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115 results on '"Nicolato, E."'

1. Liposomes derivatized with multimeric copies of KCCYSL peptide as targeting agents for HER-2-overexpressing tumor cells

Author

Ringhieri P, Mannucci S, Conti G, Nicolato E, Fracasso G, Marzola P, Morelli G, and Accardo A

Subjects
anti-HER2 liposomes, target peptide, KCCYSL peptide, breast cancer, click chemistry, branched peptides, Medicine (General), R5-920
Abstract

Paola Ringhieri,1 Silvia Mannucci,2 Giamaica Conti,2 Elena Nicolato,2 Giulio Fracasso,3 Pasquina Marzola,4 Giancarlo Morelli,1 Antonella Accardo1 1Department of Pharmacy and Interuniversity Research Centre on Bioactive Peptides (CIRPeB), University of Naples “Federico II”, Napoli, 2Department of Neurological Biomedical and Movement Sciences, 3Section of Immunology, Department of Medicine, 4Department of Informatics, University of Verona, Verona, Italy Abstract: Mixed liposomes, obtained by coaggregation of 1,2-dioleoyl-sn-glycero-3-phosphocholine and of the synthetic monomer containing a gadolinium complex ([C18]2DTPA[Gd]) have been prepared. Liposomes externally decorated with KCCYSL (P6.1 peptide) sequence in its monomeric, dimeric, and tetrameric forms are studied as target-selective delivery systems toward cancer cells overexpressing human epidermal growth factor receptor-2 (HER-2) receptors. Derivatization of liposomal surface with targeting peptides is achieved using the postmodification method: the alkyne-peptide derivative Pra-KCCYSL reacts, through click chemistry procedures, with a synthetic surfactant modified with 1, 2, or 4 azido moieties previously inserted in liposome formulation. Preliminary in vitro data on MDA-MB-231 and BT-474 cells indicated that liposomes functionalized with P6.1 peptide in its tetrameric form had better binding to and uptake into BT-474 cells compared to liposomes decorated with monomeric or dimeric versions of the P6.1 peptide. BT-474 cells treated with liposomes functionalized with the tetrameric form of P6.1 showed high degree of liposome uptake, which was comparable with the uptake of anti-HER-2 antibodies such as Herceptin. Moreover, magnetic MRI experiments have demonstrated the potential of liposomes to act as MRI contrast agents. Keywords: anti-HER2 liposomes, target peptide, KCCYSL peptide, breast cancer, click chemistry, branched peptides

Published
2017

6. Imaging neural excitability and networks in genetic absence epilepsy models

Author

Tsenov, G., Bertini, G., Pellitteri, M., Nicolato, E., Marzola, P., Fabene, P.F., Luijtelaar, E.L.J.M. van, Bernasconi, A., Koepp, M., Bernasconi, N., Bernasconi, A., Koepp, M., and Bernasconi, N.

Subjects
Action, intention, and motor control
Abstract

Contains fulltext : 200622.pdf (Publisher’s version ) (Open Access)

Published
2019

7. Imaging neural excitability and networks in genetic absence epilepsy models

Author

Bernasconi, A., Koepp, M., Bernasconi, N., Tsenov, G., Bertini, G., Pellitteri, M., Nicolato, E., Marzola, P., Fabene, P.F., Luijtelaar, E.L.J.M. van, Bernasconi, A., Koepp, M., Bernasconi, N., Tsenov, G., Bertini, G., Pellitteri, M., Nicolato, E., Marzola, P., Fabene, P.F., and Luijtelaar, E.L.J.M. van

Abstract

Contains fulltext : 200622.pdf (Publisher’s version ) (Open Access)

Published
2019

22. Physical training is associated with changes in nuclear magnetic resonance and morphometrical parameters of the skeletal muscle in senescent mice

Author

Zancanaro, C, Mariotti, R, Perdoni, F, Nicolato, E, Malatesta, M, Zancanaro, C, Mariotti, R, Perdoni, F, Nicolato, E, and Malatesta, M

Abstract

The effect of a three-month training period on T2 relaxation time as well as on myofibre size and type was investigated in the lower limbs of senescent mice. After training, T2 (which is a magnetic resonance imaging parameter known to increase during acute exercise) was significantly higher in trained mice (36.37+/-1.27 vs 37.76+/-2.06 ms, p=0.003, n=8), whereas no change was found in non-trained animals (36.35+/-1.02 vs 36.24+/-1.15 ms, p=0.278, n=8). The percentage of muscle limb area evaluated in vivo on magnetic resonance images before and after the experimental period was unchanged in trained mice (69.84+/-2.50 vs 70.29+/-2.29, p=0.896, n=3) and decreased in non-trained animals (72.98+/-1.68 vs 64.62+/-2.34, p=0.006, n=3). Cross-sectional area of fast and slow myofibres, evaluated on paraffin-embedded samples after immunolabelling for skeletal fast fibre myosin, was lower in non-trained than in trained mice in both gastrocnemius and quadriceps muscle, but no change in slow/fast fibre ratio nor in apoptotic rate was found. These data show that training can prevent sarcopenia in senescent mice by affecting muscle status and inducing myofibre hypertrophy in the absence of significant muscle damage.

