Your search keyword '"Bergueiro J"' showing total 49 results

1. Status of low-energy accelerator-based BNCT worldwide and in Argentina

Author

Cartelli, D.E., Capoulat, M.E., Baldo, M., Sandín, J.C. Suárez, Igarzabal, M., Grosso, M.F. del, Valda, A.A., Canepa, N., Gun, M., Minsky, D.M., Conti, G., Erhardt, J., Somacal, H.R., Bertolo, A.A., Bergueiro, J., Gaviola, P.A., and Kreiner, A.J.

Published

2020

2. Present status of accelerator-based BNCT: Focus on developments in Argentina

Author

Cartelli, D., Capoulat, M.E., Bergueiro, J., Gagetti, L., Suárez Anzorena, M., del Grosso, M.F., Baldo, M., Castell, W., Padulo, J., Suárez Sandín, J.C., Igarzabal, M., Erhardt, J., Mercuri, D., Minsky, D.M., Valda, A.A., Debray, M.E., Somacal, H.R., Canepa, N., Real, N., Gun, M., Herrera, M.S., Tacca, H., and Kreiner, A.J.

Published

2015

3. Development of high intensity ion sources for a Tandem-Electrostatic-Quadrupole facility for Accelerator-Based Boron Neutron Capture Therapy

Author

Bergueiro, J., Igarzabal, M., Suarez Sandin, J.C., Somacal, H.R., Thatar Vento, V., Huck, H., Valda, A.A., Repetto, M., and Kreiner, A.J.

Published

2011

4. Development of a Tandem-Electrostatic-Quadrupole facility for Accelerator-Based Boron Neutron Capture Therapy

Author

Kreiner, A.J., Castell, W., Di Paolo, H., Baldo, M., Bergueiro, J., Burlon, A.A., Cartelli, D., Thatar Vento, V., Kesque, J.M., Erhardt, J., Ilardo, J.C., Valda, A.A., Debray, M.E., Somacal, H.R., Suarez Sandin, J.C., Igarzabal, M., Huck, H., Estrada, L., Repetto, M., Obligado, M., Padulo, J., Minsky, D.M., Herrera, M., Gonzalez, S.J., and Capoulat, M.E.

Published

2011

5. Electrostatic design and beam transport for a folded tandem electrostatic quadrupole accelerator facility for accelerator-based boron neutron capture therapy

Author

Thatar Vento, V., Bergueiro, J., Cartelli, D., Valda, A.A., and Kreiner, A.J.

Published

2011

6. Accelerator tube construction and characterization for a tandem-electrostatic-quadrupole for accelerator-based boron neutron capture therapy

Author

Cartelli, D., Thatar Vento, V., Castell, W., Di Paolo, H., Kesque, J.M., Bergueiro, J., Valda, A.A., Erhardt, J., and Kreiner, A.J.

Published

2011

7. Development of a tandem-electrostatic-quadrupole accelerator facility for BNCT

Author

Kreiner, A.J., Thatar Vento, V., Levinas, P., Bergueiro, J., Di Paolo, H., Burlon, A.A., Kesque, J.M., Valda, A.A., Debray, M.E., Somacal, H.R., Minsky, D.M., Estrada, L., Hazarabedian, A., Johann, F., Suarez Sandin, J.C., Castell, W., Davidson, J., Davidson, M., Giboudot, Y., Repetto, M., Obligado, M., Nery, J.P., Huck, H., Igarzabal, M., and Fernandez Salares, A.

Published

2009

8. Silicon Tetrachloride

Author

López, S., primary, Bergueiro, J., additional, and Fidalgo, J., additional

Published

2014

9. Silane

Author

López, S., primary, Bergueiro, J., additional, and Fidalgo, J., additional

Published

2014

10. Enhanced topical delivery of dexamethasone by β-cyclodextrin decorated thermoresponsive nanogels

Author

Giulbudagian, M., primary, Hönzke, S., additional, Bergueiro, J., additional, Işık, D., additional, Schumacher, F., additional, Saeidpour, S., additional, Lohan, S. B., additional, Meinke, M. C., additional, Teutloff, C., additional, Schäfer-Korting, M., additional, Yealland, G., additional, Kleuser, B., additional, Hedtrich, S., additional, and Calderón, M., additional

Published

2018

11. VERTIDOS DE HIDROCARBUROS PROCEDENTES DE PROSPECCIONES PETROLÍFERAS EM EL ENTORNO DE LAS ISLAS BALEARES: SU IMPACTO EM LA ISLA DE IBIZA

Author

BERGUEIRO, J. R., additional, CALVILLA, J. M., additional, and VIDAL, F., additional

Published

2015

12. Engineering thermoresponsive polyether-based nanogels for temperature dependent skin penetration

Author

Asadian-Birjand, M., primary, Bergueiro, J., additional, Rancan, F., additional, Cuggino, J. C., additional, Mutihac, R.-C., additional, Achazi, K., additional, Dernedde, J., additional, Blume-Peytayi, U., additional, Vogt, A., additional, and Calderón, M., additional

Published

2015

13. Hadron Therapy in Latin America

Author

Kreiner, A. J., primary, Bergueiro, J., additional, Burlon, A. A., additional, Di Paolo, H., additional, Castell, W., additional, Thatar Vento, V., additional, Levinas, P., additional, Cartelli, D., additional, Kesque, J. M., additional, Valda, A. A., additional, Ilardo, J. C., additional, Baldo, M., additional, Erhardt, J., additional, Debray, M. E., additional, Somacal, H. R., additional, Minsky, D. M., additional, Estrada, L., additional, Hazarabedian, A., additional, Johann, F., additional, Suarez Sandin, J. C., additional, Igarzabal, M., additional, Huck, H., additional, Repetto, M., additional, Obligado, M., additional, Lell, J., additional, Padulo, J., additional, Herrera, M., additional, Gonzalez, S. R., additional, Capoulat, M. E., additional, Davidson, J., additional, Davidson, M., additional, Alarcon, Ricardo, additional, Cole, Phil, additional, Kreiner, Andres J., additional, and Arellano, Hugo F., additional

