Your search keyword '"Carla Carrera"' showing total 45 results

1. Bi-HPDO3A as a novel contrast agent for X-ray computed tomography

Author

Rebecca Rizzo, Martina Capozza, Carla Carrera, and Enzo Terreno

Subjects

Medicine, Science

Abstract

Abstract A new bismuth-based CT agent was synthesized through a facile synthesis strategy. The in vitro stability, toxicity and CT performance were evaluated. The in vivo imaging performance was investigated using three different doses (0.5, 1.2 and 5 mmol/kg) and the result obtained at 1.2 mmol/kg was compared with the clinically approved CT agent iopamidol at the same dosage.

Published

2023

2. In-vitro NMR Studies of Prostate Tumor Cell Metabolism by Means of Hyperpolarized [1-13C]Pyruvate Obtained Using the PHIP-SAH Method

Author

Eleonora Cavallari, Carla Carrera, Ginevra Di Matteo, Oksana Bondar, Silvio Aime, and Francesca Reineri

Subjects

nuclear magnetic resonance, pyruvate, hyperpolarization, para-hydrogen, metabolism, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Nuclear Magnetic Resonance allows the non-invasive detection and quantitation of metabolites to be carried out in cells and tissues. This means that that metabolic changes can be revealed without the need for sample processing and the destruction of the biological matrix. The main limitation to the application of this method to biological studies is its intrinsic low sensitivity. The introduction of hyperpolarization techniques and, in particular, of dissolution-Dynamic Nuclear Polarization (d-DNP) and ParaHydrogen Induced Polarization (PHIP) is a significant breakthrough for the field as the MR signals of molecules and, most importantly, metabolites, can be increased by some orders of magnitude. Hyperpolarized pyruvate is the metabolite that has been most widely used for the investigation of metabolic alterations in cancer and other diseases. Although d-DNP is currently the gold-standard hyperpolarization method, its high costs and intrinsically slow hyperpolarization procedure are a hurdle to the application of this tool. However, PHIP is cost effective and fast and hyperpolarized pyruvate can be obtained using the so-called Side Arm Hydrogenation approach (PHIP-SAH). The potential toxicity of a solution of the hyperpolarized metabolite that is obtained in this way is presented herein. HP pyruvate has then been used for metabolic studies on different prostate cancer cells lines (DU145, PC3, and LnCap). The results obtained using the HP metabolite have been compared with those from conventional biochemical assays.

Published

2020

3. Relaxometric Studies of Gd-Chelate Conjugated on the Surface of Differently Shaped Gold Nanoparticles

Author

Parisa Fatehbasharzad, Rachele Stefania, Carla Carrera, Ivan Hawala, Daniela Delli Castelli, Simona Baroni, Miriam Colombo, Davide Prosperi, and Silvio Aime

Subjects

gold nanoparticle, concave cube, MRI, contrast agent, gadolinium, Chemistry, QD1-999

Abstract

Nowadays, magnetic resonance imaging (MRI) is one of the key, noninvasive modalities to detect and stage cancer which benefits from contrast agents (CA) to differentiate healthy from tumor tissue. An innovative class of MRI CAs is represented by Gd-loaded gold nanoparticles. The size, shape and chemical functionalization of Gd-loaded gold nanoparticles appear to affect the observed relaxation enhancement of water protons in their suspensions. The herein reported results shed more light on the determinants of the relaxation enhancement brought by Gd-loaded concave cube gold nanoparticles (CCGNPs). It has been found that, in the case of nanoparticles endowed with concave surfaces, the relaxivity is remarkably higher compared to the corresponding spherical (i.e., convex) gold nanoparticles (SPhGNPs). The main determinant for the observed relaxation enhancement is represented by the occurrence of a large contribution from second sphere water molecules which can be exploited in the design of high-efficiency MRI CA.

Published

2020

4. Effect of the hydrogenation solvent in the PHIP-SAH hyperpolarization of [1-13C]pyruvate

Author

Silvio Aime, Carla Carrera, Oksana Bondar, Francesca Reineri, and Eleonora Cavallari

Subjects

Pyruvate, Parahydrogen, Chloroform, Aqueous solution, Inorganic chemistry, General Chemistry, Toluene, NMR, Catalysis, Solvent, chemistry.chemical_compound, Hyperpolarization, Sodium pyruvate, chemistry, Acetone, Hyperpolarization (physics)

Abstract

ParaHydrogen Induced Polarization-Side Arm Hydrogenation (PHIP-SAH) is an inexpensive tool to obtain hyperpolarized pyruvate (and other metabolites) that can be applied to in vivo diagnostics, for the investigation of metabolic processes. This method is based on hydrogenation, using hydrogen enriched in the para-isomer, of unsaturated substrates, catalyzed, usually, by a homogeneous rhodium(I) complex. In this work, the effect of the solvent on the hydrogenation efficiency and the hyperpolarization level were investigated. Coordinating solvents, such as acetone and methanol, can increase significantly either the efficiency or the hyperpolarization level, but they are not compatible with the intended metabolic applications. The phase extraction of the hyperpolarized product (sodium pyruvate) in an aqueous solution was obtained carrying out the hydrogenation reaction in chloroform and toluene. The traces of the organic solvents in the water phase were removed, by means of filtration through a lipophilic resin, thus improving the biocompatibility of the aqueous solution of the hyperpolarized product.

Published

2022

5. Glycol Chitosan Functionalized with a Gd(III) Chelate as a Redox‐responsive Magnetic Resonance Imaging Probe to Label Cell Embedding Alginate Capsules

Author

Giuseppe Digilio, Valeria Catanzaro, Malvina Koni, Sergio Padovan, Cristina Grange, and Carla Carrera

Subjects

Chitosan, Alginates, Gadolinium, MRI contrast agent, Organic Chemistry, Contrast Media, chemistry.chemical_element, Lumen (anatomy), Capsules, General Chemistry, Conjugated system, Magnetic Resonance Imaging, Catalysis, chemistry.chemical_compound, chemistry, Biophysics, Extracellular, Chelation, Cell encapsulation, Oxidation-Reduction

Abstract

One possibility for the non-invasive imaging of encapsulated cell grafts is to label the lumen of cell embedding capsules with a redox-responsive probe, as an increased extracellular reducing potential can be considered as a marker of hypoxia-induced necrosis. A Gd(III)-HPDO3A-like chelate has been conjugated to glycol-chitosan through a redox-responsive disulphide bond to obtain a contrast agent for Magnetic Resonance Imaging (MRI). Such a compound can be interspersed with fibroblasts within the lumen of alginate-chitosan capsules. Increasing reducing conditions within the extracellular microenvironment lead to the reductive cleavage of the disulphide bond and to the release of gadolinium in the form of a low molecular weight, non-ionic chelate. The efflux of such chelate from capsules is readily detected by a decrease of contrast enhancement in T 1 -weighted MR images.

Published

2021

6. H-Bonding and intramolecular catalysis of proton exchange affect the CEST properties of Eu

Author

Simona, Baroni, Irene Maria, Carnovale, Carla, Carrera, Mariangela, Boccalon, Nicol, Guidolin, Nicola, Demitri, Luciano, Lattuada, Fabio, Tedoldi, Zsolt, Baranyai, and Silvio, Aime

Abstract

Eu(HP-DO3A) is present in solution as a mixture of two diastereoisomers whose alcoholic groups are the source of the mobile protons for the CEST effect. The exchange is base catalyzed. Two novel Eu

Published

2021

7. ParaHydrogen Polarized Ethyl-[1-13 C]pyruvate in Water, a Key Substrate for Fostering the PHIP-SAH Approach to Metabolic Imaging

Author

Eleonora Cavallari, Oksana Bondar, Francesca Reineri, Giuseppe Digilio, Silvio Aime, and Carla Carrera

Subjects

Magnetic Resonance Spectroscopy, pyruvate, 02 engineering and technology, 010402 general chemistry, Spin isomers of hydrogen, 01 natural sciences, Esterase, Medicinal chemistry, Article, Catalysis, chemistry.chemical_compound, Very Important Paper, Hyperpolarization (physics), Physical and Theoretical Chemistry, Pyruvates, hyperpolarization, Carbon Isotopes, Aqueous solution, Molecular Structure, Chemistry, Water, Substrate (chemistry), Articles, Metabolism, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, nuclear magnetic resonance, para-hydrogen, Hydrogenation, 0210 nano-technology, Derivative (chemistry), Hydrogen

