Your search keyword '"Padelli, F"' showing total 37 results

1. Sulfatide imaging identifies tumor cells in colorectal cancer peritoneal metastases

Author

Sarcinelli, G. M., Varinelli, L., Ghislanzoni, S., Padelli, F., Lorenzini, D., Vingiani, A., Milione, M., Guaglio, M., Kusamura, S., Deraco, M., Pruneri, G., Gariboldi, M., Baratti, D., and Bongarzone, I.

Published

2024

2. Magnetic-field-driven targeting of exosomes modulates immune and metabolic changes in dystrophic muscle

Author

Villa, C, Secchi, V, Macchi, M, Tripodi, L, Trombetta, E, Zambroni, D, Padelli, F, Mauri, M, Molinaro, M, Oddone, R, Farini, A, De Palma, A, Varela Pinzon, L, Santarelli, F, Simonutti, R, Mauri, P, Porretti, L, Campione, M, Aquino, D, Monguzzi, A, Torrente, Y, Villa, Chiara, Secchi, Valeria, Macchi, Mirco, Tripodi, Luana, Trombetta, Elena, Zambroni, Desiree, Padelli, Francesco, Mauri, Michele, Molinaro, Monica, Oddone, Rebecca, Farini, Andrea, De Palma, Antonella, Varela Pinzon, Laura, Santarelli, Federica, Simonutti, Roberto, Mauri, PierLuigi, Porretti, Laura, Campione, Marcello, Aquino, Domenico, Monguzzi, Angelo, Torrente, Yvan, Villa, C, Secchi, V, Macchi, M, Tripodi, L, Trombetta, E, Zambroni, D, Padelli, F, Mauri, M, Molinaro, M, Oddone, R, Farini, A, De Palma, A, Varela Pinzon, L, Santarelli, F, Simonutti, R, Mauri, P, Porretti, L, Campione, M, Aquino, D, Monguzzi, A, Torrente, Y, Villa, Chiara, Secchi, Valeria, Macchi, Mirco, Tripodi, Luana, Trombetta, Elena, Zambroni, Desiree, Padelli, Francesco, Mauri, Michele, Molinaro, Monica, Oddone, Rebecca, Farini, Andrea, De Palma, Antonella, Varela Pinzon, Laura, Santarelli, Federica, Simonutti, Roberto, Mauri, PierLuigi, Porretti, Laura, Campione, Marcello, Aquino, Domenico, Monguzzi, Angelo, and Torrente, Yvan

Abstract

Exosomes are promising therapeutics for tissue repair and regeneration to induce and guide appropriate immune responses in dystrophic pathologies. However, manipulating exosomes to control their biodistribution and targeting them in vivo to achieve adequate therapeutic benefits still poses a major challenge. Here we overcome this limitation by developing an externally controlled delivery system for primed annexin A1 myo-exosomes (Exomyo). Effective nanocarriers are realized by immobilizing the Exomyo onto ferromagnetic nanotubes to achieve controlled delivery and localization of Exomyo to skeletal muscles by systemic injection using an external magnetic field. Quantitative muscle-level analyses revealed that macrophages dominate the uptake of Exomyo from these ferromagnetic nanotubes in vivo to synergistically promote beneficial muscle responses in a murine animal model of Duchenne muscular dystrophy. Our findings provide insights into the development of exosome-based therapies for muscle diseases and, in general, highlight the formulation of effective functional nanocarriers aimed at optimizing exosome biodistribution

Published

2024

3. IBA MYQA® SRS DETECTOR FOR CYBERKNIFE INTRACRANIAL RADIOSURGERY QUALITY ASSURANCE

Author

Padelli, F., primary, Aquino, D., additional, Fariselli, L., additional, and De Martin, E., additional

Published

2023

4. Selective Cerebrospinal Fluid Hypothermia: Bioengineering Development and In Vivo Study of an Intraventricular Cooling Device (V-COOL)

Author

Beretta, S, Versace, A, Fiore, G, Piola, M, Martini, B, Bigiogera, V, Coppadoro, L, Mariani, J, Tinti, L, Pirovano, S, Monza, L, Carone, D, Riva, M, Padovano, G, Galbiati, G, Santangelo, F, Rasponi, M, Padelli, F, Giachetti, I, Aquino, D, Diamanti, S, Librizzi, L, Bruzzone, M, De Curtis, M, Giussani, C, Sganzerla, E, Ferrarese, C, Beretta S., Versace A., Fiore G., Piola M., Martini B., Bigiogera V., Coppadoro L., Mariani J., Tinti L., Pirovano S., Monza L., Carone D., Riva M., Padovano G., Galbiati G., Santangelo F., Rasponi M., Padelli F., Giachetti I., Aquino D., Diamanti S., Librizzi L., Bruzzone M. G., De Curtis M., Giussani C., Sganzerla E. P., Ferrarese C., Beretta, S, Versace, A, Fiore, G, Piola, M, Martini, B, Bigiogera, V, Coppadoro, L, Mariani, J, Tinti, L, Pirovano, S, Monza, L, Carone, D, Riva, M, Padovano, G, Galbiati, G, Santangelo, F, Rasponi, M, Padelli, F, Giachetti, I, Aquino, D, Diamanti, S, Librizzi, L, Bruzzone, M, De Curtis, M, Giussani, C, Sganzerla, E, Ferrarese, C, Beretta S., Versace A., Fiore G., Piola M., Martini B., Bigiogera V., Coppadoro L., Mariani J., Tinti L., Pirovano S., Monza L., Carone D., Riva M., Padovano G., Galbiati G., Santangelo F., Rasponi M., Padelli F., Giachetti I., Aquino D., Diamanti S., Librizzi L., Bruzzone M. G., De Curtis M., Giussani C., Sganzerla E. P., and Ferrarese C.

Abstract

Hypothermia is a promising therapeutic strategy for severe vasospasm and other types of non-thrombotic cerebral ischemia, but its clinical application is limited by significant systemic side effects. We aimed to develop an intraventricular device for the controlled cooling of the cerebrospinal fluid, to produce a targeted hypothermia in the affected cerebral hemisphere with a minimal effect on systemic temperature. An intraventricular cooling device (acronym: V-COOL) was developed by in silico modelling, in vitro testing, and in vivo proof-of-concept application in healthy Wistar rats (n = 42). Cerebral cortical temperature, rectal temperature, and intracranial pressure were monitored at increasing flow rate (0.2 to 0.8 mL/min) and duration of application (10 to 60 min). Survival, neurological outcome, and MRI volumetric analysis of the ventricular system were assessed during the first 24 h. The V-COOL prototyping was designed to minimize extra-cranial heat transfer and intra-cranial pressure load. In vivo application of the V-COOL device produced a flow rate-dependent decrease in cerebral cortical temperature, without affecting systemic temperature. The target degree of cerebral cooling (− 3.0 °C) was obtained in 4.48 min at the flow rate of 0.4 mL/min, without significant changes in intracranial pressure. Survival and neurological outcome at 24 h showed no significant difference compared to sham-treated rats. MRI study showed a transient dilation of the ventricular system (+ 38%) in a subset of animals. The V-COOL technology provides an effective, rapid, selective, and safe cerebral cooling to a clinically relevant degree of − 3.0 °C.

Published

2022

5. MO-01.1 - IBA MYQA® SRS DETECTOR FOR CYBERKNIFE INTRACRANIAL RADIOSURGERY QUALITY ASSURANCE

Author

Padelli, F., Aquino, D., Fariselli, L., and De Martin, E.

