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5. Deconstructing adverse reactions to Amoxicillin-Clavulanic Acid: the importance of time of onset

Author

Freundt-Serpa, NP, primary, Salas-Cassinello, M, additional, Gonzalo-Fernández, A, additional, Marchán-Pinedo, N, additional, Doña, I, additional, Serrano-García, I, additional, Humanes-Navarro, AM, additional, Bogas, G, additional, Labella, M, additional, Sánchez-Morillas, L, additional, Torres, MJ, additional, and Fernández-Rivas, M, additional

Published
2023
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12. Local allergic rhinitis: Implications for management

Author

Campo, P., primary, Eguiluz‐Gracia, I., additional, Bogas, G., additional, Salas, M., additional, Plaza Serón, C., additional, Pérez, N., additional, Mayorga, C., additional, Torres, M. J., additional, Shamji, M.H., additional, and Rondon, C., additional

Published
2018
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14. Abstracts from the Food Allergy and Anaphylaxis Meeting 2016

Author

Pouessel, G, Claverie, C, Labreuche, J, Renaudin, J-M, Dorkenoo, A, Eb, M, Moneret-Vautrin, A, Deschildre, A, Leteurtre, S, Grabenhenrich, L, Worm, M, Dölle, S, Scherer, K, Hutteger, I, Christensen, M, Bindslev-Jensen, C, Mortz, C, Eller, E, Kjaer, HF, Carneiro-Leão, L, Badas, J, Coimbra, A, Levy, DP, Ben-Shoshan, M, Rimon, A, Benor, S, Arends, NJT, Edelbroek, N, de Groot, H, Emons, JAM, Brand, HKA, Verhoeven, D, van Veen, LN, de Jong, NW, Noh, G, Jang, EH, Pascal, M, Dominguez, O, Piquer, M, Alvaro, M, Jimenez-Feijoo, R, Lozano, J, Machinena, A, del Mar Folqué, M, Giner, MT, Plaza, AM, Turner, P, Patel, N, Vazquez-Ortiz, M, Lindsley, S, Walker, L, Rosenberg, S, Mari, A, Alessandri, C, Giangrieco, I, Tuppo, L, Rafaiani, C, Mitterer, G, Ciancamerla, M, Ferrara, R, Bernardi, ML, Zennaro, D, Tamburrini, M, Ciardiello, MA, Harwanegg, C, Fernandez, A, Selb, R, Egenmann, P, Epstein, M, Hoffmann-Sommergruber, K, Koning, F, Lovik, M, Clare Mills, EN, Moreno, J, van Loveren, H, Wal, J-M, Diesner, S, Bergmayr, C, Pfitzner, B, Assmann, VE, Starkl, P, Endesfelder, D, Eiwegger, T, Szepfalusi, Z, Fehrenbach, H, Jensen-Jarolim, E, Hartmann, A, Pali-Schöll, I, Untersmayr, E, Wille, S, Meyer, P, Klingebiel, C, Lidholm, J, Ehrenberg, A, Östling, J, Cleach, I, Mège, J-L, Vitte, J, Aina, R, Dubiela, P, Pfeifer, S, Bublin, M, Radauer, C, Humeniuk, P, Kabasser, S, Asero, R, Bogas, G, Gomez, F, Campo, P, Salas, M, Doña, I, Barrionuevo, E, Guerrero, MA, Mayorga, C, Prieto, A, Barber, D, Torres, MJ, Jamin, A, Wangorsch, A, Ballmer, B, Vieths, S, Scheurer, S, Apostolovic, D, Mihailovic, J, Krstic, M, Starkhammar, M, Velickovic, TC, Hamsten, C, van Hage, M, van Erp, FC, Knol, EF, Kansen, HM, Pontoppidan, B, Meijer, Y, van der Ent, CK, Knulst, AC, Sayers, R, Brown, H, Custovic, A, Simpson, A, Mills, C, Schulz, J, Akkerdaas, J, Totis, M, Capt, A, Herouet-Guicheney, C, van Ree, R, Banerjee, T, Banerjee, A, Claude, M, Bouchaud, G, Lupi, R, Castan, L, Tranquet, O, Denery-Papini, S, Bodinier, M, Brossard, C, De Poi, R, Gritti, E, De Dominicis, E, Popping, B, de Laureto, PP, Palosuo, K, Kukkonen, AK, Pelkonen, A, Mäkelä, M, Lee, NA, Rost, J, Muralidharan, S, Campbell, D, Mehr, S, Nock, C, Baumert, J, Taylor, S, Mastrorilli, C, Tripodi, S, Caffarelli, C, Perna, S, Di Rienzo Businco, A, Sfika, I, Dondi, A, Bianchi, A, Dascola, CP, Ricci, G, Cipriani, F, Maiello, N, del Giudice, MM, Frediani, T, Frediani, S, Macrì, F, Pistoletti, C, Iacono, ID, Patria, MF, Varin, E, Peroni, D, Comberiati, P, Chini, L, Moschese, V, Lucarelli, S, Bernardini, R, Pingitore, G, Pelosi, U, Olcese, R, Moretti, M, Cirisano, A, Faggian, D, Travaglini, A, Plebani, M, Verga, MC, Calvani, M, Giordani, P, Matricardi, PM, Ontiveros, N, Cabrera-Chavez, F, Galand, J, Beaudouin, E, Pineau, F, Sakai, S, Matsunaga, K, Teshima, R, Larré, C, Denery, S, Tschirner, S, Trendelenburg, V, Schulz, G, Niggemann, B, Beyer, K, Bouferkas, Y, Belabbas, Y, Saidi, D, Kheroua, O, Mecherfi, KEE, Guendouz, M, Haddi, A, Kaddouri, H, Amaral, L, Pereira, A, Rodrigues, S, Datema, M, Jongejan, L, Clausen, M, Knulst, A, Papadopoulos, N, Kowalski, M, de Blay, F, Zwinderman, A, Hoffman-Sommergruber, K, Ballmer-Weber, B, Fernandez-Rivas, M, Deng, S, Yin, J, Eisenmann, C, Nassiri, M, Reinert, R, van der Valk, JPM, van Wijk, RG, Vergouwe, Y, Steyerberg, EW, Reitsma, M, Wichers, HJ, Savelkoul, HFJ, Vlieg-Boerstra, B, Dubois, AEJ, Carolino, F, Rodolfo, A, Cernadas, J, Roa-Medellín, D, Rodriguez-Fernandez, A, Navarro, J, Albendiz, V, Baeza, ML, Intente-Herrero, S, Mikkelsen, A, Mehlig, K, Lissner, L, Verrill, L, Luccioli, S, van Bilsen, J, Kuper, F, Wolterbeek, A, Rankouhi, TR, Verschuren, L, Cnossen, H, Jeurink, P, Garssen, J, Knippels, L, Garthoff, J, Houben, G, Leeman, W, Eleonore Pettersson, M, Schins, AMM, Koppelman, GH, Kollen, BJ, Zubchenko, S, Kuntz, S, Mérida, P, Álvaro, M, Riggioni, C, Castellanos, JH, Jimenez, R, Cap, M, Drumez, E, Lejeune, S, Thumerelle, C, Mordacq, C, Nève, V, Ricò, S, Varini, M, Nocerino, R, Cosenza, L, Amoroso, A, Di Costanzo, M, Di Scala, C, Bedogni, G, Canani, RB, Turner, PJ, Poza-Guedes, P, González-Pérez, R, Sánchez-Machín, I, Matheu-Delgado, V, Wambre, E, Ballegaard, A-S, Madsen, C, Gregersen, J, Bøgh, KL, Aubert, P, Neunlist, M, Magnan, A, Lozano-Ojalvo, D, Pablos-Tanarro, A, Pérez-Rodríguez, L, Molina, E, López-Fandiño, R, Rekima, A, Macchiaverni, P, Turfkruyer, M, Holvoet, S, Dupuis, L, Baiz, N, Annesi-Maesano, I, Mercenier, A, Nutten, S, Verhasselt, V, Mrakovcic-Sutic, I, Banac, S, Sutic, I, Baricev-Novakovic, Z, Pavisic, V, Muñoz-Cano, R, Jiménez-Rodríguez, T, Corbacho, D, Roca-Ferrer, J, Bartra, J, Bulog, A, Micovic, V, Markiewicz, L, Szymkiewicz, A, Szyc, A, Wróblewska, B, Harvey, BM, Harthoorn, LF, Wesley Burks, A, Rentzos, G, Björk, A-LB, Bengtsson, U, Barber, C, Kalicinsky, C, Breynaert, C, Coorevits, L, Jansen, C, Van Hoeyveld, E, Verbeke, K, Kochuyt, A-M, Schrijvers, R, Deleanu, D, Muntean, A, Konstantakopoulou, M, Pasioti, M, Papadopoulou, A, Iliopoulou, A, Mikos, N, Kompoti, E, de Castro, ED, Bartalomé, B, Ue, KL, Griffiths, E, Till, S, Grimshaw, K, Roberts, G, Selby, A, Butiene, I, Larco, JI, Dubakiene, R, Fiandor, A, Fiocchi, A, Sigurdardottir, S, Sprikkelman, A, Schoemaker, A-F, Xepapadaki, P, Keil, T, Cojocariu, Z, Barbado, BS, Iancu, V, Arroabarren, E, Esarte, MG, Arteaga, M, Andrade, MC, Borges, D, Kalil, J, Bianchi, PG, Agondi, RC, Gupta, RK, Sharma, A, Gupta, K, Das, M, Dwivedi, P, Karseladze, R, Jorjoliani, L, Saginadze, L, Tskhakaia, M, Basello, K, Piuri, G, Speciani, AF, Speciani, MC, Camerotto, C, Zinno, F, Pakholchuk, O, Nedelska, S, Pattini, S, Costantino, MT, Peveri, S, Villalta, D, Savi, E, Costanzi, A, Revyakina, VA, Kiseleva, MA, Kuvshinova, ED, Larkova, IA, Shekhetov, AA, Silva, D, Moreira, A, Plácido, J, van der Kleij, H, van Twuijver, E, Sutorius, R, de Kam, P-J, van Odijk, J, Lindqvist, H, Lustig, E, Jácome, AAA, Aguilar, KLB, Domínguez, MG, Hernández, DAM, Caruso, C, Casale, C, Rapaccini, GL, Romano, A, De Vitis, I, Cocco, RR, Aranda, C, Mallozi, MC, Motta, JF, Moraes, L, Pastorino, A, Rosario, N, Goudouris, E, Porto, A, Wandalsen, NF, Sarinho, E, Sano, F, Solé, D, Pitsios, C, Petrodimopoulou, M, Papadopoulou, E, Passioti, M, Kontogianni, M, Adamia, N, Khaleva, E, del Prado, AP, Du Toit, G, Krzych, E, Samolinska-Zawisza, U, Furmanczyk, K, Tomaszewska, A, Raciborski, F, Lipiec, A, Samel-Kowalik, P, Walkiewicz, A, Borowicz, J, Samolinski, B, Nano, AL, Recto, M, Somoza, ML, López, NB, Alzate, DP, Ruano, FJ, Garcimartín, MI, Haroun, E, de la Torre, MV, Rojas, A, Onieva, ML, Canto, G, Rodrigues, A, Forno, A, Cabral, AJ, Gonçalves, R, Vorozhko, I, Sentsova, T, Chernyak, O, Denisova, S, Ilènko, L, Muhortnich, V, Zimmermann, C, Rohrbach, A, Bakhsh, FR, Boudewijn, K, Oomkes-Pilon, A-M, Van Ginkle, D, Šilar, M, Jeverica, A, Vesel, T, Avčin, T, Korošec, P, van der Valk, J, Berends, I, Arends, N, van Maaren, M, Wichers, H, Emons, J, Dubois, A, de Jong, N, Matsyura, O, Besh, L, Huang, C-H, Jan, T-R, Stiefel, G, Tratt, J, Kirk, K, Arasi, S, Caminiti, L, Crisafulli, G, Fiamingo, C, Fresta, J, Pajno, G, Remington, B, Kruizinga, A, Marty Blom, W, Westerhout, J, Bijlsma, S, Blankestijn, M, Otten, H, Klemans, R, Michelsen-Huisman, AD, van Os-Medendorp, H, Kruizinga, AG, Versluis, A, van Duijn, G, de Zeeuw-Brouwer, HM-L, Castenmiller, JJM, Noteborn, HPJM, Houben, GF, Bravin, K, Luyt, D, Javed, B, Couch, P, Munro, C, Padfield, P, Sperrin, M, Byrne, A, Oosthuizen, L, Kelleher, C, Ward, F, Brosnan, N, King, G, Corbet, E, Guzmán, JAH, García, MB, Asensio, O, Navarrete, LV, Larramona, H, Miró, XD, Pyrz, K, Austin, M, Boloh, Y, Galloway, D, Hernandez, P, Hourihane, JOB, Kenna, F, Majkowska-Wojciechowska, B, Regent, L, Themisb, M, Schnadt, S, Semic-Jusufagic, A, Galvin, AD, Kauppila, T, Kuitunen, M, Kitsioulis, NA, Douladiris, N, Kostoudi, S, Manolaraki, I, Mitsias, D, Manousakis, E, Papadopoulos, NG, Knibb, R, Hammond, J, Cooke, R, Yrjänä, J, Hanni, A-M, Vähäsarja, P, Mustonen, O, Dunder, T, Kulmala, P, Lasa, E, D’Amelio, C, Martínez, S, Joral, A, Gastaminza, G, Goikoetxea, MJ, Candy, DCA, Van Ampting, MTJ, Oude Nijhuis, MM, Butt, AM, Peroni, DG, Fox, AT, Knol, J, Michaelis, LJ, Padua, I, Padrao, P, Moreira, P, Barros, R, Sharif, H, Ahmed, M, Gomaa, N, Mens, J, Smit, K, Timmermans, F, Poredoš, T, Jeverica, AK, Sedmak, M, Benedik, E, Accetto, M, Zupančič, M, Yonamine, G, Soldateli, G, Aquilante, B, Pastorino, AC, de Moraes Beck, CL, Gushken, AK, de Barros Dorna, M, dos Santos, CN, Castro, APM, Al-Qahtani, A, Arnaout, R, Khaliq, AR, Amin, R, Sheikh, F, Alvarez, J, Anda, M, Palacios, M, De Prada, M, Ponce, C, Balbino, B, Sibilano, R, Marichal, T, Gaudenzio, N, Karasuyama, H, Bruhns, P, Tsai, M, Reber, LL, Galli, SJ, Ferreira, AR, Cernadas, JR, del Campo García, A, Fernández, SP, Carrera, NS, Sánchez-Cruz, FB, Lorenzo, JRF, Claus, S, Pföhler, C, Ruëff, F, Treudler, R, Jaume, ME, Madroñero, A, Perez, MTG, Julia, JC, Plovdiv, CH, Gethings, L, Langridge, J, Adel-Patient, K, Bernard, H, Barcievic-Jones, I, Sokolova, R, Yankova, R, Ivanovska, M, Murdjeva, M, Popova, T, Dermendzhiev, S, Karjalainen, M, Lehnigk, U, Brown, D, Locklear, JC, Locklear, J, Maris, I, Hourihane, J, Ornelas, C, Caiado, J, Ferreira, MB, Pereira-Barbosa, M, Puente, Y, Daza, JC, Monteseirin, FJ, Ukleja-Sokolowska, N, Gawronska-Ukleja, E, Zbikowska-Gotz, M, Bartuzi, Z, Sokolowski, L, Adams, A, Mahon, B, English, K, Gourdon-Dubois, N, Sellam, L, Pereira, B, Michaud, E, Messaoudi, K, Evrard, B, Fauquert, J-L, Palomares, F, Gomez, G, Rodriguez, MJ, Galindo, L, Molina, A, Paparo, L, Mennini, M, Aitoro, R, Wawrzeńczyk, A, Przybyszewski, M, Sarıcoban, HE, Ugras, M, Yalvac, Z, Flokstra-de Blok, BMJ, van der Velde, JL, Vereda, A, Ippolito, C, Traversa, A, Adriano, D, Bianchi, DM, Gallina, S, Decastelli, L, Makatsori, M, Miles, A, Devetak, SP, Devetak, I, Tabet, SA, Trandbohus, JF, Winther, P, Malling, H-J, Hansen, KS, Garvey, LH, Wang, C-C, Cheng, Y-H, Tung, C-W, Dietrich, M, Marenholz, I, Kalb, B, Grosche, S, Blümchen, K, Schlags, R, Price, M, Rietz, S, Esparza-Gordillo, J, Lau, S, Lee, Y-A, Almontasheri, A, Bahkali, MA, Elshorbagi, S, Alfhaid, A, Altamimi, M, Madbouly, E, Al-Dhekri, H, Arnaout, RK, Basagaña, M, Miquel, S, Bartolomé, B, Brix, B, Rohwer, S, Brandhoff, S, Berger, A, Suer, W, Weimann, A, Bueno, C, Martín-Pedraza, L, Abián, S, Segundo-Acosta, PS, López-Rodríguez, JC, Barderas, R, Batanero, E, Cuesta-Herranz, J, Villalba, MT, Correia, M, Benito-Garcia, F, Arêde, C, Piedade, S, Morais-Almeida, M, Hindley, J, Yarham, R, Kuklinska-Pijanka, A, Gillick, D, Patient, K, Chapman, MD, Miranda, A, Matos, E, Sokolova, A, Rao, H, Baricevic-Jones, I, Smith, F, Xue, W, Magnusdottir, H, Vidarsdottir, AG, Lund, S, Jensen, AB, Ludviksson, BR, Simon, R, Elfont, R, Bennett, S, Voyksner, R, de