Abstract

An efficient synthesis of vinyl‐[1‐13C]pyruvate has been reported, from which 13C hyperpolarized (HP) ethyl‐[1‐13C]pyruvate has been obtained by means of ParaHydrogen Induced Polarization (PHIP). Due to the intrinsic lability of pyruvate, which leads quickly to degradation of the reaction mixture even under mild reaction conditions, the vinyl‐ester has been synthesized through the intermediacy of a more stable ketal derivative. 13C and 1H hyperpolarizations of ethyl‐[1‐13C]pyruvate, hydrogenated using ParaHydrogen, have been compared to those observed on the more widely used allyl‐derivative. It has been demonstrated that the spin order transfer from ParaHydrogen protons to 13C, is more efficient on the ethyl than on the allyl‐esterdue to the larger J‐couplings involved. The main requirements needed for the biological application of this HP product have been met, i. e. an aqueous solution of the product at high concentration (40 mM) with a good 13C polarization level (4.8 %) has been obtained. The in vitro metabolic transformation of the HP ethyl‐[1‐13C]pyruvate, catalyzed by an esterase, has been observed. This substrate appears to be a good candidate for in vivo metabolic investigations using PHIP hyperpolarized probes., 13C hyperpolarized ethyl‐[1‐13C]pyruvate by means of PHIP‐SAH: Vinyl‐[1‐13C]pyruvate has been prepared on laboratory scale through a new synthesis route. After its hydrogenation with p‐H2 and magnetization transfer (via MFC), polarized ethyl‐[1‐13C]pyruvate has been obtained in aqueous solution at high concentration (40 mM) and good polarization level (4.8 %). In the end, the in‐vitro conversion of HP ethyl‐[1‐13C]pyruvate into [1‐13C]pyruvate catalysed by an esterase, has been observed.

Published

2021

8. Singlet‐Contrast Magnetic Resonance Imaging: Unlocking Hyperpolarization with Metabolism

Author

Stephan Knecht, Silvio Aime, Laurynas Dagys, Dmitry Budker, Francesca Reineri, Gerd Buntkowsky, Eleonora Cavallari, Carla Carrera, Raphael Kircher, Kerstin Münnemann, Ginevra Di Matteo, Malcolm H. Levitt, Konstantin L. Ivanov, and James Eills

Subjects

Hydrogen, chemistry.chemical_element, Hyperpolarization, MRI, Metabolism, NMR, parahydrogen, singlet order, 010402 general chemistry, Spin isomers of hydrogen, 01 natural sciences, Chemical reaction, Catalysis, Nuclear magnetic resonance, medicine, Molecule, Singlet state, Hyperpolarization (physics), Research Articles, medicine.diagnostic_test, 010405 organic chemistry, Chemistry, Magnetic resonance imaging, Magnetic Resonance Imaging | Hot Paper, General Chemistry, 0104 chemical sciences, ddc:540, Research Article

Abstract

Hyperpolarization‐enhanced magnetic resonance imaging can be used to study biomolecular processes in the body, but typically requires nuclei such as 13C, 15N, or 129Xe due to their long spin‐polarization lifetimes and the absence of a proton‐background signal from water and fat in the images. Here we present a novel type of 1H imaging, in which hyperpolarized spin order is locked in a nonmagnetic long‐lived correlated (singlet) state, and is only liberated for imaging by a specific biochemical reaction. In this work we produce hyperpolarized fumarate via chemical reaction of a precursor molecule with para‐enriched hydrogen gas, and the proton singlet order in fumarate is released as antiphase NMR signals by enzymatic conversion to malate in D2O. Using this model system we show two pulse sequences to rephase the NMR signals for imaging and suppress the background signals from water. The hyperpolarization‐enhanced 1H‐imaging modality presented here can allow for hyperpolarized imaging without the need for low‐abundance, low‐sensitivity heteronuclei., A proton singlet state on fumarate derived from parahydrogen can be broken by enzymatic conversion to malate, which releases hyperpolarized NMR signals. We demonstrate two “out‐of‐phase echo” pulse sequences to convert the I 1z I 2z state into net proton magnetization, and show how this can be used for hyperpolarized 1H imaging.

Published

2021

9. H-Bonding and intramolecular catalysis of proton exchange affect the CEST properties of EuIIIcomplexes with HP-DO3A-like ligands

Author

Nicola Demitri, Simona Baroni, Fabio Tedoldi, Irene Maria Carnovale, Nicol Guidolin, Mariangela Boccalon, Carla Carrera, Silvio Aime, Zsolt Baranyai, and Luciano Lattuada

Subjects

H-bonding, Base (chemistry), Proton, 010402 general chemistry, 01 natural sciences, Catalysis, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Polymer chemistry, Materials Chemistry, Carboxylate, chemistry.chemical_classification, intramolecular catalysis, Chemistry, Hydrogen bond, Metals and Alloys, Diastereomer, General Chemistry, CEST, Europium complex, H-bonding, intramolecular catalysis, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Intramolecular force, Ceramics and Composites, CEST, Europium complex

Abstract

Eu(HP-DO3A) is present in solution as a mixture of two diastereoisomers whose alcoholic groups are the source of the mobile protons for the CEST effect. The exchange is base catalyzed. Two novel EuIII complexes of HP-DO3A-like ligands containing an amino or a carboxylate functionality in the proximity of the -OH groups showed the occurrence of intramolecular catalysis of the prototropic exchange. New insights into the role of the intramolecular proton exchange on the CEST properties have been gained.

Published

2021

10. An albumin-binding Gd-HPDO3A contrast agent for improved intravascular retention

Author

Silvio Aime, Eliana Gianolio, Carla Carrera, Fabio Travagin, Eleonora Cavallari, Louise Rachel Tear, Claudia Calcagno, and Chetan Dhakan

Subjects

Gadolinium, media_common.quotation_subject, Albumin, chemistry.chemical_element, Water exchange, 010402 general chemistry, Human serum albumin, 01 natural sciences, 030218 nuclear medicine & medical imaging, 0104 chemical sciences, Inorganic Chemistry, 03 medical and health sciences, 0302 clinical medicine, chemistry, Murine tumor, In vivo, medicine, Biophysics, Contrast (vision), Distribution (pharmacology), medicine.drug, media_common

Abstract

Gadolinium contrast agents that bind to human serum albumin (HSA) can achieve significantly higher relaxivity values and show improved vascular retention time. Most contrast agents of this design are linear agents, which have demonstrated lower kinetic stability and can cause gadolinium deposition. However, the macrocyclic agent Gd-HPDO3A has been found to display the lowest levels of gadolinium retention in the body and therefore demonstrates a useful contrast agent scaffold. We studied the properties of the first Gd-HPDO3A HSA-binding contrast agent, including analysis of isomer composition, water-exchange rates, relaxivity profiles, and in vivo distribution. The relaxivity values of the complex were found to be limited by the slow water exchange rate and reduced hydration state of the albumin-bound complex, compared to previous albumin-binding agents. However, the complex displayed significantly enhanced vascular retention time, which allows for a longer imaging window, and showed enhanced contrast efficiency in a murine tumor model and in mouse models for stable and vulnerable atherosclerotic plaques. This complex therefore presents the opportunity to utilise the benefits of the Gd-HPDO3A structure in blood-pool imaging.

Published

2021

11. Hydrogenative-PHIP polarized metabolites for biological studies

Author

Eleonora Cavallari, Carla Carrera, Silvio Aime, and Francesca Reineri

Subjects

Biological studies, Radiological and Ultrasound Technology, Hydrogen, 010405 organic chemistry, Chemistry, Biophysics, Substrate (chemistry), chemistry.chemical_element, Review, 010402 general chemistry, Spin isomers of hydrogen, 01 natural sciences, Combinatorial chemistry, NMR, 0104 chemical sciences, Catalysis, Hyperpolarization, Metabolism, Molecule, Radiology, Nuclear Medicine and imaging, Para-hydrogen, Hydrogenation

Abstract

ParaHydrogen induced polarization (PHIP) is an efficient and cost-effective hyperpolarization method, but its application to biological investigations has been hampered, so far, due to chemical challenges. PHIP is obtained by means of the addition of hydrogen, enriched in the para-spin isomer, to an unsaturated substrate. Both hydrogen atoms must be transferred to the same substrate, in a pairwise manner, by a suitable hydrogenation catalyst; therefore, a de-hydrogenated precursor of the target molecule is necessary. This has strongly limited the number of parahydrogen polarized substrates. The non-hydrogenative approach brilliantly circumvents this central issue, but has not been translated to in-vivo yet. Recent advancements in hydrogenative PHIP (h-PHIP) considerably widened the possibility to hyperpolarize metabolites and, in this review, we will focus on substrates that have been obtained by means of this method and used in vivo. Attention will also be paid to the requirements that must be met and on the issues that have still to be tackled to obtain further improvements and to push PHIP substrates in biological applications.