Published

2010

14. List of Contributors

Author

Abdolahi, A., Abdolghaffari, A.H., Abdollahi, M., Achanzar, W.E., Acquisto, N.M., Adatsi, F.K., Adekola, F.A., Agarwal, D., Aizawa, H., Akbar Malekirad, A., Allen, J.A., Allison, B., Alonso Blazquez, N., Altkorn, R., Amanlou, M., Amini, M., Anand, S.S., Andres, S.A., Angelini, D.J., Angelo, G., Api, A.M., Apte, U., Armendáriz, C.R., Asha, S., Atlason, P., Attene-Ramos, M.S., Austin, C.P., Babich, M.A., Badanthadka, M., Baeeri, M., Baer, K.N., Baghaei, A., Bahadar, H., Balali-Mood, B., Balali-Mood, M., Bale, A.S., Ballantyne, B., Banasik, M., Banks, C.N., Banton, M., Baran, K.P., Barata, C., Barefoot, A.C., Barlow, S.M., Barr, D.B., Barrueto, F., Barton, C., Barton, N., Battalora, M., Bayrami, Z., Bazl, R., Beckett, R.D., Bečková, V., Beedanagari, S., Behboudi, A.F., Beilke, L.D., Beltrán, E.M., Benson, A., Bergamo, L., Bergueiro, J., Berman, F.W., Betharia, S., Bhattacharya, S., Biglar, M., Biswas, S., Black, A.T., Bloomhuff, A.B., Bloomquist, J.R., Bolduc, D.L., Bolger, P.M., Bolt, H.M., Bonventre, J.A., Borek, H.A., Borghoff, S.J., Borzelleca, J.F., Botelho, M.C., Boxall, A.B.A., Bradford, H., Brady, P.M., Broderick, M., Brown, D.A., Brown, J., Bruce, R.D., Brugge, D., Brugger, K.E., Bryant, M.A., Bucklin, M.H., Burns-Naas, L.A., Burr, S.A., Caballero, J.M., Cai, Z., Calabrese, E.J., Calvo, M., Cammack, J., Campbell, A., Canedy, T., Cantrell, F.L., Caquet, T., Carbonell, G., Carlson-Lynch, H., Carmichael, N., Carmo, H., Carr, D., Carrington, C.D., Carvalho, F., Carvalho, M., Casa-Resino, I. de la, Cash, L.J., Castranova, V., Cesnaitis, R., Chadwick, K.D., Chakraborty, P., Chan, P.P.K., Chang, S., Chapin, R.E., Chateauvieux, S., Chattopadhyay, A., Chaumot, A., Chen, G., Chen, X., Chesser, R.K., Chilakapati, J., Chojnacka, K., Chou, K., Christoforidis, J., Clark, A.K., Clewell, H.J., Clough, S.R., Coelho, P.C.S., Coggins, C.R.E., Cohen, S.M., Cole, S.D., Corcoran, G.B., Cornu, C., Corsini, E., Cory-Slechta, D.A., Costa, C., Costa, L.G., Costa, S., Covaci, A., Cowden, J., Cumpston, K.L., Curfman, E., Czerczak, S., Daam, M.A., Dahlstrom, D.L., Darracq, M.A., Darwich, A.S., Das, S.R., Davis, J.A., de la Casa Resino, I., de la Torre, A.H., de Lourdes Bastos, M., del Río, E., de Marcellus, S., Demers, P.A., de Peyster, A., Derakhshani, M., Desai, S.N., de San Andrés Larrea, M.I., Descotes, J., Devi, S.S., Devlin, J.J., de Voogt, P., Devriese, L., DeWoskin, R.S., de Zwart, D., Diederich, M., Dieter, H.H., Di Guardo, A., Đikić, D., Dincer, I., Dissanayake, V., DiZio, S.M., Dodd-Butera, T., Doke, D., Dorsey, R.M., Dougherty, M.M., Dourson, M.L., Drake, V.J., Duffus, J.H., Dumancas, G.G., Dumbacher, J.P., DuTeaux, S.B., Dydek, S.T., Dykens, J.A., Eagle, S.R., Eastmond, D.A., Easton, J.D., Eidemiller, B.J., Eisen, E.A., Emami, A., Emami, S., Embry, M.R., Emswiler, M.P., Erraguntla, N.K., Escribano, M., Espín, S., Estevan, C., Estévez, J., Etemad, L., Everson, G.W., Ewers, L.M., Fain, J.H., Fan, A.M., Farris, F.F., Farshchi, A., Fatoki, O.S., Feakes, D., Feasel, M., Fedoruk, M.J., Feitshans, I.L., Fent, G.M., Fernández-Tajes, J., Fernández, Á.J.G., Fernández, C., Fernández Rodríguez, M.D., Ferrari, B., Fidalgo, J., Fields, A., Finch, G.L., Finizio, A., Finnveden, G., Fitzgerald, L., Foroumadi, A., Fuentes, D., Gad, K., Gad, S.C., Gad, S.E., Gadagbui, B., Gammon, D.W., García-Fernández, A.J., García Gómez, M.C., Gardner, D.E., Garrard, A., Garric, J., Gautam, G., Geffard, O., Genter, M.B., Gevaart-Durkin, A., Ghafouri, N., Ghazali, A.R., Ghoreishi, K., Ghosh, B., Gilbert, S.G., Giordano, G., Giouleme, O., Gironés, M.C.L.R., Gobba, F., Goel, S., Gohari, A.R., Gohlke, J.M., Golbabaei, S., Gold, S.C., Gómez-López, V.M., Gómez-Ramírez, P., González-Canga, A., González, G.L., Goodman, J.E., Gordon, E., Gordon, T., Gorodetsky, R., Gray, J.P., Green, M.D., Greim, H., Griffiths, J.C., Groth, C.M., Guedes de Pinho, P., Gupta, N., Gupta, R.C., Gutiérrez, A.J., Guy, R.C., Haber, L.T., Hacatoglu, K., Hahn, K., Haines, J.A., Hakkinen, P.J., Hall, E.J., Hall, G.J., Hall, V.R., Hambright, K.D., Handler, J.A., Hansen, D.K., Hanson, K.M., Hanson, M., Hardison, L.S., Hardisson, A., Harper, S.L., Hartmann, A.C., Hartung, T., Hartwig, A., Hassani, S., Hatlelid, K.M., Hayes, A.W., Hayes, A.N., Heidari, M.R., Henderson, J., Henriksen, B., Hernández-Moreno, D., Hertzberg, R.C., Hesterberg, T., Heyndrickx, M., Hicks, D., Hikkaduwa Koralege, R.S., Hilburn, M.E., Hinderliter, P., Hines, E.P., Hirakawa, B., Hirata, C.M., Ho, S., Hobson, D.W., Hoffmann, S., Holloway, A.C., Holstege, C.P., Holstege, E., Hon, S.L., Honeycutt, M., Hong, S., Hoover, M.D., Hopf, N.B., Hopp, A.G., Horiguchi, H., Hosseini-Tabatabaei, A., Hosseini, A., Hostetler, M.A., Hsu, C.H., Huang, F.X., Hulla, J.E., Hultén, P., Hultin, M.L., Hurst, H.E., Iannucci, A., Inayat-Hussain, S.H., Inselman, A.L., Iskander, J., Jabbour, R.E., Jaberidoost, M., Jacobs, M., Jamei, M., Jamison, K.P., Janes, M., Janz, D.M., Jazayeri, S.B., Jenkins, A., Jiang, M., Jin, N., John, K., Jones, L., Jones, P.D., Jordan, S.A., Jurado, A.S., Kalapos, M.P., Kamrin, M.A., Kapp, R.W., Karami-Mohajeri, S., Karanth, S., Karimi, G., Katz, S.A., Kem, W.R., Kempegowda, P., Kennedy, G.L., Kester, J.E., Khaksar, M.R., Kharabaf, S., Khoobi, M., Kiersma, M.E., Kilpinen, J.M., Kim, D.H., Kim, S.T., Kimbrough, R.D., Klein, S.J., Knechtges, P.L., Knuckles, T.L., Knudsen, T.B., Korrapati, M.C., Koshlukova, S.E., Kovacic, P., Kraft, A., Krafts, K., Krishnan, P., Kruger, C.L., Kubic, A., Kulkarni, S., Kwok, E.S.C., Laffon, B., Lagadic, L., Lambert, C.E., Landolph, J.R., Lange, R.W., Lank, P., Lari, P., Lasley, W., Lawana, V., Lazo, C.R., Ledrich, M.-L., Le Goff, F., Lein, P.J., Leung, H.-W., Leung, Y.L., Lewandowski, T.A., Li, X., Liesivuori, J., Lim, L., Limaye, P., Lin, H.H., Lin, S.C., Litovitz, T., Liu, F., Liu, J., Lloyd-Smith, M., Lo, J.C.Y., Loccisano, A.E., Logan, P., López, S., Lord-Garcia, J., Lotti, M., Luschützky, E., Mahdaviani, P., Maier, A., Makhaeva, G.F., Malátová, I., Malekirad, A.A., Manayi, A., Mangas, I., Mangino, M., Mangipudy, R.S., Maples, R.D., Marcel, B.J., Marigómez, I., Marraffa, J.M., Martínez-López, E., Mathews, S.M., Maxim, L.D., Maxwell-Stuart, P.G., Mayor, A., McClane, B.A., McCoole, M.D., McCormick, D.B., McGregor, D., McKee, J.M., McMartin, K., Meek, B., Megharaj, M., Mehendale, H.M., Mehrpour, O., Mendes, A., Méndez, J., Menn, F.-M., Meyer, S.A., Michalak, I., Míguez-Santiyán, M.P., Mikulewicz, M., Milanez, S., Mileson, B.E., Miller, G.W., Miller, S.J., Miller, S.M., Millner, G.C., Minarchick, V.C., Miracle, A.L., Mirajkar, N.S., Mirkes, P.E., Mitra, M.S., Mody, V., Mogl, S., Mohammadirad, A., Mojica, E.-R.E., Molander, L., Molina López, A.M., Momen-Heravi, F., Montague, P., Monteiro, J.P., Monticelli, F., Morceau, F., Moreno, M., Morgan, B.W., Mortensen, S.R., Moser, V.C., Moshiri, M., Mostafalou, S., Moyer, R.A., Mumy, K.L., Munday, R., Murdianti, B.S., Murray, A., Murray, T.M., Murta, T.L., Nadri, H., Naidu, R., Naile, J.E., Naistat, D.M., Nakajima, T., Nalliah, R.E., Nance, P., Nathan, S., Navarro, L., Navas, I.M., Nelson, L.S., Nerin, C., Newsted, J., Nikfar, S., Nili-Ahmadabadi, A., Nobay, F., Nony, P., Nurkiewicz, T.R., Oi, M., Okoro, H.K., Oliveira, P.A., Olsen, L.R., Oropesa Jiménez, A.L., Othumpangat, S., Pablos, M.V., Pakulska, D., Pakzad, M., Pallasch, E.M., Pamies, D., Parihar, H.S., Parmar, M.S., Parod, R.J., Paschos, P., Patterson, J., Patterson, T.J., Patterson, T.A., Paulo Teixeira, J., Pawlaczyk, A., Pearson, M.A., Pellerano, M.B., Pellizzato, F., Perales, C.M., Peredy, T., Pereira, J., Pérez-López, M., Peri, R., Persad, A.S., Persson, H., Perwaiz, S., Peterson, M.K., Pham, P.J., Pham, T., Philip, B.K., Pichery, C., Pickett, A.J., Piña, B., Pinkerton, K.E., Pleus, R.C., Podder, S., Poirier, M.C., Pomerleau, A.C., Pope, C., Posthuma, L., Potting, J., Pournourmohammadi, S., Pravasi, S.D., Preston, R.J., Prusakov, P.A., Punja, M., Puran, A.C., Purcell, M.M., Qian, L., Qozi, M., Quintana, P.J.E., Rabiei, M., Radulovic, L.L., Rahmani, N., Rajabi, M., Raman, P., Ramasahayam, S., Ramos-Peralonso, M.J., Rankin, G.O., Rao, C.V., Rao, P.S., Rashedinia, M., Rath, A.D., Ray, D.E., Ray, S.D., Reed, N.R., Remião, F., Rezaee, R., Rezvanfar, M.A., Rezvani, N., Rhomberg, L.R., Riar, N.K., Rice, G., Richardson, J.R., Richardson, R.J., Richter, P., Rider, G., Rivera, H.L., Robbens, J., Roberts, D.J., Roberts, L.G., Robinson, P.J., Robles, H., Rodgers, B.E., Rodgers, K., Rodriguez, Y.R., Rodriguez Fernández, C., Roede, J.R., Rogawski, M.A., Rojo, L., Romano, J.A., Rose, S.R., Rosen, M.A., Rossol, M., Rostami–Hodjegan, A., Rourke, J.L., Roy, R., Roy, S.S., Rozman, K.K., Rubin, A.L., Rubio, C., Ruch, R.J., Rumbeiha, W.K., Rushton, W., Sabzevari, O., Saeedi, M., Saeid, A., Saeidnia, S., Saghir, S.A., Saili, K.S., Salem, H., Salvago, M.R. Moyano, Salvatore, J.R., San Andrés Larrea, M.D., San Andrés Larrea, M.I., Sarazan, R.D., Sardari, S., Sasaki, T., Sawant, S.P., Schaeffer, V., Schep, L.J., Schlesinger, R.B., Schneider, S.M., Schreffler, S.M., Schultz, M.M., Schwartz, M., Schwela, D., Scott, A.L., Scott, B.R., Scribner, K., Seabury, R.W., Seco, B., Seeley, M., Seifert, J., Sellamuthu, R., Serex, T.L., Sexton, K., Shadnia, S., Shafiee, A., Shah, I., Shankar, K., Sheets, L.P., Sheppard, L., Shiotsuka, R.N., Shirley, S., Shojaei Saadi, H.A., Sibbald, K.N., Sidell, F.R., Siegrist, M., Simmons, J.E., Sinal, C.J., Singh, P., Skoglund, R., Skonberg, C., Slaughter, R.J., Sledge, C.L., Slothower, J.D., Smith, M., Smith, M.T., Snider, D.B., Snyman, R.G., Sobanska, M., Sogorb, M.Á., Soler-Rodríguez, F., Solgi, R., Solomon, K.R., Somanathan, R., Sonawane, B.R., Song, X., Soni, M.G., Sorensen, J., Soucy, N.V., Southard, R.J., Spainhour, C.B., Spencer, P.S., Spiller, H.A., Spoelhof, B., Stanard, B., Stanek, L.W., Stapleton, P.A., Stedeford, T., Steidl-Nichols, J., Stephens, M., Steyn, N.P., Stickney, J., Stohs, S.J., Stone, D., Stool, D., Stork, C.M., Strohm, B., Stromberg, P.E., Sullivan, D.W., Sullivan, M.R., Sultatos, L.G., Suryanarayanan, A., Syed, I., Szabo, D.T., Szynkowska, M.I., Takacs, Z., Talaska, G., Talbot, P., Tanguay, R.L., Tarazona, J.V., Teixeira, J.P., Temple, N.J., Temple, W.A., Tena, A., Teuschler, L.K., Thackaberry, E.A., Thakore, K.N., Theodorakis, C., Thompson, R.E., Thornton, S.L., Ting, D., Tirmenstein, M.A., Touwaide, A., Towne, T.G., Traven, S.A., Tritscher, A., Troendle, M., Trosko, J.E., Tsai, W.-T., Tsai-Turton, M., Tsatsakis, A., Tsitsimpikou, C., Tsubura, A., Tsuda, T., Tyl, R.W., Udarbe Zamora, E.M., Utell, M.J., Vahabzadeh, M., Vaidya, V.S., Valdiglesias, V., Valentovic, M.A., Valerio, L.G., Vales, T., Vandenberg, L.N., van den Brink, P.J., van der Kolk, J., Van Vleet, T.R., van Vliet, E., Varga, J., Venkateswarlu, K., Verslycke, T., Versonnen, B., Verstraete, K., Vighi, M., Vilanova, E., Vincent, L., Vincent, M., Visser, R., Volger, B., von Stackelberg, K., Vulimiri, S.V., Wahl, M., Walker, N.J., Walker, T.D., Wallace, D.R., Wang, C., Wang, G.S., Wanna-Nakamura, S.C., Watson, R.E., Wattenberg, E.V., Wax, P.M., Weaver, J.A., Webber, N.R., Weber, J.A., Weber, L.P., Weinrich, A.J., Weiss, B., Wennberg, A., Wernke, M.J., Weston, A., Wexler, P., White, L.D., Whittaker, M.H., Wiedenfeld, H., Wiegand, T.J., Wikoff, D.S., Wild, C.P., Will, Y., Willett, C., Willhite, C.C., Willis, A., Willis, K., Wills, B.K., Wilson, B.W., Wittliff, J.L., Wojcinski, Z.W., Wolfe, M.S., Wood, C.S., Woodall, G.M., Woolley, A., Xia, M., Ximba, B.J., Yan, B., Yanagiba, Y., Yang, D., Yang, N., Yoon, M., Yorifuji, T., Yoshizawa, K., Young, R.A., Zamor, R.M., and Zhao, Q.J.

