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1,071 results on '"Ghioni, M."'

2. Tumor microenvironment-induced FOXM1 regulates ovarian cancer stemness

Author

Battistini, C, Kenny, H, Zambuto, M, Nieddu, V, Melocchi, V, Decio, A, Lo Riso, P, Villa, C, Gatto, A, Ghioni, M, Porta, F, Testa, G, Giavazzi, R, Colombo, N, Bianchi, F, Lengyel, E, Cavallaro, U, Battistini C., Kenny H. A., Zambuto M., Nieddu V., Melocchi V., Decio A., Lo Riso P., Villa C. E., Gatto A., Ghioni M., Porta F. M., Testa G., Giavazzi R., Colombo N., Bianchi F., Lengyel E., Cavallaro U., Battistini, C, Kenny, H, Zambuto, M, Nieddu, V, Melocchi, V, Decio, A, Lo Riso, P, Villa, C, Gatto, A, Ghioni, M, Porta, F, Testa, G, Giavazzi, R, Colombo, N, Bianchi, F, Lengyel, E, Cavallaro, U, Battistini C., Kenny H. A., Zambuto M., Nieddu V., Melocchi V., Decio A., Lo Riso P., Villa C. E., Gatto A., Ghioni M., Porta F. M., Testa G., Giavazzi R., Colombo N., Bianchi F., Lengyel E., and Cavallaro U.

Abstract

In ovarian tumors, the omental microenvironment profoundly influences the behavior of cancer cells and sustains the acquisition of stem-like traits, with major impacts on tumor aggressiveness and relapse. Here, we leverage a patient-derived platform of organotypic cultures to study the crosstalk between the tumor microenvironment and ovarian cancer stem cells. We discovered that the pro-tumorigenic transcription factor FOXM1 is specifically induced by the microenvironment in ovarian cancer stem cells, through activation of FAK/YAP signaling. The microenvironment-induced FOXM1 sustains stemness, and its inactivation reduces cancer stem cells survival in the omental niche and enhances their response to the PARP inhibitor Olaparib. By unveiling the novel role of FOXM1 in ovarian cancer stemness, our findings highlight patient-derived organotypic co-cultures as a powerful tool to capture clinically relevant mechanisms of the microenvironment/cancer stem cells crosstalk, contributing to the identification of tumor vulnerabilities.

Published
2024

3. Multispot single-molecule FRET: high-throughput analysis of freely diffusing molecules

Author

Ingargiola, A, Lerner, E, Chung, S, Panzeri, F, Gulinatti, A, Rech, I, Ghioni, M, Weiss, S, and Michalet, X

Subjects
Genetics
Abstract

We describe an 8-spot confocal setup for high-throughput smFRET assays and illustrate its performance with two characteristic experiments. First, measurements on a series of freely diffusing doubly-labeled dsDNA samples allow us to demonstrate that data acquired in multiple spots in parallel can be properly corrected and result in measured sample characteristics identical to those obtained with a standard single-spot setup. We then take advantage of the higher throughput provided by parallel acquisition to address an outstanding question about the kinetics of the initial steps of bacterial RNA transcription. Our real-time kinetic analysis of promoter escape by bacterial RNA polymerase confirms results obtained by a more indirect route, shedding additional light on the initial steps of transcription. Finally, we discuss the advantages of our multispot setup, while pointing potential limitations of the current single laser excitation design, as well as analysis challenges and their solutions.

Published
2016

4. Tips and Tricks for Early Diagnosis of Cervico-Vaginal Involvement from Extramammary Paget’s Disease of the Vulva: A Referral Center Experience

Author

Iacobone, A, Guerrieri, M, Preti, E, Spolti, N, Radici, G, Peveri, G, Bagnardi, V, Tosti, G, Maggioni, A, Bottari, F, Scacchi, C, Ghioni, M, Iacobone A. D., Guerrieri M. E., Preti E. P., Spolti N., Radici G., Peveri G., Bagnardi V., Tosti G., Maggioni A., Bottari F., Scacchi C., Ghioni M., Iacobone, A, Guerrieri, M, Preti, E, Spolti, N, Radici, G, Peveri, G, Bagnardi, V, Tosti, G, Maggioni, A, Bottari, F, Scacchi, C, Ghioni, M, Iacobone A. D., Guerrieri M. E., Preti E. P., Spolti N., Radici G., Peveri G., Bagnardi V., Tosti G., Maggioni A., Bottari F., Scacchi C., and Ghioni M.

Abstract

Cervico-vaginal (CV) localization of extra-mammary Paget’s disease (EMPD) of the vulva is extremely rare. In order to investigate the incidence risk and the pathognomonic clinical and pathological features of this condition, a retrospective analysis was conducted including 94 women treated for vulvar EMPD at the European Institute of Oncology, Milan, Italy, from October 1997 to May 2020. Overall nine patients developed CV involvement from EMPD, with a cumulative incidence of 2.5% (95% CI: 0.5–8.0%) at 5 years, 6.5% (95% CI: 1.9–15.1%) at 10 years and 14.0% (95% CI: 4.8–27.8%) at 15 years, respectively. All cases except one were firstly detected by abnormal glandular cytology. None reported vaginal bleeding or other suspicious symptoms. The colposcopic findings were heterogeneous and could sometimes be misdiagnosed. Cervical and/or vaginal biopsies were always performed for histopathological diagnosis by identification of Paget cells in the epithelium or stroma. Most patients developed invasive EMPD (5/9) of the cervix and/or vagina and underwent hysterectomy with partial or total colpectomy. CV involvement from EMPD should not be underestimated in women with a long-standing history of vulvar Paget’s disease. Liquid-based cytology with immunocytochemistry represents a valuable tool for early diagnosis and should be routinely performed during the required lifelong follow-up.

Published
2023

5. An extremely low-noise heralded single-photon source: a breakthrough for quantum technologies

Author

Brida, G., Degiovanni, I. P., Genovese, M., Piacentini, F., Traina, P., Della Frera, A., Tosi, A., Shehata, A. Bahgat, Scarcella, C., Gulinatti, A., Ghioni, M., Polyakov, S. V., Migdall, A., and Giudice, A.

Subjects
Quantum Physics
Abstract

Low noise single-photon sources are a critical element for quantum technologies. We present a heralded single-photon source with an extremely low level of residual background photons, by implementing low-jitter detectors and electronics and a fast custom-made pulse generator controlling an optical shutter (a LiNbO3 waveguide optical switch) on the output of the source. This source has a second-order autocorrelation g^{(2)}(0)=0.005(7), and an "Output Noise Factor" (defined as the ratio of the number of noise photons to total photons at the source output channel) of 0.25(1)%. These are the best performance characteristics reported to date.

Published
2013
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6. Tumor microenvironment-induced FOXM1 regulates ovarian cancer stemness.

Author

Battistini C, Kenny HA, Zambuto M, Nieddu V, Melocchi V, Decio A, Lo Riso P, Villa CE, Gatto A, Ghioni M, Porta FM, Testa G, Giavazzi R, Colombo N, Bianchi F, Lengyel E, and Cavallaro U

Subjects
Humans, Female, Cell Line, Tumor, Signal Transduction drug effects, YAP-Signaling Proteins metabolism, Focal Adhesion Kinase 1 metabolism, Focal Adhesion Kinase 1 genetics, Mice, Gene Expression Regulation, Neoplastic drug effects, Animals, Phthalazines pharmacology, Piperazines pharmacology, Tumor Microenvironment drug effects, Forkhead Box Protein M1 metabolism, Forkhead Box Protein M1 genetics, Ovarian Neoplasms pathology, Ovarian Neoplasms metabolism, Ovarian Neoplasms genetics, Ovarian Neoplasms drug therapy, Neoplastic Stem Cells metabolism, Neoplastic Stem Cells pathology, Neoplastic Stem Cells drug effects
Abstract

In ovarian tumors, the omental microenvironment profoundly influences the behavior of cancer cells and sustains the acquisition of stem-like traits, with major impacts on tumor aggressiveness and relapse. Here, we leverage a patient-derived platform of organotypic cultures to study the crosstalk between the tumor microenvironment and ovarian cancer stem cells. We discovered that the pro-tumorigenic transcription factor FOXM1 is specifically induced by the microenvironment in ovarian cancer stem cells, through activation of FAK/YAP signaling. The microenvironment-induced FOXM1 sustains stemness, and its inactivation reduces cancer stem cells survival in the omental niche and enhances their response to the PARP inhibitor Olaparib. By unveiling the novel role of FOXM1 in ovarian cancer stemness, our findings highlight patient-derived organotypic co-cultures as a powerful tool to capture clinically relevant mechanisms of the microenvironment/cancer stem cells crosstalk, contributing to the identification of tumor vulnerabilities., (© 2024. The Author(s).)

Published
2024
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9. Expression of tumor-associated antigens in breast cancer subtypes

Author

Curigliano, G, Bagnardi, V, Ghioni, M, Louahed, J, Brichard, V, Lehmann, F, Marra, A, Trapani, D, Criscitiello, C, Viale, G, Curigliano G., Bagnardi V., Ghioni M., Louahed J., Brichard V., Lehmann F. F., Marra A., Trapani D., Criscitiello C., Viale G., Curigliano, G, Bagnardi, V, Ghioni, M, Louahed, J, Brichard, V, Lehmann, F, Marra, A, Trapani, D, Criscitiello, C, Viale, G, Curigliano G., Bagnardi V., Ghioni M., Louahed J., Brichard V., Lehmann F. F., Marra A., Trapani D., Criscitiello C., and Viale G.

