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998 results on '"Urciuolo, A."'

3. Synthetic Natural Gas Obtained from Biomass Derived Syngas: a Study on Different Technological Approaches

Author

Roberto Ruggiero, Antonio Coppola, Massimo Urciuolo, and Fabrizio Scala

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

Biomass gasification is a thermochemical process that produces a gaseous end product known as syngas, the main components of which are CO, CO2, and H2. Starting from syngas it is possible to upgrade this mixture into Synthetic Natural Gas (SNG) through a catalytic methanation process. In this work, a thermodynamic study was conducted to see how operative parameters such as the temperature of the methanation reactor, the quality of the syngas (related to different gasification technologies), and the presence of a conditioning stage based on water gas shift reaction, can influence the output variables as the conversion degree of the reactants, the mass yield and the low heating value of the final products.

Published
2024

4. Rapid innervation and physiological epidermal regeneration by bioengineered dermis implanted in mouse

Author

Claudia Mazio, Isabella Mavaro, Antonio Palladino, Costantino Casale, Francesco Urciuolo, Andrea Banfi, Livia D'Angelo, Paolo A. Netti, Paolo de Girolamo, Giorgia Imparato, and Chiara Attanasio

Subjects
Human dermis equivalent, Endogenous ECM, In vivo skin defect model, Innervation, Vascularization, Epidermal appendages, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Tissue-engineered skin substitutes are promising tools to cover large and deep skin defects. However, the lack of a synergic and fast regeneration of the vascular network, nerves, and skin appendages limits complete skin healing and impairs functional recovery. It has been highlighted that an ideal skin substitute should mimic the structure of the native tissue to enhance clinical effectiveness. Here, we produced a pre-vascularized dermis (PVD) comprised of fibroblasts embedded in their own extracellular matrix (ECM) and a capillary-like network. Upon implantation in a mouse full-thickness skin defect model, we observed a very early innervation of the graft in 2 weeks. In addition, mouse capillaries and complete epithelialization were detectable as early as 1 week after implantation and, skin appendages developed in 2 weeks. These anatomical features underlie the interaction with the skin nerves, thus providing a further cue for reinnervation guidance. Further, the graft displays mechanical properties, collagen density, and assembly features very similar to the host tissue. Taken together our data show that the pre-existing ECM components of the PVD, physiologically organized and assembled similarly to the native tissue, support a rapid regeneration of dermal tissue. Therefore, our results suggest a promising potential for PVD in skin regeneration.

Published
2024
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7. Hydrogel-in-hydrogel live bioprinting for guidance and control of organoids and organotypic cultures

Author

Urciuolo, Anna, Giobbe, Giovanni Giuseppe, Dong, Yixiao, Michielin, Federica, Brandolino, Luca, Magnussen, Michael, Gagliano, Onelia, Selmin, Giulia, Scattolini, Valentina, Raffa, Paolo, Caccin, Paola, Shibuya, Soichi, Scaglioni, Dominic, Wang, Xuechun, Qu, Ju, Nikolic, Marko, Montagner, Marco, Galea, Gabriel L., Clevers, Hans, Giomo, Monica, De Coppi, Paolo, and Elvassore, Nicola

Published
2023
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8. Hydrogel-in-hydrogel live bioprinting for guidance and control of organoids and organotypic cultures

Author

Anna Urciuolo, Giovanni Giuseppe Giobbe, Yixiao Dong, Federica Michielin, Luca Brandolino, Michael Magnussen, Onelia Gagliano, Giulia Selmin, Valentina Scattolini, Paolo Raffa, Paola Caccin, Soichi Shibuya, Dominic Scaglioni, Xuechun Wang, Ju Qu, Marko Nikolic, Marco Montagner, Gabriel L. Galea, Hans Clevers, Monica Giomo, Paolo De Coppi, and Nicola Elvassore

Subjects
Science
Abstract

Abstract Three-dimensional hydrogel-based organ-like cultures can be applied to study development, regeneration, and disease in vitro. However, the control of engineered hydrogel composition, mechanical properties and geometrical constraints tends to be restricted to the initial time of fabrication. Modulation of hydrogel characteristics over time and according to culture evolution is often not possible. Here, we overcome these limitations by developing a hydrogel-in-hydrogel live bioprinting approach that enables the dynamic fabrication of instructive hydrogel elements within pre-existing hydrogel-based organ-like cultures. This can be achieved by crosslinking photosensitive hydrogels via two-photon absorption at any time during culture. We show that instructive hydrogels guide neural axon directionality in growing organotypic spinal cords, and that hydrogel geometry and mechanical properties control differential cell migration in developing cancer organoids. Finally, we show that hydrogel constraints promote cell polarity in liver organoids, guide small intestinal organoid morphogenesis and control lung tip bifurcation according to the hydrogel composition and shape.

Published
2023
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9. Efficacy and safety of sparsentan versus irbesartan in patients with IgA nephropathy (PROTECT): 2-year results from a randomised, active-controlled, phase 3 trial