Published

2014

15. Influence of Zeolites On The Degradation of Arabian Light Crude Oil

Author

Bergueiro, J. R., primary, Pita, A., additional, Mayol, M. A., additional, Rallo, M., additional, and López-Ruiz, J., additional

Published

1999

16. Current status of accelerator-based boron neutron capture therapy

Author

Kreiner, A. J., Bergueiro, J., Castell, W., Cartelli, D., Kesque, J. M., Alejandro Valda, Baldo, M., Erhardt, J., Debray, M. E., Somacal, H. R., Suarez Sandin, J. C., Igarzabal, M., Huck, H., Padulo, J., Minsky, D. M., Herrera, M., and Capoulat, M. E.

17. Accelerator technology and SPECT developments for BNCT

Author

Alejandro Valda, Bergueiro, J., Baldo, M., Cartelli, D., Castell, W., Asoia, J. G., Padulo, J., Sandín, J. C. S., Igarzábal, M., Erhardt, J., Mercuri, D. O., Minsky, D. M., Kesque, J. M., Capoulat, M. E., Herrera, M. S., González, S., Somacal, H., Debray, M. E., Del Grosso, M. F., Gagetti, L., Anzorena, M. S., Carranza, O. G., Cánepa, N., Girola, S., Gun, M., Rogulich, L., and Kreiner, A. J.

18. Development of a Tandem-Electrostatic-Quadrupole facility for Accelerator-Based Boron Neutron Capture Therapy

Author

Kreiner, A. J., Castell, W., Di Paolo, H., Thatar Vento, V., Bergueiro, J., Burlon, A. A., Kesque, J. M., Levinas, P., Alejandro Valda, Somacal, H. R., Obligado, M., and Cartelli, D.

19. Agentes dispersantes para eliminar derrames de petroleo

Author

Bergueiro, J. R. and Estrades, M.