Lurdes Torre, M, Yürek, S, Faber, MA, Bastiaensen, A, Mangodt, E, van Gasse, A, Decuyper, I, Sabato, V, Hagendorens, MM, Bridts, CH, De Clerck, LS, Ebo, D, Schwarz, S, Ziegert, M, Albroscheit, S, Schwager, C, Kull, S, Behrends, J, Röckendorf, N, Schocker, F, Frey, A, Homann, A, Becker, W-M, Jappe, U, Zaabat, N, Osscini, S, Agabriel, C, Sterling, B, Carsin, A, Liabeuf, V, Maćków, M, Zbróg, A, Bronkowska, M, Courtois, J, Gadisseur, R, Bertholet, C, Lukas, P, Cavalier, E, Delahaut, P, Quinting, B, Gertmo, MB, Hasseus, ET, Barzylovych, V, Oliveira, J, Ensina, LF, Aranda, CS, Dopazo, L, Lopez, R, Perez, R, Santos-Diez, L, Bilbao, A, Garcia, JM, Núñez, IG, Mármol, MÁA, Villarejo, MJB, Martos, JAB, Vergara, MS, García, JMI, Michalska, A, Sergiejko, G, Zacniewski, R, Ghiordanescu, I-M, Deaconu, C, Popescu, M, Bumbacea, RS, Ibranji, A, Nikolla, E, Loloci, G, Juel-Berg, N, Larsen, LF, Poulsen, LK, Marcelino, J, Prata, R, Costa, AC, Duarte, F, Neto, M, Santos, J, Pestana, LC, Sampaio, D, Minale, P, Dignetti, P, Bignardi, D, Nedelea, I, Popescu, F-D, Vieru, M, Secureanu, F-A, Ganea, CS, Vieira, M, Silva, JPM, Watts, T, Watts, S, Lomikovska, M, Peredelskaya, M, Nenasheva, N, Filipovic, I, Zivkovic, Z, Filipovic, D, Higgs, J, Warner, A, Jones, C, Pouessel, G, Claverie, C, Labreuche, J, Renaudin, J-M, Dorkenoo, A, Eb, M, Moneret-Vautrin, A, Deschildre, A, Leteurtre, S, Grabenhenrich, L, Worm, M, Dölle, S, Scherer, K, Hutteger, I, Christensen, M, Bindslev-Jensen, C, Mortz, C, Eller, E, Kjaer, HF, Carneiro-Leão, L, Badas, J, Coimbra, A, Levy, DP, Ben-Shoshan, M, Rimon, A, Benor, S, Arends, NJT, Edelbroek, N, de Groot, H, Emons, JAM, Brand, HKA, Verhoeven, D, van Veen, LN, de Jong, NW, Noh, G, Jang, EH, Pascal, M, Dominguez, O, Piquer, M, Alvaro, M, Jimenez-Feijoo, R, Lozano, J, Machinena, A, del Mar Folqué, M, Giner, MT, Plaza, AM, Turner, P, Patel, N, Vazquez-Ortiz, M, Lindsley, S, Walker, L, Rosenberg, S, Mari, A, Alessandri, C, Giangrieco, I, Tuppo, L, Rafaiani, C, Mitterer, G, Ciancamerla, M, Ferrara, R, Bernardi, ML, Zennaro, D, Tamburrini, M, Ciardiello, MA, Harwanegg, C, Fernandez, A, Selb, R, Egenmann, P, Epstein, M, Hoffmann-Sommergruber, K, Koning, F, Lovik, M, Clare Mills, EN, Moreno, J, van Loveren, H, Wal, J-M, Diesner, S, Bergmayr, C, Pfitzner, B, Assmann, VE, Starkl, P, Endesfelder, D, Eiwegger, T, Szepfalusi, Z, Fehrenbach, H, Jensen-Jarolim, E, Hartmann, A, Pali-Schöll, I, Untersmayr, E, Wille, S, Meyer, P, Klingebiel, C, Lidholm, J, Ehrenberg, A, Östling, J, Cleach, I, Mège, J-L, Vitte, J, Aina, R, Dubiela, P, Pfeifer, S, Bublin, M, Radauer, C, Humeniuk, P, Kabasser, S, Asero, R, Bogas, G, Gomez, F, Campo, P, Salas, M, Doña, I, Barrionuevo, E, Guerrero, MA, Mayorga, C, Prieto, A, Barber, D, Torres, MJ, Jamin, A, Wangorsch, A, Ballmer, B, Vieths, S, Scheurer, S, Apostolovic, D, Mihailovic, J, Krstic, M, Starkhammar, M, Velickovic, TC, Hamsten, C, van Hage, M, van Erp, FC, Knol, EF, Kansen, HM, Pontoppidan, B, Meijer, Y, van der Ent, CK, Knulst, AC, Sayers, R, Brown, H, Custovic, A, Simpson, A, Mills, C, Schulz, J, Akkerdaas, J, Totis, M, Capt, A, Herouet-Guicheney, C, van Ree, R, Banerjee, T, Banerjee, A, Claude, M, Bouchaud, G, Lupi, R, Castan, L, Tranquet, O, Denery-Papini, S, Bodinier, M, Brossard, C, De Poi, R, Gritti, E, De Dominicis, E, Popping, B, de Laureto, PP, Palosuo, K, Kukkonen, AK, Pelkonen, A, Mäkelä, M, Lee, NA, Rost, J, Muralidharan, S, Campbell, D, Mehr, S, Nock, C, Baumert, J, Taylor, S, Mastrorilli, C, Tripodi, S, Caffarelli, C, Perna, S, Di Rienzo Businco, A, Sfika, I, Dondi, A, Bianchi, A, Dascola, CP, Ricci, G, Cipriani, F, Maiello, N, del Giudice, MM, Frediani, T, Frediani, S, Macrì, F, Pistoletti, C, Iacono, ID, Patria, MF, Varin, E, Peroni, D, Comberiati, P, Chini, L, Moschese, V, Lucarelli, S, Bernardini, R, Pingitore, G, Pelosi, U, Olcese, R, Moretti, M, Cirisano, A, Faggian, D, Travaglini, A, Plebani, M, Verga, MC, Calvani, M, Giordani, P, Matricardi, PM, Ontiveros, N, Cabrera-Chavez, F, Galand, J, Beaudouin, E, Pineau, F, Sakai, S, Matsunaga, K, Teshima, R, Larré, C, Denery, S, Tschirner, S, Trendelenburg, V, Schulz, G, Niggemann, B, Beyer, K, Bouferkas, Y, Belabbas, Y, Saidi, D, Kheroua, O, Mecherfi, KEE, Guendouz, M, Haddi, A, Kaddouri, H, Amaral, L, Pereira, A, Rodrigues, S, Datema, M, Jongejan, L, Clausen, M, Knulst, A, Papadopoulos, N, Kowalski, M, de Blay, F, Zwinderman, A, Hoffman-Sommergruber, K, Ballmer-Weber, B, Fernandez-Rivas, M, Deng, S, Yin, J, Eisenmann, C, Nassiri, M, Reinert, R, van der Valk, JPM, van Wijk, RG, Vergouwe, Y, Steyerberg, EW, Reitsma, M, Wichers, HJ, Savelkoul, HFJ, Vlieg-Boerstra, B, Dubois, AEJ, Carolino, F, Rodolfo, A, Cernadas, J, Roa-Medellín, D, Rodriguez-Fernandez, A, Navarro, J, Albendiz, V, Baeza, ML, Intente-Herrero, S, Mikkelsen, A, Mehlig, K, Lissner, L, Verrill, L, Luccioli, S, van Bilsen, J, Kuper, F, Wolterbeek, A, Rankouhi, TR, Verschuren, L, Cnossen, H, Jeurink, P, Garssen, J, Knippels, L, Garthoff, J, Houben, G, Leeman, W, Eleonore Pettersson, M, Schins, AMM, Koppelman, GH, Kollen, BJ, Zubchenko, S, Kuntz, S, Mérida, P, Álvaro, M, Riggioni, C, Castellanos, JH, Jimenez, R, Cap, M, Drumez, E, Lejeune, S, 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MG, Hernández, DAM, Caruso, C, Casale, C, Rapaccini, GL, Romano, A, De Vitis, I, Cocco, RR, Aranda, C, Mallozi, MC, Motta, JF, Moraes, L, Pastorino, A, Rosario, N, Goudouris, E, Porto, A, Wandalsen, NF, Sarinho, E, Sano, F, Solé, D, Pitsios, C, Petrodimopoulou, M, Papadopoulou, E, Passioti, M, Kontogianni, M, Adamia, N, Khaleva, E, del Prado, AP, Du Toit, G, Krzych, E, Samolinska-Zawisza, U, Furmanczyk, K, Tomaszewska, A, Raciborski, F, Lipiec, A, Samel-Kowalik, P, Walkiewicz, A, Borowicz, J, Samolinski, B, Nano, AL, Recto, M, Somoza, ML, López, NB, Alzate, DP, Ruano, FJ, Garcimartín, MI, Haroun, E, de la Torre, MV, Rojas, A, Onieva, ML, Canto, G, Rodrigues, A, Forno, A, Cabral, AJ, Gonçalves, R, Vorozhko, I, Sentsova, T, Chernyak, O, Denisova, S, Ilènko, L, Muhortnich, V, Zimmermann, C, Rohrbach, A, Bakhsh, FR, Boudewijn, K, Oomkes-Pilon, A-M, Van Ginkle, D, Šilar, M, Jeverica, A, Vesel, T, Avčin, T, Korošec, P, van der Valk, J, Berends, I, Arends, N, van Maaren, M, Wichers, H, Emons, J, Dubois, A, de Jong, N, Matsyura, O, Besh, L, Huang, C-H, Jan, T-R, Stiefel, G, Tratt, J, Kirk, K, Arasi, S, Caminiti, L, Crisafulli, G, Fiamingo, C, Fresta, J, Pajno, G, Remington, B, Kruizinga, A, Marty Blom, W, Westerhout, J, Bijlsma, S, Blankestijn, M, Otten, H, Klemans, R, Michelsen-Huisman, AD, van Os-Medendorp, H, Kruizinga, AG, Versluis, A, van Duijn, G, de Zeeuw-Brouwer, HM-L, Castenmiller, JJM, Noteborn, HPJM, Houben, GF, Bravin, K, Luyt, D, Javed, B, Couch, P, Munro, C, Padfield, P, Sperrin, M, Byrne, A, Oosthuizen, L, Kelleher, C, Ward, F, Brosnan, N, King, G, Corbet, E, Guzmán, JAH, García, MB, Asensio, O, Navarrete, LV, Larramona, H, Miró, XD, Pyrz, K, Austin, M, Boloh, Y, Galloway, D, Hernandez, P, Hourihane, JOB, Kenna, F, Majkowska-Wojciechowska, B, Regent, L, Themisb, M, Schnadt, S, Semic-Jusufagic, A, Galvin, AD, Kauppila, T, Kuitunen, M, Kitsioulis, NA, Douladiris, N, Kostoudi, S, Manolaraki, I, Mitsias, D, Manousakis, E, Papadopoulos, NG, Knibb, R, Hammond, J, Cooke, R, Yrjänä, J, Hanni, A-M, Vähäsarja, P, Mustonen, O, Dunder, T, Kulmala, P, Lasa, E, D’Amelio, C, Martínez, S, Joral, A, Gastaminza, G, Goikoetxea, MJ, Candy, DCA, Van Ampting, MTJ, Oude Nijhuis, MM, Butt, AM, Peroni, DG, Fox, AT, Knol, J, Michaelis, LJ, Padua, I, Padrao, P, Moreira, P, Barros, R, Sharif, H, Ahmed, M, Gomaa, N, Mens, J, Smit, K, Timmermans, F, Poredoš, T, Jeverica, AK, Sedmak, M, Benedik, E, Accetto, M, Zupančič, M, Yonamine, G, Soldateli, G, Aquilante, B, Pastorino, AC, de Moraes Beck, CL, Gushken, AK, de Barros Dorna, M, dos Santos, CN, Castro, APM, Al-Qahtani, A, Arnaout, R, Khaliq, AR, Amin, R, Sheikh, F, Alvarez, J, Anda, M, Palacios, M, De Prada, M, Ponce, C, Balbino, B, Sibilano, R, Marichal, T, Gaudenzio, N, Karasuyama, H, Bruhns, P, Tsai, M, Reber, LL, Galli, SJ, Ferreira, AR, Cernadas, JR, del Campo García, A, Fernández, SP, Carrera, NS, Sánchez-Cruz, FB, Lorenzo, JRF, Claus, S, Pföhler, C, Ruëff, F, Treudler, R, Jaume, ME, Madroñero, A, Perez, MTG, Julia, JC, Plovdiv, CH, Gethings, L, Langridge, J, Adel-Patient, K, Bernard, H, Barcievic-Jones, I, Sokolova, R, Yankova, R, Ivanovska, M, Murdjeva, M, Popova, T, Dermendzhiev, S, Karjalainen, M, Lehnigk, U, Brown, D, Locklear, JC, Locklear, J, Maris, I, Hourihane, J, Ornelas, C, Caiado, J, Ferreira, MB, Pereira-Barbosa, M, Puente, Y, Daza, JC, Monteseirin, FJ, Ukleja-Sokolowska, N, Gawronska-Ukleja, E, Zbikowska-Gotz, M, Bartuzi, Z, Sokolowski, L, Adams, A, Mahon, B, English, K, Gourdon-Dubois, N, Sellam, L, Pereira, B, Michaud, E, Messaoudi, K, Evrard, B, Fauquert, J-L, Palomares, F, Gomez, G, Rodriguez, MJ, Galindo, L, Molina, A, Paparo, L, Mennini, M, Aitoro, R, Wawrzeńczyk, A, Przybyszewski, M, Sarıcoban, HE, Ugras, M, Yalvac, Z, Flokstra-de Blok, BMJ, van der Velde, JL, Vereda, A, Ippolito, C, Traversa, A, Adriano, D, Bianchi, DM, Gallina, S, Decastelli, L, Makatsori, M, Miles, A, Devetak, SP, Devetak, I, Tabet, SA, Trandbohus, JF, Winther, P, Malling, H-J, Hansen, KS, Garvey, LH, Wang, C-C, Cheng, Y-H, Tung, C-W, Dietrich, M, Marenholz, I, Kalb, B, Grosche, S, Blümchen, K, Schlags, R, Price, M, Rietz, S, Esparza-Gordillo, J, Lau, S, Lee, Y-A, Almontasheri, A, Bahkali, MA, Elshorbagi, S, Alfhaid, A, Altamimi, M, Madbouly, E, Al-Dhekri, H, Arnaout, RK, Basagaña, M, Miquel, S, Bartolomé, B, Brix, B, Rohwer, S, Brandhoff, S, Berger, A, Suer, W, Weimann, A, Bueno, C, Martín-Pedraza, L, Abián, S, Segundo-Acosta, PS, López-Rodríguez, JC, Barderas, R, Batanero, E, Cuesta-Herranz, J, Villalba, MT, Correia, M, Benito-Garcia, F, Arêde, C, Piedade, S, Morais-Almeida, M, Hindley, J, Yarham, R, Kuklinska-Pijanka, A, Gillick, D, Patient, K, Chapman, MD, Miranda, A, Matos, E, Sokolova, A, Rao, H, Baricevic-Jones, I, Smith, F, Xue, W, Magnusdottir, H, Vidarsdottir, AG, Lund, S, Jensen, AB, Ludviksson, BR, Simon, R, Elfont, R, Bennett, S, Voyksner, R, de Lurdes Torre, M, Yürek, S, Faber, MA, Bastiaensen, A, Mangodt, E, van Gasse, A, Decuyper, I, Sabato, V, Hagendorens, MM, Bridts, CH, De Clerck, LS, Ebo, D, Schwarz, S, Ziegert, M, Albroscheit, S, Schwager, C, Kull, S, Behrends, J, Röckendorf, N, Schocker, F, Frey, A, Homann, A, Becker, W-M, Jappe, U, Zaabat, N, Osscini, S, Agabriel, C, Sterling, B, Carsin, A, Liabeuf, V, Maćków, M, Zbróg, A, Bronkowska, M, Courtois, J, Gadisseur, R, Bertholet, C, Lukas, P, Cavalier, E, Delahaut, P, Quinting, B, Gertmo, MB, Hasseus, ET, Barzylovych, V, Oliveira, J, Ensina, LF, Aranda, CS, Dopazo, L, Lopez, R, Perez, R, Santos-Diez, L, Bilbao, A, Garcia, JM, Núñez, IG, Mármol, MÁA, Villarejo, MJB, Martos, JAB, Vergara, MS, García, JMI, Michalska, A, Sergiejko, G, Zacniewski, R, Ghiordanescu, I-M, Deaconu, C, Popescu, M, Bumbacea, RS, Ibranji, A, Nikolla, E, Loloci, G, Juel-Berg, N, Larsen, LF, Poulsen, LK, Marcelino, J, Prata, R, Costa, AC, Duarte, F, Neto, M, Santos, J, Pestana, LC, Sampaio, D, Minale, P, Dignetti, P, Bignardi, D, Nedelea, I, Popescu, F-D, Vieru, M, Secureanu, F-A, Ganea, CS, Vieira, M, Silva, JPM, Watts, T, Watts, S, Lomikovska, M, Peredelskaya, M, Nenasheva, N, Filipovic, I, Zivkovic, Z, Filipovic, D, Higgs, J, Warner, A, and Jones, C