Published
2007

26. Non-Gaussian Ornstein-Uhlenbeck-based Models and Some of their Uses in Financial Economics - Discussion

Author

Hodges, S.D., Roberts, G., Papaspiliopoulos, O., Sentana, E., Bingham, N.H., Cox, David, Nicolato, E., Venardos, E., Critchley, F., Davis, M.H.A., Tompkins, R., Benth, F.E., Karlsen, K.H., Reikvam, K., Brockwell, P.J., Davis, Rohan A., Christensen, B.J., Dellaportas, Paraskevi, McCoy, E.J., Stephens, D., Diebold, F.X., Fruhwirth-Schnatter, S., Genon-Catalot, V., Laredo, C., Granger, Clive W.J., Griffin, Jim E., Steel, Mark F.J., Hobson, David M., Jensen, J.L., Jones, M.C., Lawrance, A.J., Ledford, A.W., Leonenko, N.N., Levendorskii, S., Mandelbrot, B.B., Meddahi, N., Pitt, Michael K., Priestley, M.B., Renault, E., Rosinski, J., Sato, K., Taylor, S.J., Tong, Howell, Yang, H., Veretennikov, A.Y., Walker, Stephen G., Werker, B.J.M., Woodhead, A., Hodges, S.D., Roberts, G., Papaspiliopoulos, O., Sentana, E., Bingham, N.H., Cox, David, Nicolato, E., Venardos, E., Critchley, F., Davis, M.H.A., Tompkins, R., Benth, F.E., Karlsen, K.H., Reikvam, K., Brockwell, P.J., Davis, Rohan A., Christensen, B.J., Dellaportas, Paraskevi, McCoy, E.J., Stephens, D., Diebold, F.X., Fruhwirth-Schnatter, S., Genon-Catalot, V., Laredo, C., Granger, Clive W.J., Griffin, Jim E., Steel, Mark F.J., Hobson, David M., Jensen, J.L., Jones, M.C., Lawrance, A.J., Ledford, A.W., Leonenko, N.N., Levendorskii, S., Mandelbrot, B.B., Meddahi, N., Pitt, Michael K., Priestley, M.B., Renault, E., Rosinski, J., Sato, K., Taylor, S.J., Tong, Howell, Yang, H., Veretennikov, A.Y., Walker, Stephen G., Werker, B.J.M., and Woodhead, A.

Abstract

Non-Gaussian processes of Ornstein–Uhlenbeck (OU) type offer the possibility of capturing important distributional deviations from Gaussianity and for flexible modelling of dependence structures. This paper develops this potential, drawing on and extending powerful results from probability theory for applications in statistical analysis. Their power is illustrated by a sustained application of OU processes within the context of finance and econometrics. We construct continuous time stochastic volatility models for financial assets where the volatility processes are superpositions of positive OU processes, and we study these models in relation to financial data and theory.

Published
2001

28. Risk adjustments of option prices under time-changed dynamics.

Author

Nicolato, E. and Sloth, D.

Subjects
*OPTIONS (Finance), *MATHEMATICAL models of pricing, *BROWNIAN motion, *GAUSSIAN processes, *MARKET volatility
Abstract

We derive a closed-form expansion of option prices in terms of Black–Scholes prices and higher-order Greeks. We show how the true price of an option less its Black–Scholes price is given by a series of premiums on higher order risks that are not priced under the Black–Scholes model assumptions. The expansion can be used for a broad class of option pricing models with dynamics governed by time-changed Brownian motions. Specifically, we study expansions for exponential Lévy models such as the Variance Gamma and the Normal Inverse Gaussian models as well as their stochastic volatility counterparts, e.g. the VGSV and NIGSV models. Moreover, we consider extensions of the expansion to a more general subclass of affine jump-diffusion models for which the pricing transform may not be known in closed form. [ABSTRACT FROM PUBLISHER]

Published
2014
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34. In vivo quantitative lipidic map of brown adipose tissue by chemical shift imaging at 4.7 Tesla.

Author

Lunati, E, Marzola, P, Nicolato, E, Fedrigo, M, Villa, M, and Sbarbati, A

Abstract

In the present paper, chemical shift imaging techniques are applied to quantitative in vivo evaluation of fat and water content in interscapular brown adipose tissue (BAT). The experiments have been carried out on five female Sprague-Dawley rats after calibration and testing with suitable phantoms containing known amounts of water and oil. We found that, in the interscapular BAT, the fat is about 50% at the surface (mainly unilocular) region, but its percentage drops to 20;-30% in the deepest (mainly multilocular) portion. The perirenal deposits of white adipose tissue (WAT) contained significantly higher amount of fat with large areas ranging from 70 to 90%. Later the rats were killed and the same procedure was repeated with dead animals. Experiments performed in dead rats show a modification of the hydro-lipidic ratio more evident in the multilocular portions of the deposit. The present work demonstrates that MRI-based methods allow a non-invasive, in vivo quantitative mapping of the lipid content which can be applied to investigation of brown adipose tissue deposits in small experiment animals.