Abstract

Objectives: Tumor-associated antigens (TAAs) are frequently overexpressed in several cancer types. The aim of this study was to investigate the expression of TAAs in breast cancer. Material and methods: A total of 250 selected invasive breast cancers including 50 estrogen receptor (ER)-positive (Luminal B like), 50 triple-negative (TN), 50 ER-positive lobular type, 50 ER- and progesterone receptor (PgR)-positive (Luminal A like) and 50 cerbB2-positive breast cancers, were assessed for New York esophageal squamous cell carcinoma-1 (NY-ESO-1), Wilms tumor antigen (WT-1) and PReferentially expressed Antigen of MElanoma (PRAME) antigen expression by immunohistochemistry (IHC). Results: A significantly higher expression of cancer testis (CT)-antigens NY-ESO-1 and WT-1 antigen was detected in TN breast cancers compared with ER-positive tumors. NY-ESO-1 overexpression (score 2 + and 3+) assessed by monoclonal and polyclonal antibodies was detected in 9 (18%) TN cancers as compared to 2 (4%) ER-positive tumors (p = 0.002). WT1 over-expression (score 2 + and 3+) was confirmed in 27 (54%) TN tumor samples as compared to 6 (12%) ER-positive (p < 0.0001). PRAME over-expression (score 2 + and 3+) was detected in 8 (16%) HER2 positive tumor samples as compared to no TN and ER-positive cancers (p = 0.0021). Conclusions: NY-ESO-1 and WT1 antigens are overexpressed in TN breast cancers. Because of the limited therapeutic options for this patient subgroup, CT antigen-based vaccines might prove to be useful for patients with this phenotype of breast cancer.

Published
2020

10. Human Papillomavirus Genotype Richness and the Biodiversity of Squamous and Glandular Cervical Dysplasias: A Cross-Sectional Study.

Author

Gozzini E, Radice D, Bottari F, Boveri S, Guerrieri ME, Preti EP, Spolti N, Ghioni M, Ferrari F, and Iacobone AD

Abstract

The impact of multiple infections on the risk of cervical lesions is a subject of ongoing debate. This study aims to explore whether the richness of HPV genotype infections and the biodiversity of squamous and glandular cervical dysplasias could influence the progression of precancerous lesions. We conducted a cross-sectional analysis involving 469 women who attended the Colposcopy Unit at the European Institute of Oncology in Milan, Italy, from December 2006 to December 2014. HPV type richness was measured as the number of different genotypes per patient. We calculated the associations between richness and age, as well as histologic grade, along with Simpson's biodiversity index for cervical dysplasias. We observed significant inverse relationships between the richness of high-risk (HR) genotypes and both age ( p = 0.007) and histologic grade ( p < 0.001). Furthermore, as the histologic grade increased, the mean biodiversity index of cervical dysplasias decreased, with exceptions noted in cases of normal histology and adenocarcinoma in situ. Different histologic grades formed five clusters with distinct mean ages and mean biodiversity indices. These findings suggest that HPV genotype richness and the biodiversity of cervical dysplasias may play a crucial role in predicting the risk of high-grade cervical lesions, enabling personalized management of precancers.

Published
2023
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14. On the Feasibility of Avalanche Devices for Optical Switching in Silicon

Author

Cova, S., Lacaita, A., Ghioni, M., Ripamonti, G., Aigrain, P., editor, Aldana, F., editor, Danielmeyer, H. G., editor, Faugeras, O., editor, Gallaire, H., editor, Kowalski, R. A., editor, Lehn, J. M., editor, Levi, G., editor, Metakides, G., editor, Oakley, B., editor, Rasmussen, J., editor, Tribolet, J., editor, Tsichritzis, D., editor, Van Overstraeten, R., editor, Wrixon, G., editor, Smith, S. Desmond, editor, and Neale, Roderick F., editor

Published
1993
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16. Tips and Tricks for Early Diagnosis of Cervico-Vaginal Involvement from Extramammary Paget's Disease of the Vulva: A Referral Center Experience.

Author

Iacobone AD, Guerrieri ME, Preti EP, Spolti N, Radici G, Peveri G, Bagnardi V, Tosti G, Maggioni A, Bottari F, Scacchi C, and Ghioni M

Abstract

Cervico-vaginal (CV) localization of extra-mammary Paget's disease (EMPD) of the vulva is extremely rare. In order to investigate the incidence risk and the pathognomonic clinical and pathological features of this condition, a retrospective analysis was conducted including 94 women treated for vulvar EMPD at the European Institute of Oncology, Milan, Italy, from October 1997 to May 2020. Overall nine patients developed CV involvement from EMPD, with a cumulative incidence of 2.5% (95% CI: 0.5-8.0%) at 5 years, 6.5% (95% CI: 1.9-15.1%) at 10 years and 14.0% (95% CI: 4.8-27.8%) at 15 years, respectively. All cases except one were firstly detected by abnormal glandular cytology. None reported vaginal bleeding or other suspicious symptoms. The colposcopic findings were heterogeneous and could sometimes be misdiagnosed. Cervical and/or vaginal biopsies were always performed for histopathological diagnosis by identification of Paget cells in the epithelium or stroma. Most patients developed invasive EMPD (5/9) of the cervix and/or vagina and underwent hysterectomy with partial or total colpectomy. CV involvement from EMPD should not be underestimated in women with a long-standing history of vulvar Paget's disease. Liquid-based cytology with immunocytochemistry represents a valuable tool for early diagnosis and should be routinely performed during the required lifelong follow-up.

Published
2023
Full Text
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17. The DarkSide experiment