Published
2017

17. Local allergic rhinitis: Implications for management.

Author

Campo, P., Eguiluz‐Gracia, I., Bogas, G., Salas, M., Plaza Serón, C., Pérez, N., Mayorga, C., Torres, M. J., Shamji, M.H., and Rondon, C.

Subjects
ALLERGIC rhinitis, IMMUNOGLOBULIN E, SKIN tests, PROVOCATION tests (Medicine), QUALITY of life, ASTHMA
Abstract

Summary: A significant proportion of rhinitis patients without systemic IgE‐sensitisation tested by skin prick test and serum allergen‐specific IgE (sIgE) display nasal reactivity upon nasal allergen provocation test (NAPT). This disease phenotype has been termed local allergic rhinitis (LAR). LAR is an underdiagnosed entity affecting children and adults from different parts of the world, with moderate‐to‐severe symptoms, impairment of quality of life and rapid progression to symptom worsening. LAR is a stable phenotype and not merely an initial state of AR. Allergic rhinitis and LAR share many clinical features including a positive NAPT response, markers of type 2 nasal inflammation including sIgE in nasal secretions and a significant rate of asthma development. LAR should be considered as a differential diagnosis in those subjects of any age with symptoms suggestive of AR but no evidence of systemic atopy. Although LAR pathophysiology is partially unknown, in some patients sIgE can be demonstrated directly in the nasal secretions and/or indirectly via positive responses in basophil activation test (BAT). LAR can coexist with other rhinitis phenotypes, especially AR. The diagnosis currently relies on the positivity of NAPT to a single or multiple allergens. NAPT has high sensitivity, specificity and reproducibility, and it is considered the gold standard. BAT and the measurement of nasal sIgE can also contribute to LAR diagnosis. LAR patients benefit from the same therapeutic strategies than AR individuals, including the avoidance of allergen exposure and the pharmacotherapy. Moreover, several recent studies support the effectiveness and safety of allergen immunotherapy for LAR, which opens a window of treatment opportunity in these patients. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
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18. 7th Drug hypersensitivity meeting: part two

Author

Elera, J.D., Boteanu, C., Blanco, M.A.J., Gonzalez-Mendiola, R., García, I.C., Alvarez, A., Martinez, J.J.L., Garrido, J.M., Barona, C.T., Chorda, C.P., Salgueiro, R.L., Palacios, M.D., De Rojas, D.H.F., Acar, E.A., Aktas, A., Ermertcan, A.T., Temiz, C., Lin, C-Y, Hui, C-Y.R., Chang, Y-C, Yang, C-H, Chung, W-H, Carolino, F., Silva, D., De Castro, E.D., Cernadas, J.R., Ensina, L.F., Aranda, C., Nunes, I.C., Lacerda, A., Martins, A.M., Goudouris, E., Ribeiro, M., Da Silva Franco, J.F., Queiroz, L., Solé, D., Dalgiç, C.T., Sin, A.Z., Günsen, F.D., Bulut, G., Ardeniz, F.Ö., Gülbahar, O., Gökmen, E.N.M., Kokuludag, A., De Francisco, A.M.M., De Vicente Jiménez, T.M., Mendoza Parra, A.M., Burgos Pimentel, A.M., Luque, A.G., Amaral, L., Leão, L.C., Pinto, N., Belo, J., Marques, J., Carreiro-Martins, P., Leiria-Pinto, P., Chaabane, A., Romdhane, H.B., Fredj, N.B., Chadly, Z., Boughattas, N.A., Aouam, K., Uyttebroek, A.P., Bridts, C.H., Romano, A., Ebo, D.G., Sabato, V., Lopes, A., Cosme, J., Aguiar, R., Lourenço, T., Paes, M-J, Spínola-Santos, A., Pereira-Barbosa, M., Cruz, C.R., Dos Reis, R.P., Tomaz, E., Pires, A.P., Inácio, F., Benito-Garcia, F., Mota, I., Correia, M., Gaspar, Â., Chambel, M., Piedade, S., Morais-Almeida, M., Nakonechna, A., Antipkin, Y., Umanets, T., Pineda, F., Arribas, F., Lapshyn, V., Miranda, P.A., De La Cruz Hoyos, B., Blanco, A.J., Del Pozo, M., Vultaggio, A., Nencini, F., Pratesi, S., Matucci, A., Maggi, E., Cegec, I., Nahal, D.J., Turk, V.E., Aumiler, M.R., Ausperger, K.M., Kraljickovic, I., Simic, I., Yamaguchi, Y., Watanabe, T., Satoh, M., Tanegashima, T., Oda, K., Wada, H., Aihara, M., Lee, J.J., Choi, J.C., Lee, H.Y., Fernandes, R-A.R., Faria, E., Pita, J., Sousa, N., Ribeiro, C., Carrapatoso, I., Bom, A.T., Rodolfo, A., Dias-Castro, E., Voronova, M., Valle, D.K., Coronel, V.P., Chordá, C.P., Madamba, R.C.Y., Ferrer, M., Goikoetxea, M.J., D’Amelio, C., Bernad, A., Vega, O., Gastaminza, G., Bibián, B.L., Salazar, M.L., Vilà-Nadal, G., Roman, A.M.F., Ortega, J.D., Muñoz, M.G., Gancedo, S.Q., Moreno, M.R.C., Hofmeier, K.S., Barzylovych, V., Pola, B., Lluncor, M., Fiandor, A., Bellón, T., Domínguez, J., Quirce, S., Yang, M-S, Kim, S-S, Kim, S-H, Kang, H-R, Park, H-W, Cho, S-H, Min, K-U, Chang, Y-S, Delahaye, C., Flabbee, J., Waton, J., Bauvin, O., Barbaud, A., Fadhel, N.B., Gulin, S.J., Chiriac, A., Cardoso, B.K., Viseu, R., Moreira, A., Cadinha, S., Neves, A.C., Barreira, P., Malheiro, D., Da Silva, J.P., Jurakic-Toncic, R., Ljubojevic, S., Turcic, P., Gilissen, L., Huygens, S., Goossens, A., Andreu, I., Romero, A.M., Cabezas, P.G., Parejo, P.A., Del Carmen Plaza-Serón, M., Doña, I., Blanca-López, N., Flores, C., Galindo, M.L., Molina, A., Perkins, J.R., Cornejo-García, J.A., García-Agúndez, J.A., García-Martín, E., Campo, P., Canto, M.G., Blanca, M., Guéant-Rodríguez, R.M., Jurado-Escobar, R., Barrionuevo, E., Salas, M., Canto, G., Guéant, J-L, Usui, T., Tailor, A., Faulkner, L., Farrell, J., Alfirevic, A., Kevin Park, B., Naisbitt, D.J., Trelles, O., Guerrero, M.A., Upton, A., Ueta, M., Sawai, H., Sotozono, C., Tokunaga, K., Kinoshita, S., Sukasem, C., Satapornpong, P., Tempark, T., Rerknimitr, P., Pairayayutakul, K., Klaewsongkram, J., Koomdee, N., Jantararoungtong, T., Santon, S., Puangpetch, A., Intusoma, U., Tassaneeyakul, W., Theeramoke, V., Ramirez, E., Borobia, A.M., Tong, H., Castañer, J.L., De Abajo, F.J., Galvao, V.R., Pavlos, R., McKinnon, E., Williams, K., Beeghly-Fadiel, A., Phillips, E., Castells, M., Boni, E., Russello, M., Mauro, M., Ue, K.L., Rutkowski, K., Gomis, V.S., Ferre, J.F., Rodriguez, A.E., Reig, V.C., Sanchez, J.F., Breynaert, C., Van Hoeyveld, E., Schrijvers, R., Irigoyen, R.F., Collado, D., Vida, Y., Najera, F., Perez-Inestrosa, E., Mesa-Antunez, P., Mayorga, C., Torres, M.J., Tannert, L.K., Mortz, C.G., Skov, P.S., Bindslev-Jensen, C., Pfützner, W., Dörnbach, H., Visse, J., Rauber, M., Möbs, C., Elzagallaai, A.A., Chow, L., Abuzgaia, A.M., Rieder, M.J., Trubiano, J., Woolnough, E., Cheng, C., Kato, K., Azukizawa, H., Hanafusa, T., Katayama, I., Fujiyama, T., Hashizume, H., Umayahara, T., Ito, T., Tokura, Y., Silar, M., Zidarn, M., Rupnik, H., Korosec, P., Redwood, A.J., Strautins, K., White, K., Chopra, A., Konvinse, K., Leary, S., Mallal, S., Cabañas, R., Fiandor, A.M., Sullivan, A., Whitaker, P., Peckham, D., Haw, W.Y., Polak, M.E., Mcguire, C., Ardern-Jones, M.R., Aoyama, Y., Shiohara, T., Correia, S., Gelincik, A., Demir, S., Sen, F., Bozbey, H.U., Olgac, M., Unal, D., Coskun, R., Colakoglu, B., Buyuozturk, S., Çatin-Aktas, E., Deniz, G., Laguna, J.J., Dionicio, J., Fernandez, T., Olazabal, I., Ruiz, M.D., Lafuente, A., Núñez, J., Fernández, T.D., Palomares, F., Fernández, R., Sanchez, M.I., Ruiz, A., Ariza, A., Alonso, A.B., Garófalo, C.D., Matute, O.V., Puga, M.F., Lapresa, M.J.G., Lasarte, G.G., Thinnes, A., Merk, H.F., Baron, J.M., Leverkus, M., Balakirski, G., Gibson, A., Ogese, M., Al-Attar, Z., Yaseen, F., Meng, X., Jenkins, R., Farrel, J., Alhilali, K., Xue, Y., Illing, P., Mifsud, N., Fettke, H., Lai, J., Ho, R., Kwan, P., Purcell, A., Ogese, M.O., Betts, C., Thomson, P., Alhaidari, M., Berry, N., O’Neill, P.M., Alzahrani, A., Azoury, M.E., Fili, L., Bechara, R., Scornet, N., Nhim, C., Weaver, R., Claude, N., Joseph, D., Maillere, B., Parronchi, P., Pallardy, M., Villani, A.P., Rozières, A., Bensaïd, B., Tardieu, M., Albert, F., Mutez, V., Baysal, T., Maryanski, J., Nicolas, J-F, Kanagawa, O., Vocanson, M., Hung, S-L, Harrison, C.J., Jenkins, R.E., French, N.S., Montañez, M.I., Fernandez, T.D., Martin-Serrano, A., Molina, N., Wood, S., Pirmohamed, M., Martín-Serrano, Á., Pérez-Inestrosa, E., Pérez-Sala, D., Guzmán, A.E., Ko, T-M, Chen, Y-T, Wu, J-Y, Sánchez-Gómez, F.J., González-Morena, J.M., Arreola, A.M., Corona, J.A.B., Flores, S.M., Cherit, J.D., Figueroa, N.V.D., Flores, J.L.C., Perkins, J., Pérez-Alzate, D., Bogas, G., Marti, L.M.T., De La Losa, F.P., Poves, F.A., Lopez, J.T., Santiago, T.L., Elera, J.D., Boteanu, C., Blanco, M.A.J., Gonzalez-Mendiola, R., García, I.C., Alvarez, A., Martinez, J.J.L., Garrido, J.M., Barona, C.T., Chorda, C.P., Salgueiro, R.L., Palacios, M.D., De Rojas, D.H.F., Acar, E.A., Aktas, A., Ermertcan, A.T., Temiz, C., Lin, C-Y, Hui, C-Y.R., Chang, Y-C, Yang, C-H, Chung, W-H, Carolino, F., Silva, D., De Castro, E.D., Cernadas, J.R., Ensina, L.F., Aranda, C., Nunes, I.C., Lacerda, A., Martins, A.M., Goudouris, E., Ribeiro, M., Da Silva Franco, J.F., Queiroz, L., Solé, D., Dalgiç, C.T., Sin, A.Z., Günsen, F.D., Bulut, G., Ardeniz, F.Ö., Gülbahar, O., Gökmen, E.N.M., Kokuludag, A., De Francisco, A.M.M., De Vicente Jiménez, T.M., Mendoza Parra, A.M., Burgos Pimentel, A.M., Luque, A.G., Amaral, L., Leão, L.C., Pinto, N., Belo, J., Marques, J., Carreiro-Martins, P., Leiria-Pinto, P., Chaabane, A., Romdhane, H.B., Fredj, N.B., Chadly, Z., Boughattas, N.A., Aouam, K., Uyttebroek, A.P., Bridts, C.H., Romano, A., Ebo, D.G., Sabato, V., Lopes, A., Cosme, J., Aguiar, R., Lourenço, T., Paes, M-J, Spínola-Santos, A., Pereira-Barbosa, M., Cruz, C.R., Dos Reis, R.P., Tomaz, E., Pires, A.P., Inácio, F., Benito-Garcia, F., Mota, I., Correia, M., Gaspar, Â., Chambel, M., Piedade, S., Morais-Almeida, M., Nakonechna, A., Antipkin, Y., Umanets, T., Pineda, F., Arribas, F., Lapshyn, V., Miranda, P.A., De La Cruz Hoyos, B., Blanco, A.J., Del Pozo, M., Vultaggio, A., Nencini, F., Pratesi, S., Matucci, A., Maggi, E., Cegec, I., Nahal, D.J., Turk, V.E., Aumiler, M.R., Ausperger, K.M., Kraljickovic, I., Simic, I., Yamaguchi, Y., Watanabe, T., Satoh, M., Tanegashima, T., Oda, K., Wada, H., Aihara, M., Lee, J.J., Choi, J.C., Lee, H.Y., Fernandes, R-A.R., Faria, E., Pita, J., Sousa, N., Ribeiro, C., Carrapatoso, I., Bom, A.T., Rodolfo, A., Dias-Castro, E., Voronova, M., Valle, D.K., Coronel, V.P., Chordá, C.P., Madamba, R.C.Y., Ferrer, M., Goikoetxea, M.J., D’Amelio, C., Bernad, A., Vega, O., Gastaminza, G., Bibián, B.L., Salazar, M.L., Vilà-Nadal, G., Roman, A.M.F., Ortega, J.D., Muñoz, M.G., Gancedo, S.Q., Moreno, M.R.C., Hofmeier, K.S., Barzylovych, V., Pola, B., Lluncor, M., Fiandor, A., Bellón, T., Domínguez, J., Quirce, S., Yang, M-S, Kim, S-S, Kim, S-H, Kang, H-R, Park, H-W, Cho, S-H, Min, K-U, Chang, Y-S, Delahaye, C., Flabbee, J., Waton, J., Bauvin, O., Barbaud, A., Fadhel, N.B., Gulin, S.J., Chiriac, A., Cardoso, B.K., Viseu, R., Moreira, A., Cadinha, S., Neves, A.C., Barreira, P., Malheiro, D., Da Silva, J.P., Jurakic-Toncic, R., Ljubojevic, S., Turcic, P., Gilissen, L., Huygens, S., Goossens, A., Andreu, I., Romero, A.M., Cabezas, P.G., Parejo, P.A., Del Carmen Plaza-Serón, M., Doña, I., Blanca-López, N., Flores, C., Galindo, M.L., Molina, A., Perkins, J.R., Cornejo-García, J.A., García-Agúndez, J.A., García-Martín, E., Campo, P., Canto, M.G., Blanca, M., Guéant-Rodríguez, R.M., Jurado-Escobar, R., Barrionuevo, E., Salas, M., Canto, G., Guéant, J-L, Usui, T., Tailor, A., Faulkner, L., Farrell, J., Alfirevic, A., Kevin Park, B., Naisbitt, D.J., Trelles, O., Guerrero, M.A., Upton, A., Ueta, M., Sawai, H., Sotozono, C., Tokunaga, K., Kinoshita, S., Sukasem, C., Satapornpong, P., Tempark, T., Rerknimitr, P., Pairayayutakul, K., Klaewsongkram, J., Koomdee, N., Jantararoungtong, T., Santon, S., Puangpetch, A., Intusoma, U., Tassaneeyakul, W., Theeramoke, V., Ramirez, E., Borobia, A.M., Tong, H., Castañer, J.L., De Abajo, F.J., Galvao, V.R., Pavlos, R., McKinnon, E., Williams, K., Beeghly-Fadiel, A., Phillips, E., Castells, M., Boni, E., Russello, M., Mauro, M., Ue, K.L., Rutkowski, K., Gomis, V.S., Ferre, J.F., Rodriguez, A.E., Reig, V.C., Sanchez, J.F., Breynaert, C., Van Hoeyveld, E., Schrijvers, R., Irigoyen, R.F., Collado, D., Vida, Y., Najera, F., Perez-Inestrosa, E., Mesa-Antunez, P., Mayorga, C., Torres, M.J., Tannert, L.K., Mortz, C.G., Skov, P.S., Bindslev-Jensen, C., Pfützner, W., Dörnbach, H., Visse, J., Rauber, M., Möbs, C., Elzagallaai, A.A., Chow, L., Abuzgaia, A.M., Rieder, M.J., Trubiano, J., Woolnough, E., Cheng, C., Kato, K., Azukizawa, H., Hanafusa, T., Katayama, I., Fujiyama, T., Hashizume, H., Umayahara, T., Ito, T., Tokura, Y., Silar, M., Zidarn, M., Rupnik, H., Korosec, P., Redwood, A.J., Strautins, K., White, K., Chopra, A., Konvinse, K., Leary, S., Mallal, S., Cabañas, R., Fiandor, A.M., Sullivan, A., Whitaker, P., Peckham, D., Haw, W.Y., Polak, M.E., Mcguire, C., Ardern-Jones, M.R., Aoyama, Y., Shiohara, T., Correia, S., Gelincik, A., Demir, S., Sen, F., Bozbey, H.U., Olgac, M., Unal, D., Coskun, R., Colakoglu, B., Buyuozturk, S., Çatin-Aktas, E., Deniz, G., Laguna, J.J., Dionicio, J., Fernandez, T., Olazabal, I., Ruiz, M.D., Lafuente, A., Núñez, J., Fernández, T.D., Palomares, F., Fernández, R., Sanchez, M.I., Ruiz, A., Ariza, A., Alonso, A.B., Garófalo, C.D., Matute, O.V., Puga, M.F., Lapresa, M.J.G., Lasarte, G.G., Thinnes, A., Merk, H.F., Baron, J.M., Leverkus, M., Balakirski, G., Gibson, A., Ogese, M., Al-Attar, Z., Yaseen, F., Meng, X., Jenkins, R., Farrel, J., Alhilali, K., Xue, Y., Illing, P., Mifsud, N., Fettke, H., Lai, J., Ho, R., Kwan, P., Purcell, A., Ogese, M.O., Betts, C., Thomson, P., Alhaidari, M., Berry, N., O’Neill, P.M., Alzahrani, A., Azoury, M.E., Fili, L., Bechara, R., Scornet, N., Nhim, C., Weaver, R., Claude, N., Joseph, D., Maillere, B., Parronchi, P., Pallardy, M., Villani, A.P., Rozières, A., Bensaïd, B., Tardieu, M., Albert, F., Mutez, V., Baysal, T., Maryanski, J., Nicolas, J-F, Kanagawa, O., Vocanson, M., Hung, S-L, Harrison, C.J., Jenkins, R.E., French, N.S., Montañez, M.I., Fernandez, T.D., Martin-Serrano, A., Molina, N., Wood, S., Pirmohamed, M., Martín-Serrano, Á., Pérez-Inestrosa, E., Pérez-Sala, D., Guzmán, A.E., Ko, T-M, Chen, Y-T, Wu, J-Y, Sánchez-Gómez, F.J., González-Morena, J.M., Arreola, A.M., Corona, J.A.B., Flores, S.M., Cherit, J.D., Figueroa, N.V.D., Flores, J.L.C., Perkins, J., Pérez-Alzate, D., Bogas, G., Marti, L.M.T., De La Losa, F.P., Poves, F.A., Lopez, J.T., and Santiago, T.L.

