, Plga nanoparticles, Mice, Drug Delivery Systems, Breast cancer, Polylactic Acid-Polyglycolic Acid Copolymer, breast cancer cell, 3T3-L1 Cells, Cell Line, Tumor, Drug Discovery, medicine, drug delivery system, Animals, Humans, Lactic Acid, Cell Proliferation, Dose-Response Relationship, Drug, Chemistry, Drug Discovery3003 Pharmaceutical Science, Estrogens, PLGA nanoparticle, Free Radical Scavengers, medicine.disease, Molecular medicine, In vitro, Bioavailability, Nanomedicine, Estrogen, MCF-7 Cells, Nanoparticles, Molecular Medicine, Female, Spectrophotometry, Ultraviolet, Reactive Oxygen Species, Polyglycolic Acid, Intracellular
Abstract

Among polymeric nanoparticles designed for cancer therapy, PLGA nanoparticles have become one of the most popular polymeric devices for chemotherapeutic-based nanoformulations against several kinds of malignant diseases. Promising properties, including long-circulation time, enhanced tumor localization, interference with "multidrug" resistance effects, and environmental biodegradability, often result in an improvement of the drug bioavailability and effectiveness. In the present work, we have synthesized 1,7-bis(3,4-dimethoxyphenyl)-5-hydroxyhepta-1,4,6-trien-3-one (ASC-J9) and developed uniform ASC-J9-loaded PLGA nanoparticles of about 120 nm, which have been prepared by a single-emulsion process. Structural and morphological features of the nanoformulation were analyzed, followed by an accurate evaluation of the in vitro drug release kinetics, which exhibited Fickian law diffusion over 10 days. The intracellular degradation of ASC-J9-bearing nanoparticles within estrogen-dependent MCF-7 breast cancer cells was correlated to a time- and dose-dependent activity of the released drug. A cellular growth inhibition associated with a specific cell cycle G2/M blocking effect caused by ASC-J9 release inside the cytosol allowed us to put forward a hypothesis on the action mechanism of this nanosystem, which led to the final cell apoptosis. Our study was accomplished using Annexin V-based cell death analysis, MTT assessment of proliferation, radical scavenging activity, and intracellular ROS evaluation. Moreover, the intracellular localization of nanoformulated ASC-J9 was confirmed by a Raman optical imaging experiment designed ad hoc. PLGA nanoparticles and ASC-J9 proved also to be safe for a healthy embryo fibroblast cell line (3T3-L1), suggesting a possible clinical translation of this potential nanochemotherapeutic to expand the inherently poor bioavailability of hydrophobic ASC-J9 that could be proposed for the treatment of malignant breast cancer. © 2014 American Chemical Society.

Published
2014
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39. Immobilised gold nanostars in a paper-based test system for surface-enhanced Raman spectroscopy

Author

Carlo Morasso, Davide Prosperi, Dora Mehn, Furio Gramatica, Renzo Vanna, Marzia Bedoni, Mehn, D, Morasso, C, Vanna, R, Bedoni, M, Prosperi, D, and Gramatica, F

Subjects
Materials science, Filter paper, SERS, biosensori, Nanotechnology, Paper based, bioanalitica, Surface-enhanced Raman spectroscopy, Drug molecule, BIO/10 - BIOCHIMICA, nanoparticelle, chemistry.chemical_compound, symbols.namesake, chemistry, Colloidal gold, symbols, Malachite green, Raman spectroscopy, Raman, Spectroscopy
Abstract

Paper-based SERS active substrates were prepared adsorbing spherical and star-shaped gold nanoparticles on a standard filter paper support. Besides the deposition conditions, morphological parameters of the particles were found to strongly affect the enhancer properties of the substrates. The developed substrate was tested regarding surface homogeneity as well as in the quantitative analysis of malachite green, - a well documented Raman reporter dye - and proved to be capable also to detect the oxidation products of apomorphine, a well-known drug molecule used in Parkinson's disease. This material is simple to prepare, easy to handle and dispose and as such it could be a perfect target for further development of a new family of mass-produced, cheap solid SERS substrates. © 2013 Elsevier B.V.