Author

Bottino, B., E. Aalseth, C., Acconcia, G., Acerbi, F., Agnes, P., Agostino, L., Albuquerque, I.F.M., Alexander, T., Alton, A., Ampudia, P., Ardito, R., Arisaka, K., J. Arnquist, I., M. Asner, D., O. Back, H., Baldin, B., Batignani, G., Biery, K., G. Bisogni, M., Bocci, V., Bondar, A., Bonfini, G., Bonivento, W., Bossa, M., Brigatti, A., Brodsky, J., Budano, F., Bunker, R., Bussino, S., Buttafava, M., Buzulutskov, A., Cadeddu, M., Cadoni, M., Calandri, N., Calaprice, F., Calvo, J., Campajola, L., Canci, N., Candela, A., Cantini, C., Cao, H., Caravati, M., Cariello, M., Carlini, M., Carpinelli, M., Castellani, A., Catalanotti, S., Cavalcante, P., Chepurnov, A., Cicalò, C., Citterio, M., G. Cocco, A., Corgiolu, S., Covone, G., Crivelli, P., D'Angelo, D., D'Incecco, M., Daniel, M., Davini, S., De Cecco, S., De Deo, M., De Guido, G., De Vincenzi, M., Demontis, P., Derbin, A., Devoto, A., Di Eusanio, F., Di Pietro, G., Dionisi, C., Dolgov, A., Dromia, I., Dussoni, S., Edkins, E., Empl, A., Fan, A., Ferri, A., O. Filip, C., Fiorillo, G., Fomenko, K., Forster, G., Franco, D., E. Froudakis, G., Gabriele, F., Gabrieli, A., Galbiati, C., Gendotti, A., Ghioni, M., Ghisi, A., Giagu, S., Gibertoni, G., Giganti, C., Giorgi, M., K. Giovannetti, G., L. Gligan, M., Gola, A., Goretti, A., Granato, F., Grassi, M., W. Grate, J., Gromov, M., Guan, M., Guardincerri, Y., Gulinatti, A., K. Haaland, R., Hackett, B., Harrop, B., Herner, K., W. Hoppe, E., Horikawa, S., Hungerford, E., Ianni, Al., Ianni, An., Ivashchuk, O., James, I., N. Johnson, T., Jollet, C., Keeter, K., Kendziora, C., Kobychev, V., Koh, G., Korablev, D., Korga, G., Kubankin, A., W. Kuss, M., Lissia, M., Li, X., U. Lodi, G., Lombardi, P., Longo, G., Loverre, P., Luitz, S., Lussana, R., Luzzi, L., Ma, Y., A. Machado, A., Machulin, I., Mais, L., Mandarano, A., Mapelli, L., Marcante, M., Mari, S., Mariani, M., Maricic, J., Marinelli, M., Marini, L., J. Martoff, C., Mascia, M., Meregaglia, A., D. Meyers, P., Miletic, T., Milincic, R., Miller, J.D., Moioli, S., Monasterio, S., Montanari, D., Monte, A., Montuschi, M., E. Monzani, M., Morrocchi, M., Mosteiro, P., Mount, B., Mu, W., N. Muratova, V., Murphy, S., Musico, P., Napolitano, J., Nelson, A., Nosov, V., N. Nurakhov, N., Odrowski, S., Oleinik, A., Orsini, M., Ortica, F., Pagani, L., Pallavicini, M., Palmas, S., Pantic, E., Paoloni, E., Parmeggiano, S., Paternoster, G., Pazzona, F., Pelczar, K., A. Pellegrini, L., Pelliccia, N., Perasso, S., Peronio, P., Perotti, F., Perruzza, R., Piemonte, C., Pilo, F., Pocar, A., Pordes, S., Pugachev, D., Qian, H., Radics, B., Randle, K., Ranucci, G., Razeti, M., Razeto, A., Rech, I., Regazzoni, V., Regenfus, C., Reinhold, B., Renshaw, A., Rescigno, M., Ricotti, M., Riffard, Q., Rizzardini, S., Romani, A., Romero, L., Rossi, B., Rossi, N., Rountree, D., Rubbia, A., Ruggeri, A., Sablone, D., Saggese, P., Salatino, P., Salemme, L., Sands, W., Sangiorgio, S., Sant, M., Santorelli, R., Sanzaro, M., Savarese, C., Sechi, E., Segreto, E., Semenov, D., Shchagin, A., Shekhtman, L., Shemyakina, E., Shields, E., Simeone, M., N. Singh, P., Skorokhvatov, M., Smallcomb, M., Smirnov, O., Sokolov, A., Sotnikov, A., Stanford, C., B. Suffritti, G., Suvorov, Y., Tamborini, D., Tartaglia, R., Tatarowicz, J., Testera, G., Tonazzo, A., Tosi, A., Trinchese, P., Unzhakov, E., Vacca, A., Verducci, M., Viant, T., Villa, F., Vishneva, A., Vogelaar, B., Wada, M., Walker, S., Wang, H., Wang, Y., Watson, A., Westerdale, S., Wilhelmi, J., Wojcik, M., Wu, S., Xiang, X., Xu, J., Yang, C., Yoo, J., Zappa, F., Zappalà, G., Zavatarelli, S., Zec, A., Zhong, W., Zhu, C., Zullo, A., Zullo, M., Zuzel, G., Bottino, B, Aalseth, C, Acconcia, G, Acerbi, F, Agnes, P, Agostino, L, Albuquerque, I, Alexander, T, Alton, A, Ampudia, P, Ardito, R, Arisaka, K, Arnquist, I, Asner, D, Back, H, Baldin, B, Batignani, G, Biery, K, Bisogni, M, Bocci, V, Bondar, A, Bonfini, G, Bonivento, W, Bossa, M, Brigatti, A, Brodsky, J, Budano, F, Bunker, R, Bussino, S, Buttafava, M, Buzulutskov, A, Cadeddu, M, Cadoni, M, Calandri, N, Calaprice, F, Calvo, J, Campajola, L, Canci, N, Candela, A, Cantini, C, Cao, H, Caravati, M, Cariello, M, Carlini, M, Carpinelli, M, Castellani, A, Catalanotti, S, Cavalcante, P, Chepurnov, A, Cicalò, C, Citterio, M, Cocco, A, Corgiolu, S, Covone, G, Crivelli, P, D'Angelo, D, D'Incecco, M, Daniel, M, Davini, S, De Cecco, S, De Deo, M, De Guido, G, De Vincenzi, M, Demontis, P, Derbin, A, Devoto, A, Di Eusanio, F, Di Pietro, G, Dionisi, C, Dolgov, A, Dromia, I, Dussoni, S, Edkins, E, Empl, A, Fan, A, Ferri, A, Filip, C, Fiorillo, G, Fomenko, K, Forster, G, Franco, D, Froudakis, G, Gabriele, F, Gabrieli, A, Galbiati, C, Gendotti, A, Ghioni, M, Ghisi, A, Giagu, S, Gibertoni, G, Giganti, C, Giorgi, M, Giovannetti, G, Gligan, M, Gola, A, Goretti, A, Granato, F, Grassi, M, Grate, J, Gromov, M, Guan, M, Guardincerri, Y, Gulinatti, A, Haaland, R, Hackett, B, Harrop, B, Herner, K, Hoppe, E, Horikawa, S, Hungerford, E, Ianni, A, Ivashchuk, O, James, I, Johnson, T, Jollet, C, Keeter, K, Kendziora, C, Kobychev, V, Koh, G, Korablev, D, Korga, G, Kubankin, A, Kuss, M, Lissia, M, Li, X, Lodi, G, Lombardi, P, Longo, G, Loverre, P, Luitz, S, Lussana, R, Luzzi, L, Ma, Y, Machado, A, Machulin, I, Mais, L, Mandarano, A, Mapelli, L, Marcante, M, Mari, S, Mariani, M, Maricic, J, Marinelli, M, Marini, L, Martoff, C, Mascia, M, Meregaglia, A, Meyers, P, Miletic, T, Milincic, R, Miller, J, Moioli, S, Monasterio, S, Montanari, D, Monte, A, Montuschi, M, Monzani, M, Morrocchi, M, Mosteiro, P, Mount, B, Mu, W, Muratova, V, Murphy, S, Musico, P, Napolitano, J, Nelson, A, Nosov, V, Nurakhov, N, Odrowski, S, Oleinik, A, Orsini, M, Ortica, F, Pagani, L, Pallavicini, M, Palmas, S, Pantic, E, Paoloni, E, Parmeggiano, S, Paternoster, G, Pazzona, F, Pelczar, K, Pellegrini, L, Pelliccia, N, Perasso, S, Peronio, P, Perotti, F, Perruzza, R, Piemonte, C, Pilo, F, Pocar, A, Pordes, S, Pugachev, D, Qian, H, Radics, B, Randle, K, Ranucci, G, Razeti, M, Razeto, A, Rech, I, Regazzoni, V, Regenfus, C, Reinhold, B, Renshaw, A, Rescigno, M, Ricotti, M, Riffard, Q, Rizzardini, S, Romani, A, Romero, L, Rossi, B, Rossi, N, Rountree, D, Rubbia, A, Ruggeri, A, Sablone, D, Saggese, P, Salatino, P, Salemme, L, Sands, W, Sangiorgio, S, Sant, M, Santorelli, R, Sanzaro, M, Savarese, C, Sechi, E, Segreto, E, Semenov, D, Shchagin, A, Shekhtman, L, Shemyakina, E, Shields, E, Simeone, M, Singh, P, Skorokhvatov, M, Smallcomb, M, Smirnov, O, Sokolov, A, Sotnikov, A, Stanford, C, Suffritti, G, Suvorov, Y, Tamborini, D, Tartaglia, R, Tatarowicz, J, Testera, G, Tonazzo, A, Tosi, A, Trinchese, P, Unzhakov, E, Vacca, A, Verducci, M, Viant, T, Villa, F, Vishneva, A, Vogelaar, B, Wada, M, Walker, S, Wang, H, Wang, Y, Watson, A, Westerdale, S, Wilhelmi, J, Wojcik, M, Wu, S, Xiang, X, Xu, J, Yang, C, Yoo, J, Zappa, F, Zappalà, G, Zavatarelli, S, Zec, A, Zhong, W, Zhu, C, Zullo, A, Zullo, M, Zuzel, G, Bottino, B., Aalseth, C. E., Acconcia, G., Acerbi, F., Agnes, P., Agostino, L., Albuquerque, I. F. M., Alexander, T., Alton, A., Ampudia, P., Ardito, R., Arisaka, K., Arnquist, I. J., Asner, D. M., Back, H. O., Baldin, B., Batignani, G., Biery, K., Bisogni, M. G., Bocci, V., Bondar, A., Bonfini, G., Bonivento, W., Bossa, M., Brigatti, A., Brodsky, J., Budano, F., Bunker, R., Bussino, S., Buttafava, M., Buzulutskov, A., Cadeddu, M., Cadoni, M., Calandri, N., Calaprice, F., Calvo, J., Campajola, Luigi, Canci, N., Candela, A., Cantini, C., Cao, H., Caravati, M., Cariello, M., Carlini, M., Carpinelli, M., Castellani, A., Catalanotti, Sergio, Cavalcante, P., Chepurnov, A., Cicalo, C., Citterio, M., Cocco, ALFREDO GIUSEPPE, Corgiolu, S., Covone, Giovanni, Crivelli, P., D'Angelo, D., D'Incecco, M., Daniel, M., Davini, S., De Cecco, S., De Deo, M., De Guido, G., De Vincenzi, M., Demontis, P., Derbin, A., Devoto, A., Di Eusanio, F., Di Pietro, G., Dionisi, C., Dolgov, A., Dromia, I., Dussoni, S., Edkins, E., Empl, A., Fan, A., Ferri, A., Filip, C. O., Fiorillo, Giuliana, Fomenko, K., Forster, G., Franco, D., Froudakis, G. E., Gabriele, F., Gabrieli, A., Galbiati, C., Gendotti, A., Ghioni, M., Ghisi, A., Giagu, S., Gibertoni, G., Giganti, C., Giorgi, M., Giovannetti, G. K., Gligan, M. L., Gola, A., Goretti, A., Granato, F., Grassi, M., Grate, J. W., Gromov, M., Guan, M., Guardincerri, Y., Gulinatti, A., Haaland, R. K., Hackett, B., Harrop, B., Herner, K., Hoppe, E. W., Horikawa, S., Hungerford, E., Ianni, A. l., Ianni, A. n., Ivashchuk, O., James, I., Johnson, T. N., Jollet, C., Keeter, K., Kendziora, C., Kobychev, V., Koh, G., Korablev, D., Korga, G., Kubankin, A., Kuss, M. W., Lissia, M., Li, X., Lodi, G. U., Lombardi, P., Longo, Giuseppe, Loverre, P., Luitz, S., Lussana, R., Luzzi, L., Ma, Y., Machado, A. A., Machulin, I., Mais, L., Mandarano, A., Mapelli, L., Marcante, M., Mari, S., Mariani, M., Maricic, J., Marinelli, M., Marini, L., Martoff, C. J., Mascia, M., Meregaglia, A., Meyers, P. D., Miletic, T., Milincic, R., Miller, J. D., Moioli, S., Monasterio, S., Montanari, D., Monte, A., Montuschi, M., Monzani, M. E., Morrocchi, M., Mosteiro, P., Mount, B., Mu, W., Muratova, V. N., Murphy, S., Musico, P., Napolitano, J., Nelson, A., Nosov, V., Nurakhov, N. N., Odrowski, S., Oleinik, A., Orsini, M., Ortica, F., Pagani, L., Pallavicini, M., Palmas, S., Pantic, E., Paoloni, E., Parmeggiano, S., Paternoster, G., Pazzona, F., Pelczar, K., Pellegrini, L. A., Pelliccia, N., Perasso, S., Peronio, P., Perotti, F., Perruzza, R., Piemonte, C., Pilo, F., Pocar, A., Pordes, S., Pugachev, D., Qian, H., Radics, B., Randle, K., Ranucci, G., Razeti, M., Razeto, A., Rech, I., Regazzoni, V., Regenfus, C., Reinhold, B., Renshaw, A., Rescigno, M., Ricotti, M., Riffard, Q., Rizzardini, S., Romani, A., Romero, L., Rossi, B., Rossi, N., Rountree, D., Rubbia, A., Ruggeri, A., Sablone, D., Saggese, P., Salatino, Piero, Salemme, Lucia, Sands, W., Sangiorgio, S., Sant, M., Santorelli, R., Sanzaro, M., Savarese, C., Sechi, E., Segreto, E., Semenov, D., Shchagin, A., Shekhtman, L., Shemyakina, E., Shields, E., Simeone, Marino, Singh, P. N., Skorokhvatov, M., Smallcomb, M., Smirnov, O., Sokolov, A., Sotnikov, A., Stanford, C., Suffritti, G. B., Suvorov, Y., Tamborini, D., Tartaglia, R., Tatarowicz, J., Testera, G., Tonazzo, A., Tosi, A., Trinchese, P., Unzhakov, E., Vacca, A., Verducci, M., Viant, T., Villa, F., Vishneva, A., Vogelaar, B., Wada, M., Walker, Susan Elizabeth, Wang, H., Wang, Y., Watson, A., Westerdale, S., Wilhelmi, J., Wojcik, M., Wu, S., Xiang, X., Xu, J., Yang, C., Yoo, J., Zappa, F., Zappala, G., Zavatarelli, S., Zec, A., Zhong, W., Zhu, C., Zullo, A., Zullo, M., Zuzel, G., AstroParticule et Cosmologie (APC (UMR_7164)), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7), Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE (UMR_7585)), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), DarkSide, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Budano, Federico, Bussino, Severino Angelo Maria, Campajola, L., Catalanotti, S., Cicalò, C., Cocco, A. G., Covone, G., DE VINCENZI, Mario, Fiorillo, G., James, Irina, Longo, G., Mari, Stefano Maria, Salatino, P., Salemme, L., Simeone, M., Walker, S., Zappalà, G., Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Physics and Astronomy (miscellaneous), Physics::Instrumentation and Detectors, background, scintillation counter: liquid, DarkSide, Astronomy and Astrophysics, WIMP: detector, dark matter: direct detection, Astronomy and Astrophysic, time projection chamber: liquid argon, dark matter, Laboratori Nazionali del Gran Sasso (LNGS), deep underground detector, Gran Sasso, cryogenics, radioactivity, atmosphere, High Energy Physics::Experiment, Cherenkov, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Nuclear Experiment, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], experimental results
Abstract