Author

Abbasciano, Isabella, Abrantes, Catarina, Accarino, Simone, Adler, Sharon, Adoberg, Annika, Afsari, Rouzbeh, Ahmad, Syeda, Ahmed, Jafar, Ahn, Wooin, Ajayi, Bamidele, Aksamit, Dariusz, Al Chalabi, Saif, Alamartine, Eric, Alchi, Bassam, Ali, Mohammad, Aliotta, Roberta, Almaani, Salem, Almeida, Catarina, Almeida, Edgar, Alvarez, Francisco de la Prada, Alves, Patricia, Annese, Francesca, Appel, Gerald, Arduan, Alberto Ortiz, Arena, Maria, Arevalo, Marta Calvo, Arfaania, Dariush, Arias, Carlos, Aristoy, Emma Calatayud, Asakiene, Egle, Ashley, Sarah, Assefi, Ali, Atenza, Alba, Auerbach, Asta, Augustyniak-Bartosik, Hanna, Avella, Monroy, Ayling-Smith, Jonathan, Ayoub, Isabelle, Ayvazyan, Christine, Baccaro, Rocco, Bailey, Asha, Baker, Bruce, Balamuthusamy, Saravanan, Ballarin, Jose, Barata, Rui, Barbic, Jerko, Barisic, Dunja, Barratt, Jonathan, Barreto, Jose Carlos de Jesus, Barrios, Clara, Belingheri, Mirco, Benesova, Anna, Bernabeu, Ana Avila, Bernhardt, Wanja, Bhadra, Shamik, Biancone, Luigi, Blanchard, Anne, Boaglio, Elena, Bolignano, Davide, Bomback, Andrew, Bonilla, Gustavo Andres Useche, Bordoli, Monica, Bose, Bhadran, Boudville, Neil, Brandon, Donald, Brown, Karen, Broyet, Christian, Bucknall, Thomas, Buffet, Alexandre, Bumblyte', Inga Arune, Burdese, Manuel, Burgos, Natalia Allende, Burguet, Laure, Burtey, Stephane, Busch, Martin, Cakiroglu, Figen, Campbell, Victoria, Canetta, Pietro, Capaccio, Flavia, Carbonell, Juan, Cardoso, Filipa, Carro, Clara Garcia, Carroll, Robert, Carron, Pierre-Louis, Carullo, Nazareno, Cassia, Matthias, Caster, Dawn, Castillo, Belen Vizcaino, Catucci, Davide, Cavalli, Andrea, Chae, Dong-Wan, Chakera, Aron, Chan, Doris, Chan, Gary Chi Wang, Chan, Anthony Ting Pong, Chan, Lai Wan, Chang, Jae Hyun, Chang, Ming-Shan, Chapman, Fiona, Charytan, Chaim, Chaudhry, Asghar, Cheetham, Melissa, Chen, Cheng-Hsu, Chen, Hsin-Yu, Chen, Chien-Liang, Chen, Hung-Yuan, Chen, Hung-Chun, Chenine, Leila, Cheung, Siu Fai, Cheung, Chee Kay, Chiche-Jourde, Noemie, Chiu, Hsien-Fu, Chiu, Yen-Ling, Chiu, Yi-Wen, Chiu, Ian, Choi, Hoon Young, Chou, Kang-Ju, Chowdhury, Paramit, Chowdhury, Pradip, Chrysochou, Constantina, Chukwu, Chukwuma, Chun, Ka Yeong, Chung, Wookyung, Cieniawski, Dominik, Claisse, Guillaume, Clayton, Philip, Cleary, Catalina Martín, Clement, Nisha, Coates, Toby, Cogno, Chiara, Colla, Loredana, Collins, Michael, Colucci, Marco, Combe, Christian, Comi, Nicolino, Comunale, Roderick, Contreras, Gabriel, Cooper, Bruce, Coppock, Gaia, Costa, Ana Cortesão, Costanzi, Stefano, Cozzolino, Mario, Crail, Susan, Cunha, Liliana, Curry, Elizabeth, Dai, Tiane, Daina, Erica, Daneshvari, Sam, Dasgupta, Indranil, DaSilva, Louise, Davidson, Robert, De Bhailis, Aine Maire, de Précigout, Valérie, Decupere, Marc, Delmas, Yahsou, Deodato, Francesca, Dhaun, Neeraj, Dhaygude, Ajay, Dhelaria, Ranjit, Di Maio, Federica, Diezhandino, Maria Angeles Goicoechea, Dika, Zivka, Dinic, Miriana, Dittmer, Ian, Dobre, Mirela, Doctor, Gabriel, Donati, Gabriele, Doubel, Peter, Douthit, Nicole, Draganova, Diliana, Drexler, Yelena, Drinkovic, Martin, Drinovska, Klara, Dudreuilh, Caroline, Dumond, Clement, Durlen, Ivan, Dussol, Bertrand, Encarnacion, Montserrat Diaz, Endre, Zoltan, Enrique, Jorge, Eqbal, Yusuf, Erlich, Jonathan, Esposito, Vittoria, Esposito, Ciro, Fakih, Faisal, Fang, Hua-Chang, Farinha, Ana, Fearday, Aaron, Felgueiras, Joana de Sousa Soares, Felicjanczuk, Elzbieta, Fernandes, João Carlos, Fernandes, Sara, Fernandes, Adriana, Fernandez, Jose Luño, Fernandez, Victor, Fernando, Mangalee, Figueiredo, Ana Carolina, Firre, Eric, Floege, Jürgen, Flossmann, Oliver, Floyd, Lauren, Fonseca, Nuno, Fonseca, Jose Nuno de Almeida Agapito, Foote, Celine, Forbes, Suzanne, Forcen, Angel, Fornoni, Alessia, Fouassier, David, Fraser, Ian, Fung, Ka Shun Samuel, Furlano, Monica, Furtado, Teresa, Gadh, Rajdeep, Gaisset, Roxane, Gallagher, Martin, Gameiro, Joana, Gangadharan, Muralikrishna, Garcia, Fabiola Alonso, Garcia, Olga Gracia, Garg, Gunjan, Garrouste, Cyril, Gautam, Archana, Geara, Abdallah, Geddes, Colin, Gellineo, Lana, Germain, Michael, Gesualdo, Loreto, Ghalli, Farid, Giaroni, Francesco, Giles, Harold, Gillies, Alastair, Gimeno, Ana Vilar, Girardet, Annette, Glaze, Jeffrey, Goh, Tze, Gois, Mario, Goldsmith, Christopher, Goma, Elena, Gomes, Ana Marta, Goncalves, Luis Pedro Falcao, Goncalves, Sara, Gontarek-Kacprzak, Julita, Gonzalez, Carlos, Gopu, Arun, Gowda, Nayan, Gray, Nicholas, Greco, Barbara, Green, Heather, Greze, Clarisse, Griffin, Sian, Guldris, Secundino Cigarran, Guzman, Ursula Verdalles, Ha, Jeffrey Tsun Kit, Hall, Amanda, Hamilton, Patrick, Han, Seung Hyeok, Haws, Robert, Hayat, Ashik, Heath, Lauren, Heinrichs, Sven, Henderson, Andrew, Henderson, Amy, Hendren, Elizabeth, Heng, Anne-Elisabeth, Heres, Salia Virxinia Pol, Herfurth, Johann Konstantin, Herrero, Evangelina Merida, Ho, Tzung-Yo, Hogan, Jonathan, Hohenstein, Bernd, Hollett, Peter, Horvatic, Ivica, Hsu, Bang-Gee, Hsu, Chia-Tien, Hsu, Chih-Yang, Hsu, Shih-Ping, Huang, Chien-Wei, Hudson, Amy, Hung, Chi-Chih, Hwang, Shang-Jyh, Hwang, Daw-Yang, Hyun, Young Youl, Ilmoja, Madis, Irish, Georgina, Jacob, Radu, Jahan, Sadia, Jain, Arunima, Jamar, Sofie, Jander, Anna, Jang, Hye Ryoun, Janko, Catherine, Jardine, Meg, Jaskowski, Piotr, Jeantet, Guillaume, Jelakovic, Bojan, Jeon, Junseok, Jeong, Jong Cheol, Jesudason, Shilpanjali, Jittirat, Arksarapuk, Jo, Sang-Kyung, Jones, Rachel, Joo, Narae, Jorge, Sofia, Julian, Bruce, Jung, JiYong, Jyothinagaram, Praveena, Kadakia, Jigar, Kamal, Fahameedah, Kanigicherla, Durga, Karanovic, Sandra, Karras, Alexandre, Kasimatis, Theodoros, Kassem, Mohamad, Kattamanchi, Siddhartha, Keller, Christopher, Kentric, Dubravka Trajbar, Kettner, Christiane, Khalil, Kassem, Kim, Dana, Kim, Se Joong, Kim, Yeong Hoon, Kim, Yunmi, Kim, Hyung Wook, Kim, Sunggyun, Kim, Jwa-Kyung, Kim, Aejin, Kim, Myung-Gyu, Kimber, Cassandra, Klamm, Kathryn, Koch, Annegret, Koester, Eric, Kolvald, Kulli, Kon, Sui, Kooienga, Laura Ann, Kotwal, Sradha, Krajewska, Magdalena, Kratka, Karolina, Krishnan, Anoushka, Krishnasamy, Rathika, Krueger, Thilo, Kruljac, Ivan, Kulka, Simone, Kunzendorf, Ulrich, Kuo, Mei-Chuan, Kuo, Hung-Tien, Kuo, Sheng, Kwan, Lorraine Pui Yuen, Kwella, Norbert, Kwella, Bogna, Kyaw, Kay, Labat, Aurore, Lafayette, Richard, Lagatta, Mark, Lam, Chi Kwan Darwin, Lambie, Mark, Lanaret, Camille, Latif, Farah, Laute, Margo, Law, Wai