Abstract

No abstract available

Published
2016

21. Penicillin and cephalosporin cross-reactivity: role of side chain and synthetic cefadroxil epitopes

Author

Maria Salas, Isabel M. Jiménez-Sánchez, Angela Martin-Serrano, Gador Bogas, Maria I. Montañez, Esther Barrionuevo, Cristobalina Mayorga, Teresa Posadas, María José Torres, Ruben Fernandez-Santamaria, Tahia D. Fernandez, Adriana Ariza, [Bogas,G, Mayorga,G, Martín-Serrano,A, Fernández-Santamaría,R, Jiménez-Sánchez,IM, Ariza,A, Barrionuevo,E, Posadas,T, Salas,M, Fernández,TD, Torres,MJ, Montañez,MI] Allergy Research Group, Instituto de Investigación Biomédica de Málaga- IBIMA, Hospital Civil, Málaga, Spain. [Bogas,G, Torres,MJ] Allergy Unit, Hospital Regional Universitario de Málaga, Hospital Civil, Málaga, Spain. [Mayorga,G, Montañez,MI] Nanostructures for Diagnosing and Treatment of Allergic Diseases Laboratory, Andalusian Center for Nanomedicine and Biotechnology-BIONAND, Málaga, Spain. [Fernández,TD] Departamento de Biología Celular, Genética y Fisiología, Universidad de Málaga, Málaga, Spain. [Torres,MJ] Departamento de Medicina, Universidad de Málaga, Facultad de Medicina, Málaga, Spain., The present study has been supported by the Institute of Health ‘‘Carlos III’’ (ISCIII) of MINECO (Grants cofunded by ERDF: ‘‘Una manera de hacer Europa’’: Grant ns. PI12/02529, PI15/01206, CP15/00103, PI17/01237, PI18/00095, RETIC ARADYAL RD16/0006/0001, Euronanomed Program AC19/00082, Andalusian Regional Ministry of Economy and Knowledge (Grants cofunded by ERDF: ‘‘Andalucía se mueve con Europa’’: Grant No. CTS-06603), Andalusian Regional Ministry of Health (Grant Nos. PI-0699–2011, PI-0179–2014, PE-0172–2018 cofunded by ERDF), and and ‘‘Premio UNICAJA a la innovación en biomedicina y salud.’’ C.M. holds ‘Nicolas Monardes’ research contract by Andalusian Regional Ministry Health (Grant No. C-0044–2012 SAS2013). G.B. holds a 'Juan Rodes' Grant (JR18/00054), M.I.M. holds a ‘‘Miguel Servet I’’ Grant (CP15/00103), and A.A. holds a ‘‘Sara Borrell’’ Grant (CD17/0146), all by ISCIII of MINECO (grants cofunded by European Social Fund: ‘‘El FSE invierte en futuro’’). R.F.S. holds a predoctoral Grant (PE-0172–2018) cofunded by ERDF.

Subjects
Pulmonary and Respiratory Medicine, medicine.drug_class, Chemicals and Drugs::Amino Acids, Peptides, and Proteins::Proteins::Globulins::Serum Globulins::Immunoglobulins::Antibodies::Immunoglobulin Isotypes::Immunoglobulin E [Medical Subject Headings], Immunology, Cephalosporin, Phenomena and Processes::Immune System Phenomena::Immune System Processes::Antigen-Antibody Reactions::Cross Reactions [Medical Subject Headings], Cefalosporinas, Antigenic determinant, Pharmacology, medicine.disease_cause, Benzylpenicillin, Group A, Cross-reactivity, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Primates::Haplorhini::Catarrhini::Hominidae::Humans [Medical Subject Headings], 03 medical and health sciences, Chemicals and Drugs::Organic Chemicals::Amides::Lactams::beta-Lactams::Penicillins::Penicillin G::Ampicillin::Amoxicillin [Medical Subject Headings], 0302 clinical medicine, Reacciones cruzadas, medicine, Chemicals and Drugs::Organic Chemicals::Amides::Lactams::beta-Lactams [Medical Subject Headings], Immunology and Allergy, 030304 developmental biology, Amoxicilina, Epítopos, 0303 health sciences, medicine.diagnostic_test, business.industry, Radioallergosorbent test, Research, Amoxicillin, Betalactam, Drug allergy, Beta-lactamas, Chemicals and Drugs::Biological Factors::Antigens::Epitopes [Medical Subject Headings], Chemicals and Drugs::Organic Chemicals::Amides::Lactams::beta-Lactams::Cephalosporins [Medical Subject Headings], Penicillin, Specific IgE, 030228 respiratory system, Inmunoglobulina E, Cefadroxil, Diseases::Immune System Diseases::Hypersensitivity::Drug Hypersensitivity [Medical Subject Headings], Hipersensibilidad a las Drogas, business, Cefuroxime, medicine.drug
Abstract

Background Analysis of cross-reactivity is necessary for prescribing safe cephalosporins for penicillin allergic patients. Amoxicillin (AX) is the betalactam most often involved in immediate hypersensitivity reactions (IHRs), and cefadroxil (CX) the most likely cephalosporin to cross-react with AX, since they share the same R1 side chain, unlike cefuroxime (CO), with a structurally different R1. We aimed to analyse cross-reactivity with CX and CO in patients with confirmed IHRs to AX, including sIgE recognition to AX, CX, CO, and novel synthetic determinants of CX. Methods Fifty-four patients with confirmed IHRs to AX based on skin test (ST) and/or drug provocation test (DPT) were included. Serum sIgE to AX and benzylpenicillin was determined by Radioallergosorbent test (RAST). Two potential determinants of CX, involving intact or modified R1 structure, with open betalactam ring, were synthesised and sIgE evaluated by RAST inhibition assay. Results Tolerance to CX (Group A) was observed in 64.8% cases and cross-reactivity in 35.2% cases (Group B). Cross-reactivity with CO was only found in 1.8% cases from Group B. ST to CX showed a negative predictive value of 94.6%. RAST inhibition assays showed higher recognition to CX as well as to both synthetic determinants (66% of positive cases) in Group B. Conclusions Cross-reactivity with CX in AX allergic patients is 35%, being ST not enough for prediction. R1, although critical for recognition, is not the unique factor. The synthetic determinants of CX, 1-(HOPhG-Ser-Bu) and 2-(pyrazinone) are promising tools for determining in vitro cross-reactivity to CX in AX allergic patients. Background Betalactams (BLs) are the drugs most frequently involved in immediate (IgE-mediated) hypersensitivity reactions (IHRs) [1,2,3], which could be explained by their ability to act as haptens due to their high chemical reactivity against proteins [4, 5]. BL chemical structure is formed by a 4-membered ring (the so-called BL ring) that in penicillins is fused to a 5-membered thiazolidine ring, and in cephalosporins to a 6-membered dihydrothiazine ring (Fig. 1). These drugs have a side chain (R1) bound to the BL ring; besides, cephalosporins have a second side chain (R2) bound to the dihydrothiazine ring, whose chemical structures distinguish the different compounds [6, 7]. Yes

Published
2020

22. The Role of Benzylpenicilloyl Epimers in Specific IgE Recognition

Author

Cristobalina Mayorga, Maria I. Montañez, Francisco Najera, Gador Bogas, Tahía D. Fernandez, David Rodríguez Gil, Ricardo Palacios, Maria J. Torres, Yolanda Vida, Ezequiel Perez-Inestrosa, [Mayorga,C, Montañez,MI, Bogas,G, Fernandez,TD, Torres,MJ] Allergy Research Group, Instituto de Investigación Biomédica de Málaga-IBIMA, Málaga, Spain. [Mayorga,C, Torres,MJ] Allergy Unit, Hospital Regional Universitario de Málaga, Málaga, Spain. [Mayorga,C, Najera,F, Torres,MJ, Vida,Y, Perez-Inestrosa,E] Centro Andaluz de Nanomedicina y Biotecnología-BIONAND, Parque Tecnológico de Andalucía, Málaga, Spain. [Najera,F, Perez-Inestrosa,E] Universidad de Málaga-IBIMA Departamento de Química Orgánica, Málaga, Spain. [Fernandez,TD] Universidad de Málaga-IBIMA, Departamento de Biología celular, Genética y Fisiología, Málaga, Spain. [Gil,DR, Palacios,R] Diater Laboratorios S.A., Madrid, Spain. [Torres,MJ] Universidad de Málaga-IBIMA, Departamento de Medicina, Málaga, Spain., and This work was supported by the Spanish Ministerio de Economía, Industria y Competitividad (CTQ2016-75870-P), Ministerio de Ciencia y Educación (PID2019-104293GB-I00), Ministerio de Ciencia e Innovación (Proyectos de I + D + I « Programación Conjunta Internacional», EuroNanoMed 2019 (PCI2019-111825-2), Instituto de Salud Carlos III (ISCIII) of MINECO (grants cofunded by ERDF:'Una manera de hacer Europa' (PI17/01237, PI18/00095, RETIC ARADYAL, RD16/0006/0001and RD16/0006/0012, Euronanomed Program AC19/00082, 'Joan Rodés' program (JR18/00054) and Miguel Servet I program (CP15/00103), Junta de Andalucía and Universidad de Málaga (UMA18-FEDERJA-007), Andalusian Regional Ministry of Health (PI-0179-2014, PE-0172-2018) and Nicolas Monardes Program (RC-0004-2016C) and 'Premio UNICAJA a la innovación en biomedicina y salud'.