Published
1999

35. Circulating Ca 549 and other associated antigens in breast cancer patients

Author

Pavesi, F., Lotzniker, M., Scarabelli, M., Mauro, E., Visconti, G., Nicolato, E., and Moratti, R.

Subjects
Tumor antigens -- Identification and classification, Breast cancer -- Physiological aspects, Tumor markers -- Identification and classification, Business, Health care industry
Abstract

SOURCE: Oncology, January-February 1994;51(1):18-21. According to the authors' abstract of an article published in Oncology, 'The new marker CA 549 was determined in the serum of 258 breast cancer patients, [...]

Published
1994

36. Epithelial and mesenchymal tumor compartments exhibit in vivo complementary patterns of vascular perfusion and glucose metabolism

Author

Mirco Galiè, Pasquina Marzola, Valentina Ambrosini, Francesco Osculati, Federico Boschi, Stefano Fanti, Andrea Sbarbati, Paolo Magnani, Paolo Farace, Antonello E. Spinelli, Elena Nicolato, Silvia Trespidi, Flavia Merigo, C. Nanni, Galie M, Farace P, Nanni C, Spinelli A, Nicolato E, Boschi F, Magnani P, Trespidi S, Ambrosini V, Fanti S, Merigo F, Osculati F, Marzola P, and Sbarbati A.

Subjects
Gadolinium DTPA, Cancer Research, Pathology, medicine.medical_specialty, tumor, Stromal cell, vasculature, FDG, Metabolism, PET, MRI, Biology, lcsh:RC254-282, Mesoderm, Mice, In vivo, Fluorodeoxyglucose F18, medicine, Animals, EPITHELIAL AND MESENCHYMAL TUMOR, Fluorodeoxyglucose, medicine.diagnostic_test, Mesenchymal stem cell, Carcinoma, Glucose transporter, Epithelial Cells, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Magnetic Resonance Imaging, Desmoplasia, Rats, DYNAMIC CONTRAST-ENHANCED MAGNETIC RESONANCE IMAGING, Glucose, Positron emission tomography, Positron-Emission Tomography, SMALL ANIMAL PET, Female, medicine.symptom, Perfusion, medicine.drug, Research Article
Abstract

Glucose transport and consumption are increased in tumors, and this is considered a diagnostic index of malignancy. However, there is recent evidence that carcinoma-associated stromal cells are capable of aerobic metabolism with low glucose consumption, at least partly because of their efficient vascular supply. In the present study, using dynamic contrast-enhanced magnetic resonance imaging and [F-18]fluorodeoxyglucose (FDG) positron emission tomography (PET), we mapped in vivo the vascular supply and glucose metabolism in syngeneic experimental models of carcinoma and mesenchymal tumor. We found that in both tumor histotypes, regions with high vascular perfusion exhibited a significantly lower FDG uptake. This reciprocity was more conspicuous in carcinomas than in mesenchymal tumors, and regions with a high-vascular/low-FDG uptake pattern roughly overlapped with a stromal capsule and intratumoral large connectival septa. Accordingly, mesenchymal tumors exhibited a higher vascular perfusion and a lower FDG uptake than carcinomas. Thus, we provide in vivo evidence of vascular/metabolic reciprocity between epithelial and mesenchymal histotypes in tumors, suggesting a new intriguing aspect of epithelial-stromal interaction. Our results suggests that FDG-PET-based clinical analysis can underestimate the malignity or tumor extension of carcinomas exhibiting any trait of “mesenchymalization” such as desmoplasia or epithelial-mesenchymal transition.

Published
2007

37. Physical training is associated with changes in Nuclear magnetic resonance and morphometrical parameters of the skeletal muscle in senescent mice

Author

Carlo Zancanaro, F. Perdoni, Manuela Malatesta, Elena Nicolato, Raffaella Mariotti, Zancanaro, C, Mariotti, R, Perdoni, F, Nicolato, E, and Malatesta, M

Subjects
Male, medicine.medical_specialty, Pathology, Aging, Sarcopenia, Histology, Magnetic Resonance Spectroscopy, education, Biophysics, Skeletal muscle, Apoptosis, Biology, Muscle hypertrophy, Ageing, Fibre type, Magnetic resonance imaging, Training, Mice, In vivo, Internal medicine, Physical Conditioning, Animal, Myosin, medicine, Animals, Fluorescent Antibody Technique, Indirect, Muscle, Skeletal, lcsh:QH301-705.5, medicine.diagnostic_test, Animal, Apoptosi, Cell Biology, medicine.disease, nuclear magnetic resonance, medicine.anatomical_structure, Endocrinology, Muscle Fibers, Slow-Twitch, lcsh:Biology (General), Physical training, Muscle Fibers, Fast-Twitch, skeletal muscle
Abstract