Ping, Lawman, Sarah, Lazo, Mercedes Salgueira, Lee, Hajeong, Lee, Moon Hyoung, Lee, Kyu-Beck, Lee, Hyung-seok, Lee, JungEun, Lee, Hyun Hee, Lee, Po-Tsang, Leis, Liisi, Lemahieu, Wim, Leung, Janson, Li, Yan, Lie, Davina Ngoi Wah, Lifland, Howard, Lilienthal, Kadri, Lim, Wai, Limardo, Monica, Livrozet, Marine, Longhi, Selena, Lopes, Daniela, Lopes, Jose Antonio, Lorde, Nathan, Luxton, Grant, Ma, Mingyao, Madhrira, Machaiah, Madonia, Phillip, Maes, Bart, Mahadevan, Kumaradevan, Mahdi, Amar, Mahdi, Eamon, Maillard, Nicolas, Maixnerova, Dita, Majstorovic Barac, Karolina, Malecki, Robert, Malfait, Thomas, Malvica, Silvia, Mandayam, Sreedhar, Manley, Paul, Mansfield, Nick, Marcantoni, Carmelita, Mariat, Christophe, Marin, Tamara Malek, Marin, Lida Maria Rodas, Mark, Patrick, Marques, Joana, Martinez, Eduardo Gutierrez, Martinez, Stacy, Masset, Catherine, Masson, Ingrid, Mather, Amanda, Maung Myint, Thida Maung, Mayet, Valentin, McCafferty, Kieran, McCarthy, Ellen, McDonald, Stephen, McGreal, Kerri, McMahon, Kellyn, McNally, Andrew, McQuarrie, Emily, Medina, Allyson, Meeus, Gert, Mehta, Kshama, Mendoza, Elder, Menezes, Maria, Meng, Jerry, Messa, Piergiorgio, Messias, Ana, Miarka, Przemyslaw, Miglinas, Marius, Mikacic, Ivana, Mikhail, Ashraf, Milicevic, Martina, Minasian, Raffi, Moeller, Marcus, Mohey, Hesham, Mojarrab, Javad, Mok, Maggie Ming Yee, Moncasi, Eduardo Parra, Moonen, Martial, Morales, Wenceslao Adrian Aguilera, Moreno, Eduardo Verde, Moreno, Antolina, Morris, Adam, Moutzouris, Dimitrios, Moya, Mercedes Gonzalez, Mucha, Simon, Musolino, Michela, Napodano, Pietro, Natario, Ana, Negrea, Lavinia, Nelson, Bradley, Neuen, Brendon, Newsome, Britt, Ng, Kit Chung Jack, Nguyen, Thu, Nguyen, Viet, Nicolo, Clementine, Nitschke, Martin, Noble, Euan, Nolasco, Fernando, O'Lone, Emma, Ochoa, Adriana Sierra, Oh, Kook-Hwan, Oh, SeWon, Okoh, Pedro, Ombelet, Sara, O'Shaughnessy, Michelle, Ou, Shih-Hsiang, Packham, David, Padiyar, Aparna, Pai, Mei-Fen, Pamplona, Irene Agraz, Pan, Szu-Yu, Pandya, Bhavna, Papadia, Federica, Pardinhas, Clara, Parikh, Nishita, Parikh, Samir, Park, Hyeong Cheon, Park, Jung Tak, Parreira, Lucia, Passerini, Patrizia, Patak, Ramachandra, Patecki, Margret, Patel, Rajan, Patel, Jusmin, Patel Suthar, Meera, Patella, Gemma, Patrikyan, Artashes, Pavlovic, Drasko, Paxton, William, Peh, Chen, Peleg, Yonatan, Pelicano, Josep Miquel Blasco, Peng, Yu-Sen, Pereira de Vicente, Manuel, Perez, Jonay Pantoja, Perez, Erika, Perez de Jose, Ana, Pérez Gómez, María Vanessa, Perez Lluna, Leticia, Peri, Usha, Perico, Norberto, Philipponnet, Carole, Phua, Elaine, Piel, Julia, Pillai, Unnikrishnan, Pilmore, Helen, Plavljanic, Djuro, Plaza, Mercedes Velo, Pollock, Carol, Ponnusamy, Arvind, Ponti, Serena, Powell, Thomas, Pradhan, Nishigandha, Prado, Raul Fernandez, Prkacin, Ingrid, Pruthi, Rishi, Pugh, Dan, Quinn, Sarah, Quintana, Luis F, Raakesh, Lathika, Rabindranath, Kannaiyan, Radermacher, Luc, Radhakrishnan, Jai, Ragy, Omar Sherin Ibrahim, Raichoudhury, Ritesh, Raimundo, Mario, Randone, Paolo, Razavian, Mona, Reichel, Helmut, Reis, Marina, Remuzzi, Giuseppe, Reynolds, Annie, Ricchiuto, Anna, Rico, Ivon Maritza Bobadilla, Rigothier, Claire, Ritchie, Angus, Rivero, Maria Antonieta Azancot, Rizk, Dana, Ro, Han, Rodriguez, Alfred, Rodriguez Garcia, Eva, Roger, Simon, Rony, Mohammad, Rosenberg, Mai, Roueff, Stephane, Rovin, Brad, Roxburgh, Sarah, Ruiz, Mario, Rusinol, Helena Marco, Rychlik, Ivan, Sá, Helena, Salehi, Tania, Sánchez de la Nieta, Maria Dolores, Sanden, Silja, Santockiene, Lina, Santos, Patricia Valerio, Santos, Iara Da Silva, Sargsyan, Mari, Sarnow, Franziska, Sat, Sebahat, Satora, Ewa, Savuk, Ana, Sayer, Matthew, Schlieper, Georg, Schlosser, Mandy, Schmidt-Guertler, Hans, Schockaert, Olivier, Schulte, Kevin, Schulz, Lisa, Selvaskandan, Haresh, Semple, David, Sen, Shaundeep, Seppet, Elviira, Serrano, Antonio Galan, Serre, Jean-Emmanuel, Sevillano, Angel, Shah, Sapna, Shen, Yvonne, Sheridan, Brittany, Shu, Kai-Hsiang, Sightler, Ford, Silva, Sónia, Silva, Arnold, Sinha, Smeeta, Siriwardana, Amanda, Sitas, Zvonimir, Sivo, Carmen, Sizeland, Peter, Sly, Cathylee, Smith, Priscilla, Snow, Brian, Soares, Elsa Sofia Quadrado, Solazzo, Andrea, Solis, Elena Gutierrez, Solomon, Laurence, Song, Young Rim, Sousa, Helena, Spinowitz, Bruce, Stallworthy, Elizabeth, Stamellou, Eleni, Stanczyk, Malgorzata, Stangenberg, Stefanie, Stankovic, Marija, Stankuviene, Asta, Stea, Emma Diletta, Stompor, Tomasz, Storrar, Joshua, Sullivan, James, Sulowicz, Wladyslaw, Suyumova, Irina, Szeto, Cheuk Chun, Tamarit, Esther, Tan, Eddie, Tan, May, Tang, Sydney Chi Wai, Tang, Hon, Teixeira, Catarina, Telling, Kadri, Terrades, Natalia Ramos, Tesar, Vladimir, Tez, Didem, Thervet, Eric, Thibaudin, Damien, Thomas, Mark, Thyagarajan, Nikhil, Tkaczyk, Marcin, Torreggiani, Massimo, Trillini, Matias, Tsai, Shang-Feng, Tsai, Wan-Chuan, Tsai, Jer-Chia, Tseng, Po-Yu, Tumlin, James, Tung, Kuei-Ting, Turnbull, Angus, Udani, Suneel, Uhlinova, Jana, Unt, Kristin, Urciuolo, Federica, Vanacker, An, Vandewiele, Bert, Vaz, Alvaro, Veermae, Kristi, Viaene, Liesbeth, Vickiene, Alvita, Vigano, Sara, Vila, Maria Antonia Munar, Vilayur, Eswari, Villanueva, Caridad Martinez, Villarroya, Cristina Medrano, Villen, Alejandro Soria, Viramontes, Veronica, Vita, Caterina, Vujcic, Dunja, Wahba, Mona, Wan, Susan, Wang, Chih-Hsien, Warling, Xavier, Waters, Gerald, Waugh, Jane, Weiland, Lea, Weiner, Stefan, Weinreich, Thomas, Werth, Stephan Christian, Wickens, Olivia, Wijeratne, Vidu, Wilder, Karen, Willcocks, Lisa, Williams, Allister, Winiarska, Agata, Wirtz, Nikolaus, Wolf, Lothar, Wolf, Gunter, Wong, Muh Geot, Wong, Yick Hei, Wong, Sze Ho Sunny, Workeneh, Biruh, Wu, Ming-Ju, Wu, Hon-Yen, Wyndham, Roger, Yang, Jihyun, Yang, Ju-Yeh, Yeap, Chii, Yim, Ka Fai, Yong, Kenneth, Yoo, Tae-Hyun, Yoon, Songuk, Yu, Tung-Min, Yue, Tak Tai Andrew, Zakari, Michel, Zakauskiene, Urte, Zaoui, Philippe, Zbrzezniak, Justyna, Zielinska, Dorota, Zizzi, Carlotta Federica, Rovin, Brad H, Heerspink, Hiddo J L, Alpers, Charles E, Bieler, Stewart, Diva, Ulysses A, Inrig, Jula K, Kohan, Donald E, Komers, Radko, Małecki, Robert, Mercer, Alex, Noronha, Irene L, Oh, Se Won, Peh, Chen Au, Praga, Manuel, Preciado, Priscila, Rheault, Michelle N, Rote, William E, Tang, Sydney C W, Trachtman, Howard, Trimarchi, Hernán, Tumlin, James A, and Perkovic, Vlado