Published

2023

6. PO-1103 Introducing contrast-delayed magnetic resonance imaging in radiosurgery treatment of glioblastoma

Author

Padelli, F, De Martin, E, Mardor, Y, Last, D, Pinzi, V, Bruzzone, M, Fariselli, L, Cuccarini, V, Aquino, D, Padelli, F., De Martin, E., Mardor, Y., Last, D., Pinzi, V., Bruzzone, M. G., Fariselli, L., Cuccarini, V., Aquino, D., Padelli, F, De Martin, E, Mardor, Y, Last, D, Pinzi, V, Bruzzone, M, Fariselli, L, Cuccarini, V, Aquino, D, Padelli, F., De Martin, E., Mardor, Y., Last, D., Pinzi, V., Bruzzone, M. G., Fariselli, L., Cuccarini, V., and Aquino, D.

Published

2019

7. Manufacturing process of a 3D printed model of an arterio venous malformation

Author

Gallo, P., primary, Fumagalli, M.L., additional, Padelli, F., additional, Pascuzzo, R., additional, De Martin, E., additional, Faragò, G., additional, Gioppo, A., additional, Santaniello, T., additional, Legnani, E., additional, Pezzotta, F., additional, Cavaliere, F., additional, Bruzzone, M.G., additional, and Milani, P., additional

Published

2021

8. A comprehensive approach to select CT tissue-equivalent 3D printable materials

Author

Padelli, F., primary, Gallo, P., additional, Bruzzone, M.G., additional, Santaniello, T., additional, Pezzotta, F., additional, Milani, P., additional, and De Martin, E., additional

Published

2021

9. Potential role of dual-energy CT in brain imaging: accuracy of iodine concentrations

Author

Gallo, P., primary, Fumagalli, M.L., additional, Ghielmetti, F., additional, Padelli, F., additional, Pascuzzo, R., additional, De Martin, E., additional, and Bruzzone, M.G., additional

Published

2021

10. Head down tilt 15° in experimental intracerebral hemorrhage: a randomized non-inferiority safety trial

Author

Beretta, S, Versace, A, Martini, B, Viganò, M, Diamanti, S, Pini, C, Paternò, G, Carone, D, Mariani, J, Monza, L, Riva, M, Padovano, G, Rossi, E, Citerio, G, Castoldi, G, Padelli, F, Giachetti, I, Aquino, D, Giussani, C, Sganzerla, E, Ferrarese, C, Beretta, Simone, Versace, Alessandro, Martini, Beatrice, Viganò, Martina, Diamanti, Susanna, Pini, Cristiano, Paternò, Giovanni, Carone, Davide, Mariani, Jacopo, Monza, Laura, Riva, Matteo, Padovano, Giada, Rossi, Emanuela, Citerio, Giuseppe, Castoldi, Giovanna, Padelli, Francesco, Giachetti, Isabella, Aquino, Domenico, Giussani, Carlo, Sganzerla, Erik P, Ferrarese, Carlo, Beretta, S, Versace, A, Martini, B, Viganò, M, Diamanti, S, Pini, C, Paternò, G, Carone, D, Mariani, J, Monza, L, Riva, M, Padovano, G, Rossi, E, Citerio, G, Castoldi, G, Padelli, F, Giachetti, I, Aquino, D, Giussani, C, Sganzerla, E, Ferrarese, C, Beretta, Simone, Versace, Alessandro, Martini, Beatrice, Viganò, Martina, Diamanti, Susanna, Pini, Cristiano, Paternò, Giovanni, Carone, Davide, Mariani, Jacopo, Monza, Laura, Riva, Matteo, Padovano, Giada, Rossi, Emanuela, Citerio, Giuseppe, Castoldi, Giovanna, Padelli, Francesco, Giachetti, Isabella, Aquino, Domenico, Giussani, Carlo, Sganzerla, Erik P, and Ferrarese, Carlo

Abstract

Background: Head down tilt 15° (HDT15°), applied before recanalization, increases collateral flow and improves outcome in experimental ischemic stroke. For its simplicity and low cost, HDT15° holds considerable potential to be developed as an emergency treatment of acute stroke in the pre-hospital setting, where hemorrhagic stroke is the major mimic of ischemic stroke. In this study, we assessed safety of HDT15° in the acute phase of experimental intracerebral hemorrhage. Methods: Intracerebral hemorrhage was produced by stereotaxic injection of collagenase in Wistar rats. A randomized non-inferiority trial design was used to assign rats to HDT15° or flat position (n=64). HDT15° was applied for 1 hour during the time window of hematoma expansion. The primary outcome was hematoma volume at 24 hours. Secondary outcomes were mass effect, mortality and functional deficit in the main study and acute changes of intracranial pressure, hematoma growth and cardiorespiratory parameters in separate sets of randomized animals (n=32). Results: HDT15° achieved the specified criteria of non-inferiority for hematoma volume at 24 hours. Mass effect, mortality and functional deficit at 24 hours showed no difference in the two groups. HDT15° induced a mild increase in intracranial pressure with respect to the pre-treatment values (+ 2.91 +/- 1.76 mmHg). HDT15° had a neutral effect on MRI-based analysis of hematoma growth and cardiorespiratory parameters. Conclusions: Application of HDT15° in the hyperacute phase of experimental intracerebral hemorrhage does not worsen early outcome. Further research is needed to implement HDT15° as an emergency collateral therapeutic for acute stroke.

Published

2021

11. Head down tilt 15° in experimental intracerebral hemorrhage: a randomized noninferiority safety trial

Author

Beretta, S., primary, Versace, A., additional, Martini, B., additional, Viganò, M., additional, Diamanti, S., additional, Pini, C., additional, Paternò, G., additional, Carone, D., additional, Mariani, J., additional, Monza, L., additional, Riva, M., additional, Padovano, G., additional, Rossi, E., additional, Citerio, G., additional, Castoldi, G., additional, Padelli, F., additional, Giachetti, I., additional, Aquino, D., additional, Giussani, C., additional, Sganzerla, E. P., additional, and Ferrarese, C., additional

Published

2020

12. PO-1103 Introducing contrast-delayed magnetic resonance imaging in radiosurgery treatment of glioblastoma.

Author

Padelli, F., primary, De Martin, E., additional, Mardor, Y., additional, Last, D., additional, Pinzi, V., additional, Bruzzone, M.G., additional, Fariselli, L., additional, Cuccarini, V., additional, and Aquino, D., additional

Published

2019

13. EP-2054 Potential role of dual-energy CT imaging modality in the neoadjuvant radiotherapy: a phantom study

Author

Gallo, P., primary, D'Alesssio, A., additional, Padelli, F., additional, Fumagalli, M.L., additional, D'ippolito, E., additional, Giandini, T., additional, Tenconi, C., additional, Cavatorta, C., additional, Bruzzone, M.G., additional, Pignoli, E., additional, and De Martin, E., additional

Published

2019

14. P177 - A comprehensive approach to select CT tissue-equivalent 3D printable materials

Author

Padelli, F., Gallo, P., Bruzzone, M.G., Santaniello, T., Pezzotta, F., Milani, P., and De Martin, E.

Published

2021

15. OD106 - Manufacturing process of a 3D printed model of an arterio venous malformation

Author

Gallo, P., Fumagalli, M.L., Padelli, F., Pascuzzo, R., De Martin, E., Faragò, G., Gioppo, A., Santaniello, T., Legnani, E., Pezzotta, F., Cavaliere, F., Bruzzone, M.G., and Milani, P.

Published

2021

16. OD107 - Potential role of dual-energy CT in brain imaging: accuracy of iodine concentrations

Author

Gallo, P., Fumagalli, M.L., Ghielmetti, F., Padelli, F., Pascuzzo, R., De Martin, E., and Bruzzone, M.G.