The effect of a three-month training period on T2 relaxation time as well as on myofibre size and type was investigated in the lower limbs of senescent mice. After training, T2 (which is a magnetic resonance imaging parameter known to increase during acute exercise) was significantly higher in trained mice (36.37+/-1.27 vs 37.76+/-2.06 ms, p=0.003, n=8), whereas no change was found in non-trained animals (36.35+/-1.02 vs 36.24+/-1.15 ms, p=0.278, n=8). The percentage of muscle limb area evaluated in vivo on magnetic resonance images before and after the experimental period was unchanged in trained mice (69.84+/-2.50 vs 70.29+/-2.29, p=0.896, n=3) and decreased in non-trained animals (72.98+/-1.68 vs 64.62+/-2.34, p=0.006, n=3). Cross-sectional area of fast and slow myofibres, evaluated on paraffin-embedded samples after immunolabelling for skeletal fast fibre myosin, was lower in non-trained than in trained mice in both gastrocnemius and quadriceps muscle, but no change in slow/fast fibre ratio nor in apoptotic rate was found. These data show that training can prevent sarcopenia in senescent mice by affecting muscle status and inducing myofibre hypertrophy in the absence of significant muscle damage.

38. Injectable Thermogelling Nanostructured Ink as Simultaneous Optical and Magnetic Resonance Imaging Contrast Agent for Image-Guided Surgery.

Author

Cressoni C, Malandra S, Milan E, Boschi F, Nicolato E, Negri A, Veccia A, Bontempi P, Mangiameli D, Pietrobono S, Melisi D, Marzola P, Antonelli A, and Speghini A

Subjects
Animals, Humans, Surgery, Computer-Assisted methods, Nanostructures chemistry, Hydrogels chemistry, Ink, Mice, Indocyanine Green chemistry, Indocyanine Green administration & dosage, Biocompatible Materials chemistry, Optical Imaging methods, Contrast Media chemistry, Magnetic Resonance Imaging methods
Abstract

The development of efficient and biocompatible contrast agents is particularly urgent for modern clinical surgery. Nanostructured materials raised great interest as contrast agents for different imaging techniques, for which essential features are high contrasts, and in the case of precise clinical surgery, minimization of the signal spatial dispersion when embedded in biological tissues. This study deals with the development of a multimodal contrast agent based on an injectable hydrogel nanocomposite containing a lanthanide-activated layered double hydroxide coupled to a biocompatible dye (indocyanine green), emitting in the first biological window. This novel nanostructured thermogelling hydrogel behaves as an efficient tissue marker for optical and magnetic resonance imaging because the particular formulation strongly limits its spatial diffusion in biological tissue by exploiting a simple injection. The synergistic combination of these properties permits to employ the hydrogel ink simultaneously for both optical and magnetic resonance imaging, easy monitoring of the biological target, and, at the same time, increasing the spatial resolution during a clinical surgery. The biocompatibility and excellent performance as contrast agents are very promising for possible use in image-guided surgery, which is currently one of the most challenging topics in clinical research.

Published
2024
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39. Age-Related In Vivo Structural Changes in the Male Mouse Olfactory Bulb and Their Correlation with Olfactory-Driven Behavior.

Author

Bontempi P, Ricatti MJ, Sandri M, Nicolato E, Mucignat-Caretta C, and Zancanaro C

Abstract

Olfactory areas in mammalian brains are linked to centers that modulate behavior. During aging, sensitivity to odors decreases and structural changes are described in olfactory areas. We explored, in two groups of male mice (young and elderly, 6 and 19 months old, respectively), the link between the changes in olfactory bulb structure, detected with magnetic resonance imaging, and behavioral changes in a battery of tests on motor, olfactory, cognitive performance, and emotional reactivity. The behavioral pattern of elderly mice appears less anxious, being less scared by new situations. Additionally, the olfactory bulb of young and elderly mice differed in two variables derived from magnetic resonance imaging (fractional anisotropy and T2 maps). A random forest approach allowed to select the variables most predictive of the differences between young and elderly mice, and correlations were found between three behavioral variables indicative of anxious behavior and the two magnetic resonance variables mentioned above. These data suggest that in the living mouse, it is possible to describe co-occurring age-related behavioral and structural changes in the olfactory bulb. These data serve as a basis for studies on normal and pathological aging in the mouse, but also open new opportunities for in vivo human aging studies.

Published
2023
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40. Slow versus fast rewarming after hypothermic circulatory arrest: effects on neuroinflammation and cerebral oedema.

