Your search keyword '"Matteo Agostini"' showing total 9 results

1. Mode Characterization and Sensitivity Evaluation of a Surface Acoustic Wave (SAW) Resonator Biosensor: Application to the Glial-Fibrillary-Acidic-Protein (GFAP) Biomarker Detection

Author

Antonio Matteo Passeri, Francesco Lunardelli, Daniele Cavariani, Marco Cecchini, and Matteo Agostini

Subjects

biosensors, Rayleigh surface acoustic wave (SAW), shear-horizontal SAW, lithium niobate, finite element modeling, GFAP biomarker, Mechanical engineering and machinery, TJ1-1570

Abstract

Biosensors based on surface acoustic waves (SAWs) offer unique advantages due to their high sensitivity, real-time response capability, and label-free detection. The typical SAW modes are the Rayleigh mode and the shear-horizontal mode. Both present pros and cons for biosensing applications and generally need different substrates and device geometries to be efficiently generated. This study investigates and characterizes SAW resonator biosensors on lithium niobate in terms of modes generated and biosensing performance. It reveals the simultaneous presence of two typical SAW modes, the first around 1.6 GHz and the second around 1.9 GHz, differently polarized and clearly separated in frequency, which we refer to as slow and fast modes. The two modes are studied by numerical simulations and biosensing experiments with the glial-fibrillary-acidic-protein (GFAP) biomarker. The slow mode is generally more sensitive to changes in surface properties, such as temperature and mass changes, by a factor of about 1.4 with respect to the fast mode.

Published

2023

2. A Surface Acoustic Wave (SAW)-Based Lab-on-Chip for the Detection of Active α-Glycosidase

Author

Mariacristina Gagliardi, Matteo Agostini, Francesco Lunardelli, Alessio Miranda, Antonella Giuliana Luminare, Fabrizio Cervelli, Francesca Gambineri, and Marco Cecchini

Subjects

SAW, acoustic sensor, α-glycosidase, enzyme detection, Biotechnology, TP248.13-248.65

Abstract

Enzyme detection in liquid samples is a complex laboratory procedure, based on assays that are generally time- and cost-consuming, and require specialized personnel. Surface acoustic wave sensors can be used for this application, overcoming the cited limitations. To give our contribution, in this work we present the bottom-up development of a surface acoustic wave biosensor to detect active α-glycosidase in aqueous solutions. Our device, optimized to work at an ultra-high frequency (around 740 MHz), is functionalized with a newly synthesized probe 7-mercapto-1-eptyl-D-maltoside, bringing one maltoside terminal moiety. The probe is designed ad hoc for this application and tested in-cuvette to analyze the enzymatic conversion kinetics at different times, temperatures and enzyme concentrations. Preliminary data are used to optimize the detection protocol with the SAW device. In around 60 min, the SAW device is able to detect the enzymatic conversion of the maltoside unit into glucose in the presence of the active enzyme. We obtained successful α-glycosidase detection in the concentration range 0.15–150 U/mL, with an increasing signal in the range up to 15 U/mL. We also checked the sensor performance in the presence of an enzyme inhibitor as a control test, with a signal decrease of 80% in the presence of the inhibitor. The results demonstrate the synergic effect of our SAW Lab-on-a-Chip and probe design as a valid alternative to conventional laboratory tests.

Published

2022

3. Detection of Oenological Polyphenols via QCM-D Measurements

Author

Mariacristina Gagliardi, Giorgia Tori, Matteo Agostini, Francesco Lunardelli, Fabio Mencarelli, Chiara Sanmartin, and Marco Cecchini

Subjects

polyphenols, quartz crystal microbalance, biosensor, functionalization, precision oenology, acoustic wave sensor, Chemistry, QD1-999

Abstract

Polyphenols are a family of compounds present in grapes, musts, and wines. Their dosage is associated with the grape ripening, correct must fermentation, and final wine properties. Owing to their anti-inflammatory properties, they are also relevant for health applications. To date, such compounds are detected mainly via standard chemical analysis, which is costly for constant monitoring and requires a specialized laboratory. Cheap and portable sensors would be desirable to reduce costs and speed up measurements. This paper illustrates the development of strategies for sensor surface chemical functionalization for polyphenol detection. We perform measurements by using a commercial quartz crystal microbalance with dissipation monitoring apparatus. Chemical functionalizations are based on proteins (bovine serum albumin and gelatin type A) or customized peptides derived from istatine-5 and murine salivary protein-5. Commercial oenological additives containing pure gallic tannins or proanthocyanidins, dissolved in water or commercial wine, are used for the analysis. Results indicate that selected functionalizations enable the detection of the two different tannin families, suggesting a relationship between the recorded signal and concentration. Gelatin A also demonstrates the ability to discriminate gallic tannins from proanthocyanidins. Outcomes are promising and pave the way for the exploitation of such devices for precision oenology.