Published

2021

17. Head down tilt 15° in experimental intracerebral hemorrhage: a randomized noninferiority safety trial.

Author

Beretta, S., Versace, A., Martini, B., Viganò, M., Diamanti, S., Pini, C., Paternò, G., Carone, D., Mariani, J., Monza, L., Riva, M., Padovano, G., Rossi, E., Citerio, G., Castoldi, G., Padelli, F., Giachetti, I., Aquino, D., Giussani, C., and Sganzerla, E. P.

Subjects

CEREBRAL hemorrhage, INTRACRANIAL pressure, HEMATOMA, COLLAGENASES, STROKE

Abstract

Background and purpose: Head down tilt 15° (HDT15°), applied before recanalization, increases collateral flow and improves outcome in experimental ischemic stroke. For its simplicity and low cost, HDT15° holds considerable potential to be developed as an emergency treatment of acute stroke in the prehospital setting, where hemorrhagic stroke is the major mimic of ischemic stroke. In this study, we assessed safety of HDT15° in the acute phase of experimental intracerebral hemorrhage. Methods: Intracerebral hemorrhage was produced by stereotaxic injection of collagenase in Wistar rats. A randomized noninferiority trial design was used to assign rats to HDT15° or flat position (n = 64). HDT15° was applied for 1 h during the time window of hematoma expansion. The primary outcome was hematoma volume at 24 h. Secondary outcomes were mass effect, mortality, and functional deficit in the main study and acute changes of intracranial pressure, hematoma growth, and cardiorespiratory parameters in separate sets of randomized animals (n = 32). Results: HDT15° achieved the specified criteria of noninferiority for hematoma volume at 24 h. Mass effect, mortality, and functional deficit at 24 h showed no difference in the two groups. HDT15° induced a mild increase in intracranial pressure with respect to the pretreatment values (+2.91 ± 1.76 mmHg). HDT15° had a neutral effect on MRI‐based analysis of hematoma growth and cardiorespiratory parameters. Conclusions: Application of HDT15° in the hyperacute phase of experimental intracerebral hemorrhage does not worsen early outcome. Further research is needed to implement HDT15° as an emergency collateral therapeutic for acute stroke. [ABSTRACT FROM AUTHOR]

Published

2021

18. Comparison of diffusion MRI acquisition protocols for the in vivo characterization of the mouse spinal cord: Variability analysis and application to an amyotrophic lateral sclerosis model

Author

Figini, M, Scotti, A, Marcuzzo, S, Bonanno, S, Padelli, F, Moreno Manzano, V, García Verdugo, J, Bernasconi, P, Mantegazza, R, Bruzzone, M, Zucca, I, BONANNO, SILVIA, Zucca, I., Figini, M, Scotti, A, Marcuzzo, S, Bonanno, S, Padelli, F, Moreno Manzano, V, García Verdugo, J, Bernasconi, P, Mantegazza, R, Bruzzone, M, Zucca, I, BONANNO, SILVIA, and Zucca, I.

Abstract

Diffusion-weighted Magnetic Resonance Imaging (dMRI) has relevant applications in the microstructural characterization of the spinal cord, especially in neurodegenerative diseases. Animal models have a pivotal role in the study of such diseases; however, in vivo spinal dMRI of small animals entails additional challenges that require a systematical investigation of acquisition parameters. The purpose of this study is to compare three acquisition protocols and identify the scanning parameters allowing a robust estimation of the main diffusion quantities and a good sensitivity to neurodegeneration in the mouse spinal cord. For all the protocols, the signal-to-noise and contrast-to noise ratios and the mean value and variability of Diffusion Tensor metrics were evaluated in healthy controls. For the estimation of fractional anisotropy less variability was provided by protocols with more diffusion directions, for the estimation of mean, axial and radial diffusivity by protocols with fewer diffusion directions and higher diffusion weighting. Intermediate features (12 directions, b = 1200 s/mm2) provided the overall minimum inter- and intra-subject variability in most cases. In order to test the diagnostic sensitivity of the protocols, 7 G93A-SOD1 mice (model of amyotrophic lateral sclerosis) at 10 and 17 weeks of age were scanned and the derived diffusion parameters compared with those estimated in age-matched healthy animals. The protocols with an intermediate or high number of diffusion directions provided the best differentiation between the two groups at week 17, whereas only few local significant differences were highlighted at week 10. According to our results, a dMRI protocol with an intermediate number of diffusion gradient directions and a relatively high diffusion weighting is optimal for spinal cord imaging. Further work is needed to confirm these results and for a finer tuning of acquisition parameters. Nevertheless, our findings could be important for the opt

Published

2016

19. EXTH-01. A SYNGENIC MOUSE MODEL TO STUDY THE EFFICACY OF KETOGENIC DIET IN HIGH GRADE GLIOMAS

Author

Salmaggi A, Chiara Vasco, Rizzo A, Padelli F, Zucca I, Pellegatta S, Massa G, Fariselli L, Bruzzone M, and Ciusani E

20. Head down tilt 15° in experimental intracerebral hemorrhage: a randomized non-inferiority safety trial

Author

Giovanni Paternò, Giuseppe Citerio, Laura Monza, Jacopo Mariani, Giovanna Castoldi, Susanna Diamanti, Domenico Aquino, Emanuela Rossi, Giada Padovano, Martina Viganò, Matteo Riva, Francesco Padelli, Davide Carone, Erik P. Sganzerla, Beatrice Martini, Cristiano Pini, Isabella Giachetti, Simone Beretta, A Versace, Carlo Giussani, Carlo Ferrarese, Beretta, S, Versace, A, Martini, B, Viganò, M, Diamanti, S, Pini, C, Paternò, G, Carone, D, Mariani, J, Monza, L, Riva, M, Padovano, G, Rossi, E, Citerio, G, Castoldi, G, Padelli, F, Giachetti, I, Aquino, D, Giussani, C, Sganzerla, E, and Ferrarese, C

Subjects

acute stroke, collateral, head positioning, Head-Down Tilt, Random Allocation, 03 medical and health sciences, 0302 clinical medicine, Hematoma, medicine, Animals, Humans, 030212 general & internal medicine, Rats, Wistar, Stroke, Cerebral Hemorrhage, Acute stroke, Intracranial pressure, Intracerebral hemorrhage, business.industry, Mass effect, Cardiorespiratory fitness, medicine.disease, noninferiority trial, intracerebral hemorrhage, Rats, Treatment Outcome, Neurology, Anesthesia, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

BACKGROUND: Head down tilt 15° (HDT15°), applied before recanalization, increases collateral flow and improves outcome in experimental ischemic stroke. For its simplicity and low cost, HDT15° holds considerable potential to be developed as an emergency treatment of acute stroke in the pre-hospital setting, where hemorrhagic stroke is the major mimic of ischemic stroke. In this study, we assessed safety of HDT15° in the acute phase of experimental intracerebral hemorrhage. METHODS: Intracerebral hemorrhage was produced by stereotaxic injection of collagenase in Wistar rats. A randomized non-inferiority trial design was used to assign rats to HDT15° or flat position (n=64). HDT15° was applied for 1 hour during the time window of hematoma expansion. The primary outcome was hematoma volume at 24 hours. Secondary outcomes were mass effect, mortality and functional deficit in the main study and acute changes of intracranial pressure, hematoma growth and cardiorespiratory parameters in separate sets of randomized animals (n=32). RESULTS: HDT15° achieved the specified criteria of non-inferiority for hematoma volume at 24 hours. Mass effect, mortality and functional deficit at 24 hours showed no difference in the two groups. HDT15° induced a mild increase in intracranial pressure with respect to the pre-treatment values (+ 2.91 +/- 1.76 mmHg). HDT15° had a neutral effect on MRI-based analysis of hematoma growth and cardiorespiratory parameters. CONCLUSIONS: Application of HDT15° in the hyperacute phase of experimental intracerebral hemorrhage does not worsen early outcome. Further research is needed to implement HDT15° as an emergency collateral therapeutic for acute stroke.