Author

Linardi D, Walpoth B, Mani R, Murari A, Tessari M, Hoxha S, Anderloni M, Decimo I, Dolci S, Nicolato E, Bontempi P, Merigo F, Luciani GB, Faggian G, and Rungatscher A

Subjects
Animals, Brain diagnostic imaging, Cardiopulmonary Bypass, Cerebrovascular Circulation, Heart Arrest, Induced, Rats, Rats, Sprague-Dawley, Rewarming, Brain Edema etiology, Hypothermia, Induced
Abstract

Objectives: Among the factors that could determine neurological outcome after hypothermic circulatory arrest (HCA) rewarming is rarely considered. The optimal rewarming rate is still unknown. The goal of this study was to investigate the effects of 2 different protocols for rewarming after HCA on neurological outcome in an experimental animal model., Methods: Forty-four Sprague Dawley rats were cooled to 19 ± 1°C body core temperature by cardiopulmonary bypass (CPB). HCA was maintained for 60 min. Animals were randomized to receive slow (90 min) or fast (45 min) assisted rewarming with CPB to a target temperature of 35°C. After a total of 90 min of reperfusion in both groups, brain samples were collected and analysed immunohistochemically and with immunofluorescence. In 10 rats, magnetic resonance imaging was performed after 2 and after 24 h to investigate cerebral perfusion and cerebral oedema., Results: Interleukin 6, chemokine (C-C motif) ligand 5, intercellular adhesion molecule 1 and tumour necrosis factor α in the hippocampus are significantly less expressed in the slow rewarming group, and microglia cells are significantly less activated in the slow rewarming group. Magnetic resonance imaging analysis demonstrated better cerebral perfusion and less water content in brains that underwent slow rewarming at 2 and 24 h., Conclusions: Slow rewarming after HCA might be superior to fast rewarming in neurological outcome. The present experimental study demonstrated reduction in the inflammatory response, reduction of inflammatory cell activation in the brain, enhancement of cerebral blood flow and reduction of cerebral oedema when slow rewarming was applied., (© The Author(s) 2020. Published by Oxford University Press on behalf of the European Association for Cardio-Thoracic Surgery. All rights reserved.)

Published
2020
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41. Negative Pressure From an Internal Spiral Tissue Expander Generates New Subcutaneous Adipose Tissue in an In Vivo Animal Model.

Author

Rigotti G, Chirumbolo S, Cicala F, Parnigotto PP, Nicolato E, Calderan L, Conti G, and Sbarbati A

Subjects
Adipose Tissue, Animals, Female, Rabbits, Subcutaneous Fat, Tissue Expansion, Tissue Expansion Devices, Breast Implants, Plastic Surgery Procedures
Abstract

Background: Tissue expanders are widely utilized in plastic surgery. Traditional expanders usually are "inflatable balloons," which are planned to grow additional skin and/or to create space to be filled, for example, with an implant. In very recent years, reports suggest that negative pressure created by an external device (ie, Brava) induces both skin expansion and adipogenesis., Objectives: The authors evaluated and assessed the adipogenetic potential of a novel internal tissue expander in an in vivo animal model., Methods: New Zealand female rabbits were enrolled in the study. A prototype spiral inner tissue expander was employed. It consisted of a-dynamic conic expander (DCE) with a valve at the end: when empty, it is flat (Archimedean spiral), whereas when filled with a fluid, it takes a conic shape. Inside the conic spiral, a negative pressure is therefore created. DCE is implanted flat under the latissimus dorsi muscle in experimental animals (rabbit) and then filled to reach the conical shape. Animals were investigated with magnetic resonance imaging, histology, and transmission electronic microscopy at 3, 6, and 12 months., Results: Magnetic resonance imaging revealed a marked increase in newly formed adipose tissue, reaching its highest amount at 12 months after the DCE implantation. Histology confirmed the existence of new adipocytes, whereas transmission electronic microscopy ultrastructure confirmed that most of these new cells were mature adipocytes., Conclusions: Tensile stress, associated with negative-pressure expanders, generated newly white subcutaneous adipose tissue., (© 2019 The Aesthetic Society. Reprints and permission: journals.permissions@oup.com.)

Published
2020
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42. A smaller olfactory bulb in a mouse model of Down syndrome.

Author

Bontempi P, Cisterna B, Malatesta M, Nicolato E, Mucignat-Caretta C, and Zancanaro C

Subjects
Animals, Disease Models, Animal, Down Syndrome genetics, Male, Mice, Mice, Inbred C57BL, Neurodegenerative Diseases genetics, Neurodegenerative Diseases pathology, Down Syndrome pathology, Down Syndrome physiopathology, Olfactory Bulb pathology, Olfactory Bulb physiopathology, Phenotype
Abstract

Persons with trisomy 21 (Down syndrome) present different phenotypes, including early neurodegeneration, which is prominent in the brain olfactory areas, and olfactory deficit. The use of in vivo techniques in animal models allows to characterize and follow up these slowly developing phenomena. We explored by means of magnetic resonance imaging the olfactory bulb of the Ts65Dn mouse, an established model of Down syndrome, searching for possible syndrome‑related changes. In vivo imaging provided a first glimpse of the trisomic olfactory bulb as compared to euploid one. The olfactory bulb volume was smaller in trisomic mice, suggesting that changes in olfactory bulb may be apparent already in the young adult (2‑ to 8‑month‑old) mice, which are amenable to follow‑up in vivo. These findings lead the way to future work aimed at characterizing the Down syndrome‑related development of morphological alterations in the olfactory bulb and relating them to changes in olfactory performance, which were detected in this mouse model.