Published
2013
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40. Raman spectroscopy uncovers biochemical tissue-related features of extracellular vesicles from mesenchymal stromal cells

Author

C. Giannasi, Carlo Morasso, Furio Gramatica, Renzo Vanna, Marzia Bedoni, Massimo Masserini, Anna T. Brini, Stefania Niada, Fabio Ciceri, Alice Gualerzi, Valeria Rossella, Silvia Picciolini, Maria Ester Bernardo, Gualerzi, Alice, Niada, Stefania, Giannasi, Chiara, Picciolini, Silvia, Morasso, Carlo, Vanna, Renzo, Rossella, Valeria, Masserini, Massimo, Bedoni, Marzia, Ciceri, Fabio, Bernardo, Maria Ester, Brini, Anna Teresa, Gramatica, Furio, Gualerzi, A, Niada, S, Giannasi, C, Picciolini, S, Morasso, C, Vanna, R, Rossella, V, Masserini, M, Bedoni, M, Ciceri, F, Bernardo, M, Brini, A, and Gramatica, F

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, Cellular differentiation, lcsh:Medicine, Adipose tissue, Biology, Spectrum Analysis, Raman, Article, Tetraspanin 29, Dermal fibroblast, 03 medical and health sciences, symbols.namesake, Extracellular Vesicles, In vivo, medicine, Humans, lcsh:Science, Multidisciplinary, Tetraspanin 30, Vesicle, lcsh:R, Mesenchymal stem cell, Raman Spectroscopy, extracellular vesicles, mesenchymal stromal cells, Mesenchymal Stem Cells, Cell biology, 030104 developmental biology, medicine.anatomical_structure, symbols, lcsh:Q, Bone marrow, Raman spectroscopy, Biomarkers
Abstract

Extracellular vesicles (EVs) from mesenchymal stromal cells (MSC) are emerging as valuable therapeutic agents for tissue regeneration and immunomodulation, but their clinical applications have so far been limited by the technical restraints of current isolation and characterisation procedures. This study shows for the first time the successful application of Raman spectroscopy as label-free, sensitive and reproducible means of carrying out the routine bulk characterisation of MSC-derived vesicles before their use in vitro or in vivo, thus promoting the translation of EV research to clinical practice. The Raman spectra of the EVs of bone marrow and adipose tissue-derived MSCs were compared with human dermal fibroblast EVs in order to demonstrate the ability of the method to distinguish the vesicles of the three cytotypes automatically with an accuracy of 93.7%. Our data attribute a Raman fingerprint to EVs from undifferentiated and differentiated cells of diverse tissue origin, and provide insights into the biochemical characteristics of EVs from different sources and into the differential contribution of sphingomyelin, gangliosides and phosphatidilcholine to the Raman spectra themselves. Extracellular vesicles (EVs) from mesenchymal stromal cells (MSC) are emerging as valuable therapeutic agents for tissue regeneration and immunomodulation, but their clinical applications have so far been limited by the technical restraints of current isolation and characterisation procedures. This study shows for the first time the successful application of Raman spectroscopy as label-free, sensitive and reproducible means of carrying out the routine bulk characterisation of MSC-derived vesicles before their use in vitro or in vivo, thus promoting the translation of EV research to clinical practice. The Raman spectra of the EVs of bone marrow and adipose tissue-derived MSCs were compared with human dermal fibroblast EVs in order to demonstrate the ability of the method to distinguish the vesicles of the three cytotypes automatically with an accuracy of 93.7%. Our data attribute a Raman fingerprint to EVs from undifferentiated and differentiated cells of diverse tissue origin, and provide insights into the biochemical characteristics of EVs from different sources and into the differential contribution of sphingomyelin, gangliosides and phosphatidilcholine to the Raman spectra themselves.

Published
2017

41. Control of size and aspect ratio in hydroquinone-based synthesis of gold nanorods

Author

Renzo Vanna, Marzia Bedoni, Domitilla Schiumarini, Furio Gramatica, Isaac Ojea-Jiménez, Davide Prosperi, Carlo Morasso, Silvia Picciolini, Dora Mehn, Giuliano Zanchetta, Morasso, C, Picciolini, S, Schiumarini, D, Mehn, D, Ojea Jiménez, I, Zanchetta, G, Vanna, R, Bedoni, M, Prosperi, D, and Gramatica, F