Published

2021

21. PO-1103 Introducing contrast-delayed magnetic resonance imaging in radiosurgery treatment of glioblastoma

Author

F. Padelli, E. De Martin, Y. Mardor, D. Last, V. Pinzi, M.G. Bruzzone, L. Fariselli, V. Cuccarini, D. Aquino, Padelli, F, De Martin, E, Mardor, Y, Last, D, Pinzi, V, Bruzzone, M, Fariselli, L, Cuccarini, V, and Aquino, D

Subjects

MED/36 - DIAGNOSTICA PER IMMAGINI E RADIOTERAPIA, Materials science, medicine.diagnostic_test, neurooncology, medicine.medical_treatment, media_common.quotation_subject, glioblastoma, radiosurgery, Magnetic resonance imaging, Hematology, medicine.disease, radiology, Radiosurgery, magnetic resonance, Nuclear magnetic resonance, Oncology, medicine, Contrast (vision), Radiology, Nuclear Medicine and imaging, Glioblastoma, media_common

Published

2019

22. Comparison of Diffusion MRI Acquisition Protocols for the In Vivo Characterization of the Mouse Spinal Cord: Variability Analysis and Application to an Amyotrophic Lateral Sclerosis Model

Author

José Manuel García-Verdugo, Alessandro Scotti, Maria Grazia Bruzzone, Stefania Marcuzzo, Francesco Padelli, Matteo Figini, Pia Bernasconi, Victoria Moreno-Manzano, Ileana Zucca, Silvia Bonanno, Renato Mantegazza, Figini, M, Scotti, A, Marcuzzo, S, Bonanno, S, Padelli, F, Moreno Manzano, V, García Verdugo, J, Bernasconi, P, Mantegazza, R, Bruzzone, M, and Zucca, I

Subjects

Male, DTI-MRI, spinal cord, ALS, Pathology, lcsh:Medicine, Signal-To-Noise Ratio, Nervous System, 030218 nuclear medicine & medical imaging, Diagnostic Radiology, Diffusion, Mice, 0302 clinical medicine, Superoxide Dismutase-1, Materials Physics, Medicine and Health Sciences, Image Processing, Computer-Assisted, Amyotrophic lateral sclerosis, Diffusion (business), lcsh:Science, Microstructure, Musculoskeletal System, Brain Mapping, Multidisciplinary, medicine.diagnostic_test, Radiology and Imaging, Physics, Animal Models, Condensed Matter Physics, Magnetic Resonance Imaging, medicine.anatomical_structure, Diffusion Tensor Imaging, Spinal Cord, Physical Sciences, Anatomy, Research Article, medicine.medical_specialty, Imaging Techniques, Brain Morphometry, Materials Science, Material Properties, Neuroimaging, Mouse Models, Mice, Transgenic, Research and Analysis Methods, 03 medical and health sciences, Model Organisms, Diagnostic Medicine, Fractional anisotropy, medicine, Animals, Sensitivity (control systems), Alleles, Protocol (science), business.industry, Amyotrophic Lateral Sclerosis, lcsh:R, Biology and Life Sciences, Reproducibility of Results, Magnetic resonance imaging, medicine.disease, Spinal cord, Spine, Neuroanatomy, Disease Models, Animal, Diffusion Magnetic Resonance Imaging, Mutation, Anisotropy, lcsh:Q, business, 030217 neurology & neurosurgery, Biomedical engineering, Diffusion MRI, Neuroscience

Abstract

Diffusion-weighted Magnetic Resonance Imaging (dMRI) has relevant applications in the microstructural characterization of the spinal cord, especially in neurodegenerative diseases. Animal models have a pivotal role in the study of such diseases; however, in vivo spinal dMRI of small animals entails additional challenges that require a systematical investigation of acquisition parameters. The purpose of this study is to compare three acquisition protocols and identify the scanning parameters allowing a robust estimation of the main diffusion quantities and a good sensitivity to neurodegeneration in the mouse spinal cord. For all the protocols, the signal-to-noise and contrast-to noise ratios and the mean value and variability of Diffusion Tensor metrics were evaluated in healthy controls. For the estimation of fractional anisotropy less variability was provided by protocols with more diffusion directions, for the estimation of mean, axial and radial diffusivity by protocols with fewer diffusion directions and higher diffusion weighting. Intermediate features (12 directions, b = 1200 s/mm(2)) provided the overall minimum inter-and intra-subject variability in most cases. In order to test the diagnostic sensitivity of the protocols, 7 G93A-SOD1 mice (model of amyotrophic lateral sclerosis) at 10 and 17 weeks of age were scanned and the derived diffusion parameters compared with those estimated in age-matched healthy animals. The protocols with an intermediate or high number of diffusion directions provided the best differentiation between the two groups at week 17, whereas only few local significant differences were highlighted at week 10. According to our results, a dMRI protocol with an intermediate number of diffusion gradient directions and a relatively high diffusion weighting is optimal for spinal cord imaging. Further work is needed to confirm these results and for a finer tuning of acquisition parameters. Nevertheless, our findings could be important for the optimization of acquisition protocols for preclinical and clinical dMRI studies on the spinal cord.

Published

2016

23. Magnetic-field-driven targeting of exosomes modulates immune and metabolic changes in dystrophic muscle.

Author

Villa C, Secchi V, Macchi M, Tripodi L, Trombetta E, Zambroni D, Padelli F, Mauri M, Molinaro M, Oddone R, Farini A, De Palma A, Varela Pinzon L, Santarelli F, Simonutti R, Mauri P, Porretti L, Campione M, Aquino D, Monguzzi A, and Torrente Y

Subjects

Animals, Mice, Macrophages metabolism, Macrophages immunology, Mice, Inbred mdx, Humans, Disease Models, Animal, Nanotubes chemistry, Tissue Distribution, Drug Delivery Systems methods, Mice, Inbred C57BL, Exosomes metabolism, Muscle, Skeletal metabolism, Muscular Dystrophy, Duchenne therapy, Muscular Dystrophy, Duchenne metabolism, Muscular Dystrophy, Duchenne pathology, Magnetic Fields

Abstract

Exosomes are promising therapeutics for tissue repair and regeneration to induce and guide appropriate immune responses in dystrophic pathologies. However, manipulating exosomes to control their biodistribution and targeting them in vivo to achieve adequate therapeutic benefits still poses a major challenge. Here we overcome this limitation by developing an externally controlled delivery system for primed annexin A1 myo-exosomes (Exo myo ). Effective nanocarriers are realized by immobilizing the Exo myo onto ferromagnetic nanotubes to achieve controlled delivery and localization of Exo myo to skeletal muscles by systemic injection using an external magnetic field. Quantitative muscle-level analyses revealed that macrophages dominate the uptake of Exo myo from these ferromagnetic nanotubes in vivo to synergistically promote beneficial muscle responses in a murine animal model of Duchenne muscular dystrophy. Our findings provide insights into the development of exosome-based therapies for muscle diseases and, in general, highlight the formulation of effective functional nanocarriers aimed at optimizing exosome biodistribution., (© 2024. The Author(s).)

Published

2024

24. Quality assessment of the MRI-radiomics studies for MGMT promoter methylation prediction in glioma: a systematic review and meta-analysis.

Author

Doniselli FM, Pascuzzo R, Mazzi F, Padelli F, Moscatelli M, Akinci D'Antonoli T, Cuocolo R, Aquino D, Cuccarini V, and Sconfienza LM

Subjects

Humans, Radiomics, Glioma diagnostic imaging, Glioma genetics, DNA Repair Enzymes genetics, Magnetic Resonance Imaging methods, DNA Modification Methylases genetics, Tumor Suppressor Proteins genetics, DNA Methylation, Brain Neoplasms diagnostic imaging, Brain Neoplasms genetics, Promoter Regions, Genetic

Abstract

Objectives: To evaluate the methodological quality and diagnostic accuracy of MRI-based radiomic studies predicting O6-methylguanine-DNA methyltransferase (MGMT) promoter methylation status in gliomas., Methods: PubMed Medline, EMBASE, and Web of Science were searched to identify MRI-based radiomic studies on MGMT methylation in gliomas published until December 31, 2022. Three raters evaluated the study methodological quality with Radiomics Quality Score (RQS, 16 components) and Transparent Reporting of a Multivariable Prediction Model for Individual Prognosis Or Diagnosis (TRIPOD, 22 items) scales. Risk of bias and applicability concerns were assessed with QUADAS-2 tool. A meta-analysis was performed to estimate the pooled area under the curve (AUC) and to assess inter-study heterogeneity., Results: We included 26 studies, published from 2016. The median RQS total score was 8 out of 36 (22%, range 8-44%). Thirteen studies performed external validation. All studies reported AUC or accuracy, but only 4 (15%) performed calibration and decision curve analysis. No studies performed phantom analysis, cost-effectiveness analysis, and prospective validation. The overall TRIPOD adherence score was between 50% and 70% in 16 studies and below 50% in 10 studies. The pooled AUC was 0.78 (95% CI, 0.73-0.83, I 2 = 94.1%) with a high inter-study heterogeneity. Studies with external validation and including only WHO-grade IV gliomas had significantly lower AUC values (0.65; 95% CI, 0.57-0.73, p < 0.01)., Conclusions: Study RQS and adherence to TRIPOD guidelines was generally low. Radiomic prediction of MGMT methylation status showed great heterogeneity of results and lower performances in grade IV gliomas, which hinders its current implementation in clinical practice., Clinical Relevance Statement: MGMT promoter methylation status appears to be variably correlated with MRI radiomic features; radiomic models are not sufficiently robust to be integrated into clinical practice to accurately predict MGMT promoter methylation status in patients with glioma before surgery., Key Points: • Adherence to the indications of TRIPOD guidelines was generally low, as was RQS total score. • MGMT promoter methylation status prediction with MRI radiomic features provided heterogeneous diagnostic accuracy results across studies. • Studies that included grade IV glioma only and performed external validation had significantly lower diagnostic accuracy than others., (© 2024. The Author(s).)

Published

2024

25. Selective Cerebrospinal Fluid Hypothermia: Bioengineering Development and In Vivo Study of an Intraventricular Cooling Device (V-COOL).

Author

Beretta S, Versace A, Fiore G, Piola M, Martini B, Bigiogera V, Coppadoro L, Mariani J, Tinti L, Pirovano S, Monza L, Carone D, Riva M, Padovano G, Galbiati G, Santangelo F, Rasponi M, Padelli F, Giachetti I, Aquino D, Diamanti S, Librizzi L, Bruzzone MG, De Curtis M, Giussani C, Sganzerla EP, and Ferrarese C

Subjects

Animals, Rats, Body Temperature, Rats, Wistar, Bioengineering, Brain, Hypothermia, Hypothermia, Induced

Abstract

Hypothermia is a promising therapeutic strategy for severe vasospasm and other types of non-thrombotic cerebral ischemia, but its clinical application is limited by significant systemic side effects. We aimed to develop an intraventricular device for the controlled cooling of the cerebrospinal fluid, to produce a targeted hypothermia in the affected cerebral hemisphere with a minimal effect on systemic temperature. An intraventricular cooling device (acronym: V-COOL) was developed by in silico modelling, in vitro testing, and in vivo proof-of-concept application in healthy Wistar rats (n = 42). Cerebral cortical temperature, rectal temperature, and intracranial pressure were monitored at increasing flow rate (0.2 to 0.8 mL/min) and duration of application (10 to 60 min). Survival, neurological outcome, and MRI volumetric analysis of the ventricular system were assessed during the first 24 h. The V-COOL prototyping was designed to minimize extra-cranial heat transfer and intra-cranial pressure load. In vivo application of the V-COOL device produced a flow rate-dependent decrease in cerebral cortical temperature, without affecting systemic temperature. The target degree of cerebral cooling (- 3.0 °C) was obtained in 4.48 min at the flow rate of 0.4 mL/min, without significant changes in intracranial pressure. Survival and neurological outcome at 24 h showed no significant difference compared to sham-treated rats. MRI study showed a transient dilation of the ventricular system (+ 38%) in a subset of animals. The V-COOL technology provides an effective, rapid, selective, and safe cerebral cooling to a clinically relevant degree of - 3.0 °C., (© 2022. The Author(s).)

Published

2022

26. Role of NODDI in the MRI Characterization of Hippocampal Abnormalities in Temporal Lobe Epilepsy: Clinico-histopathologic Correlations.

Author

Giachetti I, Padelli F, Aquino D, Garbelli R, De Santis D, Rossini L, Deleo F, Pascuzzo R, Coras R, Marucci G, Tringali G, Maccagnano C, De Curtis M, Bruzzone MG, and Didato G

Subjects

Adult, Atrophy pathology, Diffusion Tensor Imaging methods, Hippocampus diagnostic imaging, Hippocampus pathology, Humans, Magnetic Resonance Imaging, Neurites, Sclerosis diagnostic imaging, Sclerosis pathology, Epilepsy, Temporal Lobe diagnostic imaging, Epilepsy, Temporal Lobe pathology

Abstract

Background and Objectives: The identification of possible hippocampal alterations is a crucial point for the diagnosis and therapy of patients with unilateral temporal lobe epilepsy (TLE). This study aims to investigate the role of neurite orientation dispersion and density imaging (NODDI) compared to diffusion tensor imaging (DTI) in the comprehension of hippocampal microstructure in TLE., Methods: DTI and NODDI metrics were calculated in the hippocampi of adult patients with TLE, with and without histology-confirmed hippocampal sclerosis (HS), and in age/sex-matched healthy controls (HC). Diffusion metrics and hippocampal volumes of the pathologic side were compared within participants and between participants among the HS, non-HS, and HC groups. Diffusion metrics were also correlated with hippocampal volume and patients' clinical features. After surgery, hippocampal specimens were processed for neuropathology examinations., Results: Fifteen patients with TLE (9 with and 6 without HS) and 11 HC were included. Hippocampal analyses resulted in a significant increase in fractional anisotropy (FA) and mean diffusivity (MD; mm 2 /s × 10 -3 ) and decrease in orientation dispersion index (ODI) comparing the pathologic side of patients with HS and their relative nonpathologic side (0.203 vs 0.183, 0.825 vs 0.724, 0.366 vs 0.443, respectively), the pathologic side of patients without HS (0.203 vs 0.169, 0.825 vs 0.745, 0.366 vs 0.453, respectively), and HC (0.203 vs 0.172, 0.825 vs 0.729, 0.366 vs 0.447, respectively). Moreover, neurite density (ND) was significantly decreased comparing both hippocampi of patients with HS (0.416 vs 0.460). A significant increase in free-water isotropic volume fraction (fiso) was found in the comparison of pathologic hippocampi of patients with HS and nonpathologic hippocampi of patients with HS (0.323 vs 0.258) and HC (0.323 vs 0.226). Hippocampal volume of all patients with TLE negatively correlated with MD ( r = -0.746, p = 0.0145) and positively correlated with ODI ( r = 0.719, p = 0.0145). Fiso and ND of sclerotic hippocampi positively correlated with disease duration ( r = 0.684, p = 0.0424 and r = 0.670, p = 0.0486, respectively). Immunohistochemistry in sclerotic hippocampal specimens revealed neuronal loss in the pyramidal layer and fiber reorganization at the level of stratum lacunosum-moleculare, confirming ODI and ND metrics., Discussion: This study shows the capability of diffusion MRI metrics to detect hippocampal microstructural alterations. Among them, ODI seems to better highlight the fiber reorganization observed by neuropathology in sclerotic hippocampi., (© 2022 American Academy of Neurology.)

Published

2022

27. A semi-automatic registration protocol to match ex-vivo high-field 7T MR images and histological slices in surgical samples from patients with drug-resistant epilepsy.

Author

Aquino D, Garbelli R, Rossini L, De Santis D, Spreafico R, d'Orio P, Tassi L, and Padelli F

Subjects

Histological Techniques methods, Humans, Image Processing, Computer-Assisted, Drug Resistant Epilepsy diagnostic imaging, Drug Resistant Epilepsy surgery, Magnetic Resonance Imaging methods

Abstract

Background: MRI is a fundamental tool to detect brain structural anomalies and improvement in this technique has the potential to visualize subtle abnormalities currently undetected. Correlation between pre-operative MRI and histopathology is required to validate the neurobiological basis of MRI abnormalities. However, precise MRI-histology matching is very challenging with the surgical samples. We previously developed a coregistration protocol to match the in-vivo MRI with ex-vivo MRI obtained from surgical specimens. Now, we complete the process to successfully align ex-vivo MRI data with the proper digitalized histological sections in an automatic way., New Method: The implemented pipeline is composed by the following steps: a) image pre-processing made of MRI and histology volumes conversion and masking; b) gross rigid body alignment between MRI volume and histology virtual slides; c) rigid alignment between each MRI section and histology slice and estimate of the correlation coefficient for each step to select the MRI slice that best matches histology; d) final linear registration of the selected slices., Results: This method is fully automatic, except for the first masking step, fast and reliable in comparison to the manual one, as assessed using a Bland-Altman plot., Comparison With Existing Methods: The visual assessment usually employed for choosing the best fitting ex-vivo MRI slice for each stained section takes hours and requires practice. Goubran et al. (2015) proposed an iterative registration protocol but its aim and methods were different from ours. No others similar methods are reported in the literature., Conclusions: This protocol completes our previous pipeline. The ultimate goal will be to apply the entire process to finely investigate the relationship between clinical MRI data and histopathological features in patients with drug-resistant epilepsy., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

28. On the evaluation of edgeless diode detectors for patient-specific QA in high-dose stereotactic radiosurgery.

Author

De Martin E, Alhujaili S, Fumagalli ML, Ghielmetti F, Marchetti M, Gallo P, Aquino D, Padelli F, Davis J, Alnaghy S, Carrara M, Fariselli L, Rosenfeld AB, and Petasecca M

Subjects

Humans, Phantoms, Imaging, Radiometry, Radiotherapy Dosage, Radiotherapy Planning, Computer-Assisted, Silicon, Radiosurgery

Abstract

Purpose: In this work, the potential of an innovative "edgeless" silicon diode was evaluated as a response to the still unmet need of a reliable tool for plan dosimetry verification of very high dose, non-coplanar, patient-specific radiosurgery treatments. In order to prove the effectiveness of the proposed technology, we focused on radiosurgical treatments for functional disease like tremor or pain., Methods: The edgeless diodes response has been validated with respect to clinical practice standard detectors by reproducing the reference dosimetry data adopted for the Treatment Planning System. In order to evaluate the potential for radiosurgery patient-specific treatment plan verification, the anthropomorphic phantom Alderson RANDO has been adopted along with three edgeless sensors, one placed in the centre of the Planning Target Volume, one superiorly and one inferiorly., Results: The reference dosimetry data obtained from the edgeless detectors are within 2.6% for output factor, off-axis ratio and well within 2% for tissue phantom ratio when compared to PTW 60,018 diode. The edgeless detectors measure a dose discrepancy of approximately 3.6% from the mean value calculated by the TPS. Larger discrepancies are obtained in very steep gradient dose regions when the sensors are placed outside the PTV., Conclusions: The angular independent edgeless diode is proposed as an innovative dosimeter for patient quality assurance of brain functional disorders and other radiosurgery treatments. The comparison of the diode measurements with TPS calculations confirms that edgeless diodes are suitable candidates for patient-specific dosimetric verification in very high dose ranges delivered by non-isocentric stereotactic radiosurgery modalities., (Copyright © 2021 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)

Published

2021

29. Additive Fabrication of a Vascular 3D Phantom for Stereotactic Radiosurgery of Arteriovenous Malformations.

Author

Legnani E, Gallo P, Pezzotta F, Padelli F, Faragò G, Gioppo A, Gentili L, De Martin E, Fumagalli ML, Cavaliere F, Bruzzone MG, Milani P, and Santaniello T

Abstract

In this study, an efficient methodology for manufacturing a realistic three-dimensional (3D) cerebrovascular phantom resembling a brain arteriovenous malformation (AVM) for applications in stereotactic radiosurgery is presented. The AVM vascular structure was 3D reconstructed from brain computed tomography (CT) data acquired from a patient. For the phantom fabrication, stereolithography was used to produce the AVM model and combined with silicone casting to mimic the brain parenchyma surrounding the vascular structure. This model was made with tissues-equivalent materials for radiology. The hollow vascular system of the phantom was filled with a contrast agent usually employed on patients for CT scans. The radiological response of the phantom was tested and compared with the one of the clinical case. The constructed model demonstrated to be a very accurate physical representation of the AVM and its vasculature and good morphological consistency was observed between the model and the patient-specific source anatomy. These results suggest that the proposed method has potential to be used to fabricate patient-specific phantoms for neurovascular radiosurgery applications and medical research., Competing Interests: No competing financial interests exist., (Copyright 2021, Mary Ann Liebert, Inc., publishers.)

Published

2021

30. Modifications to the Framework Regions Eliminate Chimeric Antigen Receptor Tonic Signaling.

Author

Landoni E, Fucá G, Wang J, Chirasani VR, Yao Z, Dukhovlinova E, Ferrone S, Savoldo B, Hong LK, Shou P, Musio S, Padelli F, Finocchiaro G, Droste M, Kuhlman B, Shamshiev A, Pellegatta S, Dokholyan NV, and Dotti G

Subjects

Animals, Cell Line, Tumor, Cytokines biosynthesis, Female, Humans, Lymphocyte Activation immunology, Male, Mice, Receptors, Antigen, T-Cell genetics, Receptors, Chimeric Antigen genetics, Signal Transduction, Single-Chain Antibodies genetics, Single-Chain Antibodies immunology, Xenograft Model Antitumor Assays, CD28 Antigens antagonists & inhibitors, Receptors, Antigen, T-Cell metabolism, Receptors, Chimeric Antigen metabolism, T-Lymphocytes immunology, Tumor Necrosis Factor Receptor Superfamily, Member 9 antagonists & inhibitors

Abstract

Chimeric antigen receptor (CAR) tonic signaling, defined as spontaneous activation and release of proinflammatory cytokines by CAR-T cells, is considered a negative attribute because it leads to impaired antitumor effects. Here, we report that CAR tonic signaling is caused by the intrinsic instability of the mAb single-chain variable fragment (scFv) to promote self-aggregation and signaling via the CD3ζ chain incorporated into the CAR construct. This phenomenon was detected in a CAR encoding either CD28 or 4-1BB costimulatory endodomains. Instability of the scFv was caused by specific amino acids within the framework regions (FWR) that can be identified by computational modeling. Substitutions of the amino acids causing instability, or humanization of the FWRs, corrected tonic signaling of the CAR, without modifying antigen specificity, and enhanced the antitumor effects of CAR-T cells. Overall, we demonstrated that tonic signaling of CAR-T cells is determined by the molecular instability of the scFv and that computational analyses of the scFv can be implemented to correct the scFv instability in CAR-T cells with either CD28 or 4-1BB costimulation., (©2021 American Association for Cancer Research.)