Published

2022

4. Solar Neutrinos Spectroscopy with Borexino Phase-II

Author

Lino Miramonti, Matteo Agostini, Konrad Altenmueller, Simon Appel, Victor Atroshchenko, Zara Bagdasarian, Davide Basilico, Gianpaolo Bellini, Jay Benziger, Daniel Bick, Irene Bolognino, Giuseppe Bonfini, David Bravo, Barbara Caccianiga, Frank Calaprice, Alessio Caminata, Silvia Caprioli, Marco Carlini, Paolo Cavalcante, Francesca Cavanna, Alexander Chepurnov, Koun Choi, Laura Collica, Stefano Davini, Alexander Derbin, XueFeng Ding, Antonio Di Ludovico, Lea Di Noto, Ilia Drachnev, Kirill Fomenko, Andrey Formozov, Davide Franco, Federico Gabriele, Cristiano Galbiati, Michael Gschwender, Chiara Ghiano, Marco Giammarchi, Augusto Goretti, Maxim Gromov, Daniele Guffanti, Caren Hagner, Thibaut Houdy, Ed Hungerford, Aldo Ianni, Andrea Ianni, Anna Jany, Dominik Jeschke, Vladislav Kobychev, Denis Korablev, Gyorgy Korga, Tobias Lachenmaier, Matthias Laubenstein, Evgeny Litvinovich, Francesco Lombardi, Paolo Lombardi, Livia Ludhova, Georgy Lukyanchenko, Liudmila Lukyanchenko, Igor Machulin, Giulio Manuzio, Simone Marcocci, Jelena Maricic, Johann Martyn, Emanuela Meroni, Mikko Meyer, Marcin Misiaszek, Valentina Muratova, Birgit Neumair, Lothar Oberauer, Bjoern Opitz, Vsevolod Orekhov, Fausto Ortica, Marco Pallavicini, Laszlo Papp, Omer Penek, Lidio Pietrofaccia, Nelly Pilipenko, Andrea Pocar, Alessio Porcelli, Georgy Raikov, Gioacchino Ranucci, Alessandro Razeto, Alessandra Re, Mariia Redchuk, Aldo Romani, Nicola Rossi, Sebastian Rottenanger, Stefan Schöenert, Dmitrii Semenov, Mikhail Skorokhvatov, Oleg Smirnov, Albert Sotnikov, Lee F. F. Stokes, Yura Suvorov, Roberto Tartaglia, Gemma Testera, Jan Thurn, Maria Toropova, Evgenii Unzhakov, Alina Vishneva, Bruce Vogelaar, Franz von Feilitzsch, Stefan Weinz, Marcin Wojcik, Michael Wurm, Zachary Yokley, Oleg Zaimidoroga, Sandra Zavatarelli, Kai Zuber, and Grzegorz Zuzel

Subjects

solar neutrinos, neutrino oscillation, Borexino, Elementary particle physics, QC793-793.5

Abstract

Solar neutrinos have played a central role in the discovery of the neutrino oscillation mechanism. They still are proving to be a unique tool to help investigate the fusion reactions that power stars and further probe basic neutrino properties. The Borexino neutrino observatory has been operationally acquiring data at Laboratori Nazionali del Gran Sasso in Italy since 2007. Its main goal is the real-time study of low energy neutrinos (solar or originated elsewhere, such as geo-neutrinos). The latest analysis of experimental data, taken during the so-called Borexino Phase-II (2011-present), will be showcased in this talk—yielding new high-precision, simultaneous wide band flux measurements of the four main solar neutrino components belonging to the “pp„ fusion chain (pp, pep, 7 Be, 8 B), as well as upper limits on the remaining two solar neutrino fluxes (CNO and hep).