International audience; DarkSide is a dark matter direct search experiment at Laboratori Nazionali del Gran Sasso (LNGS). DarkSide is based on the detection of rare nuclear recoils possibly induced by hypothetical dark matter particles, which are supposed to be neutral, massive (m > 10 GeV) and weakly interactive (WIMP). The dark matter detector is a two-phase time projection chamber (TPC) filled with ultra-pure liquid argon. The TPC is placed inside a muon and a neutron active vetoes to suppress the background. Using argon as active target has many advantages, the key features are the strong discriminant power between nuclear and electron recoils, the spatial reconstruction and easy scalability to multi-tons size. At the moment DarkSide-50 is filled with ultra-pure argon, extracted from underground sources, and from April 2015 it is taking data in its final configuration. When combined with the preceding search with an atmospheric argon target, it is possible to set a 90% CL upper limit on the WIMP-nucleon spin-independent cross section of 2.0×10−44 cm2 for a WIMP mass of 100 GeV/c2. The next phase of the experiment, DarkSide-20k, will be the construction of a new detector with an active mass of ∼ 20 tons.

Published
2017
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18. Embryonal Rhabdomyosarcoma of the Uterine Cervix: A Clinicopathologic Study of 94 Cases Emphasizing Issues in Differential Diagnosis Staging, and Prognostic Factors.

Author

Devins KM, Young RH, Ghioni M, Burandt E, Bennett JA, and Oliva E

Subjects
Cervix Uteri pathology, DEAD-box RNA Helicases, Diagnosis, Differential, Female, Humans, Prognosis, Ribonuclease III, Adenosarcoma, Neoplastic Syndromes, Hereditary, Rhabdomyosarcoma, Embryonal genetics, Rhabdomyosarcoma, Embryonal pathology, Rhabdomyosarcoma, Embryonal therapy, Uterine Cervical Neoplasms pathology, Uterine Neoplasms genetics, Uterine Neoplasms pathology
Abstract

Embryonal rhabdomyosarcoma of the uterine cervix (cERMS) is rare and frequently associated with DICER1 mutations. We report 94 tumors that arose in patients aged 7 to 59 (median=23) years and presented with vaginal bleeding (52), protruding vaginal mass (17), cervical polyp (8), or expelled tumor fragments per vagina (5). Nine had DICER1 syndrome, 8 of whom had other syndromic manifestations including ovarian Sertoli-Leydig cell tumor (7), multinodular goiter (3), pleuropulmonary blastoma (2), pineoblastoma (1), and osteosarcoma (1). Syndromic patients were younger than nonsyndromic patients (16 vs. 24 y). Tumor size ranged from 2 to 24 (median=4.5) cm. Ninety-two tumors were polypoid, most being grape-like (77 of 92). They were characterized by aggregates of primitive cells, almost always exhibiting a cambium layer, within a variably myxoedematous stroma and were hypocellular (63), moderately cellular (22), or hypercellular (9). Entrapped glands, typically scant, were present in 84 tumors. Primitive hyperchromatic ovoid to spindled cells with minimal cytoplasm predominated but differentiated rhabdomyoblasts with abundant eosinophilic cytoplasm (having cross-striations in 30) were seen in 83 tumors; they were often sparse but predominated in three. Nine tumors showed areas of intersecting fascicles and 4 zones with densely cellular (solid) growth. Cartilage was present in 38. Anaplasia was seen in 15 tumors, as was necrosis. Mitotic activity ranged from 1 to 58/10 high-power fields (median=8). The varied microscopic features resulted in a spectrum of differential diagnostic considerations, mainly typical and cellular forms of fibroepithelial polyps, Mullerian adenosarcoma, and other sarcomas. Follow-up was available for 79 patients ranging from 6 to 492 (median=90) months. Treatment information was available in 62 and included polypectomy in 6 patients (2 also received chemotherapy), limited resection in 26 (14 also received chemotherapy), hysterectomy in 29 (15 with adjuvant chemotherapy), and biopsies only in 1 (with chemotherapy). Staging was possible in 56 tumors; according to the "uterine sarcoma" system (tumor size and extent) they were: stage I (10/56; could not be further subclassified as size not available), IA (22/56), IB (18/56), IIA (2/56), IIB 3/56), IIIC (1/56). According to the "adenosarcoma" system (depth of invasion and extent) they were: stage IA (26/56), IB (14/56), IC (10/56), IIA (2/56), IIB (3/56), IIIC (1/56). Eight patients had local recurrence following incomplete excision (10%). Eleven of 79 patients had extrauterine recurrences (14%) and 9 died of disease (11%). Older age was associated with extrauterine recurrence (median 44 vs. 22; P =0.002) and decreased disease-specific survival (median 44 vs. 22; P =0.02). For patients with tumors initially confined to the cervix, the adenosarcoma staging system was superior to the uterine sarcoma staging system for predicting survival ( P =0.02). Three patients with DICER1 syndrome who underwent fertility-preserving surgery developed a second primary cERMS 7, 7, and 12 years after their primary tumor. All 9 patients with DICER1 syndrome had tumors confined to the cervix and none died of disease. This study highlights the intriguing clinical aspects of cERMS including its long-known tendency to occur in the young but also more recently appreciated association with DICER1 syndrome. Establishing the diagnosis may still be difficult because of the hazard of sampling a neoplasm which in areas may appear remarkably bland and also because of its potential confusion with other neoplasms. This study indicates that this tumor has a good prognosis at this site and in selected cases a conservative surgical approach is a realistic consideration., Competing Interests: Conflicts of Interest and Source of Funding: The authors have disclosed that they have no significant relationships with, or financial interest in, any commercial companies pertaining to this article., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2022
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19. The DarkSide experiment