Published
2023
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10. Integral operators with rough kernels in variable Lebesgue spaces

Author

Urciuolo, Marta and Vallejos, Lucas

Subjects
Mathematics - Classical Analysis and ODEs, 42B25, 42B35
Abstract

In this paper we study integral operators with kernels \begin{equation*} K(x,y)= k_1( x- A_1y)...k_m( x-A_my), \end{equation*} $k_i(x)=\frac{\Omega_i(x)}{|x|^{n/q_i}}$ where $\Omega_i: \mathbb{R}^n\to \mathbb{R}$ are homogeneous functions of degree zero, satisfying a size and a Dini condition, $A_{i}$ are certain invertible matrices, and $\frac n{q_1}+\dots\frac n{q_m}=n-\alpha,$ $0\leq \alpha

Published
2019

11. Sparsentan in patients with IgA nephropathy: a prespecified interim analysis from a randomised, double-blind, active-controlled clinical trial

Author

Alarmartine, Eric, Barratt, Jonathan, Chae, Dong Wan, Del Vecchio, Lucia, Floege, Jurgen, Hwang, Shang-Jyh, Jelakovic, Bojan, Maes, Bart, Malecki, Robert, Miglinas, Marius, Nolasco, Fernando Eduardo Barbosa, Praga, Manual, Rabindranath, Kannaiyan, Rosenberg, Mai, Rovin, Brad, Tang, Sydney Chi Wai, Tesar, Vladmir, Wong, Muh Geot, Bose, Bhadran, Gangadharan, Muralikrishna, McDonald, Stephen, Peh, Chen, Jahan, Sadia, Yeap, Chii, Clayton, Philip, Irish, Georgina, Thyagarajan, Nikhil, Hollett, Peter, Krishnasamy, Rathika, Carroll, Robert, Jesudason, Shilpanjali, Crail, Susan, Coates, Toby, Waugh, Jane, Noble, Euan, Mahadevan, Kumaradevan, Campbell, Victoria, Salehi, Tania, Lim, Wai, Boudville, Neil, Chakera, Aron, Chan, Doris, Krishnan, Anoushka, Eqbal, Yusuf, Gillies, Alastair, Vilayur, Eswari, Maung Myint, Thida Maung, Gray, Nicholas, Cheetham, Melissa, Pollock, Carol, Cooper, Bruce, Mather, Amanda, Roxburgh, Sarah, Shen, Yvonne, Stangenberg, Stefanie, Siriwardana, Amanda, O'Lone, Emma, Wan, Susan, Neuen, Brendon, Tsun Kit Ha, Jeffrey, Kim, Dana, Heath, Lauren, Jain, Arunima, Phua, Elaine, Li, Yan, Gallagher, Martin, Jardine, Meg, Ritchie, Angus, Razavian, Mona, Foote, Celine, Wyndham, Roger, Sen, Shaundeep, Endre, Zoltan, Erlich, Jonathan, Fernando, Mangalee, Yong, Kenneth, Luxton, Grant, Kotwal, Sradha, Roger, Simon, Wijeratne, Vidu, Packham, David, Fraser, Ian, Vandewiele, Bert, Laute, Margo, Lemahieu, Wim, Jamar, Sofie, Ombelet, Sara, Meeus, Gert, Decupere, Marc, Schockaert, Olivier, Doubel, Peter, Viaene, Liesbeth, Radermacher, Luc, Masset, Catherine, Moonen, Martial, Firre, Eric, Milicevic, Martina, Warling, Xavier, Vanacker, An, Malfait, Thomas, Durlen, Ivan, Horvatic, Ivica, Savuk, Ana, Gellineo, Lana, Karanovic, Sandra, Dika, Zivka, Plavljanic, Djuro, Mikacic, Ivana, Trajbar Kentric, Dubravka, Barisic, Dunja, Stankovic, Marija, Majstorovic Barac, Karolina, Kruljac, Ivan, Pavlovic, Drasko, Drinkovic, Martin, Prkacin, Ingrid, Barbic, Jerko, Sitas, Zvonimir, Vujcic, Dunja, Rychlik, Ivan, Benesova, Anna, Drinovska, Klara, Kratka, Karolina, Maixnerova, Dita, Ilmoja, Madis, Unt, Kristin, Lilienthal, Kadri, Auerbach, Asta, Leis, Liisi, Piel, Julia, Adoberg, Annika, Kolvald, Kulli, Veermae, Kristi, Telling, Kadri, Seppet, Elviira, Uhlinova, Jana, Zaoui, Philippe, Carron, Pierre-Louis, Masson, Ingrid, Dinic, Miriana, Thibaudin, Damien, Broyet, Christian, Maillard, Nicolas, Mohey, Hesham, Mariat, Christophe, Claisse, Guillaume, Alamartine, Eric, Dussol, Bertrand, Burtey, Stephane, Chiche-Jourde, Noemie, Serre, Jean-Emmanuel, Jeantet, Guillaume, Chenine, Leila, Blanchard, Anne, Roueff, Stephane, Thervet, Eric, Fouassier, David, Buffet, Alexandre, Livrozet, Marine, Gaisset, Roxane, Karras, Alexandre, Heng, Anne-Elisabeth, Garrouste, Cyril, Philipponnet, Carole, Nicolo, Clementine, Atenza, Alba, Lanaret, Camille, Greze, Clarisse, Mayet, Valentin, Dumond, Clement, Delmas, Yahsou, Combe, Christian, Rigothier, Claire, Burguet, Laure, Labat, Aurore, Mucha, Simon, de Précigout, Valérie, Weinreich, Thomas, Reichel, Helmut, Draganova, Diliana, Wolf, Lothar, Hohenstein, Bernd, Heinrichs, Sven, Kulka, Simone, Sat, Sebahat, Weiland, Lea, Krueger, Thilo, Wolf, Gunter, Kettner, Christiane, Schlosser, Mandy, Herfurth, Johann Konstantin, Koch, Annegret, Busch, Martin, Werth, Stephan Christian, Nitschke, Martin, Cakiroglu, Figen, Sarnow, Franziska, Schulz, Lisa, Weiner, Stefan, Wirtz, Nikolaus, Koester, Eric, Moeller, Marcus, Stamellou, Eleni, Sanden, Silja, Schmidt-Guertler, Hans, Bernhardt, Wanja, Patecki, Margret, Schlieper, Georg, Schulte, Kevin, Girardet, Annette, Kunzendorf, Ulrich, Kwan, Lorraine Pui Yuen, Mok, Maggie Ming Yee, Chan, Gary Chi Wang, Ma, Mingyao, Lie, Davina Ngoi Wah, Chan, Anthony Ting Pong, Szeto, Cheuk Chun, Ng, Kit Chung Jack, Cheung, Siu Fai, Yue, Tak Tai Andrew, Fung, Ka Shun Samuel, Tang, Hon, Yim, Ka Fai, Law, Wai Ping, Wong, Yick Hei, Lam, Chi Kwan Darwin, Wong, Sze Ho Sunny, Marcantoni, Carmelita, Aliotta, Roberta, Deodato, Francesca, Patella, Gemma, Comi, Nicolino, Vita, Caterina, Carullo, Nazareno, Bolignano, Davide, Musolino, Michela, Trillini, Matias, Perico, Norberto, Remuzzi, Giuseppe, Daina, Erica, Biancone, Luigi, Colla, Loredana, Burdese, Manuel, Cogno, Chiara, Boaglio, Elena, Abbasciano, Isabella, Zizzi, Carlotta Federica, Randone, Paolo, Napodano, Pietro, Ricchiuto, Anna, Cassia, Matthias, Accarino, Simone, Cozzolino, Mario, Baccaro, Rocco, Costanzi, Stefano, Di Maio, Federica, Arena, Maria, Urciuolo, Federica, Vigano, Sara, Cavalli, Andrea, Limardo, Monica, Bordoli, Monica, Ponti, Serena, Longhi, Selena, Solazzo, Andrea, Giaroni, Francesco, Donati, Gabriele, Torreggiani, Massimo, Catucci, Davide, Colucci, Marco, Esposito, Vittoria, Esposito, Ciro, Gesualdo, Loreto, Capaccio, Flavia, Diletta Stea, Emma, Sivo, Carmen, Annese, Francesca, Papadia, Federica, Messa, Piergiorgio, Belingheri, Mirco, Passerini, Patrizia, Malvica, Silvia, Vickiene, Alvita, Zakauskiene, Urte, Asakiene, Egle, Bumblyte', Inga Arune, Stankuviene, Asta, Santockiene, Lina, Hayat, Ashik, Williams, Allister, Sizeland, Peter, Tan, Eddie, Waters, Gerald, Chan, Lai Wan, Henderson, Andrew, Turnbull, Angus, McNally, Andrew, Reynolds, Annie, Pilmore, Helen, Dittmer, Ian, Manley, Paul, Stallworthy, Elizabeth, Goh, Tze, Semple, David, Collins, Michael, Curry, Elizabeth, Ahmed, Jafar, Nguyen, Thu, Winiarska, Agata, Zbrzezniak, Justyna, Stompor, Tomasz, Krajewska, Magdalena, Augustyniak-Bartosik, Hanna, Zielinska, Dorota, Jander, Anna, Stanczyk, Malgorzata, Tkaczyk, Marcin, Miarka, Przemyslaw, Aksamit, Dariusz, Jaskowski, Piotr, Sulowicz, Wladyslaw, Cieniawski, Dominik, Gontarek-Kacprzak, Julita, Felicjanczuk, Elzbieta, Kwella, Norbert, Kwella, Bogna, Satora, Ewa, Fernandes, João Carlos, Gomes, Ana Marta, Reis, Marina, Lopes, Daniela, Almeida, Catarina, Sá, Helena, Figueiredo, Ana Carolina, Pardinhas, Clara, Almeida, Edgar, Raimundo, Mario, Cortesão Costa, Ana, Falcao