Published

1980

20. Exo-chirality of the α-helix.

Author

Martínez-Parra JM, Gómez-Ojea R, Daudey GA, Calvelo M, Fernández-Caro H, Montenegro J, and Bergueiro J

Subjects

Amino Acids chemistry, Models, Molecular, Stereoisomerism, Circular Dichroism, Protein Structure, Secondary, Protein Conformation, alpha-Helical, Peptides chemistry

Abstract

The structure of helical polymers is dictated by the molecular chirality of their monomer units. Particularly, macromolecular helices with monomer sequence control have the potential to generate chiral topologies. In α-helical folded peptides, the sequential repetition of amino acids generates a chiral layer defined by the amino acid side chains projected outside the amide backbone. Despite being closely related to peptides' structural and functional properties, to the best of our knowledge, a general exo-helical symmetry model has not been yet described for the α-helix. Here, we perform the theoretical, computational, and spectroscopic elucidation of the α-helix principal exo-helical topologies. Non-canonical labeled amino acids are employed to spectroscopically characterize the different exo-helical topologies in solution, which precisely match the theorical prediction. Backbone-to-chromophore distance also shows the expected impact in the exo-helices' geometry and spectroscopic fingerprint. Theoretical prediction and spectroscopic validation of this exo-helical topological model provides robust experimental evidence of the chiral potential on the surface of helical peptides and outlines an entirely new structural scenario for the α-helix., (© 2024. The Author(s).)

Published

2024

21. Self-assembly of cyclic peptide monolayers by hydrophobic supramolecular hinges.

Author

Insua I, Cardellini A, Díaz S, Bergueiro J, Capelli R, Pavan GM, and Montenegro J

Abstract

Supramolecular polymerisation of two-dimensional (2D) materials requires monomers with non-covalent binding motifs that can control the directionality of both dimensions of growth. A tug of war between these propagation forces can bias polymerisation in either direction, ultimately determining the structure and properties of the final 2D ensemble. Deconvolution of the assembly dynamics of 2D supramolecular systems has been widely overlooked, making monomer design largely empirical. It is thus key to define new design principles for suitable monomers that allow the control of the direction and the dynamics of two-dimensional self-assembled architectures. Here, we investigate the sequential assembly mechanism of new monolayer architectures of cyclic peptide nanotubes by computational simulations and synthesised peptide sequences with selected mutations. Rationally designed cyclic peptide scaffolds are shown to undergo hierarchical self-assembly and afford monolayers of supramolecular nanotubes. The particular geometry, the rigidity and the planar conformation of cyclic peptides of alternating chirality allow the orthogonal orientation of hydrophobic domains that define lateral supramolecular contacts, and ultimately direct the propagation of the monolayers of peptide nanotubes. A flexible 'tryptophan hinge' at the hydrophobic interface was found to allow lateral dynamic interactions between cyclic peptides and thus maintain the stability of the tubular monolayer structure. These results unfold the potential of cyclic peptide scaffolds for the rational design of supramolecular polymerisation processes and hierarchical self-assembly across the different dimensions of space., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

22. A hybrid thermoresponsive plasmonic nanogel designed for NIR-mediated chemotherapy.

Author

Bergueiro J, Glitscher EA, and Calderón M

Subjects

Doxorubicin pharmacology, Drug Delivery Systems, Gold, Humans, Nanogels, Metal Nanoparticles therapeutic use, Neoplasms drug therapy

Abstract

Temperature-trigger chemotherapy is one of the state-of-the-art anti-tumoral strategies in nanomedicine. However, this strategy is in close relationship with the effect of the temperature in the tumor tissue. With high temperatures, the ablation of the tumor tissue can hinder a correct chemotherapy approximation. On the other hand, with moderate temperatures a negative vascularization that promotes the tumor growing is produced and competes with the chemotherapeutic effects. We have constructed one nanogel system composed of a thermoresponsive polymer cross-linked by plasmonic gold nanoparticles (AuNPs) for temperature-trigger chemotherapy. Doxorubicin loaded in the porous interior of the nanogel is released when the thermoresponsive network of the nanogel collapses due to the heat generated by the AuNPs upon near infra-red light irradiation. The hybrid nanogel system has been tested in vitro and in vivo, where it was observed that the temperatures reached in the in vivo NIR irradiation have an undesired effect on the inhibition of the tumor growth while the drug loaded systems considerably reduced the tumor sizes. This study shows the importance of design in temperature triggered antitumoral systems, where lower temperatures usually reached in practical situations due to light attenuation produced by the tissue can be positively utilized for enhancing the antitumoral effect of loaded drugs in the system., (Copyright © 2022 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2022

23. The Role of Polymer-AuNP Interaction in the Stimuli-Response Properties of PPA-AuNP Nanocomposites.

Author

Núñez-Martínez M, Arias S, Bergueiro J, Quiñoá E, Riguera R, and Freire F

Subjects

Gold, Polymers, Metal Nanoparticles, Nanocomposites

Abstract

The helical sense control of dynamic helical polymers such as poly(phenylacetylene)s (PPAs) is greatly affected when they are conjugated to AuNPs through a strong thiol-Au connection, which restricts conformational changes at the polymer. Thus, the classical thiol-MNP bonds must be replaced by weaker ones, such as supramolecular amide-Au interactions. A straightforward preparation of the PPA-Au nanocomposite by reduction of a preformed PPA-Au 3+ complex cannot be used due to a redox reaction between the two components of the complex which degrades the polymer. To avoid the interaction between the PPA and the Au 3+ ions before the reduction takes place, the metal ions are added to the polymer solution capped as a TOAB complex, which keeps the PPA stable due to the lack of PPA-Au 3+ interactions. Ulterior reduction of the Au 3+ ions by NaBH 4 affords the desired nanocomposite, where the AuNPs are stabilized by supramolecular anilide-AuNPs interactions. By using this approach, 3.7 nm gold nanoparticles are generated and aligned along the polymer chain with a regular distance between particles of 6 nm that corresponds to two helical pitches. These nanocomposites show stimuli-responsive properties and are also able to form macroscopically chiral nanospheres with tunable size., (© 2021 The Authors. Macromolecular Rapid Communications published by Wiley-VCH GmbH.)

Published

2022

24. Bottom-up supramolecular assembly in two dimensions.

Author

Insua I, Bergueiro J, Méndez-Ardoy A, Lostalé-Seijo I, and Montenegro J

Abstract

The self-assembly of molecules in two dimensions (2D) is gathering attention from all disciplines across the chemical sciences. Attracted by the interesting properties of two-dimensional inorganic analogues, monomers of different chemical natures are being explored for the assembly of dynamic 2D systems. Although many important discoveries have been already achieved, great challenges are still to be addressed in this field. Hierarchical multicomponent assembly, directional non-covalent growth and internal structural control are a just a few of the examples that will be discussed in this perspective about the exciting present and the bright future of two-dimensional supramolecular assemblies., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022

25. Design and Testing of Efficient Mucus-Penetrating Nanogels-Pitfalls of Preclinical Testing and Lessons Learned.

Author

Charbaji R, Kar M, Theune LE, Bergueiro J, Eichhorst A, Navarro L, Graff P, Stumpff F, Calderón M, and Hedtrich S

Subjects

Animals, Drug Delivery Systems, Humans, Mucus, Nanogels, Polymerization, Swine, Drug Carriers, Nanoparticles

Abstract

Mucosal surfaces pose a challenging environment for efficient drug delivery. Various delivery strategies such as nanoparticles have been employed so far; yet, still yielding limited success. To address the need of efficient transmucosal drug delivery, this report presents the synthesis of novel disulfide-containing dendritic polyglycerol (dPG)-based nanogels and their preclinical testing. A bifunctional disulfide-containing linker is coupled to dPG to act as a macromolecular crosslinker for poly-N-isopropylacrylamide (PNIPAM) and poly-N-isopropylmethacrylamide (PNIPMAM) in a precipitation polymerization process. A systematic analysis of the polymerization reveals the importance of a careful polymer choice to yield mucus-degradable nanogels with diameters between 100 and 200 nm, low polydispersity, and intact disulfide linkers. Absorption studies in porcine intestinal tissue and human bronchial epithelial models demonstrate that disulfide-containing nanogels are highly efficient in overcoming mucosal barriers. The nanogels efficiently degrade and deliver the anti-inflammatory biomacromolecule etanercept into epithelial tissues yielding local anti-inflammatory effects. Over the course of this work, several problems are encountered due to a limited availability of valid test systems for mucosal drug-delivery systems. Hence, this study also emphasizes how critical a combined and multifaceted approach is for the preclinical testing of mucosal drug-delivery systems, discusses potential pitfalls, and provides suggestions for solutions., (© 2021 Wiley-VCH GmbH.)

Published

2021

26. Exploiting cyanine dye J-aggregates/monomer equilibrium in hydrophobic protein pockets for efficient multi-step phototherapy: an innovative concept for smart nanotheranostics.

Author

Picchio ML, Bergueiro J, Wedepohl S, Minari RJ, Alvarez Igarzabal CI, Gugliotta LM, Cuggino JC, and Calderón M

Subjects

Indocyanine Green, Phototherapy, Theranostic Nanomedicine, Coloring Agents, Nanoparticles

Abstract

After several decades of development in the field of near-infrared (NIR) dyes for photothermal therapy (PTT), indocyanine green (ICG) still remains the only FDA-approved NIR contrast agent. However, upon NIR light irradiation ICG can react with molecular oxygen to form reactive oxygen species and degrade the ICG core, losing the convenient dye properties. In this work, we introduce a new approach for expanding the application of ICG in nanotheranostics, which relies on the confinement of self-organized J-type aggregates in hydrophobic protein domains acting as monomer depots. Upon the fast photobleaching, while the dye is irradiated, this strategy permits the equilibrium-driven monomer replacement after each irradiation cycle that radically increases the systems' effectivity and applicability. Gadolinium-doped casein micelles were designed to prove this novel concept at the same time as endowing the nanosystems with further magnetic resonance imaging (MRI) ability for dual-modal imaging-guided PTT. By teaching a new trick to a very old dog, the clinical prospect of ICG will undoubtedly be boosted laying the foundation for novel therapeutics. It is anticipated that future research could be expanded to other relevant J-aggregates-forming cyanine dyes or nanocrystal formulations of poorly water-soluble photosensitizers.

Published

2021

27. Galvanic Replacement as a Synthetic Tool for the Construction of Anisotropic Magnetoplasmonic Nanocomposites with Synergistic Phototransducing and Magnetic Properties.

Author

Biglione C, Glitscher EA, Arora S, Klemke B, Giulbudagian M, Laux P, Luch A, Bergueiro J, and Calderón M

Abstract

Magnetoplasmonic nanomaterials, which combine light and magnetic field responsiveness in an advantageous manner, are attractive candidates for bio-nanoapplications. However, the synthetic access to such hybrid particles has been limited by the incompatibility of the iron- and gold-based lattices. In this work, we provide the first insights into a new synthetic strategy for developing magnetoplasmonic anisotropic nanocomposites with prominent phototransducing properties. In our approach, magnetic nanocubes based on an alloy of iron oxide, zinc, and silver were constructed. In a key second stage, the galvanic replacement of silver with gold atoms yielded satellite-like magnetoplasmonic anisotropic structures. Superior magnetic and photoconverting properties were observed for the novel magnetoplasmonic nanocomposites when compared with the pure parent structures. Moreover, the synergy between the magnetic and optical stimuli was examined, showing shape-dependent contributions in the magnetization experiments. More importantly, an excellent cell ablation capability upon laser irradiation was observed for the magnetoplasmonic nanocomposites compared to the pure magnetic or plasmonic controls. Further demonstration of these novel theragnostic agents as MRI contrast agents is also reported even during the light-irradiation event. Thus, the described particles showed promising properties for bioapplications emerging from the novel synthetic methodology.

Published

2020

28. The influence of shape and charge on protein corona composition in common gold nanostructures.

Author

Bewersdorff T, Glitscher EA, Bergueiro J, Eravci M, Miceli E, Haase A, and Calderón M

Subjects

Gold, Humans, Particle Size, Polyethylene Glycols, Tandem Mass Spectrometry, Metal Nanoparticles, Protein Corona

Abstract

With increasing importance of gold nanoparticles (AuNPs) in the medical field, the understanding of their interactions in biological environments is essential. It is known that the exposure to biological fluids of particles in the nanometric range leads to accumulation of proteins on the particle surface proximity, generating the so-called protein corona. This fact can completely change the properties of AuNPs, thus drastically influencing the characteristics and intended purpose of the particles. Therefore, deep insight on the formation and composition of this protein corona is of extreme importance. Between the different factors that can alter the corona formation, our study focuses on the influence of the shape and particle surface charge. In detail, four different shapes of nanometrical scale (spheres, rods, stars and cages) of comparable size were used, all of them stabilized with three different heterofunctionalized poly(ethylene glycol) thiol (R-PEG-SH) linkers (R = OCH 3 , COOH or NH 2 ) to check the effect of charge as well. After incubation with human serum, abundant proteins were identified via liquid chromatography-electrospray ionization-tandem mass spectroscopy (LC ESI MS/MS) and compared in terms of their relative abundance. On the basis of statistical evaluations, the shape of our AuNPs showed a greater influence than the surface charge. Especially, cage-shaped AuNPs showed a lower amount of total corona proteins. This shape showed differences in the abundances of individual proteins like albumin, vitronectin and members of the complement system. These results indicate that nanocages could present an improved biocompatibility compared with the other shapes due to the high curvature areas and dense ligation on the flat surfaces that could hinder opsonisation and fast removal by the immune system., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

29. Revealing the NIR-triggered chemotherapy therapeutic window of magnetic and thermoresponsive nanogels.

Author

Biglione C, Bergueiro J, Wedepohl S, Klemke B, Strumia MC, and Calderón M

Subjects

Magnetics, Polymers, Antineoplastic Agents, Nanogels, Nanoparticles

Abstract

The combination of magnetic nanoparticles and thermoresponsive nanogels represents an appealing strategy for the development of theranostic probes. These hybrid nanocarriers present several advantages such as outstanding properties for guided therapy, magnetic resonance imaging, and triggered release of encapsulated cargoes. Most magnetic thermoresponsive nanogels are built with strategies that comprise a physical interaction of particles with the polymeric network or the covalent attachment of a single particle to the linear polymer. Herein, we report a facile synthetic approach for the synthesis of magnetic and thermoresponsive nanogels that allows the controlled incorporation of multiple superparamagnetic inorganic cores as covalent cross-linkers. An ultrasonication-assisted precipitation-polymerization afforded nanogels with sizes in the nanometric range and similar magnetization and light transduction properties compared to the discrete magnetic nanoparticles. The theranostic capability of these nanocarriers was further investigated both in vitro and in vivo. In vivo experiments demonstrated the capacity of these materials as nanocarriers for near-infrared (NIR) triggered chemotherapy and highlighted the relevance of the correct concentration/dose in this antitumoral modality to achieve a superior therapeutic efficacy.

Published

2020

30. Polyglycerol-Based Thermoresponsive Nanocapsules Induce Skin Hydration and Serve as a Skin Penetration Enhancer.

Author

Osorio-Blanco ER, Rancan F, Klossek A, Nissen JH, Hoffmann L, Bergueiro J, Riedel S, Vogt A, Rühl E, and Calderón M

Subjects

Humans, Microscopy, Fluorescence, Nanoparticles chemistry, Spectrum Analysis, Raman, Glycerol chemistry, Nanocapsules chemistry, Polymers chemistry, Skin metabolism

Abstract

The use of penetration enhancers (chemical or physical) has been proven to dramatically improve the penetration of therapeutics. Nevertheless, their use poses great risks, as they can lead to permanent damage of the skin, reduce its barrier efficiency, and result in the intrusion of harmful substances. Among the most used skin penetration enhancers, water is greatly accepted because skin quickly recovers from its exposure. Nanocapsules (NCs) represent a promising combination of the carrier system and penetration enhancer because their water-containing void combined with their polymer-based shell can be used to induce high local skin hydration, while simultaneously aiding the transport of drugs across the skin barrier. In this study, NCs were synthesized with a void core of 100 nm in diameter, a thermoresponsive shell based on different ratios of poly( N -isopropylacrylamide) and poly( N -isopropylmethacrylamide) as thermoresponsive polymers, and dendritic polyglycerol as a macromolecular cross-linker. These NCs can shrink or swell upon a thermal trigger, which was used to induce the release of the entrapped water in a controlled fashion. The interactions and effects of thermoresponsive NCs on the stratum corneum of excised human skin were investigated using fluorescence microscopy, high-resolution optical microscopy, and stimulated Raman spectromicroscopy. It could be observed that the thermoresponsive NCs increase the amount of deuterated water that penetrated into the viable epidermis. Moreover, NCs increased the skin penetration of a high-molecular weight dye (Atto Oxa12 NHS ester, MW = 835 g/mol) with respect to formulations in water or 30% DMSO, emphasizing the features of the NCs as a skin penetration enhancer.