Author

Bottino, B, Aalseth, C, Acconcia, G, Acerbi, F, Agnes, P, Agostino, L, Albuquerque, I, Alexander, T, Alton, A, Ampudia, P, Ardito, R, Arisaka, K, Arnquist, I, Asner, D, Back, H, Baldin, B, Batignani, G, Biery, K, Bisogni, M, Bocci, V, Bondar, A, Bonfini, G, Bonivento, W, Bossa, M, Brigatti, A, Brodsky, J, Budano, F, Bunker, R, Bussino, S, Buttafava, M, Buzulutskov, A, Cadeddu, M, Cadoni, M, Calandri, N, Calaprice, F, Calvo, J, Campajola, L, Canci, N, Candela, A, Cantini, C, Cao, H, Caravati, M, Cariello, M, Carlini, M, Carpinelli, M, Castellani, A, Catalanotti, S, Cavalcante, P, Chepurnov, A, Cicalò, C, Citterio, M, Cocco, A, Corgiolu, S, Covone, G, Crivelli, P, D'Angelo, D, D'Incecco, M, Daniel, M, Davini, S, De Cecco, S, De Deo, M, De Guido, G, De Vincenzi, M, Demontis, P, Derbin, A, Devoto, A, Di Eusanio, F, Di Pietro, G, Dionisi, C, Dolgov, A, Dromia, I, Dussoni, S, Edkins, E, Empl, A, Fan, A, Ferri, A, Filip, C, Fiorillo, G, Fomenko, K, Forster, G, Franco, D, Froudakis, G, Gabriele, F, Gabrieli, A, Galbiati, C, Gendotti, A, Ghioni, M, Ghisi, A, Giagu, S, Gibertoni, G, Giganti, C, Giorgi, M, Giovannetti, G, Gligan, M, Gola, A, Goretti, A, Granato, F, Grassi, M, Grate, J, Gromov, M, Guan, M, Guardincerri, Y, Gulinatti, A, Haaland, R, Hackett, B, Harrop, B, Herner, K, Hoppe, E, Horikawa, S, Hungerford, E, Ianni, A, Ivashchuk, O, James, I, Johnson, T, Jollet, C, Keeter, K, Kendziora, C, Kobychev, V, Koh, G, Korablev, D, Korga, G, Kubankin, A, Kuss, M, Lissia, M, Li, X, Lodi, G, Lombardi, P, Longo, G, Loverre, P, Luitz, S, Lussana, R, Luzzi, L, Ma, Y, Machado, A, Machulin, I, Mais, L, Mandarano, A, Mapelli, L, Marcante, M, Mari, S, Mariani, M, Maricic, J, Marinelli, M, Marini, L, Martoff, C, Mascia, M, Meregaglia, A, Meyers, P, Miletic, T, Milincic, R, Miller, J, Moioli, S, Monasterio, S, Montanari, D, Monte, A, Montuschi, M, Monzani, M, Morrocchi, M, Mosteiro, P, Mount, B, Mu, W, Muratova, V, Murphy, S, Musico, P, Napolitano, J, Nelson, A, Nosov, V, Nurakhov, N, Odrowski, S, Oleinik, A, Orsini, M, Ortica, F, Pagani, L, Pallavicini, M, Palmas, S, Pantic, E, Paoloni, E, Parmeggiano, S, Paternoster, G, Pazzona, F, Pelczar, K, Pellegrini, L, Pelliccia, N, Perasso, S, Peronio, P, Perotti, F, Perruzza, R, Piemonte, C, Pilo, F, Pocar, A, Pordes, S, Pugachev, D, Qian, H, Radics, B, Randle, K, Ranucci, G, Razeti, M, Razeto, A, Rech, I, Regazzoni, V, Regenfus, C, Reinhold, B, Renshaw, A, Rescigno, M, Ricotti, M, Riffard, Q, Rizzardini, S, Romani, A, Romero, L, Rossi, B, Rossi, N, Rountree, D, Rubbia, A, Ruggeri, A, Sablone, D, Saggese, P, Salatino, P, Salemme, L, Sands, W, Sangiorgio, S, Sant, M, Santorelli, R, Sanzaro, M, Savarese, C, Sechi, E, Segreto, E, Semenov, D, Shchagin, A, Shekhtman, L, Shemyakina, E, Shields, E, Simeone, M, Singh, P, Skorokhvatov, M, Smallcomb, M, Smirnov, O, Sokolov, A, Sotnikov, A, Stanford, C, Suffritti, G, Suvorov, Y, Tamborini, D, Tartaglia, R, Tatarowicz, J, Testera, G, Tonazzo, A, Tosi, A, Trinchese, P, Unzhakov, E, Vacca, A, Verducci, M, Viant, T, Villa, F, Vishneva, A, Vogelaar, B, Wada, M, Walker, S, Wang, H, Wang, Y, Watson, A, Westerdale, S, Wilhelmi, J, Wojcik, M, Wu, S, Xiang, X, Xu, J, Yang, C, Yoo, J, Zappa, F, Zappalà, G, Zavatarelli, S, Zec, A, Zhong, W, Zhu, C, Zullo, A, Zullo, M, Zuzel, G, Bottino, B., Aalseth, C. E., Acconcia, G., Acerbi, F., Agnes, P., Agostino, L., Albuquerque, I. F. M., Alexander, T., Alton, A., Ampudia, P., Ardito, R., Arisaka, K., Arnquist, I. J., Asner, D. M., Back, H. O., Baldin, B., Batignani, G., Biery, K., Bisogni, M. G., Bocci, V., Bondar, A., Bonfini, G., Bonivento, W., Bossa, M., Brigatti, A., Brodsky, J., Budano, F., Bunker, R., Bussino, S., Buttafava, M., Buzulutskov, A., Cadeddu, M., Cadoni, M., Calandri, N., Calaprice, F., Calvo, J., Campajola, L., Canci, N., Candela, A., Cantini, C., Cao, H., Caravati, M., Cariello, M., Carlini, M., Carpinelli, M., Castellani, A., Catalanotti, S., Cavalcante, P., Chepurnov, A., Cicalò, C., Citterio, M., Cocco, A. G., Corgiolu, S., Covone, G., Crivelli, P., D'Angelo, D., D'Incecco, M., Daniel, M., Davini, S., De Cecco, S., De Deo, M., De Guido, G., De Vincenzi, M., Demontis, P., Derbin, A., Devoto, A., Di Eusanio, F., Di Pietro, G., Dionisi, C., Dolgov, A., Dromia, I., Dussoni, S., Edkins, E., Empl, A., Fan, A., Ferri, A., Filip, C. O., Fiorillo, G., Fomenko, K., Forster, G., Franco, D., Froudakis, G. E., Gabriele, F., Gabrieli, A., Galbiati, C., Gendotti, A., Ghioni, M., Ghisi, A., Giagu, S., Gibertoni, G., Giganti, C., Giorgi, M., Giovannetti, G. K., Gligan, M. L., Gola, A., Goretti, A., Granato, F., Grassi, M., Grate, J. W., Gromov, M., Guan, M., Guardincerri, Y., Gulinatti, A., Haaland, R. K., Hackett, B., Harrop, B., Herner, K., Hoppe, E. W., Horikawa, S., Hungerford, E., Ianni, Al., Ianni, An., Ivashchuk, O., James, I., Johnson, T. N., Jollet, C., Keeter, K., Kendziora, C., Kobychev, V., Koh, G., Korablev, D., Korga, G., Kubankin, A., Kuss, M. W., Lissia, M., Li, X., Lodi, G. U., Lombardi, P., Longo, G., Loverre, P., Luitz, S., Lussana, R., Luzzi, L., Ma, Y., Machado, A. A., Machulin, I., Mais, L., Mandarano, A., Mapelli, L., Marcante, M., Mari, S., Mariani, M., Maricic, J., Marinelli, M., Marini, L., Martoff, C. J., Mascia, M., Meregaglia, A., Meyers, P. D., Miletic, T., Milincic, R., Miller, J. D., Moioli, S., Monasterio, S., Montanari, D., Monte, A., Montuschi, M., Monzani, M. E., Morrocchi, M., Mosteiro, P., Mount, B., Mu, W., Muratova, V. N., Murphy, S., Musico, P., Napolitano, J., Nelson, A., Nosov, V., Nurakhov, N. N., Odrowski, S., Oleinik, A., Orsini, M., Ortica, F., Pagani, L., Pallavicini, M., Palmas, S., Pantic, E., Paoloni, E., Parmeggiano, S., Paternoster, G., Pazzona, F., Pelczar, K., Pellegrini, L. A., Pelliccia, N., Perasso, S., Peronio, P., Perotti, F., Perruzza, R., Piemonte, C., Pilo, F., Pocar, A., Pordes, S., Pugachev, D., Qian, H., Radics, B., Randle, K., Ranucci, G., Razeti, M., Razeto, A., Rech, I., Regazzoni, V., Regenfus, C., Reinhold, B., Renshaw, A., Rescigno, M., Ricotti, M., Riffard, Q., Rizzardini, S., Romani, A., Romero, L., Rossi, B., Rossi, N., Rountree, D., Rubbia, A., Ruggeri, A., Sablone, D., Saggese, P., Salatino, P., Salemme, L., Sands, W., Sangiorgio, S., Sant, M., Santorelli, R., Sanzaro, M., Savarese, C., Sechi, E., Segreto, E., Semenov, D., Shchagin, A., Shekhtman, L., Shemyakina, E., Shields, E., Simeone, M., Singh, P. N., Skorokhvatov, M., Smallcomb, M., Smirnov, O., Sokolov, A., Sotnikov, A., Stanford, C., Suffritti, G. B., Suvorov, Y., Tamborini, D., Tartaglia, R., Tatarowicz, J., Testera, G., Tonazzo, A., Tosi, A., Trinchese, P., Unzhakov, E., Vacca, A., Verducci, M., Viant, T., Villa, F., Vishneva, A., Vogelaar, B., Wada, M., Walker, S., Wang, H., Wang, Y., Watson, A., Westerdale, S., Wilhelmi, J., Wojcik, M., Wu, S., Xiang, X., Xu, J., Yang, C., Yoo, J., Zappa, F., Zappalà, G., Zavatarelli, S., Zec, A., Zhong, W., Zhu, C., Zullo, A., Zullo, M., Zuzel, G., Bottino, B, Aalseth, C, Acconcia, G, Acerbi, F, Agnes, P, Agostino, L, Albuquerque, I, Alexander, T, Alton, A, Ampudia, P, Ardito, R, Arisaka, K, Arnquist, I, Asner, D, Back, H, Baldin, B, Batignani, G, Biery, K, Bisogni, M, Bocci, V, Bondar, A, Bonfini, G, Bonivento, W, Bossa, M, Brigatti, A, Brodsky, J, Budano, F, Bunker, R, Bussino, S, Buttafava, M, Buzulutskov, A, Cadeddu, M, Cadoni, M, Calandri, N, Calaprice, F, Calvo, J, Campajola, L, Canci, N, Candela, A, Cantini, C, Cao, H, Caravati, M, Cariello, M, Carlini, M, Carpinelli, M, Castellani, A, Catalanotti, S, Cavalcante, P, Chepurnov, A, Cicalò, C, Citterio, M, Cocco, A, Corgiolu, S, Covone, G, Crivelli, P, D'Angelo, D, D'Incecco, M, Daniel, M, Davini, S, De Cecco, S, De Deo, M, De Guido, G, De Vincenzi, M, Demontis, P, Derbin, A, Devoto, A, Di Eusanio, F, Di Pietro, G, Dionisi, C, Dolgov, A, Dromia, I, Dussoni, S, Edkins, E, Empl, A, Fan, A, Ferri, A, Filip, C, Fiorillo, G, Fomenko, K, Forster, G, Franco, D, Froudakis, G, Gabriele, F, Gabrieli, A, Galbiati, C, Gendotti, A, Ghioni, M, Ghisi, A, Giagu, S, Gibertoni, G, Giganti, C, Giorgi, M, Giovannetti, G, Gligan, M, Gola, A, Goretti, A, Granato, F, Grassi, M, Grate, J, Gromov, M, Guan, M, Guardincerri, Y, Gulinatti, A, Haaland, R, Hackett, B, Harrop, B, Herner, K, Hoppe, E, Horikawa, S, Hungerford, E, Ianni, A, Ivashchuk, O, James, I, Johnson, T, Jollet, C, Keeter, K, Kendziora, C, Kobychev, V, Koh, G, Korablev, D, Korga, G, Kubankin, A, Kuss, M, Lissia, M, Li, X, Lodi, G, Lombardi, P, Longo, G, Loverre, P, Luitz, S, Lussana, R, Luzzi, L, Ma, Y, Machado, A, Machulin, I, Mais, L, Mandarano, A, Mapelli, L, Marcante, M, Mari, S, Mariani, M, Maricic, J, Marinelli, M, Marini, L, Martoff, C, Mascia, M, Meregaglia, A, Meyers, P, Miletic, T, Milincic, R, Miller, J, Moioli, S, Monasterio, S, Montanari, D, Monte, A, Montuschi, M, Monzani, M, Morrocchi, M, Mosteiro, P, Mount, B, Mu, W, Muratova, V, Murphy, S, Musico, P, Napolitano, J, Nelson, A, Nosov, V, Nurakhov, N, Odrowski, S, Oleinik, A, Orsini, M, Ortica, F, Pagani, L, Pallavicini, M, Palmas, S, Pantic, E, Paoloni, E, Parmeggiano, S, Paternoster, G, Pazzona, F, Pelczar, K, Pellegrini, L, Pelliccia, N, Perasso, S, Peronio, P, Perotti, F, Perruzza, R, Piemonte, C, Pilo, F, Pocar, A, Pordes, S, Pugachev, D, Qian, H, Radics, B, Randle, K, Ranucci, G, Razeti, M, Razeto, A, Rech, I, Regazzoni, V, Regenfus, C, Reinhold, B, Renshaw, A, Rescigno, M, Ricotti, M, Riffard, Q, Rizzardini, S, Romani, A, Romero, L, Rossi, B, Rossi, N, Rountree, D, Rubbia, A, Ruggeri, A, Sablone, D, Saggese, P, Salatino, P, Salemme, L, Sands, W, Sangiorgio, S, Sant, M, Santorelli, R, Sanzaro, M, Savarese, C, Sechi, E, Segreto, E, Semenov, D, Shchagin, A, Shekhtman, L, Shemyakina, E, Shields, E, Simeone, M, Singh, P, Skorokhvatov, M, Smallcomb, M, Smirnov, O, Sokolov, A, Sotnikov, A, Stanford, C, Suffritti, G, Suvorov, Y, Tamborini, D, Tartaglia, R, Tatarowicz, J, Testera, G, Tonazzo, A, Tosi, A, Trinchese, P, Unzhakov, E, Vacca, A, Verducci, M, Viant, T, Villa, F, Vishneva, A, Vogelaar, B, Wada, M, Walker, S, Wang, H, Wang, Y, Watson, A, Westerdale, S, Wilhelmi, J, Wojcik, M, Wu, S, Xiang, X, Xu, J, Yang, C, Yoo, J, Zappa, F, Zappalà, G, Zavatarelli, S, Zec, A, Zhong, W, Zhu, C, Zullo, A, Zullo, M, Zuzel, G, Bottino, B., Aalseth, C. E., Acconcia, G., Acerbi, F., Agnes, P., Agostino, L., Albuquerque, I. F. M., Alexander, T., Alton, A., Ampudia, P., Ardito, R., Arisaka, K., Arnquist, I. J., Asner, D. M., Back, H. O., Baldin, B., Batignani, G., Biery, K., Bisogni, M. G., Bocci, V., Bondar, A., Bonfini, G., Bonivento, W., Bossa, M., Brigatti, A., Brodsky, J., Budano, F., Bunker, R., Bussino, S., Buttafava, M., Buzulutskov, A., Cadeddu, M., Cadoni, M., Calandri, N., Calaprice, F., Calvo, J., Campajola, L., Canci, N., Candela, A., Cantini, C., Cao, H., Caravati, M., Cariello, M., Carlini, M., Carpinelli, M., Castellani, A., Catalanotti, S., Cavalcante, P., Chepurnov, A., Cicalò, C., Citterio, M., Cocco, A. G., Corgiolu, S., Covone, G., Crivelli, P., D'Angelo, D., D'Incecco, M., Daniel, M., Davini, S., De Cecco, S., De Deo, M., De Guido, G., De Vincenzi, M., Demontis, P., Derbin, A., Devoto, A., Di Eusanio, F., Di Pietro, G., Dionisi, C., Dolgov, A., Dromia, I., Dussoni, S., Edkins, E., Empl, A., Fan, A., Ferri, A., Filip, C. O., Fiorillo, G., Fomenko, K., Forster, G., Franco, D., Froudakis, G. E., Gabriele, F., Gabrieli, A., Galbiati, C., Gendotti, A., Ghioni, M., Ghisi, A., Giagu, S., Gibertoni, G., Giganti, C., Giorgi, M., Giovannetti, G. K., Gligan, M. L., Gola, A., Goretti, A., Granato, F., Grassi, M., Grate, J. W., Gromov, M., Guan, M., Guardincerri, Y., Gulinatti, A., Haaland, R. K., Hackett, B., Harrop, B., Herner, K., Hoppe, E. W., Horikawa, S., Hungerford, E., Ianni, Al., Ianni, An., Ivashchuk, O., James, I., Johnson, T. N., Jollet, C., Keeter, K., Kendziora, C., Kobychev, V., Koh, G., Korablev, D., Korga, G., Kubankin, A., Kuss, M. W., Lissia, M., Li, X., Lodi, G. U., Lombardi, P., Longo, G., Loverre, P., Luitz, S., Lussana, R., Luzzi, L., Ma, Y., Machado, A. A., Machulin, I., Mais, L., Mandarano, A., Mapelli, L., Marcante, M., Mari, S., Mariani, M., Maricic, J., Marinelli, M., Marini, L., Martoff, C. J., Mascia, M., Meregaglia, A., Meyers, P. D., Miletic, T., Milincic, R., Miller, J. D., Moioli, S., Monasterio, S., Montanari, D., Monte, A., Montuschi, M., Monzani, M. E., Morrocchi, M., Mosteiro, P., Mount, B., Mu, W., Muratova, V. N., Murphy, S., Musico, P., Napolitano, J., Nelson, A., Nosov, V., Nurakhov, N. N., Odrowski, S., Oleinik, A., Orsini, M., Ortica, F., Pagani, L., Pallavicini, M., Palmas, S., Pantic, E., Paoloni, E., Parmeggiano, S., Paternoster, G., Pazzona, F., Pelczar, K., Pellegrini, L. A., Pelliccia, N., Perasso, S., Peronio, P., Perotti, F., Perruzza, R., Piemonte, C., Pilo, F., Pocar, A., Pordes, S., Pugachev, D., Qian, H., Radics, B., Randle, K., Ranucci, G., Razeti, M., Razeto, A., Rech, I., Regazzoni, V., Regenfus, C., Reinhold, B., Renshaw, A., Rescigno, M., Ricotti, M., Riffard, Q., Rizzardini, S., Romani, A., Romero, L., Rossi, B., Rossi, N., Rountree, D., Rubbia, A., Ruggeri, A., Sablone, D., Saggese, P., Salatino, P., Salemme, L., Sands, W., Sangiorgio, S., Sant, M., Santorelli, R., Sanzaro, M., Savarese, C., Sechi, E., Segreto, E., Semenov, D., Shchagin, A., Shekhtman, L., Shemyakina, E., Shields, E., Simeone, M., Singh, P. N., Skorokhvatov, M., Smallcomb, M., Smirnov, O., Sokolov, A., Sotnikov, A., Stanford, C., Suffritti, G. B., Suvorov, Y., Tamborini, D., Tartaglia, R., Tatarowicz, J., Testera, G., Tonazzo, A., Tosi, A., Trinchese, P., Unzhakov, E., Vacca, A., Verducci, M., Viant, T., Villa, F., Vishneva, A., Vogelaar, B., Wada, M., Walker, S., Wang, H., Wang, Y., Watson, A., Westerdale, S., Wilhelmi, J., Wojcik, M., Wu, S., Xiang, X., Xu, J., Yang, C., Yoo, J., Zappa, F., Zappalà, G., Zavatarelli, S., Zec, A., Zhong, W., Zhu, C., Zullo, A., Zullo, M., and Zuzel, G.