Goncalves, Luis Pedro, Fernandes, Sara, Silva, Sónia, Teixeira, Catarina, Fernandes, Adriana, Nolasco, Fernando, Alves, Patricia, Gois, Mario, Fonseca, Nuno, Messias, Ana, Menezes, Maria, Cardoso, Filipa, Sousa, Helena, Marques, Joana, Barata, Rui, Lopes, Jose Antonio, Jorge, Sofia, Gameiro, Joana, de Almeida Agapito Fonseca, Jose Nuno, Goncalves, Sara, Farinha, Ana, Valerio Santos, Patricia, Natario, Ana, de Jesus Barreto, Jose Carlos, Abrantes, Catarina, Quadrado Soares, Elsa Sofia, Soares Felgueiras, Joana de Sousa, Cunha, Liliana, Parreira, Lucia, Furtado, Teresa, Vaz, Alvaro, Oh, Kook-Hwan, Lee, Hajeong, Joong Kim, Se, Jeong, Jong Cheol, Hoon Kim, Yeong, Kim, Yunmi, Park, Hyeong Cheon, Choi, Hoon Young, Wook Kim, Hyung, Lee, Moon Hyoung, Yoon, Songuk, Lee, Kyu-Beck, Hyun, YoungYoul, Yoo, Tae-Hyun, Han, Seung Hyeok, Park, Jung Tak, Kim, Sunggyun, Song, Young Rim, Kim, Jwa-Kyung, Lee, Hyung-seok, Joo, Narae, Lee, JungEun, Ryoun Jang, Hye, Jeon, Junseok, Chung, Wookyung, Lee, HyunHee, Chang, Jae Hyun, Chun, Ka Yeong, Jung, Ji Yong, Ro, Han, Kim, Aejin, Jo, Sang-Kyung, Yang, Jihyun, Kim, Myung-Gyu, Oh, SeWon, Martinez Villanueva, Caridad, Gimeno, Ana Vilar, Andres Useche Bonilla, Gustavo, Tamarit, Esther, Galan Serrano, Antonio, Verde Moreno, Eduardo, Fernandez, Jose Luño, Goicoechea Diezhandino, Maria Angeles, Verdalles Guzman, Ursula, de Jose, Ana Perez, Ortiz Arduan, Alberto, Pérez Gómez, María Vanessa, Martín Cleary, Catalina, Prado, Raul Fernandez, Goma, Elena, Ballarin, Jose, Encarnacion, Montserrat Diaz, Da Silva Santos, Iara, Marco Rusinol, Helena, Furlano, Monica, Arias, Carlos, Barrios, Clara, Garcia, Eva Rodriguez, Sierra Ochoa, Adriana, Vizcaino Castillo, Belen, Pantoja Perez, Jonay, Gonzalez Moya, Mercedes, Sargsyan, Mari, Calatayud Aristoy, Emma, Bernabeu, Ana Avila, Perez Lluna, Leticia, Malek Marin, Tamara, Antonia Munar Vila, Maria, Bobadilla Rico, Ivon Maritza, Allende Burgos, Natalia, Gutierrez Martinez, Eduardo, Gutierrez Solis, Elena, Sevillano, Angel, Merida Herrero, Evangelina, Miquel Blasco Pelicano, Josep, Rodas Marin, Lida Maria, Quintana, Luis F, Antonieta Azancot Rivero, Maria, Ramos Terrades, Natalia, Garcia Carro, Clara, Agraz Pamplona, Irene, Salgueira Lazo, Mercedes, de la Prada Alvarez, Francisco, Alonso Garcia, Fabiola, Adrian Aguilera Morales, Wenceslao, Virxinia Pol Heres, Salia, Forcen, Angel, Parra Moncasi, Eduardo, Medrano Villarroya, Cristina, Soria Villen, Alejandro, Gracia Garcia, Olga, Velo Plaza, Mercedes, Sánchez de la Nieta, Maria Dolores, Calvo Arevalo, Marta, Moreno, Antolina, Cigarran Guldris, Secundino, de Vicente, Manuel Pereira, Munar Vila, Maria Antonia, Hsu, Bang-Gee, Wang, Chih-Hsien, Chen, Cheng-Hsu, Yu, Tung-Min, Wu, Ming-Ju, Tsai, Shang-Feng, Hsu, Chia-Tien, Chiu, Hsien-Fu, Chou, Kang-Ju, Fang, Hua-Chang, Lee, Po-Tsang, Chen, Hsin-Yu, Chen, Chien-Liang, Huang, Chien-Wei, Ou, Shih-Hsiang, Ho, Tzung-Yo, Hsu, Chih-Yang, Chang, Ming-Shan, Chiu, Yen-Ling, Peng, Yu-Sen, Shu, Kai-Hsiang, Pan, Szu-Yu, Hsu, Shih-Ping, Yang, Ju-Yeh, Pai, Mei-Fen, Tseng, Po-Yu, Wu, Hon-Yen, Tsai, Wan-Chuan, Tung, Kuei-Ting, Chen, Hung-Yuan, Chen, Hung-Chun, Kuo, Mei-Chuan, Hwang, Daw-Yang, Chiu, Yi-Wen, Hung, Chi-Chih, Kuo, Hung-Tien, Tsai, Jer-Chia, McCafferty, Kieran, Forbes, Suzanne, Dasgupta, Indranil, Thomas, Mark, Mahdi, Amar, Ajayi, Bamidele, Chowdhury, Paramit, Kasimatis, Theodoros, Moutzouris, Dimitrios, Dudreuilh, Caroline, Pruthi, Rishi, Mansfield, Nick, Doctor, Gabriel, Shah, Sapna, Kon, Sui, Smith, Priscilla, Hamilton, Patrick, Kanigicherla, Durga, Ibrahim Ragy, Omar Sherin, Alchi, Bassam, Flossmann, Oliver, Ghalli, Farid, Lawman, Sarah, Sinha, Smeeta, Chrysochou, Constantina, Chukwu, Chukwuma, Maire De Bhailis, Aine, Al Chalabi, Saif, Hudson, Amy, Gopu, Arun, Wickens, Olivia, Storrar, Joshua, Wahba, Mona, Lorde, Nathan, Rony, Mohammad, Griffin, Sian, Latif, Farah, Ali, Mohammad, DaSilva, Louise, Ayling-Smith, Jonathan, Mahdi, Eamon, Willcocks, Lisa, Jones, Rachel, Cheung, Chee Kay, Selvaskandan, Haresh, Pugh, Dan, Sayer, Matthew, Dhaun, Neeraj, Chapman, Fiona, Mark, Patrick, Geddes, Colin, McQuarrie, Emily, Patel, Rajan, Solomon, Laurence, Ponnusamy, Arvind, Morris, Adam, Okoh, Pedro, Floyd, Lauren, Dhaygude, Ajay, Leung, Janson, Goldsmith, Christopher, Pandya, Bhavna, Tez, Didem, Mikhail, Ashraf, Brown, Karen, Bucknall, Thomas, Lambie, Mark, Comunale, Roderick, Brandon, Donald, Martinez, Stacy, Hall, Amanda, Henderson, Amy, Fearday, Aaron, Douthit, Nicole, Snow, Brian, Silva, Arnold, Sly, Cathylee, Keller, Christopher, Davidson, Robert, Meng, Jerry, Haws, Robert, Kattamanchi, Siddhartha, Mojarrab, Javad, Pillai, Unnikrishnan, Lafayette, Richard, O'Shaughnessy, Michelle, Kamal, Fahameedah, Mehta, Kshama, Baker, Bruce, Ruiz, Mario, Jyothinagaram, Praveena, Peri, Usha, Paxton, William, Tumlin, James, McGreal, Kerri, McCarthy, Ellen, Kimber, Cassandra, Gautam, Archana, Khalil, Kassem, Nguyen, Viet, Minasian, Raffi, Arfaania, Dariush, Daneshvari, Sam, Zakari, Michel, Patrikyan, Artashes, Afsari, Rouzbeh, Ayvazyan, Christine, Fakih, Faisal, Lagatta, Mark, Rodriguez, Alfred, Avella, Jorge Enrique Monroy, Patak, Ramachandra, Kadakia, Jigar, Radhakrishnan, Jai, Appel, Gerald, Ahn, Wooin, Nelson, Bradley, Medina, Allyson, Ahmad, Syeda, Peleg, Yonatan, Clement, Nisha, Chiu, Ian, Hendren, Elizabeth, Bomback, Andrew, Canetta, Pietro, Spinowitz, Bruce, Charytan, Chaim, Parikh, Nishita, Kuo, Sheng, Raichoudhury, Ritesh, Dobre, Mirela, Negrea, Lavinia, Padiyar, Aparna, Jittirat, Arksarapuk, Pradhan, Nishigandha, Dhelaria, Ranjit, Balamuthusamy, Saravanan, Madhrira, Machaiah, Powell, Thomas, Lifland, Howard, Bailey, Asha, Ford Sightler, Sarah Ashley, Suthar, Meera Patel, Green, Heather, Parikh, Samir, Ayoub, Isabelle, Almaani, Salem, Contreras, Gabriel, Fornoni, Alessia, Drexler, Yelena, Geara, Abdallah, Sheridan, Brittany, Coppock, Gaia, Hogan, Jonathan, Gonzalez, Carlos, Bhadra, Shamik, Chowdhury, Pradip, Kyaw, Kay, Tan, May, Raakesh, Lathika, Mendoza, Elder, Viramontes, Veronica, Chaudhry, Asghar, Carbonell, Juan, Gadh, Rajdeep, Fernandez, Victor, Kassem, Mohamad, Jacob, Radu, Wilder, Karen, Newsome, Britt, Klamm, Kathryn, Suyumova, Irina, Kooienga, Laura Ann, Janko, Catherine, Rizk, Dana, Julian, Bruce, Caster, Dawn, Perez, Erika, Garg, Gunjan, Gowda, Nayan, Udani, Suneel, Mandayam, Sreedhar, Workeneh, Biruh, Assefi, Ali, Greco, Barbara, Germain, Michael, Patel, Jusmin, Quinn, Sarah, Sullivan, James, Glaze, Jeffrey, Madonia, Phillip, McMahon, Kellyn, Giles, Harold, Adler, Sharon, Dai, Tiane, Heerspink, Hiddo J L, Alpers, Charles E, Bieler, Stewart, Diva, Ulysses, Inrig, Jula, Komers, Radko, Mercer, Alex, Noronha, Irene L, Rheault, Michelle N, Rote, William, Trachtman, Howard, Trimarchi, Hernán, and Perkovic, Vlado