Published

2018

5. Surface Acoustic Wave (SAW)-Enhanced Chemical Functionalization of Gold Films

Author

Gina Greco, Matteo Agostini, Richie Shilton, Marco Travagliati, Giovanni Signore, and Marco Cecchini

Subjects

functionalization, microfluidics, surface acoustic waves (SAWs), Chemical technology, TP1-1185

Abstract

Surface chemical and biochemical functionalization is a fundamental process that is widely applied in many fields to add new functions, features, or capabilities to a material’s surface. Here, we demonstrate that surface acoustic waves (SAWs) can enhance the chemical functionalization of gold films. This is shown by using an integrated biochip composed by a microfluidic channel coupled to a surface plasmon resonance (SPR) readout system and by monitoring the adhesion of biotin-thiol on the gold SPR areas in different conditions. In the case of SAW-induced streaming, the functionalization efficiency is improved ≈ 5 times with respect to the case without SAWs. The technology here proposed can be easily applied to a wide variety of biological systems (e.g., proteins, nucleic acids) and devices (e.g., sensors, devices for cell cultures).

Published

2017

6. Mode Characterization and Sensitivity Evaluation of an Ultra-High-Frequency Surface Acoustic Wave (UHF-SAW) Resonator Biosensor: Application to the Glial-Fibrillary-Acidic-Protein (GFAP) Biomarker Detection

Author

Antonio Matteo Passeri, Francesco Lunardelli, Daniele Cavariani, Marco Cecchini, and Matteo Agostini

Abstract

Biosensors detect specific bio-analytes by generating a measurable signal from the interaction between the sensing element and the target molecule. Surface acoustic wave (SAW) biosensors offer unique advantages due to their high sensitivity, real-time response capability, and label-free detection. The typical SAW modes are the Rayleigh mode and the shear-horizontal mode. Both present pros and cons for biosensing applications and generally need different substrates and device geometries to be efficiently generated. This study investigates and characterizes ultra-high-frequency (UHF-) SAW resonator biosensors. It reveals the simultaneous presence of the two typical SAW modes, clearly separated in frequency, called slow and fast. The two modes are studied by numerical simulations and biosensing experiments with the glial-fibrillary-acidic-protein (GFAP) biomarker. The slow mode is generally more sensitive to changes in surface properties, such as temperature and mass changes, by a factor of about 1.4 with respect to the fast mode.

Published

2023

7. Solar Neutrinos Spectroscopy with Borexino Phase-II

Author

A. Di Ludovico, G. Manuzio, L. Lukyanchenko, Matthias Laubenstein, J. Maricic, S. Appel, M. Redchuk, S. Caprioli, E. Meroni, N. Pilipenko, C. Ghiano, Caren Hagner, J. Martyn, E. Litvinovich, Z. Yokley, G. Zuzel, P. Cavalcante, N. Rossi, G. Bonfini, V. Atroshchenko, B. Caccianiga, M. S. Meyer, M. Misiaszek, Frank Calaprice, Tobias Lachenmaier, Marco Giammarchi, Xuefeng Ding, D. A. Semenov, O. Smirnov, A. M. Goretti, Paolo Lombardi, A. Jany, Alessandra Re, T. Houdy, Matteo Agostini, E. V. Hungerford, S. Davini, E. V. Unzhakov, O. Zaimidoroga, V. V. Kobychev, A. Sotnikov, K. Altenmueller, R. B. Vogelaar, D. Franco, S. Weinz, I. N. Machulin, A. Vishneva, Aldo Ianni, F. Cavanna, A. Pocar, Y. Suvorov, G. Lukyanchenko, Jay Burton Benziger, G. Raikov, Z. Bagdasarian, R. Tartaglia, S. Rottenanger, M. Carlini, G. Korga, K. Fomenko, L. Papp, S. Schönert, S. Marcocci, M. Toropova, L. Collica, D. Jeschke, A. Caminata, F. Gabriele, D. Guffanti, M. D. Skorokhvatov, Denis Korablev, Andrey Formozov, Michael Wurm, A. V. Derbin, M. M. Wojcik, Andrea Ianni, D. Bick, Sandra Zavatarelli, F. von Feilitzsch, A. Porcelli, I. Bolognino, Aldo Romani, M. Gschwender, L. Di Noto, C. Galbiati, Lino Miramonti, Livia Ludhova, A. S. Chepurnov, Ö. Penek, G. Testera, J. Thurn, G. Bellini, Gioacchino Ranucci, L.F.F. Stokes, D. Bravo, D. Basilico, F. Lombardi, A. Razeto, K. Choi, M. Gromov, I. S. Drachnev, Kai Zuber, and L. Pietrofaccia