Published
2020

43. Multifunctional Nanovectors Based on Polyamidoamine Polymers for Theranostic Application.

Author

Arosio P, Albino M, Orsini F, Ferruti P, Manfredi A, Cabrera L, Caneschi A, Marzola P, Tambalo S, Nicolato E, Sangregorio C, Lascialfari A, and Ranucci E

Subjects
Humans, Polyamines, Precision Medicine, Nanoparticles therapeutic use, Polymers
Abstract

We present multifunctional, biocompatible and biodegradable magnetic nanovectors based on different polyamidoamine (PAA) polymers tailored with different diagnostic and therapeutic properties. Using maghemite nanoparticles with average size 15.5 ± 2.8 nm prepared by thermal decomposition, superparamagnetic nanovectors were obtained by coating the nanoparticles with synthetic polymers of PAA. These have a segmented copolymer structure, and bear PAA segments containing different amount of carboxyl groups per repeating units together with PEG segments. These copolymers are thought to combine the binding properties of the carboxylated PAA segments to inorganic nanoparticles, with the stealth properties of the PEG ones. The magnetic, hyperthermal and relaxometric properties of the synthesized samples were investigated. Magnetic measurements revealed that the samples are superparamagnetic at room temperature and the overall magnetic behavior is not affected by the functionalization process. Calorimetric measurements demonstrated a good heating efficiency at alternating magnetic field parameters below the human tolerability threshold (SAR of ca. 70 W/g at 260 Hz and 10.8 kA/m). 1H-NMR relaxivities were relevant compared to the values of the commercial contrast agents over the whole investigated frequency range.

Published
2019
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44. Easy formulation of liposomal doxorubicin modified with a bombesin peptide analogue for selective targeting of GRP receptors overexpressed by cancer cells.

Author

Accardo A, Mannucci S, Nicolato E, Vurro F, Diaferia C, Bontempi P, Marzola P, and Morelli G

Subjects
Animals, Antibiotics, Antineoplastic chemistry, Antibiotics, Antineoplastic pharmacology, Bombesin chemistry, Cell Line, Tumor, Doxorubicin administration & dosage, Doxorubicin chemistry, Doxorubicin pharmacology, Drug Compounding, Female, Gene Expression Regulation, Neoplastic drug effects, Humans, Maleimides chemistry, Neoplasms metabolism, Phosphatidylethanolamines chemistry, Polyethylene Glycols administration & dosage, Polyethylene Glycols chemistry, Polyethylene Glycols pharmacology, Xenograft Model Antitumor Assays, Antibiotics, Antineoplastic administration & dosage, Bombesin analogs & derivatives, Doxorubicin analogs & derivatives, Neoplasms drug therapy, Receptors, G-Protein-Coupled metabolism
Abstract

The article concerns the obtainment of liposomal doxorubicin (Dox) in which liposomes are externally modified with a targeting peptide able to drive the formulation in a selective way on membrane receptors overexpressed in tumors. We developed a kit composed by three different vials: (A) a vial containing a sterile, translucent, red dispersion of the liposomal doxorubicin drug (Doxil®), (B) a vial filled with a lyophilized powder of a modified phospholipid with a reactive function (DSPE-Peg-maleimide), and (C) a vial containing a 1-9 bombesin peptide analogue (Cys-BN-AA1) chemically modified to react in stoichiometric ratio respect to DSPE-Peg-maleimide. The chosen peptide is a stable analogue antagonist of the wild-type 1-9 bombesin peptide; it is very stable in serum; maintains high specificity, with nanomolar affinity, towards gastrin release peptide receptors (GRPRs indicated also as BB2); and is overexpressed in some cancer cells. Results on animal studies clearly indicate that in mice treated with the kit product (i.e., pegylated liposomal Dox modified with the bombesin analogue, Doxil-BN-AA1), tumor growth is reduced, with an improved efficacy respect to mice treated with non-modified pegylated liposomal Dox or with saline solution.

Published
2019
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45. Nanoaggregates of iron poly-oxo-clusters obtained by laser ablation in aqueous solution of phosphonates.