Abstract

DarkSide is a dark matter direct search experiment at Laboratori Nazionali del Gran Sasso (LNGS). DarkSide is based on the detection of rare nuclear recoils possibly induced by hypothetical dark matter particles, which are supposed to be neutral, massive (m > 10 GeV) and weakly interactive (WIMP). The dark matter detector is a two-phase time projection chamber (TPC) filled with ultra-pure liquid argon. The TPC is placed inside a muon and a neutron active vetoes to suppress the background. Using argon as active target has many advantages, the key features are the strong discriminant power between nuclear and electron recoils, the spatial reconstruction and easy scalability to multi-tons size. At the moment DarkSide-50 is filled with ultra-pure argon, extracted from underground sources, and from April 2015 it is taking data in its final configuration. When combined with the preceding search with an atmospheric argon target, it is possible to set a 90% CL upper limit on the WIMP-nucleon spin-independent cross section of 2.0×10 -44 cm2 for a WIMP mass of 100 GeV/c2. The next phase of the experiment, DarkSide-20k, will be the construction of a new detector with an active mass of ∼ 20 tons.

Published
2017

20. Avalanche photodiodes and quenching circuits for single-photon detection

Author

Cova, S., Ghioni, M., Lacaita, A., Samori, C., and Zappa, F.

Subjects
Photon detectors -- Evaluation, Photodetectors -- Evaluation, Photons -- Measurement, Astronomy, Physics
Abstract

Avalanche photodiodes, which operate above the breakdown voltage in Geiger mode connected with avalanche-quenching circuits, can be used to detect single photons and are therefore called single-photon avalanche diodes SPAD's. Circuit configurations suitable for this operation mode are critically analyzed and their relative merits in photon counting and timing applications are assessed. Simple passive-quenching circuits (PQC's), which are useful for SPAD device testing and selection, have fairly limited application. Suitably designed active-quenching circuits (AQC's) make it possible to exploit the best performance of SPAD's. Thick silicon SPAD's that operate at high voltages (250-450 V) have photon detection efficiency higher than 50% from 540- to 850-nm wavelength and still [approximately]3% at 1064 nm. Thin silicon SPAD's that operate at low voltages (10-50 V) have 45% efficiency at 500 nm, declining to 10% at 830 nm and to as little as 0.1% at 1064 nm. The time resolution achieved in photon timing is 20 ps FWHM with thin SPAD's; it ranges from 350 to 150 ps FWHM with thick SPAD's. The achieved minimum counting dead time and maximum counting rate are 40 ns and 10 Mcps with thick silicon SPAD's, 10 ns and 40 Mcps with thin SPAD's. Germanium and III-V compound semiconductor SPAD's extend the range of photon-counting techniques in the near-infrared region to at least 1600-nm wavelength. Key words: Photon counting, photon timing, avalanche photodiodes, quenching circuits.