Subjects
Materials science, Aspect ratio, Hydroquinone, Reducing agent, Inorganic chemistry, Au nanorods, Plasmonics, CTAB, Hydroquinone, Nanoparticles, Nanoparticle, Bioengineering, General Chemistry, Condensed Matter Physics, Ascorbic acid, Atomic and Molecular Physics, and Optics, Ion, chemistry.chemical_compound, chemistry, Modeling and Simulation, Yield (chemistry), General Materials Science, Nanorod
Abstract

In this article, we describe how it is possible to tune the size and the aspect ratio of gold nanorods obtained using a highly efficient protocol based on the use of hydroquinone as a reducing agent by varying the amounts of CTAB and silver ions present in the “seed-growth” solution. Our approach not only allows us to prepare nanorods with a four times increased Au3+ reduction yield, when compared with the commonly used protocol based on ascorbic acid, but also allows a remarkable reduction of 50–60 % of the amount of CTAB needed. In fact, according to our findings, the concentration of CTAB present in the seed-growth solution do not linearly influence the final aspect ratio of the obtained nanorods, and an optimal concentration range between 30 and 50 mM has been identified as the one that is able to generate particles with more elongated shapes. On the optimized protocol, the effect of the concentration of Ag+ ions in the seed-growth solution and the stability of the obtained particles has also been investigated.

Published
2015
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42. Branched gold nanoparticles on ZnO 3D architecture as biomedical SERS sensors

Author

Furio Gramatica, Silvia Picciolini, Renzo Vanna, A. Zappettini, Marzia Bedoni, Davide Calestani, N. Castagnetti, Marco Villani, Maura Pavesi, Laura Lazzarini, Carlo Morasso, Dora Mehn, Picciolini, S, Castagnetti, N, Vanna, R, Mehn, D, Bedoni, M, Gramatica, F, Villani, M, Calestani, D, Pavesi, M, Lazzarini, L, A. Zappettini, A, and Morasso, C

Subjects
Detection limit, Materials science, tetrapods, General Chemical Engineering, Chemistry (all), Substrate (chemistry), chemistry.chemical_element, 3D SERS sensor, Nanotechnology, General Chemistry, Zinc, biosensor, symbols.namesake, branched nanostructures, chemistry, Colloidal gold, symbols, ZnO, Chemical Engineering (all), Raman spectroscopy
Abstract

Surface-enhanced Raman spectroscopy (SERS) widely improves the sensitivity of traditional Raman analysis, thus allowing this technique to be exploited for the development of new bio-analytical tests. In this work, 3D substrates made of zinc oxide tetrapods (ZnOTP) are decorated with branched gold nanoparticles by means of a new photochemical approach. The SERS enhancing properties of the obtained substrate are tested using different Raman dyes and apomorphine, a drug used for the management of Parkinson disease. The results prove that the enhancing properties depend on the shape of the gold nanoparticles grown on the branches of ZnO tetrapods. The optimized substrate here developed is characterized by an enhancing factor up to 7 x 10(6) and a detection limit for apomorphine of 1 mM. Finally, the new substrates are tested to study single cancer cells showing enhanced Raman signals related to the portion of the cell interacting with the 3D structure of the substrate.

Published
2015
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43. Star-like gold nanoparticles as highly active substrate for surface enhanced Raman spectroscopy

Author

César Pascual García, Dora Mehn, Furio Gramatica, Carlo Morasso, Davide Prosperi, Renzo Vanna, Marzia Bedoni, Morasso, C, Mehn, D, Vanna, R, Bedoni, M, Pascual García, C, Prosperi, D, and Gramatica, F

Subjects
Radiology, Nuclear Medicine and Imaging, Atomic and Molecular Physics, and Optic, Materials science, Enhancement, SERS, Electronic, Optical and Magnetic Material, Nanoparticle, Substrate (chemistry), Nanotechnology, Surface-enhanced Raman spectroscopy, Plasmonic, Biomaterial, symbols.namesake, Colloidal gold, Chemical specificity, symbols, Molecule, Multibranched, Gold, Raman spectroscopy, Raman, Plasmon
Abstract