Subjects

Physics, Nuclear physics, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Solar neutrino, particle_field_physics, Phase (waves), High Energy Physics::Experiment, Neutrino oscillation, Spectroscopy, Borexino

Abstract

Solar neutrinos have played a central role in the discovery of the neutrino oscillation mechanism. They still are proving to be a unique tool to help investigate the fusion reactions that power stars and further probe basic neutrino properties. The Borexino neutrino observatory has been operationally acquiring data at Laboratori Nazionali del Gran Sasso in Italy since 2007. Its main goal is the real-time study of low energy neutrinos (solar or originated elsewhere, such as geo-neutrinos). The latest analysis of experimental data, taken during the so-called Borexino Phase-II (2011-present), will be showcased in this talk - yielding new high-precision, simultaneous wide band flux measurements of the four main solar neutrino components belonging to the "pp" fusion chain (pp, pep, 7Be, 8B), as well as upper limits on the remaining two solar neutrino fluxes (CNO and hep).

Published

2018

8. The Role of Extracellular Vesicles in Bone Metastasis

Author

Michela Rossi, Matteo D'Agostini, Giulia Battafarano, and Andrea Del Fattore

Subjects

0301 basic medicine, Bone Neoplasms, Review, bone metastasis, exosomes, extracellular vesicles, Bone Marrow Aplasia, Extracellular vesicles, Catalysis, Bone remodeling, Metastasis, lcsh:Chemistry, Inorganic Chemistry, 03 medical and health sciences, Bone cell, medicine, Animals, Humans, Physical and Theoretical Chemistry, lcsh:QH301-705.5, Molecular Biology, Spectroscopy, business.industry, Organic Chemistry, Bone metastasis, General Medicine, medicine.disease, Microvesicles, Computer Science Applications, Crosstalk (biology), 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, Cancer research, business

Abstract

Multiple types of cancer have the specific ability to home to the bone microenvironment and cause metastatic lesions. Despite being the focus of intense investigation, the molecular and cellular mechanisms that regulate the metastasis of disseminated tumor cells still remain largely unknown. Bone metastases severely impact quality of life since they are associated with pain, fractures, and bone marrow aplasia. In this review, we will summarize the recent discoveries on the role of extracellular vesicles (EV) in the regulation of bone remodeling activity and bone metastasis occurrence. Indeed, it was shown that extracellular vesicles, including exosomes and microvesicles, released from tumor cells can modify the bone microenvironment, allowing the formation of osteolytic, osteosclerotic, and mixed mestastases. In turn, bone-derived EV can stimulate the proliferation of tumor cells. The inhibition of EV-mediated crosstalk between cancer and bone cells could represent a new therapeutic target for bone metastasis.

Published

2018

9. Reference Intervals for Coagulation Parameters in Developmental Hemostasis from Infancy to Adolescence

Author

Giovina Di Felice, Matteo Vidali, Gelsomina Parisi, Simona Pezzi, Alessandra Di Pede, Giulia Deidda, Matteo D’Agostini, Michaela Carletti, Stefano Ceccarelli, and Ottavia Porzio

Subjects

pediatrics, coagulation, reference interval, Medicine (General), R5-920

Abstract

Background: The objective of this study was to establish the age and sex-dependent reference intervals for coagulation assays evaluated in healthy children, ranging from 0 days to 16 years old. Methods: PT, aPTT, Fibrinogen (functional), Antithrombin activity, Protein C anticoagulant activity, Protein S free antigen, Thrombin time, D-Dimer, Von Willebrand Factor antigen, Lupus anticoagulant (screening), extrinsic and intrinsic pathway factors, and activated Protein C resistance were evaluated using STA-R Max2. Results: A total of 1280 subjects (671 males and 609 females) were divided into five groups, according to their age: 0–15 days (n = 280, 174 M and 106 F), 15–30 days (n = 208, 101 M and 107 F), 1–6 months (n = 369, 178 M and 191 F), 6–12 months (n = 214, 110 M and 104 F), and 1–16 years (n = 209, 108 M and 101 F). The 95% reference intervals and the 90% CI were established using the Harrell–Davis bootstrap method and the bootstrap percentile method, respectively. Conclusions: The present study supports the concept that adult and pediatric subjects should be evaluated using different reference intervals, at least for some coagulation tests, to avoid misdiagnosis, which can potentially lead to serious consequences for patients and their families, and ultimately the healthcare system.

Published

2022