Published

2021

12. Singlet-Contrast Magnetic Resonance Imaging

Author

Stephan Knecht, Raphael Kircher, Di Matteo G, Kerstin Münnemann, Laurynas Dagys, Dmitry Budker, James Eills, Francesca Reineri, Eleonora Cavallari, Konstantin L. Ivanov, Gerd Buntkowsky, Carla Carrera, Malcolm H. Levitt, and Silvio Aime

Subjects

Physics, Text mining, Nuclear magnetic resonance, medicine.diagnostic_test, business.industry, media_common.quotation_subject, medicine, Contrast (vision), Magnetic resonance imaging, Singlet state, business, media_common

Abstract

Hyperpolarization-enhanced magnetic resonance imaging can be used to study biomolecular processes in the body, but typically requires nuclei such as 13C, 15N, or 129Xe due to their long spin‑polarization lifetimes and the absence of a proton‑background signal from water and fat in the images. Here we present a novel type of 1H imaging, in which hyperpolarized spin order is locked in a nonmagnetic long-lived correlated (singlet) state, and is only liberated for imaging by a specific biochemical reaction. In this work we produce hyperpolarized fumarate via chemical reaction of a precursor molecule with para-enriched hydrogen gas, and the proton singlet order in fumarate is released as antiphase NMR signals by enzymatic conversion to malate in D2O. Using this model system we show two pulse sequences to rephase the NMR signals for imaging and suppress the background signals from water. The hyperpolarization-enhanced 1H‑imaging modality presented here can allow for hyperpolarized imaging without the need for low‑abundance, low‑sensitivity heteronuclei.

Published

2020

13. Relaxometric Studies of Gd-Chelate Conjugated on the Surface of Differently Shaped Gold Nanoparticles

Author

Carla Carrera, Miriam Colombo, Ivan Hawala, Simona Baroni, Silvio Aime, Rachele Stefania, Daniela Delli Castelli, Davide Prosperi, Parisa Fatehbasharzad, Fatehbasharzad, P, Stefania, R, Carrera, C, Hawala, I, Castelli, D, Baroni, S, Colombo, M, Prosperi, D, and Aime, S

Subjects

Concave cube, Contrast agent, Gadolinium, Gold nanoparticle, MRI, Materials science, medicine.diagnostic_test, General Chemical Engineering, Relaxation (NMR), chemistry.chemical_element, Nanoparticle, Magnetic resonance imaging, Conjugated system, contrast agent, Article, lcsh:Chemistry, Nuclear magnetic resonance, chemistry, lcsh:QD1-999, Colloidal gold, medicine, Molecule, General Materials Science, Chelation, gadolinium, gold nanoparticle, concave cube

Abstract

Nowadays, magnetic resonance imaging (MRI) is one of the key, noninvasive modalities to detect and stage cancer which benefits from contrast agents (CA) to differentiate healthy from tumor tissue. An innovative class of MRI CAs is represented by Gd-loaded gold nanoparticles. The size, shape and chemical functionalization of Gd-loaded gold nanoparticles appear to affect the observed relaxation enhancement of water protons in their suspensions. The herein reported results shed more light on the determinants of the relaxation enhancement brought by Gd-loaded concave cube gold nanoparticles (CCGNPs). It has been found that, in the case of nanoparticles endowed with concave surfaces, the relaxivity is remarkably higher compared to the corresponding spherical (i.e., convex) gold nanoparticles (SPhGNPs). The main determinant for the observed relaxation enhancement is represented by the occurrence of a large contribution from second sphere water molecules which can be exploited in the design of high-efficiency MRI CA.

Published

2020

14. In-vitro NMR Studies of Prostate Tumor Cell Metabolism by Means of Hyperpolarized [1-13C]Pyruvate Obtained Using the PHIP-SAH Method

Author

Silvio Aime, Eleonora Cavallari, Francesca Reineri, Ginevra Di Matteo, Carla Carrera, and Oksana Bondar

Subjects

0301 basic medicine, Cancer Research, Metabolite, pyruvate, hyperpolarization, metabolism, nuclear magnetic resonance, para-hydrogen, lcsh:RC254-282, 03 medical and health sciences, chemistry.chemical_compound, Prostate cancer, 0302 clinical medicine, DU145, Prostate, LNCaP, medicine, Hyperpolarization (physics), Original Research, Chemistry, Metabolism, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, In vitro, 030104 developmental biology, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Biophysics

Abstract

Nuclear Magnetic Resonance allows the non-invasive detection and quantitation of metabolites to be carried out in cells and tissues. This means that that metabolic changes can be revealed without the need for sample processing and the destruction of the biological matrix. The main limitation to the application of this method to biological studies is its intrinsic low sensitivity. The introduction of hyperpolarization techniques and, in particular, of dissolution-Dynamic Nuclear Polarization (d-DNP) and ParaHydrogen Induced Polarization (PHIP) is a significant breakthrough for the field as the MR signals of molecules and, most importantly, metabolites, can be increased by some orders of magnitude. Hyperpolarized pyruvate is the metabolite that has been most widely used for the investigation of metabolic alterations in cancer and other diseases. Although d-DNP is currently the gold-standard hyperpolarization method, its high costs and intrinsically slow hyperpolarization procedure are a hurdle to the application of this tool. However, PHIP is cost effective and fast and hyperpolarized pyruvate can be obtained using the so-called Side Arm Hydrogenation approach (PHIP-SAH). The potential toxicity of a solution of the hyperpolarized metabolite that is obtained in this way is presented herein. HP pyruvate has then been used for metabolic studies on different prostate cancer cells lines (DU145, PC3, and LnCap). The results obtained using the HP metabolite have been compared with those from conventional biochemical assays.

Published

2020

15. SALUD BUCAL: ALTERNATIVAS DE TRATAMIENTOS EN PACIENTES CON MALOCLUSIÓN CLASE III

Author

William Ubilla Mazzini, Carla Carrera Castro, Joseline Mena Cordovez, and Erika Tovar Gavilanes

Subjects

Camuflaje, maloclusión, clase III, ortodoncia, ortognática

Abstract

El propósito de esta revisión de la bibliografía es mencionar y dar a conocer las alternativas de tratamiento en pacientes con una maloclusión clase III, por lo que se realizó una revisión de reportes de casos científicos que tengan como problema esta maloclusión y sus tratamientos para clasificarlos uno por uno y determinar las diferentes etiologías, diagnostico, terapia, y pronostico. Así concluyendo que se debe realizar un excelente y correcto diagnóstico para poder enfocar un plan de tratamiento adecuado para cada caso originarios, es decir de acuerdo a lo que desencadena el problema ver si es viable utilizar solo ortodoncia si el origen es solo dental, la combinación de ortodoncia y aparatología ortopédica si el problema es de origen esqueletal, la combinación de ortodoncia y ortognática o una vía camuflaje si la maloclusión ya ha finalizado con el crecimiento del paciente, o tratamientos no quirúrgicos si existe algún otra etiología de la maloclusión.

Published

2020

16. ParaHydrogen Hyperpolarized Substrates for Molecular Imaging Studies

Author

Eleonora Cavallari, Francesca Reineri, and Carla Carrera

Subjects

010405 organic chemistry, Chemistry, pyruvate, Chemistry (all), parahydrogen, Nanotechnology, General Chemistry, Polarizer, 010402 general chemistry, Spin isomers of hydrogen, 01 natural sciences, Induced polarization, 0104 chemical sciences, law.invention, Hyperpolarization, metabolism, MRI, law, Hyperpolarization (physics), Molecular imaging

Abstract

Parahydrogen induced polarization (PHIP) is a chemistry based, cheap and easy to handle hyperpolarization method that allows to increase the sensitivity of magnetic resonance signals of several orders of magnitude. This powerful tool has not coalesced in the field of biomedical studies due to the lack of suitable hyperpolarization substrates, of commercial parahydrogen polarizers and to the presence of metal complex in the solutions of products. Here is reported an overview of the recent advances in these fields, with particular attention to the issues that have been tackled in order to allow the translation of parahydrogen based hyperpolarization methods into a widely applicable molecular imaging tool for biomedical research.