Published
2023
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15. Techno-Economic and Environmental Analysis of a Sewage Sludge Alternative Treatment Combining Chemical Looping Combustion and a Power-to-Methane System

Author

Piero Bareschino, Roberto Chirone, Andrea Paulillo, Claudio Tregambi, Massimo Urciuolo, Francesco Pepe, and Erasmo Mancusi

Subjects
sewage sludge disposal, CO2 capture and utilization, methanation, climate change impact, sensitivity analysis, Technology
Abstract

An innovative process layout for sludge waste management based on chemical looping combustion and flue gas methanation is analyzed in this work. The technical performance of the system was assessed by considering that the flue gas is first purified and then mixed with a pure hydrogen stream sourced from an array of electrolysis cells to produce methane. The life cycle assessment (LCA) and life cycle cost (LCC) methodologies were applied to quantify the environmental and economic performances of the proposed process, and a hotspot analysis was carried out to recognize its most critical steps. The proposed system was then compared with a reference system that includes both the conventional waste management pathways for the Italian context and methane production. Finally, to account for the variability in the future economic climate, the effects of changes in landfill storage costs on sewage end-of-life costs for both the proposed and reference systems were evaluated. With respect to 1 kg/h of sewage sludge with 10%wt of humidity, the analysis shows that the proposed system (i) reduces landfill wastes by about 68%, (ii) has an end-of-life cost of 1.75 EUR × kg−1, and (iii) is environmentally preferable to conventional sewage sludge treatment technologies with respect to several impact categories.

Published
2024
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18. 3D ECM-rich environment sustains the identity of naive human iPSCs

Author

Cesare, Elisa, Urciuolo, Anna, Stuart, Hannah T., Torchio, Erika, Gesualdo, Alessia, Laterza, Cecilia, Gagliano, Onelia, Martewicz, Sebastian, Cui, Meihua, Manfredi, Anna, Di Filippo, Lucio, Sabatelli, Patrizia, Squarzoni, Stefano, Zorzan, Irene, Betto, Riccardo M., Martello, Graziano, Cacchiarelli, Davide, Luni, Camilla, and Elvassore, Nicola

Published
2022
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19. In vitro strategies for mimicking dynamic cell–ECM reciprocity in 3D culture models

Author

F. Urciuolo, G. Imparato, and P. A. Netti

Subjects
3D tissue models, extracellular matrix, morphogeneis, dynamic reciprocity, cell–ECM interaction, Biotechnology, TP248.13-248.65
Abstract

The extracellular microenvironment regulates cell decisions through the accurate presentation at the cell surface of a complex array of biochemical and biophysical signals that are mediated by the structure and composition of the extracellular matrix (ECM). On the one hand, the cells actively remodel the ECM, which on the other hand affects cell functions. This cell–ECM dynamic reciprocity is central in regulating and controlling morphogenetic and histogenetic processes. Misregulation within the extracellular space can cause aberrant bidirectional interactions between cells and ECM, resulting in dysfunctional tissues and pathological states. Therefore, tissue engineering approaches, aiming at reproducing organs and tissues in vitro, should realistically recapitulate the native cell–microenvironment crosstalk that is central for the correct functionality of tissue-engineered constructs. In this review, we will describe the most updated bioengineering approaches to recapitulate the native cell microenvironment and reproduce functional tissues and organs in vitro. We have highlighted the limitations of the use of exogenous scaffolds in recapitulating the regulatory/instructive and signal repository role of the native cell microenvironment. By contrast, strategies to reproduce human tissues and organs by inducing cells to synthetize their own ECM acting as a provisional scaffold to control and guide further tissue development and maturation hold the potential to allow the engineering of fully functional histologically competent three-dimensional (3D) tissues.