Subjects
0301 basic medicine, Provocation test, antigenic determinant, Antigenic determinant, Immunoglobulin E, Benzylpenicillin, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Primates::Haplorhini::Catarrhini::Hominidae::Humans [Medical Subject Headings], 0302 clinical medicine, Pharmacology (medical), Hipersensibilidad medicamentosa, Chemicals and Drugs::Amino Acids, Peptides, and Proteins::Proteins::Blood Proteins::Immunoproteins::Immunoglobulins::Antibodies::Immunoglobulin Isotypes::Immunoglobulin E [Medical Subject Headings], Original Research, Epítopos, media_common, biology, Chemistry, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Diagnosis::Diagnostic Techniques and Procedures::Diagnostic Tests, Routine [Medical Subject Headings], Penicilinas, Diagnostic test, Chemicals and Drugs::Biological Factors::Antigens::Epitopes [Medical Subject Headings], Specific IgE, Inmunoglobulina E, Biochemistry, diagnostic test, Chemicals and Drugs::Chemical Actions and Uses::Pharmacologic Actions::Therapeutic Uses::Anti-Infective Agents::Anti-Bacterial Agents [Medical Subject Headings], medicine.drug, Drug, media_common.quotation_subject, Drug allergy, specific IgE, Diseases::Immune System Diseases::Hypersensitivity [Medical Subject Headings], 03 medical and health sciences, In vivo, medicine, Pharmacology, lcsh:RM1-950, Pruebas diagnósticas rutinarias, Penicillin, Chemicals and Drugs::Organic Chemicals::Amides::Lactams::beta-Lactams::Penicillins [Medical Subject Headings], Chemicals and Drugs::Macromolecular Substances::Polymers [Medical Subject Headings], medicine.disease, In vitro, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Weights and Measures::Reference Standards [Medical Subject Headings], penicillin, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, 030228 respiratory system, Chemicals and Drugs::Organic Chemicals::Amines::Butylamines [Medical Subject Headings], Information Science::Information Science::Data Collection::Vital Statistics::Morbidity::Prevalence [Medical Subject Headings], biology.protein, drug allergy
Abstract

The high prevalence of allergy to β-lactam antibiotics is a worldwide issue. Accuracy of diagnostic methods is important to prove tolerance or allergy, with skin test considered the best validated in vivo method for diagnosing immediate reactions to β-lactams. Although drug provocation test is the reference standard, it cannot be performed in highly risk reactions or in those with positive skin tests. For skin tests, the inclusion of major and minor determinants of benzylpenicillin (BP) is recommended. Commercial skin test reagents have changed along time, including as minor determinants benzylpenicillin, benzylpenicilloate (BPO), and benzylpenilloate (PO). Major determinants consists of multivalent conjugates of benzylpenicilloyl coupled through amide bond to a carrier polymer, such as penicilloyl-polylysine (PPL) or benzylpenicilloyl-octalysine (BP-OL). The chemical stability of such reagents has influenced the evolution of the composition of the commercial kits, as this requirement is necessary for improving the quality and standardization of the product. In this work, we provide a detailed study of the chemical stability of BP determinants. We observed that those structures suffer from an epimerization process in C-5 at different rates. Butylamine-Benzylpenicilloyl conjugates (5R,6R)-Bu-BPO and (5S,6R)-Bu-BPO were selected as a simple model for mayor determinant to evaluate the role of the different epimers in the immunoreactivity with sera from penicillin-allergic patients. In vitro immunoassays indicate that any change in the chemical structure of the antigenic determinant of BP significantly affects IgE recognition. The inclusion of stereochemically pure compounds or mixtures may have important implications for both the reproducibility and sensitivity of in vivo and in vitro diagnostic tests.

Published
2021

23. Evaluation of Subjects Experiencing Allergic Reactions to Non-Steroidal Anti-Inflammatory Drugs: Clinical Characteristics and Drugs Involved

Author

Natalia Pérez-Sánchez, Inmaculada Doña, Gador Bogas, María Salas, Almudena Testera, José A. Cornejo-García, María J. Torres, [Pérez-Sánchez,N, Doña,I, Bogas,G, Salas,M, Testera,A, Torres, MJ] Allergy Unit, Malaga Regional University Hospital, Malaga, Spain. [Pérez-Sánchez,N, Torres, MJ] Departamento de Medicina, Universidad de Málaga, Malaga, Spain. [Cornejo-García,JA, Torres, MJ] Allergy Research Group, Instituto de Investigación Biomédica de Málaga-IBIMA, ARADyAL, Malaga, Spain. [Torres, MJ] Nanostructures for Diagnosing and Treatment of Allergic Diseases Laboratory, Andalusian Center for Nanomedicine and Biotechnology-BIONAND, Malaga, Spain., This work was supported by grants co-funded by the European Regional Development Fund (ERDF), from the Carlos III National Health Institute (ARADyAL network RD16/0006/0001, and PI17/01593), and from the Sociedad Española de Alergoloǵıa e Inmunoloǵıa Cĺınica (SEAIC, and Ref. Convocatoria Ayudas 2016, and Convocatoria Ayudas 2018 REF: 18B02).

Subjects
0301 basic medicine, Urticaria, Provocation test, Clinical immunology, Anafilaxia, Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Primates::Haplorhini::Catarrhini::Hominidae::Humans [Medical Subject Headings], 0302 clinical medicine, Chemicals and Drugs::Heterocyclic Compounds::Heterocyclic Compounds, 1-Ring::Azoles::Pyrazoles::Pyrazolones [Medical Subject Headings], Medicine, non-steroidal anti-inflammatory drugs, Pharmacology (medical), media_common, Original Research, Chemicals and Drugs::Pharmaceutical Preparations [Medical Subject Headings], Drug eruption, Diseases::Chemically-Induced Disorders::Drug-Related Side Effects and Adverse Reactions::Drug Hypersensitivity [Medical Subject Headings], 030220 oncology & carcinogenesis, Diseases::Immune System Diseases::Hypersensitivity::Drug Hypersensitivity::Drug Eruptions [Medical Subject Headings], medicine.symptom, Hipersensibilidad a las drogas, Anaphylaxis, Non-steroidal anti-inflammatory drugs, Drug, Diseases::Skin and Connective Tissue Diseases::Skin Diseases::Exanthema [Medical Subject Headings], medicine.medical_specialty, media_common.quotation_subject, Drug allergy, Diseases::Immune System Diseases::Hypersensitivity [Medical Subject Headings], Culprit, 03 medical and health sciences, Diseases::Immune System Diseases::Hypersensitivity::Hypersensitivity, Immediate::Urticaria [Medical Subject Headings], anaphylaxis, Geographical Locations::Geographic Locations::Europe::Spain [Medical Subject Headings], Pharmacology, Angioedema, urticarial, business.industry, Chemicals and Drugs::Chemical Actions and Uses::Pharmacologic Actions::Therapeutic Uses::Anti-Inflammatory Agents::Anti-Inflammatory Agents, Non-Steroidal [Medical Subject Headings], lcsh:RM1-950, Diseases::Immune System Diseases::Hypersensitivity::Hypersensitivity, Immediate::Anaphylaxis [Medical Subject Headings], medicine.disease, Dermatology, Urticarial, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Non steroidal anti inflammatory, Diseases::Immune System Diseases::Hypersensitivity::Hypersensitivity, Immediate::Urticaria::Angioedema [Medical Subject Headings], business, Antiinflamatorios no esteroideos, drug allergy, clinical immunology
Abstract

Non-steroidal anti-inflammatory drugs (NSAIDs), the most commonly prescribed and consumed medicines worldwide, are the main triggers of drug hypersensitivity reactions (DHRs). The underlying mechanisms of NSAID-DHRs may be related to COX-1 inhibition (cross-hypersensitivity reactions, CRs) or to immunological recognition (selective reactions, SRs), being the latter remarkably less studied. SRs include those usually appearing within the first hour after drug intake (single-NSAID-induced urticaria/angioedema or anaphylaxis, SNIUAA), and those usually occurring more than 24 h after (single-NSAID-induced delayed reactions, SNIDR). We have evaluated the largest series of patients with SRs, analyzing the number of episodes and drugs involved, the latency for reaction onset, the clinical entities, among other variables, as well as the value of available diagnostic methods. Globally, pyrazolones and arylpropionics were the most frequent culprits (39.3% and 37.3%, respectively). Pyrazolones were the most frequent triggers in SNIUAA and arylpropionics in SNIDR. Urticaria was the most common clinical entity in SNIUAA (42.4%) followed by anaphylaxis (33.3%); whereas SNIDR induced mostly fixed drug eruption (41.1%) and maculopapular exanthema (32.6%). The percentage of patients diagnosed by clinical history was higher in SNIUAA compared with SNIDR (62.7% versus 35.3%, p = 0.00015), whereas the percentage of those diagnosed by skin tests was higher in SNIDR than in SNIUAA (47.1% versus 22.8%, p = 0.00015). Drug provocation test with the culprit was performed in 67 SNIUAA (14.5%) and in 9 SNIDR (17.6%) patients. Our results may be of interest not only for allergologists but also for other clinicians dealing with these drugs, and can be useful for the correct identification of subjects experiencing DHRs to NSAIDs, and for avoiding mislabeling. Moreover, as NSAIDs are highly consumed worldwide, our results may be of interest for evaluating other populations exposed to these drugs. Yes

Published
2020

24. Nanoarchitectures for efficient IgE cross‐linking on effector cells to study amoxicillin allergy

Author

Juan L Paris, Sara Benedé, Cristobalina Mayorga, Maria Jose Rodriguez, Maria I. Montañez, Tahia D. Fernandez, María José Torres, Amene Tesfaye, Isabel M. Jiménez-Sánchez, Alba Rodríguez-Nogales, Gador Bogas, [Tesfaye,A, Rodríguez-Nogales,A, Paris,JL, Rodriguez,MJ, Jiménez-Sánchez,IM, Mayorga,C, Torres,MJ, Montañez,MI] Andalusian Centre for Nanomedicine and Biotechnology-BIONAND, Málaga, Spain. [Tesfaye,A, Fernández,TD, Bogas,G, Montañez,MI] Allergy Research Group, Instituto de Investigación Biomédica de Málaga-IBIMA, Málaga, Spain. [Benedé,S] Instituto de Investigación en Ciencias de la Alimentación (CIAL, CSIC-UAM), Madrid, Spain. [Fernández,TD] Departamento de Biología Celular Genética y Fisiología. Facultad de Ciencias, Universidad de Málaga, Málaga, Spain, [Bogas,G, Torres,MJ] Allergy Unit, Hospital Regional Universitario de Málaga, Málaga, Spain. [Torres,MJ] Departamento de Medicina, Facultad de Medicina, Universidad de Málaga, Málaga, Spain., European Union's H2020 research and innovation programme under the Marie Skłodowska-Curie, Grant/Award Number: 713721 Andalusian Regional Ministry Health Grant/Award Number: RC-0004-2021, PI-0699-2011 and PI-0179-2014 Institute of Health 'Carlos III' Grant/Award Number PI12/02529, PI15/01206, PI18/00095, CP15/00103, PI17/01237, PI20/01734, PI20/01447, ARADYAL RD16/0006/0001 and Euronanomed Program AC19/00082, Instituto de Salud Carlos III, Ministerio de Economía y Competitividad (España), European Commission, Junta de Andalucía, European Research Council, Agencia Estatal de Investigación (España), and Ministerio de Ciencia, Innovación y Universidades (España)

Subjects
0301 basic medicine, Hypersensitivity, Immediate, IgE cross‐linking, nanostructure, Immunology, Technology and Food and Beverages::Technology, Industry, and Agriculture::Manufactured Materials::Nanostructures [Medical Subject Headings], Penicillins, hipersensibilidad a las drogas, Immunoglobulin E, Drug Hypersensitivity, 03 medical and health sciences, Mice, Chemicals and Drugs::Organic Chemicals::Amides::Lactams::beta-Lactams::Penicillins::Penicillin G::Ampicillin::Amoxicillin [Medical Subject Headings], 0302 clinical medicine, Antigen, amoxicilina, medicine, Chemicals and Drugs::Organic Chemicals::Amides::Lactams::beta-Lactams [Medical Subject Headings], Immunology and Allergy, Animals, Humans, Chemicals and Drugs::Pharmaceutical Preparations::Drug Combinations [Medical Subject Headings], Drug Allergy, Insect Sting Allergy, and Anaphylaxis, immunocomplex, amoxicillin, biology, medicine.diagnostic_test, Chemistry, Effector, Diseases::Congenital, Hereditary, and Neonatal Diseases and Abnormalities::Genetic Diseases, Inborn::Metabolism, Inborn Errors::Porphyrias::Porphyrias, Hepatic::Porphyria, Variegate [Medical Subject Headings], Radioallergosorbent test, IgE cross-linking, 1. No poverty, Degranulation, Molecular biology, In vitro, 3. Good health, 030104 developmental biology, 030228 respiratory system, Polyclonal antibodies, biology.protein, Original Article, Antibody, ORIGINAL ARTICLES, nanoestructuras, drug allergy
Abstract