Published

2020

31. Chiral gold-PPA nanocomposites with tunable helical sense and morphology.

Author

Bergueiro J, Núñez-Martínez M, Arias S, Quiñoá E, Riguera R, and Freire F

Abstract

A novel type of stimuli-responsive dynamic helical polymer-metal nanoparticle nanocomposite formed by a helical poly(phenylacetylene) (PPA) combined with gold nanoparticles (AuNPs) is described. Thus, several PPA copolymers containing the ethynyl-4-benzamide of (S)-phenylglycine methyl ester (M1) to dictate the helical structure/sense of the copolymer, and the ethynyl-4-benzamide of the 11-((2-(2-(2-aminoethoxy)ethoxy)ethyl)amino)undecane-1-thiol (M2) to link the copolymer to the AuNPs are prepared. Different morphologies of these nanocomposites were obtained by considering the thiol ratio and the self-assembly properties of the PPA, which generates from dispersed AuNPs to fibre-like structures. All these nanocomposites show a dynamic chiral behaviour, it being possible to manipulate their helical sense by the action of external stimuli. Moreover, it is possible to control the aggregation of these nanocomposites into macroscopically chiral nanospheres with low polydispersity by using Ba2+ as a crosslinking agent.

Published

2020

32. The influence of the shape of Au nanoparticles on the catalytic current of fructose dehydrogenase.

Author

Bollella P, Hibino Y, Conejo-Valverde P, Soto-Cruz J, Bergueiro J, Calderón M, Rojas-Carrillo O, Kano K, and Gorton L

Subjects

Catalysis, Electrodes, Kinetics, Microscopy, Electron, Transmission, Spectrophotometry, Ultraviolet, Spectroscopy, Near-Infrared, Carbohydrate Dehydrogenases metabolism, Fructose metabolism, Gold chemistry, Metal Nanoparticles chemistry

Abstract

Graphite electrodes were modified with triangular (AuNTrs) or spherical (AuNPs) nanoparticles and further modified with fructose dehydrogenase (FDH). The present study reports the effect of the shape of these nanoparticles (NPs) on the catalytic current of immobilized FDH pointing out the different contributions on the mass transfer-limited and kinetically limited currents. The influence of the shape of the NPs on the mass transfer-limited and the kinetically limited current has been proved by using two different methods: a rotating disk electrode (RDE) and an electrode mounted in a wall jet flow-through electrochemical cell attached to a flow system. The advantages of using the wall jet flow system compared with the RDE system for kinetic investigations are as follows: no need to account for substrate consumption, especially in the case of desorption of enzyme, and studies of product-inhibited enzymes. The comparison reveals that virtually identical results can be obtained using either of the two techniques. The heterogeneous electron transfer (ET) rate constants (k S ) were found to be 3.8 ± 0.3 s -1 and 0.9 ± 0.1 s -1 , for triangular and spherical NPs, respectively. The improvement observed for the electrode modified with AuNTrs suggests a more effective enzyme-NP interaction, which can allocate a higher number of enzyme molecules on the electrode surface. Graphical abstract The shape of gold nanoparticles has a crucial effect on the catalytic current related to the oxidation of D-(-)-fructose to 5-keto-D-(-)-fructose occurring at the FDH-modified electrode surface. In particular, AuNTrs have a higher effect compared with the spherical one.

Published

2019

33. An Anisotropic Hydrogel Actuator Enabling Earthworm-Like Directed Peristaltic Crawling.

Author

Sun Z, Yamauchi Y, Araoka F, Kim YS, Bergueiro J, Ishida Y, Ebina Y, Sasaki T, Hikima T, and Aida T

Abstract

Peristaltic crawling, which is the moving mechanism of earthworm-like limbless creatures in narrow spaces, is a challenging target to mimic by using soft materials. Here we report an unprecedented hydrogel actuator that enables not only a peristaltic crawling motion but also reversing its direction. Our cylindrically processed hydrogel contains gold nanoparticles for photothermal conversion, a thermoresponsive polymer network for switching the electrical permittivity of the gel interior, and cofacially oriented 2D electrolytes (titanate nanosheets; TiNSs) to synchronously change their anisotropic electrostatic repulsion. When a hydrogel, which was designed to include cofacially oriented TiNSs along the cylindrical gel axis, is pointwisely photoirradiated with a visible-light laser, it spatiotemporally expands immediately (<0.5 s) and largely (80 % of its original length) in an isovolumetric manner. When the irradiation spot is moved along the cylindrical gel axis, the hydrogel undergoes peristaltic crawling due to quick and sequential elongation/contraction events and moves oppositely toward the laser scanning direction. Thus, when the scanning direction is switched, the crawling direction is reversed. When gold nanorods are used in place of gold nanoparticles, the hydrogel becomes responsive to a near-infrared light, which can deeply penetrate into bio tissues., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

34. Optimizing Circulating Tumor Cells' Capture Efficiency of Magnetic Nanogels by Transferrin Decoration.

Author

Biglione C, Bergueiro J, Asadian-Birjand M, Weise C, Khobragade V, Chate G, Dongare M, Khandare J, Strumia MC, and Calderón M

Abstract

Magnetic nanogels (MNGs) are designed to have all the required features for their use as highly efficient trapping materials in the challenging task of selectively capturing circulating tumor cells (CTCs) from the bloodstream. Advantageously, the discrimination of CTCs from hematological cells, which is a key factor in the capturing process, can be optimized by finely tuning the polymers used to link the targeting moiety to the MNG. We describe herein the relationship between the capturing efficiency of CTCs with overexpressed transferrin receptors and the different strategies on the polymer used as linker to decorate these MNGs with transferrin (Tf). Heterobifunctional polyethylene glycol (PEG) linkers with different molecular weights were coupled to Tf in different ratios. Optimal values over 80% CTC capture efficiency were obtained when 3 PEG linkers with a length of 8 ethylene glycol (EG) units were used, which reveals the important role of the linker in the design of a CTC-sorting system., Competing Interests: The authors declare no conflict of interest.

Published

2018

35. Enhanced topical delivery of dexamethasone by β-cyclodextrin decorated thermoresponsive nanogels.

Author

Giulbudagian M, Hönzke S, Bergueiro J, Işık D, Schumacher F, Saeidpour S, Lohan SB, Meinke MC, Teutloff C, Schäfer-Korting M, Yealland G, Kleuser B, Hedtrich S, and Calderón M

Abstract

Highly hydrophilic, responsive nanogels are attractive as potential systems for the topical delivery of bioactives encapsulated in their three-dimensional polymeric scaffold. Yet, these drug carrier systems suffer from drawbacks for efficient delivery of hydrophobic drugs. Addressing this, β-cyclodextrin (βCD) could be successfully introduced into the drug carrier systems by exploiting its unique affinity toward dexamethasone (DXM) as well as its role as topical penetration enhancer. The properties of βCD could be combined with those of thermoresponsive nanogels (tNGs) based on dendritic polyglycerol (dPG) as a crosslinker and linear thermoresponsive polyglycerol (tPG) inducing responsiveness to temperature changes. Electron paramagnetic resonance (EPR) studies localized the drug within the hydrophobic cavity of βCD by differences in its mobility and environmental polarity. In fact, the fabricated carriers combining a particulate delivery system with a conventional penetration enhancer, resulted in an efficient delivery of DXM to the epidermis and the dermis of human skin ex vivo (enhancement compared to commercial DXM cream: ∼2.5 fold in epidermis, ∼30 fold in dermis). Furthermore, DXM encapsulated in βCD tNGs applied to skin equivalents downregulated the expression of proinflammatory thymic stromal lymphopoietin (TSLP) and outperformed a commercially available DXM cream.