Published
1996

22. Clinical and ultrasound characteristics of the microcystic elongated and fragmented (MELF) pattern in endometrial cancer according to the International Endometrial Tumor Analysis (IETA) criteria

Author

Eriksson, L, Nastic, D, Frühauf, F, Fischerova, D, Nemejcova, K, Bono, F, Franchi, D, Fruscio, R, Ghioni, M, Haak, L, Hejda, V, Meskauskas, R, Opolskiene, G, Pascual, M, Testa, A, Tresserra, F, Zannoni, G, Carlson, J, Epstein, E, Eriksson, Linda S E, Nastic, Denis, Frühauf, Filip, Fischerova, Daniela, Nemejcova, Kristyna, Bono, Francesca, Franchi, Dorella, Fruscio, Robert, Ghioni, Mariacristina, Haak, Lucia A., Hejda, Vaclav, Meskauskas, Raimundas, Opolskiene, Gina, Pascual, M Angela, Testa, Antonia, Tresserra, Francisco, Zannoni, Gian Franco, Carlson, Joseph W., Epstein, Elisabeth, Eriksson, L, Nastic, D, Frühauf, F, Fischerova, D, Nemejcova, K, Bono, F, Franchi, D, Fruscio, R, Ghioni, M, Haak, L, Hejda, V, Meskauskas, R, Opolskiene, G, Pascual, M, Testa, A, Tresserra, F, Zannoni, G, Carlson, J, Epstein, E, Eriksson, Linda S E, Nastic, Denis, Frühauf, Filip, Fischerova, Daniela, Nemejcova, Kristyna, Bono, Francesca, Franchi, Dorella, Fruscio, Robert, Ghioni, Mariacristina, Haak, Lucia A., Hejda, Vaclav, Meskauskas, Raimundas, Opolskiene, Gina, Pascual, M Angela, Testa, Antonia, Tresserra, Francisco, Zannoni, Gian Franco, Carlson, Joseph W., and Epstein, Elisabeth

Abstract

Objectives To describe sonographic features of the microcystic elongated and fragmented (MELF) pattern of myometrial invasion (MI) using the International Endometrial Tumor Analysis (IETA) criteria; to assess the effect of the MELF pattern on preoperative ultrasound evaluation of MI; and to determine the relationship of the MELF pattern to more advanced stage (≥ IB) and lymph node metastases in women with endometrioid endometrial cancer. Methods/materials We included 850 women with endometrioid endometrial cancer from the prospective IETA study. Ultrasound experts performed all ultrasound examinations, according to the IETA protocol. Reference pathologists assessed the presence or absence of the MELF pattern. Sonographic features and accuracy of ultrasound assessment of MI were compared in cases with the presence and the absence of the MELF pattern. The MELF pattern was correlated to more advanced stage (≥IB) and lymph node metastases. Results The MELF pattern was present in 197 (23.2%) women. On preoperative ultrasound imaging the endometrium was thicker (p = 0.031), more richly vascularized (p = 0.003) with the multiple multifocal vessel pattern (p < 0.001) and the assessment of adenomyosis was more often uncertain (p < 0.001). The presence or the absence of the MELF pattern did not affect the accuracy of the assessment of MI. The MELF pattern was associated with MI ≥ 50% (p < 0.001), cervical stromal invasion (p = 0.037), more advanced stage (≥ IB) (p < 0.001) and lymph node metastases (p = 0.011). Conclusions Tumors with the MELF pattern were slightly larger, more richly vascularized with multiple multifocal vessels and assessment of adenomyosis was more uncertain on ultrasound imaging. The MELF pattern did not increase the risk of underestimating MI in preoperative ultrasound staging. Tumors with the MELF pattern were more than twice as likely to have more advanced stage (≥ IB) and lymph node metastases.

Published
2019

23. All-silicon avalanche photodiode sensitive at 1.3 micrometer with picosecoond time resolution

Author

Ghioni,M., Lacaita, A., Ripamonti, G., and Cova, S.

Subjects
Diodes, Laser -- Research, Photodetectors -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The feasibiltiy of using compounds avalanche photodiodes (APD) for measuring the pulse waveform of long-wavelength laser diodes is studied through experimental procedures. A gain-switched laser diode emitting at 1.3 micrometer is treated with a high concentration of dopants to reduce the structure's bandgap. The measurements are obtained by means of an ultrafast III-IV photodiode. Results show that APDscan be used for measuring the pulse shape of laser diodes under various light intensity.

Published
1992

24. 4 ns dead time with a fully integrated active quenching circuit driving a custom single photon avalanche diode.

Author

Giudici A, Acconcia G, Labanca I, Ghioni M, and Rech I

Subjects
Light, Photons, Probability, Automobile Driving, Semiconductors
Abstract

At the present time, Single Photon Avalanche Diodes (SPADs) are the enabling devices in many applications, ranging from medical imaging to laser ranging and from remote sensing to quantum key distribution. Even though they belong to different scientific domains, these applications share the need for a detector capable of attaining high count rates possibly without trading it off with other key detector's features, such as afterpulsing probability, photon detection efficiency, and dark counts. In this work, we present the characterization of a fast integrated active quenching circuit capable of driving high-performance external custom-technology SPADs for single photon detection in the visible wavelength range. Combining the prompt intervention of the electronic circuitry and the performance of a custom-technology SPAD, we attained count rates up to 250 MCps while keeping the afterpulsing probability within 2%.

Published
2022
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27. The Potential Impact of High-Risk Human Papillomavirus-Negative Cervical Intraepithelial Neoplasia 2+ on Primary Human Papillomavirus Screening.

Author

Iacobone AD, Bottari F, Guerrieri ME, Vidal Urbinati AM, Ghioni M, Spolti N, Pino I, Passerini R, Di Pace RC, Franchi D, and Preti EP

Subjects
Child, Preschool, Female, Genotype, Humans, Papillomaviridae genetics, Retrospective Studies, Alphapapillomavirus, Papillomavirus Infections diagnosis, Papillomavirus Infections epidemiology, Uterine Cervical Neoplasms diagnosis, Uterine Cervical Neoplasms epidemiology, Uterine Cervical Dysplasia diagnosis, Uterine Cervical Dysplasia epidemiology
Abstract

Objectives: To investigate the prevalence of high-risk human papillomavirus (HPV)-negative cervical intraepithelial neoplasia (CIN) and invasive cervical carcinoma (ICC) and to analyze the distribution of other genotypes in this subset., Methods: In total, 431 women who underwent excisional surgical treatment for CIN or ICC at the European Institute of Oncology, Milan, Italy, from January 2016 to December 2017 were retrospectively analyzed. The Linear Array HPV genotyping test (Roche Diagnostics) was performed on a postaliquot from high-risk-HPV-negative liquid-based cervical specimens, when available. Patient characteristics and the prevalence of high-risk-HPV-negative CIN grade 2 or worse (CIN2+) were tabulated. We used t tests to compare age between high-risk-HPV-positive and high-risk-HPV-negative patients., Results: Overall, 8.9% of CIN2+ and 7.5% of ICC cases were high-risk HPV negative. There was no age difference between high-risk-HPV-negative CIN2+ women (mean [SD], 41.3 [8.7] years) and high-risk-HPV-positive women (mean [SD], 39.5 [9.0] years) (P = .28). The Linear Array result was available in 22 cases. Most high-risk-HPV-negative patients were positive for a single other genotype infection (32.6%). HPV 73 was the most prevalent genotype, followed by HPV 53 and HPV 84. HPV 26 was detected in 1 case of ICC., Conclusions: Our results showed a not-negligible proportion of high-risk-HPV-negative CIN2+, suggesting that cotesting would not miss these cases., (© American Society for Clinical Pathology, 2021. All rights reserved.For permissions, please e-mail: journals.permissions@oup.com.)

Published
2022
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29. OC08.08: Clinical and ultrasound characteristics of the microcystic elongated and fragmented (MELF) pattern in endometrial cancer according to the International Endometrial Tumor Analysis (IETA) criteria

Author

Eriksson, L., primary, Nastic, D., additional, Fruhauf, F., additional, Fischerová, D., additional, Nemejcova, K., additional, Bono, F., additional, Franchi, D., additional, Fruscio, R., additional, Ghioni, M., additional, Haak, L.A., additional, Hejda, V., additional, Meskauskas, R., additional, Opolskiene, G., additional, Pascual, M., additional, Tresserra, F., additional, Testa, A.C., additional, Zannoni, G., additional, Carlson, J., additional, and Epstein, E., additional

Published
2018
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31. Clear cell carcinoma of the ovary: Epidemiology, pathological and biological features, treatment options and clinical outcomes.

Author

Gadducci A, Multinu F, Cosio S, Carinelli S, Ghioni M, and Aletti GD

Subjects
Adenocarcinoma, Clear Cell diagnosis, Adenocarcinoma, Clear Cell epidemiology, Adenocarcinoma, Clear Cell therapy, Biological Factors therapeutic use, Chemotherapy, Adjuvant methods, Cytoreduction Surgical Procedures, Endometriosis complications, Female, Humans, Neoplasm Staging, Ovarian Neoplasms diagnosis, Ovarian Neoplasms epidemiology, Ovarian Neoplasms therapy, Salpingo-oophorectomy methods, Adenocarcinoma, Clear Cell pathology, Ovarian Neoplasms pathology
Abstract

Clear cell carcinoma of the ovary is a rare and distinct histotype of epithelial ovarian carcinomas. Women diagnosed with clear cell carcinomas are usually younger and diagnosed at earlier stages than those with the most common high-grade serous histology. Endometriosis is considered a main risk factor for the development of clear cell carcinoma of the ovary, and it can be considered a precursor of of this tumor, as it is identified in more than 50% of patients with clear cell carcinoma. Different molecular pathways and alterations heve been identified in ovarian clear cell carcinoma, including the most common mutations of AT-rich interaction domain 1A [ARID1A] and phosphatidylinositol-4,5-bisphosphate 3-kinase [PIK3] catalytic subunit alpha [PIK3CA]. The prognosis of patients at early stage is favorable, while patients with advanced or recurrent disease experience a poor oncologic outcomes. Despite a lower rate of responses due to an intrinsic chemoresistance, the treatment strategy for advanced disease resembles the treatment of high-grade serous carcinoma, which includes aggressive cytoreductive surgery and platinum-based chemotherapy. For this reason, the role of adjuvant chemotherapy in patients with stage I disease undergoing complete surgical staging is still under debate. Alternative treatments, including biological agents that target different pathways constitute the most promising treatment strategies, and well-designed, collaborative international trials should be designed in order to improve the oncologic outcomes and the quality of life of patients with this aggressive disease., (Copyright © 2021. Published by Elsevier Inc.)