Published

2017

17. Towards an Improved Design of MRI Contrast Agents: Synthesis and Relaxometric Characterisation of Gd-HPDO3A Analogues

Author

Carla Carrera, Silvio Aime, Louise Rachel Tear, and Eliana Gianolio

Subjects

Lanthanide, Steric effects, Relaxometry, Gadolinium, relaxometry, chemistry.chemical_element, Contrast Media, 010402 general chemistry, 01 natural sciences, Lanthanoid Series Elements, Catalysis, chemistry.chemical_compound, Europium, Heterocyclic Compounds, MRI contrast agents, Organometallic Compounds, Moiety, lanthanides, gadolinium, macrocycles, Kinetics, Magnetic Resonance Imaging, Water, 010405 organic chemistry, Organic Chemistry, Relaxation (NMR), General Chemistry, Combinatorial chemistry, 0104 chemical sciences, chemistry, Methyl group

Abstract

The properties of LnIII -HPDO3A complexes as relaxation enhancers and paraCEST agents are essentially related to the hydroxylpropyl moiety. A series of three HPDO3A derivatives, with small modifications to the hydroxyl arm, were herein investigated to understand how heightened control can be gained over the parameters involved in the design of these agents. A full 1 H and 17 O-NMR relaxometric analysis was conducted and demonstrated that increasing the length of the OH group from the lanthanide centre significantly enhanced the water exchange rate of the gadolinium complex, but with a subsequent reduction in kinetic stability. Alternatively, the introduction of an additional methyl group, which increased the steric bulk around the OH moiety, resulted in the formation of almost exclusively the TSAP isomer (95 %) as identified by 1 H-NMR of the europium complex. The gadolinium analogue of this complex also exhibited a very fast water exchange rate, but with no detectable loss of kinetic stability. This complex therefore demonstrates a notable improvement over Gd-HPDO3A.

Published

2020

18. Real-Time Nuclear Magnetic Resonance Detection of Fumarase Activity Using Parahydrogen-Hyperpolarized [1

Author

James, Eills, Eleonora, Cavallari, Carla, Carrera, Dmitry, Budker, Silvio, Aime, and Francesca, Reineri

Subjects

Carbon Isotopes, Time Factors, Fumarates, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Fumarate Hydratase

Abstract

Hyperpolarized fumarate can be used as a probe of real-time metabolism in vivo, using carbon-13 magnetic resonance imaging. Dissolution dynamic nuclear polarization is commonly used to produce hyperpolarized fumarate, but a cheaper and faster alternative is to produce hyperpolarized fumarate via PHIP (parahydrogen-induced polarization). In this work, we trans-hydrogenate [1

Published

2019

19. Real Time Nuclear Magnetic Resonance Detection of Fumarase Activity using Parahydrogen-Hyperpolarized [1-13C]fumarate

Author

Francesca Reineri, Silvio Aime, Dmitry Budker, James Eills, Eleonora Cavallari, and Carla Carrera

Subjects

Magnetization, chemistry.chemical_compound, Proton, Hydrogen, chemistry, Acetylene, Yield (chemistry), chemistry.chemical_element, Spin isomers of hydrogen, Photochemistry, Polarization (electrochemistry), Catalysis

Abstract

Hyperpolarized fumarate can be used as a probe of real-time metabolism in vivo, using carbon-13 magnetic resonance imaging. Dissolution dynamic nuclear polarization is commonly used to produce hyperpolarized fumarate, but a cheaper and faster alternative is to produce hyperpolarized fumarate via PHIP (parahydrogen induced polarization). In this work we trans-hydrogenate [1-13C]acetylene dicarboxylate with para-enriched hydrogen using a commercially available Ru catalyst in water to produce hyperpolarized [1-13C]fumarate. We show that fumarate is produced in 89% yield, with succinate as a side product in 11% yield. The proton polarization is converted into 13C magnetization using a constant adiabaticity field cycle, and a polarization level of 25% is achieved using 86% para-enriched hydrogen gas. We inject the hyperpolarized [1-13C]fumarate into cell suspensions and track the metabolism. This work opens the path to greatly accelerated preclinical studies using fumarate as a biomarker.

Published

2019

20. Development and characterization of lanthanide-HPDO3A-C16-based micelles as CEST-MRI contrast agents

Author

Silvio Aime, Enzo Terreno, Carla Carrera, Daniela Delli Castelli, Giuseppe Ferrauto, Frederik Beauprez, and Enza Di Gregorio

Subjects

chemistry.chemical_classification, Lanthanide, 010405 organic chemistry, Ligand, 010402 general chemistry, 01 natural sciences, Micelle, Combinatorial chemistry, 0104 chemical sciences, Characterization (materials science), Inorganic Chemistry, Paramagnetism, chemistry, Amphiphile, Molecule, Alkyl

Abstract

The synthesis and characterization of a novel HPDO3A-based ligand having a C16 alkyl chain and its Eu3+, Gd3+ and Yb3+ complexes are reported. These amphiphilic paramagnetic complexes can form micelles with very good stability both in phosphate buffer and in human serum. A high number of Ln-complexes (ca. 200 molecules) are present in the micelle, providing this system with good sensitivity (μM in terms of micelle concentration) for MRI detection. Moreover, it has been found that the cell toxicity of the micelles may be reduced by adding DSPE-PEG2000 in the formulation. Both relaxometric and CEST properties of the micelles were investigated in detail. The micelles loaded with Eu- and Yb-HPDO3A complexes, similar to what was reported for the water-soluble analogs, act as pH-sensors and appear to be suitable for CEST multicolor experiments.

Published

2019

21. Cover Feature: ParaHydrogen Polarized Ethyl‐[1‐ 13 C]pyruvate in Water, a Key Substrate for Fostering the PHIP‐SAH Approach to Metabolic Imaging (11/2021)

Author

Francesca Reineri, Eleonora Cavallari, Oksana Bondar, Giuseppe Digilio, Silvio Aime, and Carla Carrera

Subjects

Chemistry, Metabolic imaging, Biophysics, Substrate (chemistry), Hyperpolarization (physics), Physical and Theoretical Chemistry, Spin isomers of hydrogen, Atomic and Molecular Physics, and Optics

Published

2021

22. 13C MR Hyperpolarization of Lactate by Using ParaHydrogen and Metabolic Transformation in Vitro

Author

Francesca Reineri, Carla Carrera, Eleonora Cavallari, and Silvio Aime

Subjects

Ester derivatives, Lysis, 010405 organic chemistry, Chemistry, Organic Chemistry, lactate dehydrogenase, Nanotechnology, General Chemistry, 010402 general chemistry, Spin isomers of hydrogen, 01 natural sciences, pyruvates, Catalysis, In vitro, 0104 chemical sciences, Metabolic conversion, chemistry.chemical_compound, NMR spectroscopy, Lactate dehydrogenase, Biophysics, metabolism, Hyperpolarization (physics)

Abstract

Hyperpolarization of the 13C magnetic resonance signal of L-[1-13C]Lactate has been obtained using the chemically based, cost-effective method named ParaHydrogen Induced Polarization by means of Side Arm Hydrogenation (PHIP-SAH). Two ester derivatives of lactate have been tested and the factors that determine the polarization level on the product have been investigated into details. The metabolic conversion of hyperpolarized L-[1-13C]Lactate into Pyruvate has been observed in vitro using lactate dehydrogenase (LDH) and in a cells lysate. From the acquisition of a series of 13C-NMR spectra, the metabolic build-up of the [1-13C]Pyruvate signal has been observed. These studies demonstrate that, even if the experimental set-up used for these PHIP-SAH hyperpolarization studies is still far from optimal, the attained polarization level is already sufficient to carry out in vitro metabolic studies.

Published

2016

23. Gadolinium-Decorated Silica Microspheres as Redox-Responsive MRI Probes for Applications in Cell Therapy Follow-Up

Author

Stefano Porta, Giuseppe Digilio, Cristina Grange, Carla Carrera, Valeria Catanzaro, Sergio Padovan, Monica Muñoz Úbeda, Fabio Carniato, and Lorenzo Tei

Subjects

silica microspheres, Cell Survival, Surface Properties, Silicon dioxide, Gadolinium, Cell, Cell- and Tissue-Based Therapy, Contrast Media, chemistry.chemical_element, Biocompatible Materials, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Redox, Catalysis, Cell Line, Cell therapy, chemistry.chemical_compound, Hyaluronic acid, cellular imaging, medicine, Humans, magnetic resonance imaging, Disulfides, Hyaluronic Acid, Cell Proliferation, Cell growth, Chemistry (all), Organic Chemistry, Hydrogels, General Chemistry, Silicon Dioxide, 021001 nanoscience & nanotechnology, Microspheres, 0104 chemical sciences, medicine.anatomical_structure, chemistry, Self-healing hydrogels, Collagen, redox-responsive, gadolinium, 0210 nano-technology, Oxidation-Reduction, Porosity, Biomedical engineering

Abstract

The redox microenvironment within a cell graft can be considered as an indicator to assess whether the graft is metabolically active or hypoxic. We present a redox-responsive MRI probe based on porous silica microparticles whose surface has been decorated with a Gd-chelate through a disulphide bridge. Such microparticles are designed to be interspersed with therapeutic cells within a biocompatible hydrogel. The onset of reducing conditions within the hydrogel is paralleled by an increased clearance of Gd, that can be detected by MRI.