[Background]: Amoxicillin (AX) is nowadays the β-lactam that more frequently induces immediate allergic reactions. Nevertheless, diagnosis of AX allergy is occasionally challenging due to risky in vivo tests and non-optimal sensitivity of in vitro tests. AX requires protein haptenation to form multivalent conjugates with increased size to be immunogenic. Knowing adduct structural features for promoting effector cell activation would help to improve in vitro tests. We aimed to identify the optimal structural requirement in specific cellular degranulation to AX using well-precised nanoarchitectures of different lengths., [Method]: We constructed eight Bidendron Antigens (BiAns) based on polyethylene glycol (PEG) linkers of different lengths (600–12,000 Da), end-coupled with polyamidoamine dendrons that were terminally multi-functionalized with amoxicilloyl (AXO). In vitro IgE recognition was studied by competitive radioallergosorbent test (RAST) and antibody–nanoarchitecture complexes by transmission electron microscopy (TEM). Their allergenic activity was evaluated using bone marrow-derived mast cells (MCs) passively sensitized with mouse monoclonal IgE against AX and humanized RBL-2H3 cells sensitized with polyclonal antibodies from sera of AX-allergic patients., [Results]: All BiAns were recognized by AX-sIgE. Dose-dependent activation responses were observed in both cellular assays, only with longer structures, containing spacers in the range of PEG 6000–12,000 Da. Consistently, greater proportion of immunocomplexes and number of antibodies per complex for longer BiAns were visualized by TEM., [Conclusions]: BiAns are valuable platforms to study the mechanism of effector cell activation. These nanomolecular tools have demonstrated the importance of the adduct size to promote effector cell activation in AX allergy, which will impact for improving in vitro diagnostics., The present study was supported by the Institute of Health “Carlos III” (ISCIII) of MINECO (grants cofunded by ERDF: “Una manera de hacer Europa” (grant numbers PI12/02529, PI15/01206, CP15/00103, PI17/01237, PI18/00095, PI20/01734, PI20/01447, RETICS ARADYAL RD16/0006/0001, Euronanomed Program AC19/00082); Andalusian Regional Ministry of Economy and Knowledge (grants cofunded by ERDF: “Andalucía se mueve con Europa”: grant no. CTS-06603); Andalusian Regional Ministry of Health (grant nos PI-0699-2011, PI-0179-2014); and “Premio UNICAJA a la innovación en biomedicina y salud.” AT has received funding from the European Union’s H2020 research and innovation program under the Marie Skłodowska-Curie (grant no. 713721). S.B. acknowledges financial support of Ministerio de Ciencia, Innovación y Universidades from Spain through a Juan de la Cierva Incorporación contract. C.M. holds “Nicolas Monardes” research contract by Andalusian Regional Ministry Health (grant no. RC-0004-2021). G.B. holds a “Juan Rodes” grant (JR18/00054), J.L.P holds a “Sara Borrell” grant (CD19/00250), A.R.N. and M.I.M. hold a “Miguel Servet I” grant (CP19/00191 and CP15/00103), both grants cofunded by European Social Fund (“El FSE invierte en futuro”). Tesfaye reports grants from Marie Skłodowska-Curie [grant No 713721], during the conduct of the study; in addition, Tesfaye has a patent PCT/ES2021/070103 pending. Dr. RODRIGUEZ NOGALES reports grants from ISCIII, during the conduct of the study; in addition, Dr. RODRIGUEZ NOGALES has a patent PCT/ES2021/070103 pending. Dr. Benede reports grants from Ministerio de Ciencia, Innovación y Universidades, during the conduct of the study. Dr. Fernandez reports grants from ISCIII, during the conduct of the study; In addition, Dr. Fernandez has a patent PCT/ES2021/070103 pending. Dr. Paris reports a Sara Borrell fellowship from ISCIII (CD19/00250), cofunded by European Social Fund. Dr. Rodriguez reports grants from ISCIII, during the conduct of the study. JIMÉNEZ-SÁNCHEZ reports grants from MICIN (PEJ2018-002865-A), during the conduct of the study; Dr. BOGAS HERRERA reports grants from ISCIII, during the conduct of the study. Dr. Mayorga reports grants from ISCIII, from Andalusian Regional Ministry Health, during the conduct of the study; in addition, Dr. Mayorga has a patent PCT/ES2021/070103 pending. Dr. Torres reports grants from ISCIII, during the conduct of the study; in addition, Dr. Torres has a patent PCT/ES2021/070103 pending. Dr. Montañez reports grants from ISCIII, during the conduct of the study; in addition, Dr. Montañez has a patent PCT/ES2021/070103 pending.

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25. Lipopolysaccharides in combination with amoxicillin increases basophil activation test sensitivity to amoxicillin IgE-mediated hypersensitivity.

Author

Céspedes JA, Fernández-Santamaría R, Bogas G, Veguillas AA, Doña I, Salas M, Labella M, Fernández Duarte TD, Mayorga C, Torres MJ, and Frecha CA

Subjects
Humans, Anti-Bacterial Agents adverse effects, Amoxicillin adverse effects, Amoxicillin immunology, Immunoglobulin E immunology, Immunoglobulin E blood, Drug Hypersensitivity diagnosis, Drug Hypersensitivity immunology, Basophils immunology, Basophils metabolism, Basophils drug effects, Lipopolysaccharides immunology, Basophil Degranulation Test methods
Published
2024
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26. Basophil activation test is a complementary tool in the diagnosis of immediate reactions to platinum salts and taxanes.

Author

Bogas G, Ariza A, Vázquez-Revuelta P, Labella M, Madrigal-Burgaleta R, Fernández-Santamaría R, Calvo-Serrano S, Villar-Chamorro E, Martín-Clavo S, Lebrón-Martín C, Mayorga C, Doña I, and Torres MJ

Abstract

Background: Delabelling pathways offer confirmatory diagnosis and can prevent unnecessary second-line therapies or drug desensitization procedures after chemotherapeutic hypersensitivity reactions (CHT-HSRs). However, these pathways rely on risky in vivo tests. Data on whether in vitro tests could be helpful are scarce. We assessed the role of basophil activation test (BAT) in the diagnosis of HSRs to platin salts (PSs) and taxanes (TXs) in a well-defined population featuring varied endophenotypes and severities of HSRs., Methods: We conducted a 3-year-long multicentric, prospective study with 121 suspected-immediate CHT-HSR patients. The allergy workup included clinical history (initial reaction based on Type I, cytokine release syndrome, and mixed phenotype's symptoms and if unable to fit in any of these, as "indeterminate"), skin testing (ST), and drug provocation testing (DPT), provided risk assessment was favorable. Final diagnosis classified patients as "hypersensitive," "non-hypersensitive," or "inconclusive." We performed BAT using CD63 and CD203c as activation markers in patients and controls. Patients underwent DPT regardless of BAT results to prevent bias., Results: ST positivity significantly correlated with skin involvement, Type I phenotype, cancer recurrence, and lifetime exposures before reactions. DPTs were negative in all indeterminate phenotype patients (p = .02) and those considered low-risk, whereas they were negative in 62% moderate-risk patients. 55% were confirmed as hypersensitive (mainly Type I reactions, p < .0001), 24% as non-hypersensitive (mainly TXs and indeterminate phenotypes), and 21% as inconclusive. BAT showed 79% sensitivity in Type I IgE-mediated reactions to PSs with a high correlation to ST., Conclusions: BAT is a promising tool for delabelling and endotyping CHT-HSRs, especially Type I reactions to PSs, possibly identifying patients at risk of positive DPT. ST seems useful in confirming CHT-HSRs, especially PS-induced reactions, and DPT remains the gold standard, being essential even in moderate-risk patients., (© 2024 The Author(s). Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2024
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28. Deconstructing Adverse Reactions to Amoxicillin- Clavulanic Acid: The Importance of Time of Onset.

Author

Freundt-Serpa NP, Salas-Cassinello M, Gonzalo-Fernández A, Marchán-Pinedo N, Doña I, Serrano-García I, Humanes-Navarro AM, Bogas G, Labella M, Sánchez-Morillas L, Torres MJ, and Fernández-Rivas M

Subjects
Humans, Female, Male, Middle Aged, Cross-Sectional Studies, Retrospective Studies, Adult, Aged, Anti-Bacterial Agents adverse effects, Anti-Bacterial Agents immunology, Spain epidemiology, Time Factors, Hypersensitivity, Immediate diagnosis, Hypersensitivity, Immediate epidemiology, Hypersensitivity, Delayed diagnosis, Drug Hypersensitivity diagnosis, Drug Hypersensitivity epidemiology, Drug Hypersensitivity etiology, Amoxicillin-Potassium Clavulanate Combination adverse effects, Amoxicillin-Potassium Clavulanate Combination immunology
Abstract

Background and Objective: Amoxicillin-clavulanic acid (AX-CL) is the most consumed ß-lactam antibiotic worldwide. We aimed to establish the different phenotypes of ß-lactam allergy in patients reporting a reaction to AX-CL and to investigate the differences between immediate and nonimmediate onset., Methods: We performed a cross-sectional retrospective study at Hospital Clínico San Carlos (HCSC), Madrid and Hospital Regional Universitario de Málaga (HRUM), Málaga, Spain. We included patients reporting reactions with AX-CL who underwent the allergy workup between 2017 and 2019. Data on the reported reaction and allergy work-up were collected. Reactions were classified as immediate and nonimmediate with a 1-hour cut-off., Results: The study population comprised 372 patients (HCSC 208, HRUM 164). There were 90 immediate reactions (24.2%), 252 nonimmediate reactions (67.7%), and 30 reactions with unknown latency (8.1%). Allergy to ß-lactams was ruled out in 266 patients (71.5%) and confirmed in 106 patients (28.5%). The final main diagnosis in the overall population was allergy to aminopenicillins (7.3%), to CL (7%), to penicillin (6.5%), and to ß-lactams (5.9%). Allergy was confirmed in 77.2% and 14.3% of immediate and nonimmediate reactions, respectively, with a relative risk of 5.06 (95%CI, 3.64-7.02) for an allergy diagnosis in those reporting immediate reactions. Only 2/54 patients with a late-positive intradermal test (IDT) result for CL were diagnosed with CL allergy., Conclusion: Allergy was diagnosed in a minority of the study population. However, given that it was diagnosed 5 times more frequently in patients reporting immediate reactions, this classification proved useful for risk stratification. Late-positive IDT results for CL have no diagnostic value. Therefore, the late IDT reading for CL could be removed from the diagnostic work-up.

Published
2024
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29. Involvement of autologous myeloid dendritic cells in the evaluation of immediate hypersensitivity reactions to betalactams.

Author

Fernandez-Santamaria R, Ariza A, Bogas G, Salas M, Calvo-Serrano S, Frecha C, Mayorga C, Torres MJ, and Fernandez TD

Subjects
Humans, Receptors, CCR7 metabolism, Cytokines metabolism, Amoxicillin metabolism, Clavulanic Acid metabolism, CD40 Antigens, Dendritic Cells metabolism, Hypersensitivity, Immediate, Hypersensitivity metabolism
Abstract

Background: Amoxicillin (AX) and clavulanic acid (CLV) are the betalactam antibiotics (BLs) most used to treat bacterial infections, although they can trigger immediate hypersensitivity reactions (IDHRs). The maturation analysis of monocyte-derived dendritic cells (moDCs) and their capacity to induce proliferative response of lymphocytes are useful to test the sensitisation to a drug, although without optimal sensitivity. Nevertheless, this can be improved using directly isolated DCs such as myeloid DCs (mDCs)., Methods: mDCs and moDCs were obtained from 28 allergic patients (AP), 14 to AX, 14 to CLV and from 10 healthy controls (HC). The expression of CCR7, CD40, CD80, CD83, and CD86 was analysed after stimulation with both BLs. We measured the capacity of these pre-primed DCs to induce drug-specific activation of different lymphocyte subpopulations, CD3 + , CD4 + , CD8 + , CD4 + Th1, and CD4 + Th2, by flow cytometry., Results: Higher expression of CCR7, CD40, CD80, CD83, and CD86 was observed on mDCs compared to moDCs from AP after stimulating with the culprit BL. Similarly, mDCs induced higher proliferative response, mainly of CD4 + Th2 cells, compared to moDCs, reaching up to 67% of positive results with AX, whereas of only 25% with CLV., Conclusions: mDCs from selective AP efficiently recognise the culprit drug which trigger the IDHR. mDCs also trigger proliferation of lymphocytes, mainly those with a Th2 cytokine pattern, although these responses depend on the nature of the drug, mimicking the patient's reaction., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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31. Approach for delabeling beta-lactam allergy in children.

Author

Sáenz de Santa María R, Bogas G, Labella M, Ariza A, Salas M, Doña I, and Torres MJ

Abstract

A considerable number of pediatric patients treated with beta-lactam (BL) antibiotics develop delayed onset of skin rashes during the course of treatment. Although the most frequent cause of these symptoms is infectious, many cases are labeled as allergic reactions to these drugs. BL allergy labels could have a negative impact, as they imply avoidance of this group of drugs and the use of second-line antibiotics, leading to a potential increase in adverse effects and the utilization of less effective therapies. This constitutes a major public health concern and economic burden, as the use of broad-spectrum antibiotics can result in multidrug-resistant organisms and prolonged hospital stays. Therefore, it is crucial to delabel patients during childhood to avoid false labeling in adult life. Although the label of BL allergy is among the most frequent causes of allergy referral, its management remains controversial, and new diagnostic perspectives are changing the paradigm of managing BL allergies in children. Traditionally, drug provocation testing (DPT) was exclusively performed in patients who had previously obtained negative results from skin tests (STs). However, the sensitivity of STs is low, and the role of in vitro testing in the pediatric population is not well defined. Recent studies have demonstrated the safety of direct DPT without prior ST or serum tests for pediatric patients who report a low-risk reaction to BLs, which is cost-effective. However, there is still a debate on the optimal allergic workup to be performed in children with a benign immediate reaction and the management of children with severe cutaneous adverse drug reactions. In this review, we will discuss the impact of the label of BL allergy and the role of the different tools currently available to efficiently address BL allergy delabeling in children., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2023 Sáenz de Santa María, Bogas, Labella, Ariza, Salas, Doña and Torres.)

Published
2023
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32. Diagnosis of immediate reactions to amoxicillin: Comparison of basophil activation markers CD63 and CD203c in a prospective study.

Author

Céspedes JA, Fernández-Santamaría R, Ariza A, Bogas G, Doña I, Rondón C, Salas M, Labella M, Frecha C, Mayorga C, Torres MJ, and Fernández TD

Subjects
Humans, Amoxicillin adverse effects, Prospective Studies, Basophils, Basophil Degranulation Test methods, Clavulanic Acid, Tetraspanin 30, Hypersensitivity, Immediate diagnosis, Anaphylaxis diagnosis, Anaphylaxis etiology
Abstract

Background: Amoxicillin (AX) combined or not with clavulanic acid (CLV) is frequently involved in IgE-mediated reactions. Drug provocation test (DPT) is considered as the gold standard for diagnosis, although contraindicated in high-risk patients. Basophil activation test (BAT) can help diagnose immediate reactions to beta-lactams, although controversy exists regarding the best activation marker. We have performed a real-life study in a prospective cohort to analyze the real value of BAT as diagnostic tool and the best activation marker, CD63 and CD203c, for the evaluation of immediate reactions to these drugs., Methods: We prospectively evaluated patients with a clinical suspicion of immediate reactions after AX or AX-CLV administration during a 6-year period. The allergological work-up was done following the EAACI recommendations. BAT was performed in all patients using CD63 and CD203c as activation markers., Results: In AX-allergic patients, both activation markers, CD63 and CD203c, showed similar SE values (48.6% and 46.7%, respectively); however, specificity was of 81.1% and 94.6%, respectively, with CD203c showing good positive predictive value and like-hood ratio. In CLV-allergic patients, CD203c showed higher SE (50%) than CD63 (42.9%), maintaining the same value of SP (80%). Combining the results of both markers can slightly increase the sensitivity (51.4% for AX and 54.8% for CLV), although decreasing the specificity (79.7% and 73%, respectively). Interestingly, all patients with an anaphylactic shock showed a positive BAT to CLV using CD203c., Conclusions: BAT using CD203c showed a good confirmatory power, especially for AX allergy. Placing BAT as a first step in the diagnostic procedure can help reduce the need of performing a complete allergological work-up in 46.6% of patients, diminishing the risk of reinducing allergic reactions., (© 2022 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2023
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33. Hypersensitivity to gadolinium-based contrast.