Published
2023
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23. Customized bioreactor enables the production of 3D diaphragmatic constructs influencing matrix remodeling and fibroblast overgrowth

Author

Edoardo Maghin, Eugenia Carraro, Daniele Boso, Arben Dedja, Mattia Giagante, Paola Caccin, Raluca Ana-Maria Barna, Silvia Bresolin, Alice Cani, Giulia Borile, Deborah Sandrin, Filippo Romanato, Francesca Cecchinato, Anna Urciuolo, Dorianna Sandonà, Paolo De Coppi, Piero G. Pavan, and Martina Piccoli

Subjects
Medicine
Abstract

Abstract The production of skeletal muscle constructs useful for replacing large defects in vivo, such as in congenital diaphragmatic hernia (CDH), is still considered a challenge. The standard application of prosthetic material presents major limitations, such as hernia recurrences in a remarkable number of CDH patients. With this work, we developed a tissue engineering approach based on decellularized diaphragmatic muscle and human cells for the in vitro generation of diaphragmatic-like tissues as a proof-of-concept of a new option for the surgical treatment of large diaphragm defects. A customized bioreactor for diaphragmatic muscle was designed to control mechanical stimulation and promote radial stretching during the construct engineering. In vitro tests demonstrated that both ECM remodeling and fibroblast overgrowth were positively influenced by the bioreactor culture. Mechanically stimulated constructs also increased tissue maturation, with the formation of new oriented and aligned muscle fibers. Moreover, after in vivo orthotopic implantation in a surgical CDH mouse model, mechanically stimulated muscles maintained the presence of human cells within myofibers and hernia recurrence did not occur, suggesting the value of this approach for treating diaphragm defects.

Published
2022
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24. The Ecosystem Services Provided by Peatlands in Patagonia

Author

Iturraspe, Rodolfo J., Urciuolo, Adriana B., Quintana, Flavio, Series Editor, Avila, Luciano J., Series Editor, González-José, Rolando, Series Editor, Bucci, Sandra J., Series Editor, Peri, Pablo L., editor, Martínez Pastur, Guillermo, editor, and Nahuelhual, Laura, editor

Published
2021
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25. Mitochondrial fission links ECM mechanotransduction to metabolic redox homeostasis and metastatic chemotherapy resistance

Author

Romani, Patrizia, Nirchio, Nunzia, Arboit, Mattia, Barbieri, Vito, Tosi, Anna, Michielin, Federica, Shibuya, Soichi, Benoist, Thomas, Wu, Danchen, Hindmarch, Charles Colin Thomas, Giomo, Monica, Urciuolo, Anna, Giamogante, Flavia, Roveri, Antonella, Chakravarty, Probir, Montagner, Marco, Calì, Tito, Elvassore, Nicola, Archer, Stephen L., De Coppi, Paolo, Rosato, Antonio, Martello, Graziano, and Dupont, Sirio

Published
2022
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26. Three-dimensional in vitro models of neuromuscular tissue

Author

Paolo Raffa, Maria Easler, and Anna Urciuolo

Subjects
3d organization, bioengineering, biomaterials, motor neurons, neuromuscular junction, skeletal muscle models, Neurology. Diseases of the nervous system, RC346-429
Abstract

Skeletal muscle is a dynamic tissue in which homeostasis and function are guaranteed by a very defined three-dimensional organization of myofibers in respect to other non-muscular components, including the extracellular matrix and the nervous network. In particular, communication between myofibers and the nervous system is essential for the overall correct development and function of the skeletal muscle. A wide range of chronic, acute and genetic-based human pathologies that lead to the alteration of muscle function are associated with modified preservation of the fine interaction between motor neurons and myofibers at the neuromuscular junction. Recent advancements in the development of in vitro models for human skeletal muscle have shown that three-dimensionality and integration of multiple cell types are both key parameters required to unveil pathophysiological relevant phenotypes. Here, we describe recent achievement reached in skeletal muscle modeling which used biomaterials for the generation of three-dimensional constructs of myotubes integrated with motor neurons.

Published
2022
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27. Customized bioreactor enables the production of 3D diaphragmatic constructs influencing matrix remodeling and fibroblast overgrowth

Author

Maghin, Edoardo, Carraro, Eugenia, Boso, Daniele, Dedja, Arben, Giagante, Mattia, Caccin, Paola, Barna, Raluca Ana-Maria, Bresolin, Silvia, Cani, Alice, Borile, Giulia, Sandrin, Deborah, Romanato, Filippo, Cecchinato, Francesca, Urciuolo, Anna, Sandonà, Dorianna, De Coppi, Paolo, Pavan, Piero G., and Piccoli, Martina

Published
2022
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29. Effects of uremic toxins on hippocampal synaptic transmission: implication for neurodegeneration in chronic kidney disease

Author

Giuseppina Natale, Valeria Calabrese, Gioia Marino, Federica Campanelli, Federica Urciuolo, Antonio de Iure, Veronica Ghiglieri, Paolo Calabresi, Maurizio Bossola, and Barbara Picconi

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Patients affected by chronic kidney disease (CKD) have an increased risk of developing cognitive impairment. The cause of mental health disorders in CKD and in chronic hemodialysis patients is multifactorial, due to the interaction of classical cardiovascular disease risk factors, kidney- and dialysis-related risk factors with depression, and multiple drugs overuse. A large number of compounds, defined as uremic toxins that normally are excreted by healthy kidneys, accumulate in the circulations, in the tissues, and in the organs of CKD patients. Among the candidate uremic toxins are several guanidino compounds, such as Guanidine. Uremic toxins may also accumulate in the brain and may have detrimental effects on cerebral resident cells (neurons, astrocytes, microglia) and microcirculation. The present study aims to analyze the effect of Guanidine on hippocampal excitatory postsynaptic field potentials (fEPSPs) and in CA1 pyramidal neurons recorded intracellularly. Moreover, we compared these effects with the alterations induced in vitro by CKD patients derived serum samples. Our results show an increased, dose-dependent, synaptic activity in the CA1 area in response to both synthetic Guanidine and patient’s serum, through a mechanism involving glutamatergic transmission. In particular, the concomitant increase of both NMDA and AMPA component of the excitatory postsynaptic currents (EPSCs) suggests a presynaptic mechanism. Interestingly, in presence of the lower dose of guanidine, we measure a significant reduction of EPSCs, in fact the compound does not inhibit GABA receptors allowing their inhibitory effect of glutamate release. These findings suggest that cognitive symptoms induced by the increase of uremic compounds in the serum of CKD patients are caused, at least in part, by an increased glutamatergic transmission in the hippocampus.

Published
2021
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31. Fractional type integral operators on variable Hardy spaces

Author

Rocha, Pablo and Urciuolo, Marta

Subjects
Mathematics - Classical Analysis and ODEs
Abstract

We study the boundedness of certain fractional integral operators from Hp(.) into Lq(.). We also obtain the Hp(.)- Hq(.) boundedness of the Riesz potential.

