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2. VPM1002 as Prophylaxis Against Severe Respiratory Tract Infections Including Coronavirus Disease 2019 in the Elderly: A Phase 3 Randomized, Double-Blind, Placebo-Controlled, Multicenter Clinical Study.

Author

Blossey, A.M., Brückner, S., May, M., Parzmair, G.P., Sharma, H., Shaligram, U., Grode, L., Kaufmann, S.H., Netea, M.G., Schindler, C., Blossey, A.M., Brückner, S., May, M., Parzmair, G.P., Sharma, H., Shaligram, U., Grode, L., Kaufmann, S.H., Netea, M.G., and Schindler, C.

Abstract

Item does not contain fulltext, BACKGROUND: Bacille Calmette-Guérin (BCG) vaccination can potentially reduce the rate of respiratory infections in vulnerable populations. This study evaluates the safety and efficacy of VPM1002 (a genetically modified BCG) as prophylaxis against severe respiratory tract infections including coronavirus disease 2019 (COVID-19) in an elderly population. METHODS: In this phase 3, randomized, double-blind, placebo-controlled, multicenter clinical trial, healthy elderly volunteers (N = 2064) were enrolled, randomized (1:1) to receive either VPM1002 or placebo, and followed up remotely for 240 days. The primary outcome was the mean number of days with severe respiratory infections at hospital and/or at home. Secondary endpoints included the incidence of self-reported fever, number of hospital and intensive care unit (ICU) admissions, and number of adverse events. RESULTS: A total of 31 participants in the VPM1002 group reported at least 1 day with severe respiratory disease and a mean number of days with severe respiratory disease of 9.39 ± 9.28 while in the placebo group; 38 participants reported a mean of 14.29 ± 16.25 days with severe respiratory disease. The incidence of self-reported fever was lower in the VPM1002 group (odds ratio, 0.46 [95% confidence interval, .28-.74]; P = .001), and consistent trends to fewer hospitalization and ICU admissions due to COVID-19 were observed after VPM1002 vaccination. Local reactions typical for BCG were observed in the VPM1002-vaccinated group, which were mostly of mild intensity. CONCLUSIONS: Vaccination with VPM1002 is well tolerated and seems to have a prophylactic effect against severe respiratory disease in the elderly. CLINICAL TRIALS REGISTRATION: NCT04435379.

Published
2023

4. Video Endoscopy-Guided Intrabronchial Spray Inoculation of Mycobacterium bovis in Goats and Comparative Assessment of Lung Lesions With Various Imaging Methods

Author

Wedlich, N., Figl, J., Liebler-Tenorio, E., Köhler, H., von Pückler, K., Rissmann, M., Petow, S., Barth, S., Reinhold, P., Ulrich, R., Grode, L., Kaufmann, S., and Menge, C.

Subjects
General Veterinary
Abstract

Bovine tuberculosis (bTB) not only poses a zoonotic threat to humans but also has a significant economic impact on livestock production in many areas of the world. Effective vaccines for humans, livestock, and wildlife are highly desirable to control tuberculosis. Suitable large animal models are indispensable for meaningful assessment of vaccine candidates. Here, we describe the refinement of an animal model for bTB in goats. Intrabronchial inoculation procedure via video-guided endoscopy in anesthetized animals, collection of lungs after intratracheal fixation in situ, and imaging of lungs by computed tomography (CT) were established in three goats using barium sulfate as surrogate inoculum. For subsequent infection experiments, four goats were infected with 4.7 × 102 colony-forming units of M. bovis by intrabronchial inoculation using video-guided endoscopy with spray catheters. Defined amounts of inoculum were deposited at five sites per lung. Four age-matched goats were mock-inoculated. None of the goats developed clinical signs until they were euthanized 5 months post infection, but simultaneous skin testing confirmed bTB infection in all goats inoculated with M. bovis. In tissues collected at necropsy, M. bovis was consistently re-isolated from granulomas in lymph nodes, draining the lungs of all the goats infected with M. bovis. Further dissemination was observed in one goat only. Pulmonary lesions were quantified by CT and digital 2D radiography (DR). CT revealed mineralized lesions in all the infected goats ranging from 10 mm in diameter. Small lesions M. bovis. CT, but not DR, presented as a highly sensitive method to quantify the extent of pulmonary lesions. This goat model of TB may serve as a model for testing TB vaccine efficacy.

Published
2022
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6. ESICM LIVES 2016: part one: Milan, Italy. 1-5 October 2016

Author

Bos, L., Schouten, L., van Vught, L., Wiewel, M., Ong, D., Cremer, O., Artigas, A., Martin-Loeches, I., Hoogendijk, A., van der Poll, T., Horn, J., Juffermans, N., Schultz, M., de Prost, N., Pham, T., Carteaux, G., Dessap, A. Mekontso, Brun-Buisson, C., Fan, E., Bellani, G., Laffey, J., Mercat, A., Brochard, L., Maitre, B., Howells, P. A., Thickett, D. R., Knox, C., Park, D. P., Gao, F., Tucker, O., Whitehouse, T., McAuley, D. F., Perkins, G. D., Pham, T., Laffey, J., Bellani, G., Fan, E., Pisani, L., Roozeman, J. P., Simonis, F. D., Giangregorio, A., Schouten, L. R., Van der Hoeven, S. M., