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10 results on '"Vetrano, I"'

1. Vascular remodeling in moyamoya angiopathy: From peripheral blood mononuclear cells to endothelial cells

Author

Tinelli, F, Nava, S, Arioli, F, Bedini, G, Scelzo, E, Lisini, D, Faragò, G, Gioppo, A, Ciceri, E, Acerbi, F, Ferroli, P, Vetrano, I, Esposito, S, Saletti, V, Pantaleoni, C, Zibordi, F, Nardocci, N, Zedde, M, Pezzini, A, Lazzaro, V, Capone, F, Dell'Acqua, M, Vajkoczy, P, Tournier-Lasserve, E, Parati, E, Bersano, A, Gatti, L, Tinelli F., Nava S., Arioli F., Bedini G., Scelzo E., Lisini D., Faragò G., Gioppo A., Ciceri E. F., Acerbi F., Ferroli P., Vetrano I. G., Esposito S., Saletti V., Pantaleoni C., Zibordi F., Nardocci N., Zedde M. L., Pezzini A., Lazzaro V. D., Capone F., Dell'acqua M. L., Vajkoczy P., Tournier-Lasserve E., Parati E. A., Bersano A., Gatti L., Tinelli, F, Nava, S, Arioli, F, Bedini, G, Scelzo, E, Lisini, D, Faragò, G, Gioppo, A, Ciceri, E, Acerbi, F, Ferroli, P, Vetrano, I, Esposito, S, Saletti, V, Pantaleoni, C, Zibordi, F, Nardocci, N, Zedde, M, Pezzini, A, Lazzaro, V, Capone, F, Dell'Acqua, M, Vajkoczy, P, Tournier-Lasserve, E, Parati, E, Bersano, A, Gatti, L, Tinelli F., Nava S., Arioli F., Bedini G., Scelzo E., Lisini D., Faragò G., Gioppo A., Ciceri E. F., Acerbi F., Ferroli P., Vetrano I. G., Esposito S., Saletti V., Pantaleoni C., Zibordi F., Nardocci N., Zedde M. L., Pezzini A., Lazzaro V. D., Capone F., Dell'acqua M. L., Vajkoczy P., Tournier-Lasserve E., Parati E. A., Bersano A., and Gatti L.

Abstract

The pathophysiological mechanisms of Moyamoya angiopathy (MA), which is a rare cerebrovascular condition characterized by recurrent ischemic/hemorrhagic strokes, are still largely unknown. An imbalance of vasculogenic/angiogenic mechanisms has been proposed as one possible disease aspect. Circulating endothelial progenitor cells (cEPCs) have been hypothesized to contribute to vascular remodeling of MA, but it remains unclear whether they might be considered a disease effect or have a role in disease pathogenesis. The aim of the present study was to provide a morphological, phenotypical, and functional characterization of the cEPCs from MA patients to uncover their role in the disease pathophysiology. cEPCs were identified from whole blood as CD45dimCD34+CD133+ mononuclear cells. Morphological, biochemical, and functional assays were performed to characterize cEPCs. A significant reduced level of cEPCs was found in blood samples collected from a homogeneous group of adult (mean age 46.86 ± 11.7; 86.36% females), Caucasian, non-operated MA patients with respect to healthy donors (HD; p = 0.032). Since no difference in cEPC characteristics and functionality was observed between MA patients and HD, a defective recruitment mechanism could be involved in the disease pathophysiology. Collectively, our results suggest that cEPC level more than endothelial progenitor cell (EPC) functionality seems to be a potential marker of MA. The validation of our results on a larger population and the correlation with clinical data as well as the use of more complex cellular model could help our understanding of EPC role in MA pathophysiology.

Published
2020

3. In vitro assessment of radiobiology of meningioma: A pilot study

Author

Pinzi, V, Bisogno, I, Ciusani, E, Canazza, A, Calatozzolo, C, Vetrano, I, Pasi, F, De Martin, E, Fumagalli, M, Nano, R, Fariselli, L, Pinzi V., Bisogno I., Ciusani E., Canazza A., Calatozzolo C., Vetrano I. G., Pasi F., De Martin E., Fumagalli M. L., Nano R., Fariselli L., Pinzi, V, Bisogno, I, Ciusani, E, Canazza, A, Calatozzolo, C, Vetrano, I, Pasi, F, De Martin, E, Fumagalli, M, Nano, R, Fariselli, L, Pinzi V., Bisogno I., Ciusani E., Canazza A., Calatozzolo C., Vetrano I. G., Pasi F., De Martin E., Fumagalli M. L., Nano R., and Fariselli L.

Abstract

Background: Meningioma are the second most common brain tumors in adults and can cause significant morbidity and mortality. The scarcity of in vitro and in vivo models represents the major obstacle to understand the molecular basis of meningioma tumorigenesis. The main aim of this study was to assess a method for radiobiology of meningioma cells colture by means of well-known meningioma lines. New method: We carried out a protocol of cells culture for irradiation of meningioma cells. We used the immortalized cell lines IOMM-Lee and CH-157 to study their radiation-reponse by means of clonogenic assays and to evaluate their proliferation and apoptosis. We irradiated the cells with different total doses using two different linear accelerators. Results: We observed a more radiation resistance of the IOMM-Lee than the CH-157. Indeed, the cellular death of CH-157 was obtained at a very low dose irradiation. Moreover, we showed a dose-response effect due to the early and late apoptosis, in fact the rate of apoptotic cells is greater than that of the necrotic cells at any dose of irradiation and at any time of analysis. Comparison with existing methods: There is not a standardized method for radiobiology of meningioma experiments. Conclusions: Our method of cells culture appears suitable for radiosensitivity studies on meningioma. We can confirm that the response to radiotherapy depends not only on irradiation features, but also on tumor radiosensitivity.

Published
2019

10. Fusion imaging for intra-operative ultrasound-based navigation in neurosurgery.

Author

Prada F, Del Bene M, Mattei L, Casali C, Filippini A, Legnani F, Mangraviti A, Saladino A, Perin A, Richetta C, Vetrano I, Moiraghi A, Saini M, and DiMeco F

Abstract

The major shortcoming of image-guided navigation systems is the use of presurgically acquired image data, which does not account for intra-operative changes such as brain shift, tissue deformation and tissue removal occurring during the surgical procedure. Intra-operative ultrasound (iUS) is becoming widely used in neurosurgery but they lack orientation and panoramic view. In this article, we describe our procedure for US-based real-time neuro-navigation during surgery. We used fusion imaging between preoperative magnetic resonance imaging (MRI) and iUS for brain lesion removal in 67 patients so far. Surgical planning is based on preoperative MRI only. iUS images obtained during surgery are fused with the preoperative MRI. Surgery is performed under intra-operative US control. Relying on US imaging, it is possible to recalibrate navigated MRI imaging, adjusting distortion due to brain shift and tissue resection, continuously updating the two modalities. Ultrasound imaging provides excellent visualization of targets, their margins and surrounding structures. The use of navigated MRI is helpful in better understanding cerebral ultrasound images, providing orientation and panoramic view. Intraoperative US-guided neuro-navigation adjustments are very accurate and helpful in the event of brain shift. The use of this integrated system allows for a true real-time feedback during surgery.

Published
2014
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