Published

2017

36. Unexpected Chiro-Thermoresponsive Behavior of Helical Poly(phenylacetylene)s Bearing Elastin-Based Side Chains.

Author

Arias S, Freire F, Calderón M, and Bergueiro J

Abstract

The thermoresponsive behavior of an elastin-based polymer can be altered by the polymeric macromolecular conformation. Thus, when the elastin basic amino acid sequence VPGVG is used as a pendant group of a poly(phenylacetylene) (PPA) its thermoresponsive behavior in water can be remotely detected through conformational changes on the formed helix. Circular dichroism at different temperatures shows an inversion of the first Cotton effect (450 nm) at 25.8 °C that matches with the cloud point temperature. The elastin-based side-chain poly(phenylacetylene) shows an upper critical solution temperature with low pH and concentration dependency, not expected in elastin-based polymers. It was found that the polymer self-assembles in water into spherical nanoparticles with hydrodynamic diameters of 140 nm at the hydrophobic state., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

37. Dendritic polyglycerol and N-isopropylacrylamide based thermoresponsive nanogels as smart carriers for controlled delivery of drugs through the hair follicle.

Author

Sahle FF, Giulbudagian M, Bergueiro J, Lademann J, and Calderón M

Subjects

Animals, Gels, Pharmaceutical Preparations administration & dosage, Skin, Swine, Acrylamides chemistry, Drug Carriers chemistry, Glycerol chemistry, Hair Follicle metabolism, Nanoparticles, Polymers chemistry, Skin Absorption, Temperature

Abstract

Nanoparticles with a size of several hundred nanometers can effectively penetrate into the hair follicles and may serve as depots for controlled drug delivery. However, they can neither overcome the hair follicle barrier to reach the viable cells nor release the loaded drug adequately. On the other hand, small drug molecules cannot penetrate deep into the hair follicles. Thus, the most efficient way for drug delivery through the follicular route is to employ nanoparticles that can release the drug close to the target structure upon exposure to some external or internal stimuli. Accordingly, 100-700 nm sized thermoresponsive nanogels with a phase transition temperature of 32-37 °C were synthesized by the precipitation polymerization technique using N-isopropylacrylamide as a monomer, acrylated dendritic polyglycerol as a crosslinker, VA-044 as an initiator, and sodium dodecyl sulphate as a stabilizer. The follicular penetration of the indodicarbocyanine (IDCC) labeled nanogels into the hair follicles and the release of coumarin 6, which was loaded as a model drug, in the hair follicles were assessed ex vivo using porcine ear skin. Confocal laser scanning microscopy (CLSM) enabled independent tracking of the nanogels and the loaded dye, although it is not as precise and accurate as standard analytical methods. The results showed that, unlike smaller nanogels (<100 nm), medium and larger sized nanogels (300-500 nm) penetrated effectively into the hair follicles with penetration depths proportional to the nanogel size. The release of the loaded dye in the hair follicles increased significantly when the investigation on penetration was carried out above the cloud point temperature of the nanogels. The follicular penetration of the nanogels from the colloidal dispersion and a 2.5% hydroxyethyl cellulose gel was not significantly different.

Published

2017

38. Anisotropic nanoparticles: general discussion.

Author

Castelli A, Striolo A, Roig A, Murphy C, Reguera J, Liz-Marzán L, Mueller A, Critchley K, Zhou Y, Brust M, Thill A, Scarabelli L, Tadiello L, König TA, Reiser B, López-Quintela MA, Buzza M, Deák A, Kuttner C, Gonzalez Solveyra E, Pasquato L, Portehault D, Mattoussi H, Kotov NA, Kumacheva E, Heatley K, Bergueiro J, González G, Tong W, Tahir MN, Abécassis B, Rojas-Carrillo O, Xia Y, Mayer M, and Peddis D

Published

2016

39. Near Infrared Dye Conjugated Nanogels for Combined Photodynamic and Photothermal Therapies.

Author

Asadian-Birjand M, Bergueiro J, Wedepohl S, and Calderón M

Subjects

Cell Line, Tumor, Female, Gels, Humans, Ovarian Neoplasms metabolism, Ovarian Neoplasms pathology, Coloring Agents chemistry, Coloring Agents pharmacology, Drug Delivery Systems methods, Hyperthermia, Induced methods, Infrared Rays, Nanoparticles chemistry, Nanoparticles therapeutic use, Ovarian Neoplasms therapy, Photochemotherapy methods

Abstract

There is a need for new and smart formulations that will help overcome the limitations of organic dyes used in photodynamic (PDT) and photothermal (PTT) therapy and significantly accelerate their clinical translation. Therefore the aim of this work was to create a responsive nanogel scaffold as a smart vehicle for dye administration. We developed a methodology that enables the conjugation of organic dyes to thermoresponsive nanogels and yields biocompatible, nanometer-sized products with low polydispersity. The potential of the dye-nanogel conjugate as a photothermal and photodynamic agent has been demonstrated by an in vitro evaluation with a model human carcinoma cell line. Additionally, confocal cell images showed their cellular uptake profile and their potential for bioimaging and intracellular drug delivery. These conjugates are a promising scaffold as a theranostic agents and will enable further applications in combination with controlled drug release., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

40. Transferrin Decorated Thermoresponsive Nanogels as Magnetic Trap Devices for Circulating Tumor Cells.

Author

Asadian-Birjand M, Biglione C, Bergueiro J, Cappelletti A, Rahane C, Chate G, Khandare J, Klemke B, Strumia MC, and Calderón M

Subjects

Click Chemistry, Gels, Gene Expression, Humans, Magnetite Nanoparticles ultrastructure, Neoplastic Cells, Circulating metabolism, Polyethylene Glycols chemistry, Receptors, Transferrin genetics, Cell Separation methods, Glycerol chemistry, Magnetite Nanoparticles chemistry, Neoplastic Cells, Circulating chemistry, Polymers chemistry, Receptors, Transferrin chemistry, Transferrin chemistry

Abstract

A rational design of magnetic capturing nanodevices, based on a specific interaction with circulating tumor cells (CTCs), can advance the capturing efficiency and initiate the development of modern smart nanoformulations for rapid isolation and detection of these CTCs from the bloodstream. Therefore, the development and evaluation of magnetic nanogels (MNGs) based on magnetic nanoparticles and linear thermoresponsive polyglycerol for the capturing of CTCs with overexpressed transferrin (Tf(+) ) receptors has been presented in this study. The MNGs are synthesized using a strain-promoted "click" approach which has allowed the in situ surface decoration with Tf-polyethylene glycol (PEG) ligands of three different PEG chain lengths as targeting ligands. An optimal value of around 30% of cells captures is achieved with a linker of eight ethylene glycol units. This study shows the potential of MNGs for the capture of CTCs and the necessity of precise control over the linkage of the targeting moiety to the capturing device., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

41. Present status of Accelerator-Based BNCT.

Author

Kreiner AJ, Bergueiro J, Cartelli D, Baldo M, Castell W, Asoia JG, Padulo J, Suárez Sandín JC, Igarzabal M, Erhardt J, Mercuri D, Valda AA, Minsky DM, Debray ME, Somacal HR, Capoulat ME, Herrera MS, Del Grosso MF, Gagetti L, Anzorena MS, Canepa N, Real N, Gun M, and Tacca H

Abstract

Aim: This work aims at giving an updated report of the worldwide status of Accelerator-Based BNCT (AB-BNCT)., Background: There is a generalized perception that the availability of accelerators installed in hospitals, as neutron sources, may be crucial for the advancement of BNCT. Accordingly, in recent years a significant effort has started to develop such machines., Materials and Methods: A variety of possible charged-particle induced nuclear reactions and the characteristics of the resulting neutron spectra are discussed along with the worldwide activity in suitable accelerator development., Results: Endothermic (7)Li(p,n)(7)Be and (9)Be(p,n)(9)B and exothermic (9)Be(d,n)(10)B are compared. In addition to having much better thermo-mechanical properties than Li, Be as a target leads to stable products. This is a significant advantage for a hospital-based facility. (9)Be(p,n)(9)B needs at least 4-5 MeV bombarding energy to have a sufficient yield, while (9)Be(d,n)(10)B can be utilized at about 1.4 MeV, implying the smallest possible accelerator. This reaction operating with a thin target can produce a sufficiently soft spectrum to be viable for AB-BNCT. The machines considered are electrostatic single ended or tandem accelerators or radiofrequency quadrupoles plus drift tube Linacs., Conclusions: (7)Li(p,n)(7)Be provides one of the best solutions for the production of epithermal neutron beams for deep-seated tumors. However, a Li-based target poses significant technological challenges. Hence, Be has been considered as an alternative target, both in combination with (p,n) and (d,n) reactions. (9)Be(d,n)(10)B at 1.4 MeV, with a thin target has been shown to be a realistic option for the treatment of deep-seated lesions.

Published

2016

42. Chiral Nanostructures from Helical Copolymer-Metal Complexes: Tunable Cation-π Interactions and Sergeants and Soldiers Effect.