Published

2021

31. MR-Spectroscopy and Survival in Mice with High Grade Glioma Undergoing Unrestricted Ketogenic Diet.

Author

Ciusani E, Vasco C, Rizzo A, Girgenti V, Padelli F, Pellegatta S, Fariselli L, Bruzzone MG, and Salmaggi A

Subjects

Animals, Magnetic Resonance Spectroscopy, Mice, Brain Neoplasms, Diet, Ketogenic methods, Glioblastoma, Glioma metabolism

Abstract

Glioblastoma multiforme (GBM) is considered the most malignant form of primary brain tumor. Despite multimodal treatment, prognosis remains poor. Ketogenic diet (KD) has been suggested for the treatment of GBM. In this study, the syngenic, orthotopic GL261 mouse glioma model was used to evaluate the effects of KD on the metabolic responses of the tumor using 7T magnetic resonance imaging/spectroscopy. GL261 cells were injected into the caudate nucleus of mice. Following implantation, animals were fed with standard chow or underwent a KD. 18 days after initiating the diet, mice fed with KD displayed significantly higher plasmatic levels of ketone bodies and survived longer than those fed with the standard diet. Decreased concentrations of gamma-aminobutyric acid, N-Acetyl-Aspartate and N-acetylaspartylglutamate were found in tumor tissue after 9 days into the KD, while a huge increase in beta-hydroxybutyrate (bHB) was detected in tumor tissue as compared to normal brain. The accumulation of bHB in the tumor tissue in mice undergoing the KD, may suggest either elevated uptake/release of bHB by tumor cells, or the inability of tumor cells in this context to use it for mitochondrial metabolism.

Published

2021

32. 7-T MRI tracking of mesenchymal stromal cells after lung injection in a rat model.

Author

Rizzo S, Padelli F, Rinaldi E, Gioeni D, Aquino D, Brizzola S, Acocella F, Spaggiari L, Baggi F, Bellomi M, Bruzzone MG, and Petrella F

Subjects

Animals, Dextrans, Image Processing, Computer-Assisted, Magnetite Nanoparticles, Rats, Rats, Inbred F344, Cell Tracking methods, Lung cytology, Magnetic Resonance Imaging methods, Mesenchymal Stem Cell Transplantation methods, Mesenchymal Stem Cells

Abstract

Background: Mesenchymal stromal cells (MSCs) are able to migrate and engraft at sites of inflammation, injuries, and tumours, but little is known about their fate after local injection. The purpose of this study is to perform MSC tracking, combining in vivo 7-T magnetic resonance imaging (MRI) and histological assessment, following lung injection in a rat model., Methods: Five lungs were injected with ferumoxide-labelled MSCs and five with perfluorocarbon-labelled MSCs and underwent 7-T MRI. MRI acquisitions were recorded immediately (T 0 ), at 24 h (T 24 ) and/or 48 h (T 48 ) after injection. For each rat, labelled cells were assessed in the main organs by MRI. Target organs were harvested under sterile conditions from rats sacrificed 0, 24, or 48 h after injection and fixed for histological analysis via confocal and structured illumination microscopy., Results: Ferumoxide-labelled MSCs were not detectable in the lungs, whereas they were not visible in the distant sites. Perfluorocarbon-labelled MSCs were seen in 5/5 injected lungs at T 0 , in 1/2 at T 24 , and in 1/3 at T 48 . The fluorine signal in the liver was seen in 3/5 at T 0 , in 1/2 at T24, and in 2/3 at T 48 . Post-mortem histology confirmed the presence of MSCs in the injected lung., Conclusions: Ferumoxide-labelled cells were not seen at distant sites; a linear decay of injected perfluorocarbon-labelled MSCs was observed at T 0 , T 24 , and T 48 in the lung. In more than half of the experiments, perfluorocarbon-labelled MSCs scattering to the liver was observed, with a similar decay over time as observed in the lung.

Published

2020

33. pCREB expression in human tissues from epilepsy surgery.

Author

De Santis D, Rossini L, Tassi L, Didato G, Tringali G, Cossu M, Bramerio M, Padelli F, Regondi MC, Colciaghi F, Aronica E, Spreafico R, and Garbelli R

Subjects

Adolescent, Adult, Aged, Animals, Brain pathology, Child, Preschool, Cyclic AMP Response Element-Binding Protein genetics, Drug Resistant Epilepsy genetics, Female, Gene Expression, Humans, Male, Middle Aged, Rats, Rats, Sprague-Dawley, Stereotaxic Techniques, Brain metabolism, Brain surgery, Cyclic AMP Response Element-Binding Protein biosynthesis, Drug Resistant Epilepsy metabolism, Drug Resistant Epilepsy surgery

Abstract

Objective: Activity-dependent changes have been reported in animal models and in human epileptic specimens and could potentially be used as tissue biomarkers to evaluate the propensity of a tissue to generate seizure activity. In this context, cAMP-response element binding protein (CREB) activation was specifically reported in human epileptic foci and related mainly to interictal spike activity. To get further insights into CREB activation in human epilepsy, we analyzed pCREB expression on brain tissue samples from patients who underwent surgery for drug-resistant focal epilepsy, correlating this expression with intracranial stereo-electroencephalography (SEEG) recording in a subgroup., Methods: Neocortical specimens from patients with neuropathological diagnosis of no lesion (cryptogenic), malformations of cortical development,mainly type II focal cortical dysplasia (FCD), and hippocampi with and without hippocampal sclerosis have been analyzed by immunohistochemistry. Peritumoral cortex from non-epileptic patients and autoptic samples were used as controls, whereas rat brains were used to test possible loss of pCREB antigenicity due to fixation procedures and postmortem delay., Results: pCREB was consistently expressed in layer II neuronal nuclei in regions with normal cortical lamination both in epileptic and non-epileptic surgical tissues. In patients with SEEG recordings, this anatomical pattern was unrelated to the presence of interictal spike activity. Conversely, in the core of type II FCD, as well as in other developmental malformations, pCREB was scattered without any laminar specificity. Furthermore, quantitative data did not reveal significant differences between epileptic and non-epileptic tissues, except for an increased immunoreactivity in the core of type IIB FCD lesion related mainly to reactive glial and balloon cells., Significance: The present data argue against the reliability of pCREB immunohistochemistry as a marker of epileptic focus but underscores its layer-related expression, suggesting a potential application in the study of malformations of cortical development, a wide range of diseases arising from perturbations of normal brain development., (© 2020 International League Against Epilepsy.)

Published

2020

34. Functionalized Gold Nanoparticles as Contrast Agents for Proton and Dual Proton/Fluorine MRI.

Author

Şologan M, Padelli F, Giachetti I, Aquino D, Boccalon M, Adami G, Pengo P, and Pasquato L

Abstract

Gold nanoparticles carrying fluorinated ligands in their monolayer are, by themselves, contrast agents for 19 F magnetic resonance imaging displaying high sensitivity because of the high density of fluorine nuclei achievable by grafting suitable ligands on the gold core surface. Functionalization of these nanoparticles with Gd(III) chelates allows adding a further functional activity to these systems, developing materials also acting as contrast agents for proton magnetic resonance imaging. These dual mode contrast agents may allow capitalizing on the benefits of 1 H and 19 F magnetic resonance imaging in a single diagnostic session. In this work, we describe a proof of principle of this approach by studying these nanoparticles in a high field preclinical scanner. The Gd(III) centers within the nanoparticles monolayer shorten considerably the 19 F T1 of the ligands but, nevertheless, these systems display strong and sharp NMR signals which allow recording good quality 19 F MRI phantom images at nanoparticle concentration of 20 mg/mL after proper adjustment of the imaging sequence. The Gd(III) centers also influence the T1 relaxation time of the water protons and high quality 1 H MRI images could be obtained. Gold nanoparticles protected by hydrogenated ligands and decorated with Gd(III) chelates are reported for comparison as 1 H MRI contrast agents.