Author

Fracasso G, Ghigna P, Nodari L, Agnoli S, Badocco D, Pastore P, Nicolato E, Marzola P, Mihajlović D, Markovic M, Čolić M, and Amendola V

Abstract

Laser ablation in liquid (LAL) emerged as a versatile technique for the synthesis of nanoparticles with various structures and compositions, although the control over products remains challenging in most cases. For instance, it is still difficult to drive the size of metal oxide crystalline domains down to the level of few atom clusters with LAL. Here we demonstrate that laser ablation of a bulk iron target in aqueous solution of phosphonates gives phosphonate-grafted iron oxo-clusters polymerized into nanoaggregates with Fe:ligand ratio of 2:1, instead of the usual nanocrystalline iron oxides. We attribute this result to the strong ability of phosphonate groups to bind iron oxide clusters and prevent their further growth into crystalline iron oxide. These laser generated poly-oxo-clusters are biocompatible and trackable by magnetic resonance imaging, providing interesting features for use in biological environments, such as nano-vehicles for iron administration. Besides, this method is promising for the generation of atom-scale metal-oxide clusters, which are ubiquitary in chemistry and of interest in biochemistry, catalysis, molecular magnetism and materials science., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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46. Magnetosomes Extracted from Magnetospirillum gryphiswaldense as Theranostic Agents in an Experimental Model of Glioblastoma.

Author

Mannucci S, Tambalo S, Conti G, Ghin L, Milanese A, Carboncino A, Nicolato E, Marinozzi MR, Benati D, Bassi R, Marzola P, and Sbarbati A

Subjects
Animals, Cell Line, Tumor, Disease Models, Animal, Glioblastoma pathology, Magnetic Resonance Imaging, Magnetosomes ultrastructure, Male, Mice, Nude, Temperature, Tumor Burden, Glioblastoma diagnosis, Glioblastoma therapy, Magnetosomes chemistry, Magnetospirillum chemistry, Theranostic Nanomedicine
Abstract

Magnetic fluid hyperthermia (MFH) with chemically synthesized nanoparticles is currently used in clinical trials as it destroys tumor cells with an extremely localized deposition of thermal energy. In this paper, we investigated an MFH protocol based on magnetic nanoparticles naturally produced by magnetotactic bacteria: magnetosomes. The efficacy of such protocol is tested in a xenograft model of glioblastoma. Mice receive a single intratumoral injection of magnetosomes, and they are exposed three times in a week to an alternating magnetic field with concurrent temperature measurements. MRI is used to visualize the nanoparticles and to monitor tumor size before and after the treatment. Statistically significant inhibition of the tumor growth is detected in subjects exposed to the alternating magnetic field compared to control groups. Moreover, thanks to magnetosomes high transversal relaxivity, their effective delivery to the tumor tissue is monitored by MRI. It is apparent that the efficacy of this protocol is limited by inhomogeneous delivery of magnetosomes to tumor tissue. These results suggest that naturally synthesized magnetosomes could be effectively considered as theranostic agent candidates for hyperthermia based on iron oxide nanoparticles.

Published
2018
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47. A SERRS/MRI multimodal contrast agent based on naked Au nanoparticles functionalized with a Gd(iii) loaded PEG polymer for tumor imaging and localized hyperthermia.

Author

Litti L, Rivato N, Fracasso G, Bontempi P, Nicolato E, Marzola P, Venzo A, Colombatti M, Gobbo M, and Meneghetti M

Abstract

Multimodal contrast agents offer new interesting diagnostic possibilities, summing the benefits of multiple imaging techniques. Magnetic resonance and optical imaging are complementary techniques. The first allows total body screening, even though it suffers from low spatial resolution and needs high loadings, whereas the second shows lower penetration, but bright signals, and a higher spatial resolution and needs lower loadings. We present a plasmonic nanosystem as a MRI (magnetic resonance imaging) and SERRS (surface enhanced resonance Raman scattering) multimodal contrast agent. Naked gold nanoparticles, obtained by laser ablation synthesis in solution, are organized as a highly efficient SERRS substrate with a naphthalocyanine reporter and functionalized with a MRI contrast agent with a newly synthesized 3DOTA-PEG polymer, with a high Gd III loading. As a proof of concept, in vivo and ex vivo MRI and SERRS experiments are also performed. The plasmonic property of the nanosystem is then exploited to show its usefulness for localized hyperthermia.

Published
2018
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48. EGFR-Targeted Magnetic Nanovectors Recognize, in Vivo , Head and Neck Squamous Cells Carcinoma-Derived Tumors.

Author

Colecchia D, Nicolato E, Ravagli C, Faraoni P, Strambi A, Rossi M, Doumett S, Mosconi E, Locatelli E, Comes Franchini M, Balzi M, Baldi G, Marzola P, and Chiariello M

Abstract

Head and neck squamous cell carcinomas (HNSCC) are a diverse group of tumors with high morbidity and mortality that have remained mostly unchanged over the past decades. The epidermal growth factor receptor (EGFR) is often overexpressed and activated in these tumors and strongly contributes to their pathogenesis. Still, EGFR-targeted therapies such as monoclonal antibodies and kinase inhibitors have demonstrated only limited improvements in the clinical outcome of this disease. Here, we take advantage of the extraordinary affinity of EGF for its cognate receptor to specifically target magnetite-containing nanoparticles to HNSCC cells and mediate, in vitro , their cellular upload. On the basis of this, we show efficient accumulation, in vivo , of such nanoparticles in subcutaneous xenograft tumor tissues in sufficient amounts to be able to mediate visualization by magnetic resonance imaging. Overall, our EGF-coated nanosystem may warrant, in the near future, novel and very efficient theranostic approaches to HNSCC., Competing Interests: The authors declare no competing financial interest.