Surface Enhanced Raman Spectroscopy (SERS) is a popular method in bio-analytical chemistry and a potentially powerful enabling technology for in vitro diagnostics. SERS combines the excellent chemical specificity of Raman spectroscopy with the good sensitivity provided by enhancement of the signal that is observed when a molecule is located on (or very close to) the surface of nanostructured metallic materials. Star-like gold nanoparticles (SGN) are a new class of multibranched nanoparticles that in the last few years have attracted the attention of SERS community for their plasmonic properties. In this work we present a new method to prepare star-like gold nanoparticles with a simple one step protocol at room temperature using hydroquinone as reducing agent. Besides we compare the enhancement of Raman signal of malachite green, a dye commonly employed as label in biological studies, by star-like gold nanoparticles having different size, directly in liquid. This study shows that SGN provide good enhancement of Raman signal and that the effect of their dimension is strongly dependent on the wavelength used. Moreover preliminary results suggest that SGN produced using this method are characterized by good physical-chemical properties and they can be functionalized using the standard thiol chemistry. Overall, these results suggest that star-like gold nanoparticles produced through this method could be used for the further development of highly specific and sensitive SERS-based bio-analytical tests. © 2013 Copyright SPIE.

Published
2013
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44. Microcalcifications in breast cancer tissue studied by X-ray absorption, emission, scattering and diffraction.

Author

Huthwelker T, Borca CN, Altamura D, De Caro L, Vanna R, Corsi F, Morasso C, Banfi G, Arpa G, Bunk O, and Giannini C

Abstract

Microcalcifications (MC) are observed in various tissues and in relation to several diseases. For breast cancer, recent studies have reported differences in the nature of the MC and correlations to the degree of malignancy of the neoplasm. Here, investigations of benign, ductal carcinoma in situ (DCIS) and invasive ductal carcinoma (IDC) breast MC using X-ray fluorescence, X-ray absorption spectroscopy and wide-angle X-ray scattering are reported. While Mg has been observed in all MC, only for the benign MC has a rim of crystalline whitlockite been identified as a minor crystalline phase in addition to the major hy-droxy-apatite (HAP) one. MC in DCIS and IDC tissue exhibit a higher abundance of a high-crystallinity HAP phase in comparison with the less well ordered MC in the benign tissue. Moreover, the distribution of other trace elements in the MC, such as Na, S, Cl, Sr and Y, is observed. For the quantitative analysis of the elemental maps, the experimentally determined sample thickness in each pixel has been incorporated as an additional parameter in the fitting process to account for sample roughness., (© Thomas Huthwelker et al. 2025.)

Published
2025
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45. Non-resonant background removal in broadband CARS microscopy using deep-learning algorithms.

Author

Vernuccio F, Broggio E, Sorrentino S, Bresci A, Junjuri R, Ventura M, Vanna R, Bocklitz T, Bregonzio M, Cerullo G, Rigneault H, and Polli D

Abstract

Broadband Coherent anti-Stokes Raman (BCARS) microscopy is an imaging technique that can acquire full Raman spectra (400-3200 cm -1 ) of biological samples within a few milliseconds. However, the CARS signal suffers from an undesired non-resonant background (NRB), deriving from four-wave-mixing processes, which distorts the peak line shapes and reduces the chemical contrast. Traditionally, the NRB is removed using numerical algorithms that require expert users and knowledge of the NRB spectral profile. Recently, deep-learning models proved to be powerful tools for unsupervised automation and acceleration of NRB removal. Here, we thoroughly review the existing NRB removal deep-learning models (SpecNet, VECTOR, LSTM, Bi-LSTM) and present two novel architectures. The first one combines convolutional layers with Gated Recurrent Units (CNN + GRU); the second one is a Generative Adversarial Network (GAN) that trains an encoder-decoder network and an adversarial convolutional neural network. We also introduce an improved training dataset, generalized on different BCARS experimental configurations. We compare the performances of all these networks on test and experimental data, using them in the pipeline for spectral unmixing of BCARS images. Our analyses show that CNN + GRU and VECTOR are the networks giving the highest accuracy, GAN is the one that predicts the highest number of true positive peaks in experimental data, whereas GAN and VECTOR are the most suitable ones for real-time processing of BCARS images., (© 2024. The Author(s).)

Published
2024
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46. Biocompatibility of Water-Dispersible Pristine Graphene and Graphene Oxide Using a Close-to-Human Animal Model: A Pilot Study on Swine.