Published

2016

24. Metabolic Studies of Tumor Cells Using [1- 13 C] Pyruvate Hyperpolarized by Means of PHIP-Side Arm Hydrogenation

Author

Silvio Aime, Francesca Reineri, Eleonora Cavallari, and Carla Carrera

Subjects

Kinetics, parahydrogen, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Cell Line, chemistry.chemical_compound, Mice, NMR spectroscopy, Downregulation and upregulation, Lactate dehydrogenase, Pyruvic Acid, Animals, Glycolysis, Hyperpolarization (physics), Physical and Theoretical Chemistry, hyperpolarization, Cancer, Carbon Isotopes, Tumor, L-Lactate Dehydrogenase, Animal, Mammary Neoplasms, Assay, Metabolism, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry, Biochemistry, metabolism, Cell Line, Tumor, Hydrogenation, Mammary Neoplasms, Animal, Pyruvic acid, 0210 nano-technology

Abstract

The kinetics of metabolic processes can be assessed, in real time by means of MR hyperpolarized (HP) metabolites. [1-13 C]pyruvate, hyperpolarized by means of d-DNP, is, by far, the substrate most widely applied to the investigation of several pathologies characterized by deregulated glycolytic metabolic networks, including cancer. Hyperpolarization of [1-13 C]pyruvate by means of the cost effective, fast and easy to handle PHIP-SAH (para-hydrogen induced polarization-side arm hydrogenation) method opens-up a pathway for the application of HP metabolites to a wide range of cancer-related studies. Herein, we report the first application of PHIP-SAH hyperpolarized [1-13 C]pyruvate in the investigation of upregulated glycolysis in two murine breast cancer cell lines (168FARN and 4T1). The results obtained using HP pyruvate have been validated with a conventional biochemical assay and are coherent with previously-reported lactate dehydrogenase activity measured in those cells.

Published

2019

25. Metabolic Studies of Tumor Cells Using [1

Author

Eleonora, Cavallari, Carla, Carrera, Silvio, Aime, and Francesca, Reineri

Subjects

Carbon Isotopes, Mice, L-Lactate Dehydrogenase, Cell Line, Tumor, Pyruvic Acid, Animals, Mammary Neoplasms, Animal, Hydrogenation

Abstract

The kinetics of metabolic processes can be assessed, in real time by means of MR hyperpolarized (HP) metabolites. [1

Published

2018

26. The

Author

Eleonora, Cavallari, Carla, Carrera, Matteo, Sorge, Gisèle, Bonne, Antoine, Muchir, Silvio, Aime, and Francesca, Reineri

Subjects

Cardiomyopathy, Dilated, Male, Mice, Magnetic Resonance Spectroscopy, Time Factors, Mutation, Pyruvic Acid, Animals, Lamin Type A, Article, Molecular Imaging

Abstract

Many imaging methods have been proposed to act as surrogate markers of organ damage, yet for many candidates the essential biomarkers characteristics of the injured organ have not yet been described. Hyperpolarized [1-13C]pyruvate allows real time monitoring of metabolism in vivo. ParaHydrogen Induced Polarization (PHIP) is a portable, cost effective technique able to generate 13C MR hyperpolarized molecules within seconds. The introduction of the Side Arm Hydrogenation (SAH) strategy offered a way to widen the field of PHIP generated systems and to make this approach competitive with the currently applied dissolution-DNP (Dynamic Nuclear Polarization) method. Herein, we describe the first in vivo metabolic imaging study using the PHIP-SAH hyperpolarized [1-13C]pyruvate. In vivo maps of pyruvate and of its metabolic product lactate have been acquired on a 1 T MRI scanner. By comparing pyruvate/lactate 13C label exchange rate in a mouse model of dilated cardiomyopathy, it has been found that the metabolic dysfunction occurring in the cardiac muscle of the diseased mice can be detected well before the disease can be assessed by echocardiographic investigations.

Published

2018

27. Modulation of the Prototropic Exchange Rate in pH-Responsive Yb-HPDO3A Derivatives as ParaCEST Agents

Author

Serena Fabretto, Valeria Menchise, Enzo Terreno, Carla Carrera, Daniela Delli Castelli, Walter Dastrù, Giuseppe Ferrauto, and Silvio Aime

Subjects

pH sensitive agents, Chemistry, Chemistry (all), General Chemistry, Lanthanide complexes, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, Contrast agents, 030218 nuclear medicine & medical imaging, 0104 chemical sciences, 03 medical and health sciences, 0302 clinical medicine, Exchange rate, Modulation, MRI, paraCEST

Published

2018

28. The13C hyperpolarized pyruvate generated by ParaHydrogen detects the response of the heart to altered metabolism in real time

Author

Eleonora Cavallari, Matteo Sorge, Carla Carrera, Silvio Aime, Francesca Reineri, Gisèle Bonne, Antoine Muchir, Università degli studi di Torino (UNITO), Centre de recherche en Myologie – U974 SU-INSERM, Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU), Centre de Recherche en Myologie, Università degli studi di Torino = University of Turin (UNITO), and Gestionnaire, HAL Sorbonne Université 5

Subjects

[SDV.MHEP.AHA] Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO], Multidisciplinary, 010405 organic chemistry, Chemistry, lcsh:R, Cardiomyopathy, Cardiac muscle, lcsh:Medicine, Dilated cardiomyopathy, Metabolism, 010402 general chemistry, medicine.disease, Spin isomers of hydrogen, 01 natural sciences, 0104 chemical sciences, medicine.anatomical_structure, In vivo, medicine, Biophysics, [SDV.MHEP.AHA]Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO], lcsh:Q, Molecular imaging, Altered metabolism, lcsh:Science

Abstract

Many imaging methods have been proposed to act as surrogate markers of organ damage, yet for many candidates the essential biomarkers characteristics of the injured organ have not yet been described. Hyperpolarized [1-13C]pyruvate allows real time monitoring of metabolism in vivo. ParaHydrogen Induced Polarization (PHIP) is a portable, cost effective technique able to generate 13C MR hyperpolarized molecules within seconds. The introduction of the Side Arm Hydrogenation (SAH) strategy offered a way to widen the field of PHIP generated systems and to make this approach competitive with the currently applied dissolution-DNP (Dynamic Nuclear Polarization) method. Herein, we describe the first in vivo metabolic imaging study using the PHIP-SAH hyperpolarized [1-13C]pyruvate. In vivo maps of pyruvate and of its metabolic product lactate have been acquired on a 1 T MRI scanner. By comparing pyruvate/lactate 13C label exchange rate in a mouse model of dilated cardiomyopathy, it has been found that the metabolic dysfunction occurring in the cardiac muscle of the diseased mice can be detected well before the disease can be assessed by echocardiographic investigations.

Published

2018

29. Studies to enhance the hyperpolarization level in PHIP-SAH-produced C13-pyruvate

Author

Carla Carrera, Francesca Reineri, Silvio Aime, and Eleonora Cavallari

Subjects

Pyruvate, Nuclear and High Energy Physics, Magnetic Resonance Spectroscopy, Biophysics, 010402 general chemistry, 01 natural sciences, Induced polarization, Biochemistry, In vivo, Hyperpolarization, Magnetic resonance spectroscopy, MR-imaging, ParaHydrogen, Condensed Matter Physics, Pyruvic Acid, Hyperpolarization (physics), Carbon Isotopes, 010405 organic chemistry, Chemistry, Metabolic imaging, Mr imaging, 0104 chemical sciences, Hydrogenation, Radiopharmaceuticals, Hydrogen

Abstract

The use of [1-13C]pyruvate, hyperpolarized by dissolution-Dynamic Nuclear Polarization (d-DNP), in in vivo metabolic studies has developed quickly, thanks to the imaging probe's diagnostic relevance. Nevertheless, the cost of a d-DNP polarizer is quite high and the speed of hyperpolarization process is relatively slow, meaning that its use is limited to few research laboratories. ParaHydrogen Induced Polarization Side Arm Hydrogenation (PHIP-SAH) (Reineri et al., 2015) is a cost effective and easy-to-handle method that produces 13C-MR hyperpolarization in [1-13C]pyruvate and other metabolites. This work aims to identify the main determinants of the hyperpolarization levels observed in C13-pyruvate using this method. By dissecting the various steps of the PHIP-SAH procedure, it has been possible to assess the role of several experimental parameters whose optimization must be pursued if this method is to be made suitable for future translational steps. The search for possible solutions has led to improvements in the polarization of sodium [1-13C]pyruvate from 2% to 5%. Moreover, these results suggest that observed polarization levels could be increased considerably by an automatized procedure which would reduce the time required for the work-up passages that are currently carried out manually. The results reported herein mean that the attainment of polarization levels suitable for the metabolic imaging applications of these hyperpolarized substrates show significant promise.