Published
2016

35. Human Pluripotent Stem Cell-Derived Micropatterned Ectoderm Allows Cell Sorting of Meso-Endoderm Lineages

Author

Yang Yang, Cecilia Laterza, Hannah T. Stuart, Federica Michielin, Onelia Gagliano, Anna Urciuolo, and Nicola Elvassore

Subjects
micropatterning, cell sorting, ectoderm, hPSC differentiation, human in vitro model, Biotechnology, TP248.13-248.65
Abstract

The human developmental processes during the early post-implantation stage instruct the specification and organization of the lineage progenitors into a body plan. These processes, which include patterning, cell sorting, and establishment of the three germ layers, have been classically studied in non-human model organisms and only recently, through micropatterning technology, in a human-specific context. Micropatterning technology has unveiled mechanisms during patterning and germ layer specification; however, cell sorting and their segregation in specific germ layer combinations have not been investigated yet in a human-specific in vitro system. Here, we developed an in vitro model of human ectodermal patterning, in which human pluripotent stem cells (hPSCs) self-organize to form a radially regionalized neural and non-central nervous system (CNS) ectoderm. We showed that by using micropatterning technology and by modulating BMP and WNT signals, we can regulate the appearance and spatial distribution of the different ectodermal populations. This pre-patterned ectoderm can be used to investigate the cell sorting behavior of hPSC-derived meso-endoderm cells, with an endoderm that segregates from the neural ectoderm. Thus, the combination of micro-technology with germ layer cross-mixing enables the study of cell sorting of different germ layers in a human context.

Published
2022
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37. Strategies to Improve Quality and Yield of Pyrolysis Bio-oils

Author

Paola Brachi, Renata Migliaccio, Elvis T. Ganda, Massimo Urciuolo, Giovanna Ruoppolo, Antonio Coppola, Fabrizio Scala, and Piero Salatino

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

Crude bio-oil obtained from fast pyrolysis of biomass and wastes is typically characterised by the presence of high levels of oxygenated compounds, which are mainly responsible for its unfavourable characteristics (e.g., low heating value, high acidity, and poor storage stability). In order to overcome this drawback and favourably produce drop-in fuels, the fast pyrolysis of olive stone (OS), has been studied by giving particular attention to the exploration of operating conditions (i.e. pyrolysis temperature) and strategies (i.e. catalytic pyrolysis and co-pyrolysis) suitable to promote efficient de-oxygenation of bio-oils and improve the quality of the product streams. Steady state fast pyrolysis tests were performed in a bench scale fluidized bed reactor (gas residence time ~1s). Pyrolysis tests were carried out at 500 °C and 600 °C by using either inert sand or ?-alumina catalyst as bed material. Outcomes from the non-catalytic and the catalytic co-pyrolysis of low-density polyethylene (LDPE) and OS (plastic-to-biomass ratio of 20/80) at two different temperatures (500 and 600 °C) are also presented. Preliminary findings highlight that the co-processing of LDPE and OS under non-catalytic conditions stands out for the formation of long-chain aliphatic hydrocarbons in the form of both liquid paraffins and wax deposits, which are well-known to be the primary products evolved from the pyrolysis of polyolefins. The addition of ?-alumina catalyst significantly affects both the distribution and the quality of the pyrolytic products (char, bio-oils, and gas). Under catalytic co-pyrolysis conditions, a marked reduction in the yield of bio-liquid is observed, compensated by a remarkable improvement in its quality, particularly in terms of the formation of light mono-aromatics and a marked decrease in the total amount of the oxygenated compounds. On the downside, however, a significant increase in the production of polycyclic aromatic hydrocarbons (PAHs) is detected. Remarkable benefits are also detected by increasing the co-pyrolysis temperature to 600 °C, particularly in terms of content of oxygenated compounds in the bio-oils, as well as in terms of PAHs and water formation, which decreased considerably. Altogether, preliminary findings of this study suggest that further research efforts are required in order to improve the process performance, for example by optimizing the operating conditions as well as the physicochemical properties of catalysts.

Published
2022
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38. Performances of a Biomass Powered Micro-chp System in a Demonstrative Environment

Author

Maria Antonietta Costagliola, Gabriele Di Blasio, Roberto Ianniello, Gaia Martoriello, Maria Vittoria Prati, Giovanna Ruoppolo, and Massimo Urciuolo

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

A viable solution for residual biomass exploitation to reduce the cost related to biomass disposal and simultaneously create profit by electrical and thermal energy use is combined heat and power generation over the micro-scale of power (m-CHP) based on biomass gasification. The exploitation and improvement of these systems were the main objectives of the Italian project “PROMETEO – Production of electrical, thermal and cooling energy with m-CHP fueled by residual biomass”, funded by the local Ministry of Economic Development (MISE). The present work shows an extended experimental activity based on a 20kW micro-cogeneration system as powered by two types of residual lignocellulosic biomasses briquettes in a demonstrative environment site identified in a waste management and storage plant in the Municipality of Mugnano, Naples, in the south of Italy. The m-CHP plant is made of a gasifier, a syngas cleaning circuit and a spark ignition (SI) internal combustion engine (ICE) connected to an electric-generator. The electrical output was meant to power the plant machines for the operations of waste storage. For both biomasses, tests were conducted for the complete characterization of the system in low and medium load and in different spark ignition timing to assess the system sensitivity. The m-CHP performance was investigated with a complete characterization of the syngas and tar compositions, main pollutant emissions and internal combustion engine analyses, aimed at the evaluation of the energetic and environmental efficiencies. An analysis of the air quality near the site by evaluating CO, O3, NO2, C6H6 and PM10 concentration was also carried out. The ultimate purpose of the present work is the demonstration of the advantages of the employment of biomass-powered cogeneration systems in the Mediterranean regions.

Published
2022
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45. Decellularized skeletal muscles display neurotrophic effects in three‐dimensional organotypic cultures

Author

Paolo Raffa, Valentina Scattolini, Mattia Francesco Maria Gerli, Silvia Perin, Meihua Cui, Paolo De Coppi, Nicola Elvassore, Paola Caccin, Camilla Luni, and Anna Urciuolo

Subjects
3D culture, axons, decellularized muscle, ECM, innervation, neurons, Medicine (General), R5-920, Cytology, QH573-671
Abstract

Abstract Skeletal muscle decellularization allows the generation of natural scaffolds that retain the extracellular matrix (ECM) mechanical integrity, biological activity, and three‐dimensional (3D) architecture of the native tissue. Recent reports showed that in vivo implantation of decellularized muscles supports muscle regeneration in volumetric muscle loss models, including nervous system and neuromuscular junctional homing. Since the nervous system plays pivotal roles during skeletal muscle regeneration and in tissue homeostasis, support of reinnervation is a crucial aspect to be considered. However, the effect of decellularized muscles on reinnervation and on neuronal axon growth has been poorly investigated. Here, we characterized residual protein composition of decellularized muscles by mass spectrometry and we show that scaffolds preserve structural proteins of the ECM of both skeletal muscle and peripheral nervous system. To investigate whether decellularized scaffolds could per se attract neural axons, organotypic sections of spinal cord were cultured three dimensionally in vitro, in presence or in absence of decellularized muscles. We found that neural axons extended from the spinal cord are attracted by the decellularized muscles and penetrate inside the scaffolds upon 3D coculture. These results demonstrate that decellularized scaffolds possess intrinsic neurotrophic properties, supporting their potential use for the treatment of clinical cases where extensive functional regeneration of the muscle is required.

Published
2020
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47. Intravital three-dimensional bioprinting

Author

Urciuolo, Anna, Poli, Ilaria, Brandolino, Luca, Raffa, Paolo, Scattolini, Valentina, Laterza, Cecilia, Giobbe, Giovanni G., Zambaiti, Elisa, Selmin, Giulia, Magnussen, Michael, Brigo, Laura, De Coppi, Paolo, Salmaso, Stefano, Giomo, Monica, and Elvassore, Nicola

Published
2020
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