Author

Sáenz de Santa María R, Labella M, Bogas G, Doña I, and Torres MJ

Subjects
Humans, Gadolinium adverse effects, Contrast Media adverse effects, Drug Hypersensitivity prevention & control, Hypersensitivity diagnosis, Hypersensitivity complications
Abstract

Purpose of Review: The use of contrast media is increasing in recent decades. Although gadolinium-based contrast agents (GBCAs) are generally well tolerated, adverse reactions, including hypersensitivity reactions (HSRs), although infrequent, may occur. It is important to perform a thorough allergological evaluation in patients with suspected GBCA-HSRs to avoid potentially serious reactions in subsequent exposures., Recent Findings: Data on GBCA-HSRs are scarce. Most published articles dealing with skin tests and drug provocation tests (DPTs) with GBCAs are case series and small cohorts. Controversies exist about the role of premedication for preventing HSRs on subsequent exposures. Selection of well tolerated alternatives is based on potential cross-reactivity among GBCAs; however, the extent of cross-reactivity among them remains unclear., Summary: As premedication is not useful because breakthrough reactions are frequent in patients with GBCA-HSRs in subsequent exposures, an allergological evaluation is required. Available data suggest a high negative predictive value of skin tests, being crucial for guiding the selection of an alternative GBCA. However, DPTs are still necessary to confirm or exclude the diagnosis or find alternative GBCAs. Cross-reactivity is high among GBCAs belonging from the same group, mainly among macrocyclic compounds, so this must be taken into account for selecting alternatives., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2023
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34. Influence of Pore Size in Protein G'-Grafted Mesoporous Silica Nanoparticles as a Serum Pretreatment System for In Vitro Allergy Diagnosis.

Author

Paris JL, Monío C, Pérez-Moreno AM, Jurado-Escobar R, Bogas G, Fernández TD, Montañez MI, Mayorga C, and Torres MJ

Subjects
Humans, Silicon Dioxide, Immunoglobulin G, Immunoglobulin E, Hypersensitivity diagnosis, Nanoparticles
Abstract

Particles with the capacity to bind to immunoglobulin G (IgG) can be used for the purification of IgG or to process clinical samples for diagnostic purposes. For in vitro allergy diagnosis, the high IgG levels in serum can interfere with the detection of allergen-specific IgE, the main diagnostic biomarker. Although commercially available, current materials present a low IgG capture capacity at large IgG concentrations or require complex protocols, preventing their use in the clinic. In this work, mesoporous silica nanoparticles are prepared with different pore sizes, to which IgG-binding protein G' is grafted. It is found that for one particular optimal pore size, the IgG capture capacity of the material is greatly enhanced. The capacity of this material to efficiently capture human IgG in a selective way (compared to IgE) is demonstrated in both solutions of known IgG concentrations as well as in complex samples, like serum, from healthy controls and allergic patients using a simple and fast incubation protocol. Interestingly, IgG removal using the best-performing material enhances in vitro IgE detection in sera from patients allergic to amoxicillin. These results highlight the great translation potential of this strategy to the clinic in the context of in vitro allergy diagnosis., (© 2023 The Authors. Advanced Healthcare Materials published by Wiley-VCH GmbH.)

Published
2023
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35. Resensitization in suspected penicillin allergy.

Author

Doña I, Guidolin L, Bogas G, Olivieri E, Labella M, Schiappoli M, Sáenz de Santa María R, Dama A, Salas M, Senna G, Bonadonna P, and Torres MJ

Subjects
Humans, Skin Tests methods, Immunoglobulin E, Penicillins adverse effects, Sodium Tetradecyl Sulfate, Anti-Bacterial Agents adverse effects, Anaphylaxis diagnosis, Anaphylaxis chemically induced, Drug Hypersensitivity diagnosis
Abstract

Background: The diagnosis of allergic reactions to penicillins (AR-PEN) is very complex as there is a loss of sensitization over time, which leads to negative skin tests (STs) and specific IgE in serum, and even to tolerance to the drug involved. However, STs may become positive after subsequent exposure to the culprit drug (resensitization), with the risk of inducing potentially severe reactions. The exact rate of resensitization to penicillins is unknown, ranging from 0% to 27.9% in published studies., Objectives: To analyze the rate of resensitization in patients with suggestive AR-PEN by repeating STs (retest) after an initial evaluation (IE)., Material and Methods: Patients with suspected AR-PEN were prospectively evaluated between 2017 and 2020. They underwent STs, and a randomized group also underwent a drug provocation test (DPT) with the culprit. Only patients with negative STs and/or DPT were included. All included cases were retested by STs at 2-8 weeks., Results: A total of 545 patients were included: 296 reporting immediate reactions (IRs) and 249 non-immediate reactions (NIRs). Eighty (14.7%) cases had positive results in retest (RT+): 63 (21.3%) IRs and 17 (6.8%) NIRs (p < 0.0001). The rate of RT+ was higher in anaphylaxis compared with all other reactions (45.8% vs 9.1%, p < 0.0001). The risk of RT+ was higher from the fifth week after IE (OR: 4.64, CI: 2.1-11.6; p < 0.001) and increased with the patient's age (OR: 1.02; CI: 1.01-1.04; p = 0.009)., Conclusions: Due to the high rate of resensitization, retest should be included in the diagnostic algorithm of IRs to penicillins after an initial negative study, especially in anaphylaxis, to avoid potentially severe reactions after subsequent prescriptions of these drugs., (© 2022 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2023
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36. Drug-induced Anaphylaxis.

Author

Labella M, de Santa María RS, Bogas G, Salas M, Fernández TD, Mayorga C, Torres MJ, and Doña I

Subjects
Humans, Biomarkers, Allergens, Skin Tests, Anaphylaxis chemically induced, Anaphylaxis diagnosis, Anaphylaxis drug therapy, Drug Hypersensitivity diagnosis, Drug Hypersensitivity therapy, Hypersensitivity, Immediate diagnosis
Abstract

Drug hypersensitivity is increasing worldwide as the consumption of drug is increasing. Many clinical presentations of drug hypersensitivity are complex and take place in the setting of illness and/or polypharmacotherapy. To review the most recent findings in the diagnosis and management of immediate drug hypersensitivity reactions. Studies were selected based on their relevance, originality and date of publication. The understanding of endotypes, biomarkers and phenotypes has improved the categorization of immediate hypersensitivity reactions. In this review, we discussed the short- and long-term management of anaphylaxis with a special focus on in vivo and in vitro diagnostic methods. Moreover, the clinical management of drug-induced anaphylaxis, the role of hidden allergens and the importance of delabeling are discussed. Endophenotyping is crucial to correctly diagnose and treat patients with immediate drug hypersensitivity reactions, preventing future episodes through drug desensitization., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2023
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37. Synthetic antigenic determinants of clavulanic acid induce dendritic cell maturation and specific T cell proliferation in patients with immediate hypersensitivity reactions.

Author

Fernandez-Santamaria R, Bogas G, Montañez MI, Ariza A, Salas M, Cespedes JA, Labella M, Paris JL, Perez-Sanchez N, Perez-Inestrosa E, Vida Y, Fernandez TD, Mayorga C, and Torres MJ

Subjects
Amoxicillin, Cell Proliferation, Clavulanic Acid adverse effects, Dendritic Cells, Epitopes metabolism, Humans, Drug Hypersensitivity, Hypersensitivity, Immediate
Abstract

Background: Immediate drug hypersensitivity reactions (IDHRs) to clavulanic acid (CLV) have increased in the last decades due to a higher consumption alongside amoxicillin (AX). Due to its chemical instability, diagnostic procedures to evaluate IDHRs to CLV are difficult, and current in vitro assays do not have an optimal sensitivity. The inclusion of the specific metabolites after CLV degradation, which are efficiently recognised by the immune system, could help to improve sensitivity of in vitro tests., Methods: Recognition by dendritic cells (DCs) of CLV and the synthetic analogues of two of its hypothesised antigenic determinants (ADs) was evaluated by flow cytometry in 27 allergic patients (AP) and healthy controls (HC). Their ability to trigger the proliferation of T cells was also analysed by flow cytometry., Results: The inclusion of synthetic analogues of CLV ADs, significantly increased the expression of maturation markers on DCs from AP compared to HC. A different recognition pattern could be observed with each AD, and, therefore, the inclusion of both ADs achieves an improved sensitivity. The addition of synthetic ADs analogues increased the proliferative response of CD4 + Th2 compared to the addition of native CLV. The combination of results from both ADs increased the sensitivity of proliferative assays from 19% to 65% with a specificity higher than 90%., Conclusions: Synthetic ADs from CLV are efficiently recognised by DCs with ability to activate CD4 + Th2 cells from AP. The combination of analogues from both ADs, significantly increased the sensitivity of DC maturation and T-cell proliferation compared to native CLV., (© 2022 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2022
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38. Antibiotic Allergy De-Labeling: A Pathway against Antibiotic Resistance.

Author

Doña I, Labella M, Bogas G, Sáenz de Santa María R, Salas M, Ariza A, and Torres MJ

Abstract

Antibiotics are one of the most frequently prescribed drugs. Unfortunately, they also are the most common cause for self-reported drug allergy, limiting the use of effective therapies. However, evidence shows that more than 90% of patients labeled as allergic to antibiotics are not allergic. Importantly, the label of antibiotic allergy, whether real or not, constitutes a major public health problem as it directly impacts antimicrobial stewardship: it has been associated with broad-spectrum antibiotic use, often resulting in the emergence of bacterial resistance. Therefore, an accurate diagnosis is crucial for de-labeling patients who claim to be allergic but are not really allergic. This review presents allergy methods for achieving successful antibiotic allergy de-labeling. Patient clinical history is often inaccurately reported, thus not being able to de-label most patients. In vitro testing offers a complementary approach but it shows limitations. Immunoassay for quantifying specific IgE is the most used one, although it gives low sensitivity and is limited to few betalactams. Basophil activation test is not validated and not available in all centers. Therefore, true de-labeling still relies on in vivo tests including drug provocation and/or skin tests, which are not risk-exempt and require specialized healthcare professionals for results interpretation and patient management. Moreover, differences on the pattern of antibiotic consumption cause differences in the diagnostic approach among different countries. A multidisciplinary approach is recommended to reduce the risks associated with the reported penicillin allergy label.

Published
2022
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39. Detection of Serum-Specific IgE by Fluoro-Enzyme Immunoassay for Diagnosing Type I Hypersensitivity Reactions to Penicillins.

Author

Ariza A, Mayorga C, Bogas G, Gaeta F, Salas M, Valluzzi RL, Labella M, Pérez-Sánchez N, Caruso C, Molina A, Fernández TD, Torres MJ, and Romano A

Subjects
Amoxicillin, Humans, Immunoenzyme Techniques, Immunoglobulin E analysis, Penicillin G, Penicillins adverse effects, Skin Tests, Drug Hypersensitivity diagnosis, Hypersensitivity, Immediate diagnosis
Abstract

Diagnosis of type I hypersensitivity reactions (IgE-mediated reactions) to penicillins is based on clinical history, skin tests (STs), and drug provocation tests (DPTs). Among in vitro complementary tests, the fluoro-enzyme immunoassay (FEIA) ImmunoCAP ® (Thermo-Fisher, Waltham, MA, USA) is the most widely used commercial method for detecting drug-specific IgE (sIgE). In this study, we aimed to analyze the utility of ImmunoCAP ® for detecting sIgE to penicillin G (PG) and amoxicillin (AX) in patients with confirmed penicillin allergy. The study includes 139 and 250 patients evaluated in Spain and Italy, respectively. All had experienced type I hypersensitivity reactions to penicillins confirmed by positive STs. Additionally, selective or cross-reactive reactions were confirmed by DPTs in a subgroup of patients for further analysis. Positive ImmunoCAP ® results were 39.6% for PG and/or AX in Spanish subjects and 52.4% in Italian subjects. When only PG or AX sIgE where analyzed, the percentages were 15.1% and 30.4%, respectively, in Spanish patients; and 38.9% and 46% in Italian ones. The analysis of positive STs showed a statistically significant higher percentage of positive STs to PG determinants in Italian patients. False-positive results to PG (16%) were detected in selective AX patients with confirmed PG tolerance. Low and variable sensitivity values observed in a well-defined population with confirmed allergy diagnosis, as well as false-positive results to PG, suggest that ImmunoCAP ® is a diagnostic tool with relevant limitations in the evaluation of subjects with type I hypersensitivity reactions to penicillins.

Published
2022
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40. Diagnostic Approach of Hypersensitivity Reactions to Cefazolin in a Large Prospective Cohort.

Author

Bogas G, Doña I, Dionicio J, Fernández TD, Mayorga C, Boteanu C, Montañez MI, Al-Ahmad M, Rondón C, Moreno E, Laguna JJ, and Torres MJ

Subjects
Basophil Degranulation Test, Cefazolin, Humans, Prospective Studies, Skin Tests, Drug Hypersensitivity diagnosis, Drug Hypersensitivity epidemiology, Hypersensitivity, Immediate diagnosis
Abstract

Background: Cefazolin is a common trigger of perioperative anaphylaxis. The diagnostic approach is controversial because the optimal concentration for skin testing is uncertain, drug provocation tests (DPTs) are contraindicated in severe reactions, and in vitro tests are not thoroughly validated., Objective: We aimed to characterize a large number of patients reporting cefazolin allergic reactions and to analyze the diagnostic role of in vivo and in vitro tests., Methods: We prospectively evaluated patients with suspicion for allergic reactions to cefazolin by clinical history, skin tests (STs), and, if negative, DPT. In a subgroup of patients, basophil activation test (BAT) and radioallergosorbent test were done before allergologic workup was performed and the final diagnosis was achieved., Results: We evaluated 184 patients, 76 of whom were confirmed as allergic (41.3%), 90 were nonallergic (48.9%), and 18 were nonconfirmed (9.8%). All patients reporting anaphylactic shock and most reporting anaphylaxis were confirmed to be allergic (P < .001). Forty allergic patients (52.6%) were confirmed by STs, 22 by DPT (28.9%), and 14 by clinical history (18.4%). All subjects manifesting exanthemas and pruritus were nonallergic. The BAT sensitivity was 66.7% when CD63 and CD203c were combined as activation markers. Six of 8 patients with negative STs and positive DPT had a positive BAT., Conclusions: Patients allergic to cefazolin often reported severe immediate-type reactions. Skin tests enabled a diagnosis in half of patients when using cefazolin at 20 mg/mL. Unfortunately, DPT could not be performed in all patients owing to reaction severity, which makes BAT a promising diagnostic tool. Further research is needed to clarify the underlying mechanisms, especially in severe reactions., (Copyright © 2021 American Academy of Allergy, Asthma & Immunology. Published by Elsevier Inc. All rights reserved.)

Published
2021
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41. Nanoarchitectures for efficient IgE cross-linking on effector cells to study amoxicillin allergy.