Published

2017

30. Design and Synthesis of a γ1β8-Cyclodextrin Oligomer: A New Platform with Potential Application as a Dendrimeric Multicarrier

Author

Silvio Aime, Davide Corpillo, Marina Caporaso, Alessandro Barge, Giancarlo Cravotto, Paolo Tosco, Eliana Gianolio, Katia Martina, Giorgio Pariani, and Carla Carrera

Subjects

Macromolecular Substances, Stereochemistry, Supramolecular chemistry, Gadolinium, Beta-Cyclodextrins, Oligomer, Catalysis, HIGH-RELAXIVITY GADOLINIUM COMPLEXES, chemistry.chemical_compound, Drug Delivery Systems, medicine, Humans, Serum Albumin, chemistry.chemical_classification, Cycloaddition Reaction, Cyclodextrin, cyclodextrin oligomer, beta-Cyclodextrins, Organic Chemistry, General Chemistry, Human serum albumin, Magnetic Resonance Imaging, Combinatorial chemistry, Molecular Diagnostic Techniques, Microwave chemistry, click chemistry, chemistry, Targeted drug delivery, Click chemistry, Lithocholic Acid, Linker, medicine.drug

Abstract

We report the synthesis and characterization of a water-soluble, star-shaped macromolecular platform consisting of eight β-cyclodextrin (β-CD) units anchored to the narrower rim of a γ-CD core through bis(triazolyl)alkyl spacers. The efficient synthetic protocol is based on the microwave (MW)-promoted Cu-catalyzed 1,3-dipolar cycloaddition of CD monoazides to CD monoacetylenes. The ligand-hosting capability of the construct has been assessed by relaxometric titration and nuclear magnetic relaxation dispersion (NMRD) profiling, which showed it to be good, and this was supported by molecular dynamics simulations. To demonstrate the feasibility of obtaining supramolecular structures with high hosting ability, we designed a dimeric platform, formed by joining two nonamers through the γ-CD cores through a bis(lithocholic acid) linker. With a view to the potential biological applications, cytotoxicity and extent of binding to human serum albumin were assessed. The properties of this dendrimeric multicarrier make it suitable for pharmaceutical and diagnostic purposes, ranging from targeted drug delivery to molecular imaging.

Published

2013

31. An MRI Method To Map Tumor Hypoxia Using Red Blood Cells Loaded with a pO2-Responsive Gd-Agent

Author

Carla Carrera, Silvio Aime, Enza Di Gregorio, Stefania Lanzardo, Eliana Gianolio, Giuseppe Ferrauto, and Franco Fedeli

Subjects

Pathology, medicine.medical_specialty, Erythrocytes, Gadolinium, Gd-DOTP, Combined use, General Physics and Astronomy, chemistry.chemical_element, Contrast Media, Fluorescent Antibody Technique, Mammary Neoplasms, Animal, Biology, Photoacoustic Techniques, Mice, Organophosphorus Compounds, In vivo, Heterocyclic Compounds, medicine, Organometallic Compounds, Animals, Humans, Transplantation, Homologous, General Materials Science, contrast agents, Treatment resistance, Hypoxia, Neoplasm Staging, tumor hypoxia, Mice, Inbred BALB C, Tumor hypoxia, medicine.diagnostic_test, Staining and Labeling, General Engineering, Magnetic resonance imaging, Hypoxia (medical), Phenotype, Magnetic Resonance Imaging, Oxygen, chemistry, Immunology, Female, medicine.symptom, vascular volume, magnetic resonance imaging, red blood cells, Neoplasm Transplantation

Abstract

Hypoxia is a typical hallmark of many solid tumors and often leads to therapy resistance and the development of a more aggressive cancer phenotype. Oxygen content in tissues has been evaluated using numerous different methods for several imaging modalities, but none has yet reached the required standard of spatial and temporal resolution. Magnetic Resonance Imaging (MRI) appears to be the technique of choice and several pO2-responsive probes have been designed for it over the years. In vivo translation is often hampered in Gd-relaxation agents as it is not possible to separate effects that arise from changes in local concentration from those associated with responsive properties. A novel procedure for the MRI based assessment of hypoxia is reported herein. The method relies on the combined use of Gd-DOTP- and Gd-HPDO3A-labeled red blood cells (RBCs) where the first probe acts as a vascular oxygenation-responsive agent, while the second reports the local labeled RBC concentration in a transplanted breast tumor mouse model. The MRI assessment of oxygenation state has been validated by photoacoustic imaging and ex vivo immunofluorescence. The method refines tumor staging in preclinical models and makes possible an accurate monitoring of the relationship between oxygenation and tumor growth.

Published

2015

32. Effects of Magnetic Field Cycle on the Polarization Transfer from Parahydrogen to Heteronuclei through Long-Range J-Couplings

Author

Silvio Aime, Eleonora Cavallari, Tommaso Boi, Carla Carrera, and Francesca Reineri

Subjects

Materials Chemistry2506 Metals and Alloys, Magnetic Resonance Spectroscopy, Hydrogen, Carboxylic acid, Physical and Theoretical Chemistry, Surfaces, Coatings and Films, Carboxylic Acids, chemistry.chemical_element, Spin isomers of hydrogen, Photochemistry, Coatings and Films, chemistry.chemical_compound, Materials Chemistry, Moiety, Molecule, Carboxylate, Hyperpolarization (physics), chemistry.chemical_classification, Carbon Isotopes, Molecular Structure, Nuclear magnetic resonance spectroscopy, Reference Standards, Surfaces, Magnetic Fields, chemistry, Alcohols, Protons

Abstract

Hyperpolarization of (13)C carboxylate signals of metabolically relevant molecules, such as acetate and pyruvate, was recently obtained by means of ParaHydrogen Induced Polarization by Side Arm Hydrogenation (PHIP-SAH). This method relies on functionalization of the carboxylic acid with an unsaturated alcohol (side arm), hydrogenation of the unsaturated alcohol using parahydrogen, and polarization transfer to the target (13)C signal. In this case, parahydrogen protons are added three to four bonds away from the target (13)C nucleus, while biologically relevant molecules had been hyperpolarized, using parahydrogen, through hydrogenation of an unsaturated bond adjacent to the target (13)C signal. The herein reported results show that the same polarization level can be obtained on the (13)C carboxylate signal of an ester by means of addition of parahydrogen to the acidic or to the alcoholic moiety and successive application of magnetic field cycle (MFC). Experimental results are supported by calculations that allow one to predict that, upon accurate control of magnetic field strength and speed of the passages, more than 20% polarization can be achieved on the (13)C-carboxylate resonance of the esters by means of side arm hydrogenation and MFC.

Published

2015

33. Tunable Imaging of Cells Labeled with MRI-PARACEST Agents

Author

Simonetta Geninatti Crich, Silvio Aime, Daniela Delli Castelli, Enzo Terreno, and Carla Carrera

Subjects

Chemistry, Contrast Media, General Chemistry, General Medicine, Reference Standards, Lanthanoid Series Elements, Magnetic Resonance Imaging, Sensitivity and Specificity, Catalysis, Rats, Crystallography, Nuclear magnetic resonance, Europium, Saturation transfer, Cell Line, Tumor, Organometallic Compounds, Animals, Reference standards

Published

2005

34. In vivo labeling of B16 melanoma tumor xenograft with a thiol-reactive gadolinium based MRI contrast agent

Author

Valeria Menchise, Giuseppe Digilio, Eliana Gianolio, Valeria Catanzaro, Evelina Cittadino, Silvio Aime, and Carla Carrera

Subjects

Male, Pyridines, Gadolinium, MRI contrast agent, Melanoma, Experimental, Pharmaceutical Science, chemistry.chemical_element, Contrast Media, Injections, Intralesional, Sulfides, Ligands, chemistry.chemical_compound, Mice, In vivo, Coordination Complexes, Limit of Detection, Cell Line, Tumor, Drug Discovery, Extracellular, medicine, Animals, MRI Contrast Agent, N-Ethylmaleimide-Sensitive Proteins, Melanoma, Sulfhydryl Reagents, Biological Transport, medicine.disease, Magnetic Resonance Imaging, Mice, Inbred C57BL, MOLECULAR PHARMACEUTICS, Kinetics, B16 Melanoma, chemistry, Cell culture, TCEP, Biophysics, Molecular Medicine, Ex vivo