Published

2019

35. An image registration protocol to integrate electrophysiology, MRI and neuropathology data in epileptic patients explored with intracerebral electrodes.

Author

Zucca I, Milesi G, Padelli F, Rossini L, Gozzo F, Figini M, Barbaglia A, Cardinale F, Tassi L, Bruzzone MG, Spreafico R, and Garbelli R

Subjects

Clinical Protocols, Electrodes, Implanted, Electrophysiology methods, Humans, Neuropathology methods, Drug Resistant Epilepsy diagnostic imaging, Drug Resistant Epilepsy pathology, Drug Resistant Epilepsy physiopathology, Drug Resistant Epilepsy surgery, Electrocorticography methods, Histological Techniques methods, Magnetic Resonance Imaging methods, Neurosurgical Procedures methods

Abstract

Background: Several attempts have been made to coregister in vivo MRI with the histopathology of surgical samples, aiming to validate new MRI biomarkers and improve the detection of epileptogenic lesions. As a further implementation, we propose a method to reconstruct the anatomical localization of the intracerebral electrodes on the histological sections, developing a coregistration protocol to match the in vivo MRI onto the ex vivo MRI obtained from the surgical specimen., New Method: Since the ex vivo MRI is natively in geometrical correspondence with histology slices, the goal of the coregistration process is to compute the transform function mapping the clinical MRI space to the ex vivo MRI. Electrodes and leads, identified in CT-MRI, can then be segmented and translated onto the histological slices., Results: Step-by-step, qualitative visual inspection showed an improved matching of the anatomical structures or boundaries and electrodes positions between the two modalities. The quantitative evaluation of the coregistration protocol reported a mean error ranging between 0.82 and 1.27 mm when a sufficient number of landmarks, particularly in the core of the specimen, were clearly identified., Comparison With Existing Methods: Because histology was performed according to ex vivo MRI geometry we chose to transform the in vivo onto the ex vivo MRI, differently from other methods., Conclusions: Interesting applications of the method will include correlating the locally-generated pathological electrical activity with the subtle morphological alterations of the tissue, and histologically validating the origin of signal alterations or quantitative parameter variations in MRI studies., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

36. In vitro labelling and detection of mesenchymal stromal cells: a comparison between magnetic resonance imaging of iron-labelled cells and magnetic resonance spectroscopy of fluorine-labelled cells.

Author

Rizzo S, Petrella F, Zucca I, Rinaldi E, Barbaglia A, Padelli F, Baggi F, Spaggiari L, Bellomi M, and Bruzzone MG

Abstract

Background: Among the various stem cell populations used for cell therapy, adult mesenchymal stromal cells (MSCs) have emerged as a major new cell technology. These cells must be tracked after transplantation to monitor their migration within the body and quantify their accumulation at the target site. This study assessed whether rat bone marrow MSCs can be labelled with superparamagnetic iron oxide (SPIO) nanoparticles and perfluorocarbon (PFC) nanoemulsion formulations without altering cell viability and compared magnetic resonance imaging (MRI) and magnetic resonance spectroscopy (MRS) results from iron-labelled and fluorine-labelled MSCs, respectively., Methods: Of MSCs, 2 × 10 6 were labelled with Molday ION Rhodamine-B (MIRB) and 2 × 10 6 were labelled with Cell Sense. Cell viability was evaluated by trypan blue exclusion method. Labelled MSCs were divided into four samples containing increasing cell numbers (0.125 × 10 6 , 0.25 × 10 6 , 0.5 × 10 6 , 1 × 10 6 ) and scanned on a 7T MRI: for MIRB-labelled cells, phantoms and cells negative control, T1, T2 and T2* maps were acquired; for Cell Sense labelled cells, phantoms and unlabelled cells, a 19 F non-localised single-pulse MRS sequence was acquired., Results: In total, 86.8% and 83.6% of MIRB-labelled cells and Cell Sense-labelled cells were viable, respectively. MIRB-labelled cells were visible in all samples with different cell numbers; pellets containing 0.5 × 10 6 and 1 × 10 6 of Cell Sense-labelled cells showed a detectable 19 F signal., Conclusions: Our data support the use of both types of contrast material (SPIO and PFC) for MSCs labelling, although further efforts should be dedicated to improve the efficiency of PFC labelling.

Published

2017

37. Comparison of Diffusion MRI Acquisition Protocols for the In Vivo Characterization of the Mouse Spinal Cord: Variability Analysis and Application to an Amyotrophic Lateral Sclerosis Model.

Author

Figini M, Scotti A, Marcuzzo S, Bonanno S, Padelli F, Moreno-Manzano V, García-Verdugo JM, Bernasconi P, Mantegazza R, Bruzzone MG, and Zucca I

Subjects

Alleles, Amyotrophic Lateral Sclerosis diagnostic imaging, Animals, Anisotropy, Diffusion, Disease Models, Animal, Image Processing, Computer-Assisted, Male, Mice, Mice, Transgenic, Mutation, Reproducibility of Results, Signal-To-Noise Ratio, Spinal Cord physiopathology, Superoxide Dismutase-1 genetics, Amyotrophic Lateral Sclerosis physiopathology, Diffusion Magnetic Resonance Imaging, Spinal Cord diagnostic imaging

Abstract

Diffusion-weighted Magnetic Resonance Imaging (dMRI) has relevant applications in the microstructural characterization of the spinal cord, especially in neurodegenerative diseases. Animal models have a pivotal role in the study of such diseases; however, in vivo spinal dMRI of small animals entails additional challenges that require a systematical investigation of acquisition parameters. The purpose of this study is to compare three acquisition protocols and identify the scanning parameters allowing a robust estimation of the main diffusion quantities and a good sensitivity to neurodegeneration in the mouse spinal cord. For all the protocols, the signal-to-noise and contrast-to noise ratios and the mean value and variability of Diffusion Tensor metrics were evaluated in healthy controls. For the estimation of fractional anisotropy less variability was provided by protocols with more diffusion directions, for the estimation of mean, axial and radial diffusivity by protocols with fewer diffusion directions and higher diffusion weighting. Intermediate features (12 directions, b = 1200 s/mm2) provided the overall minimum inter- and intra-subject variability in most cases. In order to test the diagnostic sensitivity of the protocols, 7 G93A-SOD1 mice (model of amyotrophic lateral sclerosis) at 10 and 17 weeks of age were scanned and the derived diffusion parameters compared with those estimated in age-matched healthy animals. The protocols with an intermediate or high number of diffusion directions provided the best differentiation between the two groups at week 17, whereas only few local significant differences were highlighted at week 10. According to our results, a dMRI protocol with an intermediate number of diffusion gradient directions and a relatively high diffusion weighting is optimal for spinal cord imaging. Further work is needed to confirm these results and for a finer tuning of acquisition parameters. Nevertheless, our findings could be important for the optimization of acquisition protocols for preclinical and clinical dMRI studies on the spinal cord., Competing Interests: The authors have declared that no competing interests exist.

Published

2016