Author

Arias S, Bergueiro J, Freire F, Quiñoá E, and Riguera R

Abstract

Poly(phenylacetylene) (PPA) copolymers containing (R)- or (S)-MPA as minor chiral pendant can be forced to selectively adopt the right- o left-handed helix, in the presence of small amounts of Na(+) or Ag(+) ("Sergeants and Soldiers Effect") by addition of a donor cosolvent. The helical sense depends exclusively on the chiral monomer/donor cosolvent ratio, and this allows a perfect on/off tuning of the helicity of the copolymer. When the amount of the donor cosolvent is low, the metal ion complex is stabilized by a cation-π interaction, which is selectively cleaved when the amount of cosolvent is higher. Macroscopically chiral nanospheres and nanotubes composed by helical copolymers with P or M helical sense are also described. Our results demonstrate that it is possible to obtain the two enantiomeric helical structures (P and M helicities) and the corresponding nanospheres and nanotubes from a single helical copolymer, by controlled activation/deactivation of the Sergeant and Soldiers Effect with a donor cosolvent., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

43. Stimuli-responsive nanogel composites and their application in nanomedicine.

Author

Molina M, Asadian-Birjand M, Balach J, Bergueiro J, Miceli E, and Calderón M

Subjects

Diagnostic Imaging, Drug Carriers administration & dosage, Drug Delivery Systems methods, Gold chemistry, Humans, Hyperthermia, Induced, Nanogels, Nanostructures chemistry, Quantum Dots, Silver chemistry, Drug Carriers chemistry, Nanomedicine methods, Polyethylene Glycols chemistry, Polyethyleneimine chemistry

Abstract

Nanogels are nanosized crosslinked polymer networks capable of absorbing large quantities of water. Specifically, smart nanogels are interesting because of their ability to respond to biomedically relevant changes like pH, temperature, etc. In the last few decades, hybrid nanogels or composites have been developed to overcome the ever increasing demand for new materials in this field. In this context, a hybrid refers to nanogels combined with different polymers and/or with nanoparticles such as plasmonic, magnetic, and carbonaceous nanoparticles, among others. Research activities are focused nowadays on using multifunctional hybrid nanogels in nanomedicine, not only as drug carriers but also as imaging and theranostic agents. In this review, we will describe nanogels, particularly in the form of composites or hybrids applied in nanomedicine.

Published

2015

44. Thermoresponsive nanodevices in biomedical applications.

Author

Bergueiro J and Calderón M

Subjects

Biomedical Technology trends, Hyperthermia, Induced, Micelles, Nanogels, Polyethylene Glycols, Polyethyleneimine, Biomedical Technology methods, Drug Carriers chemistry, Hot Temperature, Nanostructures chemistry, Polymers chemistry

Abstract

In the last couple of decades several drug carriers have been tailored on the nanometric scale by taking advantage of new stimuli responsive materials. Thermoresponsive polymers in particular have been extensively employed as stimuli-responsive building blocks that in combination with other environmental-responsive materials allowed the birth of smarter systems that can respond to more than one stimulus. Examples that highlight the different polymers for thermally triggered drug delivery will be described. A special emphasis will be given to the description of novel theranostic nanodevices that combine more than one responsive modality in order to create a local hyperthermia that leads to the polymer phase transition and triggered drug release, cell recognition, and/or appearance of an imaging signal., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

45. Accelerator-based BNCT.

Author

Kreiner AJ, Baldo M, Bergueiro JR, Cartelli D, Castell W, Thatar Vento V, Gomez Asoia J, Mercuri D, Padulo J, Suarez Sandin JC, Erhardt J, Kesque JM, Valda AA, Debray ME, Somacal HR, Igarzabal M, Minsky DM, Herrera MS, Capoulat ME, Gonzalez SJ, del Grosso MF, Gagetti L, Suarez Anzorena M, Gun M, and Carranza O

Subjects

Equipment Design, Equipment Failure Analysis, Internationality, Technology Assessment, Biomedical, Boron Neutron Capture Therapy instrumentation, Particle Accelerators instrumentation, Radiometry instrumentation

Abstract

The activity in accelerator development for accelerator-based BNCT (AB-BNCT) both worldwide and in Argentina is described. Projects in Russia, UK, Italy, Japan, Israel, and Argentina to develop AB-BNCT around different types of accelerators are briefly presented. In particular, the present status and recent progress of the Argentine project will be reviewed. The topics will cover: intense ion sources, accelerator tubes, transport of intense beams, beam diagnostics, the (9)Be(d,n) reaction as a possible neutron source, Beam Shaping Assemblies (BSA), a treatment room, and treatment planning in realistic cases., (© 2013 Elsevier Ltd. All rights reserved.)

Published

2014

46. Synthesis of 11-cis-retinoids by hydrosilylation-protodesilylation of an 11,12-didehydro precursor: easy access to 11- and 12-mono- and 11,12-dideuteroretinoids.

Author

Bergueiro J, Montenegro J, Saá C, and López S

Subjects

Catalysis, Deuterium chemistry, Oxidation-Reduction, Platinum chemistry, Retinoids chemical synthesis, Ruthenium chemistry, Stereoisomerism, Retinoids chemistry, Silicon chemistry

Abstract

An expeditious, highly efficient approach to 11-cis-retinoids was achieved by semihydrogenation of a readily available 11-yne precursor through a hydrosilylation-protodesilylation protocol. The complete chemo-, regio-, and syn-stereoselectivity of the method also allowed direct access to 11- and 12-monodeutero-, and 11,12-dideutero-11-cis-retinoids. The analogous trans series was not accessible by this route, and was synthesized by means of Hiyama coupling., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

47. Cross-coupling reactions of organosilicon compounds in the stereocontrolled synthesis of retinoids.

Author

Bergueiro J, Montenegro J, Cambeiro F, Saá C, and López S

Subjects

Catalysis, Molecular Structure, Stereoisomerism, Cross-Linking Reagents chemistry, Organosilicon Compounds chemistry, Retinoids chemical synthesis, Retinoids chemistry, Silanes chemistry

Abstract

This paper presents a full account of the use of Hiyama cross-coupling reactions in a highly convergent approach to retinoids in which the key step is construction of the central C10-C11 bond. Representatives of two families of oxygen-activated dienyl silanes (ethoxysilanes and silanols) and of all reported families of "safety-catch" silanols (siletanes, silyl hydrides, allyl-, benzyl-, aryl-, 2-pyridyl- and 2-thienylsilanes) were regio- and stereoselectively prepared and stereospecifically coupled to an appropriate electrophile by treatment with a palladium catalyst and a nucleophilic activator. Both all-trans and 11-cis-retinoids, and their chain-demethylated analogues, were obtained in good yields regardless of the geometry (E/Z) and of the steric congestion in each fragment. This comprehensive study conclusively establishes the Hiyama cross-coupling reaction, with its mild reaction conditions and stable, easily prepared, ecologically advantageous silicon-based coupling partners, as the most effective route to retinoids reported to date., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

48. Electrostatic design and beam transport for a folded tandem electrostatic quadrupole accelerator facility for accelerator-based boron neutron capture therapy.

Author

Vento VT, Bergueiro J, Cartelli D, Valda AA, and Kreiner AJ

Abstract

Within the frame of an ongoing project to develop a folded Tandem-Electrostatic-Quadrupole (TESQ) accelerator facility for Accelerator-Based Boron Neutron Capture Therapy (AB-BNCT), we discuss here the electrostatic design of the machine, including the accelerator tubes with electrostatic quadrupoles and the simulations for the transport and acceleration of a high intensity beam., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

49. Hiyama cross-coupling reaction in the stereospecific synthesis of retinoids.

Author

Montenegro J, Bergueiro J, Saá C, and López S

Subjects

Molecular Structure, Retinoids chemistry, Silanes chemical synthesis, Silanes chemistry, Stereoisomerism, Retinoids chemical synthesis

Abstract

The first application of the Hiyama reaction to the synthesis of retinoids is reported. A range of organosilicon moieties (siloxanes, silanols and three kinds of "safety-catch" silanols) were successfully coupled, under activation, to obtain trans-retinol or 11-cis-retinol with high yield and stereoselectivity. The advantageous properties of the silicon-based coupling partners and the mild reaction conditions firmly establish the Hiyama reaction as a viable (even superior) alternative to the traditional Suzuki and Stille couplings in the retinoid field.

Published

2009