Abstract

Murine melanoma B16 cells display on the extracellular side of the plasma membrane a large number of reactive protein thiols (exofacial protein thiols, EPTs). These EPTs can be chemically labeled with Gd-DO3A-PDP, a Gd(III)-based MRI contrast agent bearing a 2-pyridinedithio chemical function for the recognition of EPTs. Uptake of gadolinium up to 10(9) Gd atoms per cell can be achieved. The treatment of B16 cells ex vivo with a reducing agent such as tris(2-carboxyethyl)phosphine (TCEP) results in an increase by 850% of available EPTs and an increase by 45% of Gd uptake. Blocking EPTs with N-ethylmaleimide (NEM) caused a decrease by 84% of available EPTs and a decrease by 55% of Gd uptake. The amount of Gd taken up by B16 cells is therefore dependent upon the availability of EPTs, whose actual level in turn changes according to the extracellular redox microenvironment. Then Gd-DO3A-PDP has been assessed for the labeling of tumor cells in vivo on B16.F10 melanoma tumor-bearing mice. Gd-DO3A-PDP (or Gd-DO3A as the control) has been injected directly into the tumor region at a dose level of 0.1 μmol and the signal enhancement in MR images followed over time. The washout kinetics of Gd-DO3A-PDP from tumor is very slow if compared to that of control Gd-DO3A, and 48 h post injection, the gadolinium-enhancement is still clearly visible. Therefore, B16 cells can be labeled ex vivo as well as in vivo according to a common EPTs-dependent route, provided that high levels of the thiol reactive probe can be delivered to the tumor.

Published

2011

35. Gadolinium-doped LipoCEST agents: a potential novel class of dual (1)H-MRI probes

Author

Valeria Menchise, Daniela Delli Castelli, Silvio Aime, Enzo Terreno, Carla Carrera, Cinzia Boffa, Franco Fedeli, and Giuseppe Digilio

Subjects

Gadolinium, Contrast Media, chemistry.chemical_element, Conjugated system, Catalysis, Magnetics, Nuclear magnetic resonance, Organometallic Compounds, Materials Chemistry, Liposome, Aqueous solution, Molecular Structure, Vesicle, Metals and Alloys, General Chemistry, Magnetic Resonance Imaging, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, Molecular Probes, Reagent, Liposomes, Ceramics and Composites, Protons, Molecular probe, Linker

Abstract

A novel class of paramagnetic liposome-based systems acting as dual T(1) and CEST (1)H-MRI contrast agents is described. The vesicles contain a shift reagent in the aqueous core and a Gd-complex on the external surface conjugated through a biodegradable linker. As such, the probe can generate T(1) contrast only, but after the cleavage and removal of the Gd-coating, the CEST contrast is switched on.

Published

2011

36. Exofacial protein thiols as a route for the internalization of Gd(III)-based complexes for magnetic resonance imaging cell labeling

Author

Franco Fedeli, Roberta Napolitano, Carla Carrera, Valeria Menchise, Giuseppe Digilio, Eliana Gianolio, Silvio Aime, and Valeria Catanzaro

Subjects

Magnetic Resonance Spectroscopy, media_common.quotation_subject, Melanoma, Experimental, Contrast Media, MR CONTRAST AGENTS, TERNARY COMPLEXES, REDOX REGULATION, TUMOR-CELLS, SURFACE, NMR, LIGANDS, MODULATION, ADDUCTS, PROBES, chemical and pharmacologic phenomena, Gadolinium, Cell labeling, Mice, Nuclear magnetic resonance, Drug Discovery, medicine, Cultured cell, Organometallic Compounds, Animals, Humans, Sulfhydryl Compounds, Internalization, media_common, Chelating Agents, medicine.diagnostic_test, Chemistry, Proteins, Magnetic resonance imaging, Glioma, Magnetic Resonance Imaging, Rats, Molecular Medicine, Spectrophotometry, Ultraviolet, K562 Cells

Abstract

Four novel MRI Gd(III)-based probes have been synthesized and evaluated for their labeling properties on cultured cell lines K562, C6, and B16. The labeling strategy relies upon the fact that cells display a large number of reactive exofacial protein thiols (EPTs) that can be exploited as anchorage points for suitably activated MRI probes. The probes are composed of a Gd(III) chelate (based on either DO3A or DTPA) connected through a flexible linker to the 2-pyridyldithio chemical function for binding to EPTs. GdDO3A-based chelates could efficiently label cells (up to a level of 1.2 x 10(10) Gd(III) atoms/cell), whereas GdDTPA-based chelates showed poor or no cell labeling ability at all. Among the GdDO3A based compounds, that having the longest spacer (compound GdL1A) showed the best labeling efficacy. The mechanism of EPT mediated cell labeling by GdL1A involves probe internalization without sequestration of the Gd(III) chelate within subcellular structures such as endosomes.

Published

2010

37. Lanthanide-loaded paramagnetic liposomes as switchable magnetically oriented nanovesicles

Author

Daniela Delli Castelli, Enzo Terreno, Carla Carrera, Giovanni B. Giovenzana, Roberta Mazzon, Simona Rollet, Massimo Visigalli, and Silvio Aime

Subjects

Inorganic Chemistry, Models, Molecular, Magnetics, Lipid Bilayers, Liposomes, Nanoparticles, Physical and Theoretical Chemistry, Lanthanoid Series Elements

Abstract

Osmotically shrunken liposomes loaded with paramagnetic lanthanide(III) complexes orient in a static magnetic field according to the sign of their magnetic susceptibility anisotropy (Deltachi). The magnitude and sign of Deltachi are modulated by the magnetic properties of the Ln (III) ion, by the structural characteristics of the metal chelate, and by the stereochemical arrangement of the lipophilic substituents.

Published

2008

38. Determination of water permeability of paramagnetic liposomes of interest in MRI field

Author

Alberto Sanino, Daniela Delli Castelli, Silvio Aime, Giovanni B. Giovenzana, Enzo Terreno, Carla Carrera, Roberta Mazzon, Alberto Lombardi, Massimo Visigalli, and Luciano Milone

Subjects

1,2-Dipalmitoylphosphatidylcholine, Gadolinium, Lanthanoid Series Elements, Biochemistry, Permeability, Inorganic Chemistry, chemistry.chemical_compound, Heterocyclic Compounds, Amphiphile, Organometallic Compounds, POPC, Liposome, Chromatography, Vesicle, Bilayer, technology, industry, and agriculture, Water, Magnetic Resonance Imaging, Membrane, chemistry, Permeability (electromagnetism), Dipalmitoylphosphatidylcholine, Liposomes, Phosphatidylcholines, Biophysics, lipids (amino acids, peptides, and proteins)

Abstract

The water permeability of various liposome membranes has been determined at 298K by measuring the NMR longitudinal water proton relaxation rate of vesicles encapsulating the clinically approved Gd-HPDO3A complex (HPDO3A=10-(2-hydroxypropyl)-1,4,7,10-tetraazacyclododecane-1,4,7-triacetic acid). Two basic formulations based on DPPC (dipalmitoylphosphatidylcholine) and POPC (palmitoyl-oleylphosphatidylcholine) phospholipids were selected and investigated. Furthermore, the permeability changes caused by the membrane incorporation of amphiphiles like cholesterol and/or metal complexes of interest for designing improved liposome-based MRI contrast agents, were also investigated. The incorporation of cholesterol and metal complexes bearing C18 saturated chains in POPC-based liposomes reduces the water diffusivity across the membrane bilayer. On the contrary, the incorporation of a macrocyclic metal complex bearing four C12 alkylic chains, one for each coordination arm of the ligand, considerably enhances the water permeability in DPPC-based liposomes. Finally, it is reported that the permeability of POPC-based bilayer is increased when the liposomes are subjected to an osmotic stress.