Published
2021
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32. Cancer-testis antigen expression in triple-negative breast cancer

Author

Curigliano, G., Viale, G., Ghioni, M., Jungbluth, A. A., Bagnardi, V., Spagnoli, G. C., Neville, A.M., Nolè, F., Rotmensz, N., Goldhirsch, A., Curigliano, G., Viale, G., Ghioni, M., Jungbluth, A. A., Bagnardi, V., Spagnoli, G. C., Neville, A.M., Nolè, F., Rotmensz, N., and Goldhirsch, A.

Abstract

Background: Cancer-testis (CT) antigens, frequently expressed in human germline cells but not in somatic tissues, may become aberrantly reexpressed in different cancer types. The aim of this study was to investigate the expression of CT antigens in breast cancer. Patients and methods: A total of 100 selected invasive breast cancers, including 50 estrogen receptor (ER) positive/HER2 negative and 50 triple negative (TN), were examined for NY-ESO-1 and MAGE-A expression by immunohistochemistry. Results: A significantly higher expression of MAGE-A and NY-ESO-1 was detected in TN breast cancers compared with ER-positive tumors (P = 0.04). MAGE-A expression was detected in 13 (26%) TN cancers compared with 5 (10%) ER-positive tumors (P = 0.07). NY-ESO-1 expression was confirmed in nine (18%) TN tumor samples compared with two (4%) ER-positive tumors. Conclusions: MAGE-A and NY-ESO-1 CT antigens are expressed in a substantial proportion of TN breast cancers. Because of the limited therapeutic options for this group of patients, CT antigen-based vaccines might prove to be useful for patients with this phenotype of breast cancer

Published
2017

33. New silicon SPAD technology for enhanced red-sensitivity, high-resolution timing and system integration.

Author

Gulinatti, A., Rech, I., Panzeri, F., Cammi, C., Maccagnani, P., Ghioni, M., and Cova, S.

Subjects
AVALANCHE photodiodes, SENSITIVITY analysis, SYSTEM integration, PHOTON detectors, QUANTUM efficiency, MICROFABRICATION
Abstract

In this paper we present a new technology for the fabrication of Single Photon Avalanche Diodes (SPADs) aimed at combining the advantages of thin and thick SPADs. The new detector is manufactured in a thick epitaxial layer designed to improve the Photon Detection Efficiency (PDE) in the red and near-infrared range while maintaining a good timing resolution. Experimental characterization of the new red-enhanced SPAD (RE-SPAD) confirmed a significant improvement of the PDE compared with thin SPADs; for example the PDE at a wavelength of 800 nm has increased from 15% to about 40%. Nevertheless the temporal resolution is still good, with a timing jitter of about 90 ps FWHM. In the same operating conditions the dark count rate is comparable with the one attainable with a thin SPAD (e.g. less than 25 cps for a 50 µm diameter device cooled down to −5°C). Moreover, being planar, the new technology is compatible with the fabrication of arrays of detectors. [ABSTRACT FROM PUBLISHER]

Published
2012
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34. Custom silicon technology for SPAD-arrays with red-enhanced sensitivity and low timing jitter.

Author

Gulinatti A, Ceccarelli F, Ghioni M, and Rech I

Abstract

Single-photon detection is an invaluable tool for many applications ranging from basic research to consumer electronics. In this respect, the Single Photon Avalanche Diode (SPAD) plays a key role in enabling a broad diffusion of these techniques thanks to its remarkable performance, room-temperature operation, and scalability. In this paper we present a silicon technology that allows the fabrication of SPAD-arrays with an unprecedented combination of low timing jitter (95 ps FWHM) and high detection efficiency at red and near infrared wavelengths (peak of 70% at 650 nm, 45% at 800 nm). We discuss the device structure, the fabrication process, and we present a thorough experimental characterization of the fabricated detectors. We think that these results can pave the way to new exciting developments in many fields, ranging from quantum optics to single molecule spectroscopy.

Published
2021
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44. Proton Radiation Tests of Single Photon Avalanche Diode for Space Applications

Author

Moscatelli F, Marisaldi M, Maccagnani P, Labanti C, Fuschino F, Prest M, Berra A, Bolognini D, Ghioni M, Rech I, Gulinatti A, Giudice A, Simmerle G, Candelori A, Mattiazzo S, and Rubini D

Abstract

We study the possibility to use Single Photon Avalanche Diodes (SPAD) as photodetectors for applications in space missions. SPADs are silicon devices operated above the junction breakdown voltage (with the typical overvoltage of 5V), for which a single photon interacting in the active region is sufficient to trigger a self-sustainable avalanche discharge. SPADs can thus be used for the detection of very low light levels with a fast time response around 50ps FWHM for single photon detection, without spectroscopic capabilities. Large area SPAD (500 µm in diameter) have been designed and fabricated at the CNR-IMM facility, with an intrinsic noise lower than 10kHz at -15°C, before irradiation. We performed bulk damage radiation tests with protons in order to evaluate their radiation hardness properties and their suitability for application in a Low Earth Orbit (LEO) space mission. With this aim SPAD devices have been irradiated up to 3×109 (28.5 MeV) p/cm2. The test performed show that large area SPAD are very sensitive to proton doses as low as 1×108 p/cm2 with a significant increase in dark counts rate as well as in the manifestation of the "random telegraph signal" effect. Lower protons doses in the range 1-5×107 p/cm2 result in a lower increase of DCR suggesting that applicability in low-inclination LEO, particularly useful for gamma-ray astrophysics, is still feasible.

Published
2013

46. Single Photon Avalanche Diodes for Space Applications

Author

Moscatelli F, Marisaldi M, Maccagnani P, Labanti C, Fuschino F, Prest M, Berra A, Bolognini D, Ghioni M, Rech I, Gulinatti A, Giudice A, Simmerle G, Candelori A, Mattiazzo S, Sun XL, Cavanaugh JF, and Rubini D

Subjects
radiation, Scintillating fiber, Physics::Instrumentation and Detectors, Single photon avalanche diode, Gamma ray detector
Abstract

We study the possibility to use Single Photon Avalanche Diodes (SPADs) optically coupled to scintillating fibers as a novel type of gamma-ray detector for space applications. SPADs are silicon devices operating under polarization conditions above the junction breakdown voltage (typical overvoltage of 5V), for which a single photon interacting in the active region is sufficient to trigger a self sustainable avalanche discharge. SPADs can thus be used for the detection of very low light levels with an absolute timing accuracy of about 30 ps for single photon detection, without spectroscopic capabilities. In this presentation we report the preliminary results on large area SPAD (actual results refers to SPADs having 200 ?m diameter, with the aim to grow up to 500 ?m SPADs) coupled to scintillating fibers as the basic module for a particle tracker for space application. Dark counts rate as low as few tens of kHz at room temperature, lowering down to few kHz at -10°C have been obtained for the 200 ?m devices, in accordance with the basic requirements for the proposed application. Similar instruments based on silicon photomultiplier (SiPM) readout have already been studied, but none based on SPAD has been realized up to now. Moreover, since very few information is available on SPADs for the use in a space environment, we performed bulk damage and total dose radiation tests with protons and gamma-rays in order to evaluate their radiation hardness properties and their suitability for application in a Low Earth Orbit (LEO) space mission. With this aim the SPAD devices have be irradiated using up to 20 krad total dose with gamma-rays and 5 krad with protons

Published
2012
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47. Expression of tumor-associated antigens in breast cancer subtypes.

Author

Curigliano G, Bagnardi V, Ghioni M, Louahed J, Brichard V, Lehmann FF, Marra A, Trapani D, Criscitiello C, and Viale G

Subjects
Adult, Aged, Biomarkers, Tumor analysis, Female, Humans, Immunohistochemistry, Middle Aged, Receptors, Estrogen metabolism, Receptors, Progesterone metabolism, Triple Negative Breast Neoplasms metabolism, Antigens, Neoplasm analysis, Breast Neoplasms immunology, Membrane Proteins analysis, Receptor, ErbB-2 analysis, WT1 Proteins analysis
Abstract

Objectives: Tumor-associated antigens (TAAs) are frequently overexpressed in several cancer types. The aim of this study was to investigate the expression of TAAs in breast cancer., Material and Methods: A total of 250 selected invasive breast cancers including 50 estrogen receptor (ER)-positive (Luminal B like), 50 triple-negative (TN), 50 ER-positive lobular type, 50 ER- and progesterone receptor (PgR)-positive (Luminal A like) and 50 cerbB2-positive breast cancers, were assessed for New York esophageal squamous cell carcinoma-1 (NY-ESO-1), Wilms tumor antigen (WT-1) and PReferentially expressed Antigen of MElanoma (PRAME) antigen expression by immunohistochemistry (IHC)., Results: A significantly higher expression of cancer testis (CT)-antigens NY-ESO-1 and WT-1 antigen was detected in TN breast cancers compared with ER-positive tumors. NY-ESO-1 overexpression (score 2 + and 3+) assessed by monoclonal and polyclonal antibodies was detected in 9 (18%) TN cancers as compared to 2 (4%) ER-positive tumors (p = 0.002). WT1 over-expression (score 2 + and 3+) was confirmed in 27 (54%) TN tumor samples as compared to 6 (12%) ER-positive (p < 0.0001). PRAME over-expression (score 2 + and 3+) was detected in 8 (16%) HER2 positive tumor samples as compared to no TN and ER-positive cancers (p = 0.0021)., Conclusions: NY-ESO-1 and WT1 antigens are overexpressed in TN breast cancers. Because of the limited therapeutic options for this patient subgroup, CT antigen-based vaccines might prove to be useful for patients with this phenotype of breast cancer., (Copyright © 2019 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2020
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