Author

Nicolussi P, Pilo G, Cancedda MG, Peng G, Chau NDQ, De la Cadena A, Vanna R, Samad YA, Ahmed T, Marcellino J, Tedde G, Giro L, Ylmazer A, Loi F, Carta G, Secchi L, Dei Giudici S, Macciocu S, Polli D, Nishina Y, Ligios C, Cerullo G, Ferrari A, Bianco A, Fadeel B, Franzoni G, and Delogu LG

Abstract

Graphene-based materials (GBMs) are of considerable interest for biomedical applications, and the pilot study on the toxicological and immunological impact of pristine graphene (GR) and graphene oxide (GO) using swine as a close-to-human provides valuable insights. First, ex vivo experiments are conducted on swine blood cells, then GBMs are injected intraperitoneally (i.p.) into swine. Hematological and biochemical analyses at various intervals indicate that neither GO nor GR cause systemic inflammation, pro-coagulant responses, or renal or hepatic dysfunction. Importantly, no systemic toxicity is observed. Analysis of a panel of 84 immune-related genes shows minimal impact of GO and GR. The animals are sacrificed 21 days post-injection, and transient absorption imaging and Raman mapping show the presence of GO and GR in the mesentery only. Histological evaluation reveals no signs of alterations in other organs. Thus, clusters of both materials are detected in the mesentery, and GO aggregates are surrounded only by macrophages with the formation of granulomas. In contrast, modest local reactions are observed around the GR clusters. Overall, these results reveal that i.p. injection of GBMs resulted in a modest local tissue reaction without systemic toxicity. This study, performed in swine, provides essential guidance for future biomedical applications of graphene., (© 2024 The Author(s). Advanced Healthcare Materials published by Wiley‐VCH GmbH.)

Published
2024
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47. Estimation of biological variance in coherent Raman microscopy data of two cell lines using chemometrics.

Author

Junjuri R, Calvarese M, Vafaeinezhad M, Vernuccio F, Ventura M, Meyer-Zedler T, Gavazzoni B, Polli D, Vanna R, Bongarzone I, Ghislanzoni S, Negro M, Popp J, and Bocklitz T

Subjects
Humans, Hep G2 Cells, HEK293 Cells, Discriminant Analysis, Algorithms, Microscopy methods, Spectrum Analysis, Raman methods, Principal Component Analysis
Abstract

Broadband Coherent Anti-Stokes Raman Scattering (BCARS) is a valuable spectroscopic imaging tool for visualizing cellular structures and lipid distributions in biomedical applications. However, the inevitable biological changes in the samples (cells/tissues/lipids) introduce spectral variations in BCARS data and make analysis challenging. In this work, we conducted a systematic study to estimate the biological variance in BCARS data of two commonly used cell lines (HEK293 and HepG2) in biomedical research. The BCARS data were acquired from two different experimental setups (Leibniz Institute of Photonics Technology (IPHT) in Jena and Politecnico di Milano (POLIMI) in Milano) to evaluate the reproducibility of results. Also, spontaneous Raman data were independently acquired at POLIMI to validate those results. First, Kramers-Kronig (KK) algorithm was utilized to retrieve Raman-like signals from the BCARS data, and a pre-processing pipeline was subsequently used to standardize the data. Principal component analysis - Linear discriminant analysis (PCA-LDA) was performed using two cross-validation (CV) methods: batch-out CV and 10-fold CV. Additionally, the analysis was repeated, considering different spectral regions of the data as input to the PCA-LDA. Finally, the classification accuracies of the two BCARS datasets were compared with the results of spontaneous Raman data. The results demonstrated that the CH band region (2770-3070 cm -1 ) and spectral data in the 1500-1800 cm -1 region have significantly contributed to the classification. A maximum of 100% balanced accuracies were obtained for the 10-fold CV for both BCARS setups. However, in the case of batch-out CV, it is 92.4% for the IPHT dataset and 98.8% for the POLIMI dataset. This study offers a comprehensive overview for estimating biological variance in biomedical applications. The insights gained from this analysis hold promise for improving the reliability of BCARS measurements in biomedical applications, paving the way for more accurate and meaningful spectroscopic analyses in the study of biological systems.

Published
2024
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48. Label-free morpho-molecular phenotyping of living cancer cells by combined Raman spectroscopy and phase tomography.