Published

2008

39. Synthesis and characterization of a Gd(III) based contrast agent responsive to thiol containing compounds

Author

Silvio Aime, Armando Mortillaro, Giuseppe Digilio, Franco Fedeli, Simona Baroni, Daniela Burgio, Simona Consol, Carla Carrera, and Dario Livio Longo

Subjects

Molar concentration, Magnetic Resonance Spectroscopy, magnetic-resonance, ternary complexes, water exchange, protein thiols, mri, gd, modulation, adducts, surface, relaxivity, Stereochemistry, Contrast Media, Gadolinium, Mass Spectrometry, Adduct, Inorganic Chemistry, chemistry.chemical_compound, Polymer chemistry, Chelation, Sulfhydryl Compounds, chemistry.chemical_classification, Chemistry, Water, Glutathione, Covalent bond, Intramolecular force, Thiol, Linker

Abstract

A novel Gd(III) complex with a modified DO3A-like chelating cage has been synthesized and characterized as a candidate contrast agent responsive to the concentration of free thiols in tissues (essentially represented by reduced glutathione, GSH). The novel compound (called Gd-DO3AS-Act) bears a flexible linker ending with a 2-pyridyl-dithio group, that can promptly react with free thiols (XSH) to form mixed disulfides of the form Gd-DO3AS-SX. Compound Gd-DO3AS-Act is characterized by a millimolar relaxivity as high as 8.1 mM(-1) s(-1) (at 20 MHz, 25 degrees C and pH 7.4). Upon reaction with GSH, the Gd-DO3AS-SG covalent adduct is formed and the millimolar relaxivity drops to 4.1 mM(-1) s(-1). Such a decrease in relaxivity is explained on the basis of the formation of an intramolecular coordinative bond between one of the glutathionyl carboxyl groups and the Gd(III) centre, lowering the hydration state of the paramagnetic centre. (1)H-NMR dispersion profiles together with (17)O-NMR transverse relaxation time versus temperature profiles confirm that the hydration of the Gd(III) centre is strongly reduced ongoing from Gd-DO3AS-Act to the Gd-DO3AS-SG adduct. The relaxivity difference brought about by the reaction of Gd-DO3AS-Act with GSH can be enhanced up to 60% in the presence of poly-beta-cyclodextrin.

Published

2007

40. Effects of Magnetic Field Cycle on the PolarizationTransfer from Parahydrogen to Heteronuclei through Long-Range J-Couplings.

Author

Eleonora Cavallari, Carla Carrera, Tommaso Boi, Silvio Aime, and Francesca Reineri

Subjects

*HYPERPOLARIZATION (Cytology), *MAGNETIC fields, *PARAHYDROGEN, *COUPLING agents (Chemistry), *PYRUVATES, *CHEMICAL bonds

Abstract

Hyperpolarization of 13C carboxylate signals of metabolicallyrelevant molecules, such as acetate and pyruvate, was recently obtainedby means of ParaHydrogen Induced Polarization by Side Arm Hydrogenation(PHIP-SAH). This method relies on functionalization of the carboxylicacid with an unsaturated alcohol (side arm), hydrogenation of theunsaturated alcohol using parahydrogen, and polarization transferto the target 13C signal. In this case, parahydrogen protonsare added three to four bonds away from the target 13Cnucleus, while biologically relevant molecules had been hyperpolarized,using parahydrogen, through hydrogenation of an unsaturated bond adjacentto the target 13C signal. The herein reported results showthat the same polarization level can be obtained on the 13C carboxylate signal of an ester by means of addition of parahydrogento the acidic or to the alcoholic moiety and successive applicationof magnetic field cycle (MFC). Experimental results are supportedby calculations that allow one to predict that, upon accurate controlof magnetic field strength and speed of the passages, more than 20%polarization can be achieved on the 13C-carboxylate resonanceof the esters by means of side arm hydrogenation and MFC. [ABSTRACT FROM AUTHOR]

Published

2015

41. Synthesis and characterization of a Gd(iii) based contrast agent responsive to thiol containing compounds.

Author

Carla Carrera, Giuseppe Digilio, Simona Baroni, Daniela Burgio, Simona Consol, Franco Fedeli, Dario Longo, Armando Mortillaro, and Silvio Aime

Subjects

*THIOLS, *HYDRATION, *GLUTATHIONE, *CARNIVORA

Abstract

A novel Gd(iii) complex with a modified DO3A-like chelating cage has been synthesized and characterized as a candidate contrast agent responsive to the concentration of free thiols in tissues (essentially represented by reduced glutathione, GSH). The novel compound (called Gd-DO3AS-Act) bears a flexible linker ending with a 2-pyridyl-dithio group, that can promptly react with free thiols (XSH) to form mixed disulfides of the form Gd-DO3AS-SX. Compound Gd-DO3AS-Act is characterized by a millimolar relaxivity as high as 8.1 mM−1 s−1 (at 20 MHz, 25 °C and pH 7.4). Upon reaction with GSH, the Gd-DO3AS-SG covalent adduct is formed and the millimolar relaxivity drops to 4.1 mM−1 s−1. Such a decrease in relaxivity is explained on the basis of the formation of an intramolecular coordinative bond between one of the glutathionyl carboxyl groups and the Gd(iii) centre, lowering the hydration state of the paramagnetic centre. 1H-NMR dispersion profiles together with 17O-NMR transverse relaxation time versus temperature profiles confirm that the hydration of the Gd(iii) centre is strongly reduced ongoing from Gd-DO3AS-Act to the Gd-DO3AS-SG adduct. The relaxivity difference brought about by the reaction of Gd-DO3AS-Act with GSH can be enhanced up to 60% in the presence of poly-β-cyclodextrin. [ABSTRACT FROM AUTHOR]

Published

2007

42. Real-Time Nuclear Magnetic Resonance Detection of Fumarase Activity Using Parahydrogen-Hyperpolarized [1- 13 C]Fumarate

Author

Dmitry Budker, James Eills, Carla Carrera, Francesca Reineri, Eleonora Cavallari, and Silvio Aime

Subjects

Time Factors, Hydrogen, Nuclear Magnetic Resonance, chemistry.chemical_element, 010402 general chemistry, Spin isomers of hydrogen, Photochemistry, 01 natural sciences, Biochemistry, Catalysis, Fumarate Hydratase, Magnetization, chemistry.chemical_compound, Colloid and Surface Chemistry, Fumarates, Molecule, Carbon Isotopes, Molecular Structure, Fumarase activity, Nuclear Magnetic Resonance, Biomolecular, General Chemistry, 0104 chemical sciences, Acetylene, chemistry, Fumarase, Biomolecular

Abstract

Hyperpolarized fumarate can be used as a probe of real-time metabolism in vivo, using carbon-13 magnetic resonance imaging. Dissolution dynamic nuclear polarization is commonly used to produce hyperpolarized fumarate, but a cheaper and faster alternative is to produce hyperpolarized fumarate via PHIP (parahydrogen-induced polarization). In this work, we trans-hydrogenate [1-13C]acetylene dicarboxylate with para-enriched hydrogen using a commercially available Ru catalyst in water to produce hyperpolarized [1-13C]fumarate. We show that fumarate is produced in 89% yield, with succinate as a side product in 11% yield. The proton polarization is converted into 13C magnetization using a constant adiabaticity field cycle, and a polarization level of 24% is achieved using 86% para-enriched hydrogen gas. We inject the hyperpolarized [1-13C]fumarate into cell suspensions and track the metabolism. This work opens the path to greatly accelerated preclinical studies using fumarate as a biomarker.

43. Tunable Imaging of Cells Labeled with MRI-PARACEST AgentsFinancial support from Bracco Imaging S.p.A., and MIUR (FIRB) are gratefully acknowledged. This work has been carried out under the framework of the EU-COST D 18 Action and EMIL-NoE.

Author

Silvio Aime, Carla Carrera, Daniela Delli Castelli, Simonetta Geninatti Crich, and Enzo Terreno

Published

2005

44. John Dewey i l’educació democràtica

Author

Carla Carreras Planas

Subjects

Dewey, democràcia, educació, experiència, mètode científic., Education, History of education, LA5-2396

Abstract

En Dewey, filosofia i educació són indestriables. Sovint s’oblida que la concepció deweyana de l’escola i de l’educació només ha estat possible perquè Dewey concebia el pensament en termes d’experiència viscuda, d’experiència constantment posada a prova, de recerca sempre posada en qüestió; en altres termes, de «recerca contínua» de «vies d’acció efectives». Però a més, per Dewey, la vertadera educació és una educació per a la democràcia, i significa apostar per una educació que s’ocupi del fet de pensar. El servei al progrés democràtic es fa precisament a través d’una educació en la raonabilitat i tenint en compte l’experiència. Paraules clau: Dewey, democràcia, educació, experiència, mètode científic.

Published

2015

45. ParaHydrogen Polarized Ethyl-[1-13 C]pyruvate in Water, a Key Substrate for Fostering the PHIP-SAH Approach to Metabolic Imaging

Author

'Carla Carrera