Author

Tesfaye A, Rodríguez-Nogales A, Benedé S, Fernández TD, Paris JL, Rodriguez MJ, Jiménez-Sánchez IM, Bogas G, Mayorga C, Torres MJ, and Montañez MI

Subjects
Amoxicillin, Animals, Humans, Immunoglobulin E, Mice, Penicillins, Drug Hypersensitivity diagnosis, Hypersensitivity, Immediate
Abstract

Background: Amoxicillin (AX) is nowadays the β-lactam that more frequently induces immediate allergic reactions. Nevertheless, diagnosis of AX allergy is occasionally challenging due to risky in vivo tests and non-optimal sensitivity of in vitro tests. AX requires protein haptenation to form multivalent conjugates with increased size to be immunogenic. Knowing adduct structural features for promoting effector cell activation would help to improve in vitro tests. We aimed to identify the optimal structural requirement in specific cellular degranulation to AX using well-precised nanoarchitectures of different lengths., Method: We constructed eight Bidendron Antigens (BiAns) based on polyethylene glycol (PEG) linkers of different lengths (600-12,000 Da), end-coupled with polyamidoamine dendrons that were terminally multi-functionalized with amoxicilloyl (AXO). In vitro IgE recognition was studied by competitive radioallergosorbent test (RAST) and antibody-nanoarchitecture complexes by transmission electron microscopy (TEM). Their allergenic activity was evaluated using bone marrow-derived mast cells (MCs) passively sensitized with mouse monoclonal IgE against AX and humanized RBL-2H3 cells sensitized with polyclonal antibodies from sera of AX-allergic patients., Results: All BiAns were recognized by AX-sIgE. Dose-dependent activation responses were observed in both cellular assays, only with longer structures, containing spacers in the range of PEG 6000-12,000 Da. Consistently, greater proportion of immunocomplexes and number of antibodies per complex for longer BiAns were visualized by TEM., Conclusions: BiAns are valuable platforms to study the mechanism of effector cell activation. These nanomolecular tools have demonstrated the importance of the adduct size to promote effector cell activation in AX allergy, which will impact for improving in vitro diagnostics., (© 2021 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published
2021
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42. Single-dose prolonged drug provocation test, without previous skin testing, is safe for diagnosing children with mild non-immediate reactions to beta-lactams.

Author

Prieto A, Muñoz C, Bogas G, Fernández-Santamaría R, Palomares F, Mayorga C, Salas M, Doña I, and Torres MJ

Subjects
Adolescent, Anti-Bacterial Agents, Child, Child, Preschool, Humans, Infant, Infant, Newborn, Skin Tests, beta-Lactams adverse effects, Drug Hypersensitivity diagnosis, Drug Hypersensitivity epidemiology, Pharmaceutical Preparations
Abstract

Introduction: Mild non-immediate reactions (NIRs) to beta-lactams (BLs) are the most frequent manifestation of drug allergy in children. The diagnostic approach is complex as the utility of skin tests (STs) and lymphocyte transformation tests (LTTs) is controversial. Drug provocation test (DPT) is the gold standard, although no standardized protocols exist. We aimed to investigate the utility of DPT in a unique dose without previous STs, and LTTs in the diagnosis of NIRs to BLs in children., Methods: We prospectively evaluated children 0-14 years old referred to the Regional University Hospital of Málaga during 2017-2020 reporting NIRs to BLs. We performed a DPT with a unique dose followed by regular treatment at home. If positive, STs and LTTs were done after the reaction had disappeared., Results: We included 194 children, having 24 (12.4%) a positive DPT. The main culprit was AX (70.1%) followed by AX-clavulanic acid (CLV) (26.8%) and the main symptoms maculopapular exanthema (MPE) (49.5%) and delayed-urticaria (48.5%). A decrease (p = 0.013) in the interval of days between drug administration and onset of symptoms was observed in positive DPT compared with the original reaction (3.5 vs 6 days), with no differences in the overall percentage of MPE and delayed-appearing urticaria (p = 0.551). No severe reactions occurred during DPT. Moreover, STs were positive in 13.33% and LTTs in 52.9%., Conclusions: Single-dose DPT without previous STs is a safe and useful way to assess NIRs to BLs in children. LTT has shown to be useful, confirming a T-cell mechanism involved in these reactions., (© 2021 European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2021
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44. Dendritic cells inclusion and cell-subset assessment improve flow-cytometry-based proliferation test in non-immediate drug hypersensitivity reactions.

Author

Fernandez-Santamaria R, Bogas G, Palomares F, Salas M, Fernandez TD, Jimenez I, Barrionuevo E, Doña I, Torres MJ, and Mayorga C

Subjects
Cell Proliferation, Dendritic Cells, Humans, Lymphocyte Activation, Drug Hypersensitivity diagnosis, Hypersensitivity, Immediate
Abstract

Background: Lymphocyte transformation test (LTT) has been widely used to evaluate non-immediate drug hypersensitivity reactions (NIDHRs). However, the lack of standardization and the low sensitivity have limited its routine diagnostic use. The drug presentation by dendritic cells (DCs) and the assessment of proliferation on effector cells have shown promising results. Flow-cytometry-based methods can help apply these improvements. We aimed to assess the added value of using drug-primed-DCs and the determination of the proliferative response of different lymphocyte subpopulations in NIDHRs., Methods: Patients with confirmed NIDHR were evaluated by both conventional (C-LTT) and with drug-primed-DCs LTT (dDC-LTT)analysing the proliferative response in T cells and other effector cell subpopulations by using the fluorescent molecule, carboxyfluorescein diacetate succinimidyl ester (CFSE)., Results: The C-LTT showed a significantly lower sensitivity (29.4%) compared with dDC-LTT (61.8%), which was confirmed analysing each particular clinical entity: SJS-TEN (62.5% vs 87.5%), MPE (15% vs 47.4%) and AGEP (33% vs 80%). When including the effector cell subpopulations involved in each clinical entity, CD3 + +CD4 + T h 1 or CD3 + +NK cells in SJS-TEN, CD3 + +CD4 + T h 1+NK cells in MPE and CD3 + +NK cells in AGEP, we could significantly increase the sensitivity of the in vitro test to 100%, 68.4% and 100%, respectively, with an overall sensitivity of 87% and 85% of specificity in NIDHR., Conclusions: The use of a flow-cytometry-based test, DCs as drug presenting cells, and focusing on effector cell subpopulations for each clinical entity significantly improved the drug-specific proliferative response in NIDHRs with a unique cellular in vitro test., (© 2021 European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2021
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45. Systematic evaluation of allergic phenotypes of rhinitis in children and adolescents.

Author

Prieto A, Rondón C, Eguiluz-Gracia I, Muñoz C, Testera-Montes A, Bogas G, Nuñez Cuadros E, Campo P, and Torres MJ

Subjects
Adolescent, Allergens, Child, Child, Preschool, Female, Humans, Male, Nasal Provocation Tests, Phenotype, Skin Tests, Rhinitis diagnosis, Rhinitis epidemiology, Rhinitis, Allergic diagnosis, Rhinitis, Allergic epidemiology
Abstract

Background: Three allergic phenotypes of rhinitis have been described in adults: allergic rhinitis (AR), local allergic rhinitis (LAR), and dual allergic rhinitis (DAR, coexistence of AR and LAR). Nevertheless, most centers follow a diagnostic approach only based on skin prick test and serum allergen-specific IgE (collectively called atopy tests, AT). This approach prevents the recognition of LAR and DAR, the diagnosis of which requires a nasal allergen challenge (NAC). Here, we investigate the existence of LAR and DAR phenotypes in children and adolescents, and the misdiagnosis rate associated with a work-up exclusively based on AT., Methods: Clinical data were obtained during physician-conducted interviews, and AT and NAC were systematically performed in 5- to 18-year-old patients with chronic rhinitis. The misdiagnosis rate was defined as the proportion of cases where AT and NAC results were discordant., Results: A total of 173 patients (mean age 15.1 years, 39.9% male) completed the study. AR (positive AT and NAC), LAR (negative AT and positive NAC), DAR (positive AT and NAC for some allergens and negative AT and positive NAC for other allergens), and non-allergic rhinitis (negative NAC) were diagnosed in 45.7%, 24.9%, 11.6%, and 17.9% of individuals, respectively. The clinical profile was comparable among allergic phenotypes, but allergic patients had a significantly earlier rhinitis onset, higher conjunctivitis prevalence, and more severe disease than NAR individuals. A diagnostic work-up exclusively based on AT misclassified 37.6% of patients., Conclusions: LAR and DAR represent relevant differential diagnosis in pediatric rhinitis. NAC increases the diagnostic accuracy of clinical algorithms for rhinitis in children and adolescents., (© 2021 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published
2021
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46. The Role of Benzylpenicilloyl Epimers in Specific IgE Recognition.

Author

Mayorga C, Montañez MI, Najera F, Bogas G, Fernandez TD, Gil DR, Palacios R, Torres MJ, Vida Y, and Perez-Inestrosa E

Abstract

The high prevalence of allergy to β-lactam antibiotics is a worldwide issue. Accuracy of diagnostic methods is important to prove tolerance or allergy, with skin test considered the best validated in vivo method for diagnosing immediate reactions to β-lactams. Although drug provocation test is the reference standard, it cannot be performed in highly risk reactions or in those with positive skin tests. For skin tests, the inclusion of major and minor determinants of benzylpenicillin (BP) is recommended. Commercial skin test reagents have changed along time, including as minor determinants benzylpenicillin, benzylpenicilloate (BPO), and benzylpenilloate (PO). Major determinants consists of multivalent conjugates of benzylpenicilloyl coupled through amide bond to a carrier polymer, such as penicilloyl-polylysine (PPL) or benzylpenicilloyl-octalysine (BP-OL). The chemical stability of such reagents has influenced the evolution of the composition of the commercial kits, as this requirement is necessary for improving the quality and standardization of the product. In this work, we provide a detailed study of the chemical stability of BP determinants. We observed that those structures suffer from an epimerization process in C-5 at different rates. Butylamine-Benzylpenicilloyl conjugates (5 R ,6 R )-Bu-BPO and (5 S ,6 R )-Bu-BPO were selected as a simple model for mayor determinant to evaluate the role of the different epimers in the immunoreactivity with sera from penicillin-allergic patients. In vitro immunoassays indicate that any change in the chemical structure of the antigenic determinant of BP significantly affects IgE recognition. The inclusion of stereochemically pure compounds or mixtures may have important implications for both the reproducibility and sensitivity of in vivo and in vitro diagnostic tests., Competing Interests: The authors collaborate in research grants with Diater Laboratories (Madrid, Spain)., (Copyright © 2021 Mayorga, Montañez, Najera, Bogas, Fernandez, Gil, Palacios, Torres, Vida, Perez-Inestrosa.)

Published
2021
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48. Penicillin and cephalosporin cross-reactivity: role of side chain and synthetic cefadroxil epitopes.

Author

Bogas G, Mayorga C, Martín-Serrano Á, Fernández-Santamaría R, Jiménez-Sánchez IM, Ariza A, Barrionuevo E, Posadas T, Salas M, Fernández TD, Torres MJ, and Montañez MI

Abstract

Background: Analysis of cross-reactivity is necessary for prescribing safe cephalosporins for penicillin allergic patients. Amoxicillin (AX) is the betalactam most often involved in immediate hypersensitivity reactions (IHRs), and cefadroxil (CX) the most likely cephalosporin to cross-react with AX, since they share the same R1 side chain, unlike cefuroxime (CO), with a structurally different R1. We aimed to analyse cross-reactivity with CX and CO in patients with confirmed IHRs to AX, including sIgE recognition to AX, CX, CO, and novel synthetic determinants of CX., Methods: Fifty-four patients with confirmed IHRs to AX based on skin test (ST) and/or drug provocation test (DPT) were included. Serum sIgE to AX and benzylpenicillin was determined by Radioallergosorbent test (RAST). Two potential determinants of CX, involving intact or modified R1 structure, with open betalactam ring, were synthesised and sIgE evaluated by RAST inhibition assay., Results: Tolerance to CX (Group A) was observed in 64.8% cases and cross-reactivity in 35.2% cases (Group B). Cross-reactivity with CO was only found in 1.8% cases from Group B. ST to CX showed a negative predictive value of 94.6%. RAST inhibition assays showed higher recognition to CX as well as to both synthetic determinants (66% of positive cases) in Group B., Conclusions: Cross-reactivity with CX in AX allergic patients is 35%, being ST not enough for prediction. R1, although critical for recognition, is not the unique factor. The synthetic determinants of CX, 1-(HOPhG-Ser-Bu) and 2-(pyrazinone) are promising tools for determining in vitro cross-reactivity to CX in AX allergic patients.

Published
2020
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49. Advances and novel developments in drug hypersensitivity diagnosis.

Author

Ariza A, Mayorga C, Bogas G, Barrionuevo E, Torres MJ, Doña I, and Fernandez TD

Subjects
Humans, In Vitro Techniques, Skin Tests, Drug Hypersensitivity diagnosis, Hypersensitivity, Immediate
Abstract

A correct diagnosis of drug hypersensitivity reactions (DHRs) is very important for both the patient and health system. However, DHRs diagnosis is complex, time consuming, requires trained personnel, is not standardized for many drugs, involves procedures not exempt of risk, and in most cases lacks standardized in vivo and in vitro tests. Thus, there is an urgent need for improving the different approaches to diagnose patients with suspected DHRs. In this review, we have analyzed the advances performed in immediate and nonimmediate DHRs diagnosis during the last two years and obtained several conclusions: the significant heterogeneity in current practice among centers illustrates the need to re-evaluate, update, and standardize in vivo tests and protocols for the diagnosis and management of patients with suspected drug allergy. Regarding in vitro tests, the latest studies have focused on increasing their sensitivity or on establishing the sensitivity and specificity for the tests performed with new drugs. There seems to be a consensus about combining in vivo and in vitro tests as the best way to increase the diagnostic accuracy., (© 2020 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published
2020
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50. Phenotyping peach-allergic patients sensitized to lipid transfer protein and analysing severity biomarkers.

Author

Bogas G, Muñoz-Cano R, Mayorga C, Casas R, Bartra J, Pérez N, Pascal M, Palomares F, Torres MJ, and Gómez F

Subjects
Allergens, Antigens, Plant, Biomarkers, Carrier Proteins, Cross Reactions, Humans, Plant Proteins, Food Hypersensitivity diagnosis, Food Hypersensitivity epidemiology, Prunus persica
Abstract

Background: Patients with peach allergy due to nsLTP sensitization constitute a heterogeneous group in terms of sensitization profile and severity. This could be due to the presence of additional allergies to pollens. The aim of this study was to analyse the clinical characteristics, sensitization profile and severity of reactions in peach-allergic patients sensitized to nsLTP from two Mediterranean areas with different pollen exposure., Methods: Patients with diagnosis of LTP allergy from the Allergy Unit of Hospital Regional Universitario de Malaga (HRUM) and Hospital Clinic de Barcelona (HCB) were prospectively included and classified into two groups; (a) LTP-monoallergic: those that presented reaction only with peach and (b) LTP-Allergy: those that presented reaction with peach and at least another plant-food containing LTP., Results: A total of 252 patients were included, 235 (93.2%) had LTP-syndrome and 17 (6.8%) were LTP-monoallergic. We found a higher percentage of anaphylaxis and delayed onset of symptoms in the LTP-monoallergic group (P = .02 and P = .04, respectively). Moreover, anaphylaxis was less frequent in patients with profilin sensitization (P = .03). The comparison of patients' data from HRUM with data from HCB showed differences in sensitization to olive tree pollen and profilin (P = .01 and P = .001, respectively)., Conclusion: This study was undertaken to characterize two large group of subjects from to two regions with differing exposures to pollen. We found that more than 90% of peach-allergic patients in both populations evolved to LTP-Allergy and showed an early onset. Profilin sensitization could be more useful as a severity biomarker than the number of nsLTP, aeroallergen sensitizations or sIgE levels. This could provide clues regarding sensitization and severity patterns that might be relevant in other geographical areas., (© 2020 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published
2020
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