Author

Bresci A, Kobayashi-Kirschvink KJ, Cerullo G, Vanna R, So PTC, Polli D, and Kang JW

Subjects
Humans, Colonic Neoplasms pathology, Colonic Neoplasms genetics, Colonic Neoplasms diagnostic imaging, Colonic Neoplasms metabolism, Cell Line, Tumor, Spectrum Analysis, Raman methods, Phenotype
Abstract

Accurate, rapid and non-invasive cancer cell phenotyping is a pressing concern across the life sciences, as standard immuno-chemical imaging and omics require extended sample manipulation. Here we combine Raman micro-spectroscopy and phase tomography to achieve label-free morpho-molecular profiling of human colon cancer cells, following the adenoma, carcinoma, and metastasis disease progression, in living and unperturbed conditions. We describe how to decode and interpret quantitative chemical and co-registered morphological cell traits from Raman fingerprint spectra and refractive index tomograms. Our multimodal imaging strategy rapidly distinguishes cancer phenotypes, limiting observations to a low number of pristine cells in culture. This synergistic dataset allows us to study independent or correlated information in spectral and tomographic maps, and how it benefits cell type inference. This method is a valuable asset in biomedical research, particularly when biological material is in short supply, and it holds the potential for non-invasive monitoring of cancer progression in living organisms., (© 2024. The Author(s).)

Published
2024
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49. Birefringence-induced phase delay enables Brillouin mechanical imaging in turbid media.

Author

Antonacci G, Vanna R, Ventura M, Schiavone ML, Sobacchi C, Behrouzitabar M, Polli D, Manzoni C, and Cerullo G

Subjects
Animals, Birefringence, Mice, Viscosity, Biomechanical Phenomena, Bone and Bones diagnostic imaging, Light, Scattering, Radiation, Elasticity
Abstract

Acoustic vibrations of matter convey fundamental viscoelastic information that can be optically retrieved by hyperfine spectral analysis of the inelastic Brillouin scattered light. Increasing evidence of the central role of the viscoelastic properties in biological processes has stimulated the rise of non-contact Brillouin microscopy, yet this method faces challenges in turbid samples due to overwhelming elastic background light. Here, we introduce a common-path Birefringence-Induced Phase Delay (BIPD) filter to disentangle the polarization states of the Brillouin and Rayleigh signals, enabling the rejection of the background light using a polarizer. We demonstrate a 65 dB extinction ratio in a single optical pass collecting Brillouin spectra in extremely scattering environments and across highly reflective interfaces. We further employ the BIPD filter to image bone tissues from a mouse model of osteopetrosis, highlighting altered biomechanical properties compared to the healthy control. Results herald new opportunities in mechanobiology where turbid biological samples remain poorly characterized., (© 2024. The Author(s).)

Published
2024
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50. High-Resolution Raman Imaging of >300 Patient-Derived Cells from Nine Different Leukemia Subtypes: A Global Clustering Approach.

Author

Vanna R, Masella A, Bazzarelli M, Ronchi P, Lenferink A, Tresoldi C, Morasso C, Bedoni M, Cerullo G, Polli D, Ciceri F, De Poli G, Bregonzio M, and Otto C

Subjects
Humans, Cluster Analysis, Peroxidase metabolism, Spectrum Analysis, Raman methods, Leukemia pathology
Abstract

Leukemia comprises a diverse group of bone marrow tumors marked by cell proliferation. Current diagnosis involves identifying leukemia subtypes through visual assessment of blood and bone marrow smears, a subjective and time-consuming method. Our study introduces the characterization of different leukemia subtypes using a global clustering approach of Raman hyperspectral maps of cells. We analyzed bone marrow samples from 19 patients, each presenting one of nine distinct leukemia subtypes, by conducting high spatial resolution Raman imaging on 319 cells, generating over 1.3 million spectra in total. An automated preprocessing pipeline followed by a single-step global clustering approach performed over the entire data set identified relevant cellular components (cytoplasm, nucleus, carotenoids, myeloperoxidase (MPO), and hemoglobin (HB)) enabling the unsupervised creation of high-quality pseudostained images at the single-cell level. Furthermore, this approach provided a semiquantitative analysis of cellular component distribution, and multivariate analysis of clustering results revealed the potential of Raman imaging in leukemia research, highlighting both advantages and challenges associated with global clustering.

Published
2024
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