Published
2017
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49. Polymer-coated superparamagnetic iron oxide nanoparticles as T 2 contrast agent for MRI and their uptake in liver.

Author

Ali LM, Marzola P, Nicolato E, Fiorini S, Heras Guillamón ML, Piñol R, Gabilondo L, Millán A, and Palacio F

Abstract

Aim: To study the efficiency of multifunctional polymer-based superparamagnetic iron oxide nanoparticles (bioferrofluids) as a T 2 magnetic resonance contrast agent and their uptake and toxicity in liver., Materials & Methods: Mice were intravenously injected with bioferrofluids and Endorem ® . The magnetic resonance efficiency, uptake and in vivo toxicity were investigated by means of magnetic resonance imaging (MRI) and histological techniques., Results: Bioferrofluids are a good T 2 contrast agent with a higher r 2 /r 1 ratio than Endorem. Bioferrofluids have a shorter blood circulation time and persist in liver for longer time period compared with Endorem. Both bioferrofluids and Endorem do not generate any noticeable histological lesions in liver over a period of 60 days post-injection., Conclusion: Our bioferrofluids are powerful diagnostic tool without any observed toxicity over a period of 60 days post-injection., Competing Interests: Financial & competing interests disclosure Financial support from the Spanish Ministry of Science and Innovation research grant MAT2014-54975-R, and from the Programa Operativo FEDER Aragón 2014-2020 ‘Construyendo Europa desde Aragón’, is gratefully acknowledged. Additional support from the Diputación General de Aragón (DGA-M4) is also acknowledged. LMA Ali acknowledges financial support from the Spanish Ministry of Science and Innovation FPI research grants. The Servicio de Experimentación Animal (SAI), and servicio de Microscopia Electrónica de Materiales of Zaragoza University. P Marzola acknowledges financial support from Fondazione Cariverona (Verona, Italy) through the project ‘Verona Nanomedicine Initiative’ and from MIUR through FIRB project RBAP114AMK – RI.NA.ME. ‘Rete Integrata per la Nanomedicina’. The authors have no other relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript apart from those disclosed. This includes employment, consultancies, honoraria, stock ownership or options, expert testimony, grants or patents received or pending, or royalties. No writing assistance was utilized in the production of this manuscript.

Published
2017
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50. Pancreatic cancer growth using magnetic resonance and bioluminescence imaging.

Author

Ritelli R, Ngalani Ngaleu R, Bontempi P, Dandrea M, Nicolato E, Boschi F, Fiorini S, Calderan L, Scarpa A, and Marzola P

Subjects
Animals, Cell Line, Tumor, Disease Models, Animal, Female, Humans, Mice, Mice, Nude, Neoplasms, Experimental, Luminescent Measurements, Magnetic Resonance Imaging, Pancreatic Neoplasms diagnosis
Abstract

Object: Pancreatic cancer is one of the most lethal human cancer and appropriate experimental tumor models are needed for the development of innovative therapeutic approaches. This paper describes an experimental model of human pancreatic cancer and a related non invasive imaging technique suitable for monitoring tumor growth and metastatization. The aim of the work was the implementation of an experimental platform suitable for assessing the efficacy of new therapeutic agents., Materials and Methods: Human pancreatic cancer cells (PANC-1-Luc+) were injected into the pancreas of female athymic CD1 mice. Magnetic Resonance Imaging (MRI) at 4.7T and Bioluminescence Imaging (BLI) were performed in each mouse at three time points after cell inoculation (1, 2 and 3months). Two groups of mice were studied: the first group of n=13 mice in which 5*10(6) cells were injected and the second group of n=10 mice in which 2*10(6) cells were injected. MRI examination included T2w acquisitions and (at the last time point) Dynamic-contrast-enhanced-MRI (DCE-MRI)., Results: Each mouse underwent three longitudinal MRI and BLI examinations. BLI was more sensitive than MRI producing higher detection rate at early time points. Moreover in one case of abdominal dissemination of pancreatic tumor cells, small tumoral masses were detected by BLI and not detected by MRI. However BLI appears more prone to experimental error most likely due to photon attenuation. In 4 mice BLI produced false negative results. DCE-MRI experiments providing information on tumor perfusion were conducted successfully in this anatomical district and demonstrated that the tumor tissues from the second experimental group are more vascularized compared to the first group., Conclusion: The present study performed on the experimental model of pancreatic cancer here described shows that MRI and BLI are complementary techniques and that synergistic application of both can overcome the intrinsic limitations of each., (Copyright © 2015. Published by Elsevier Inc.)

Published
2015
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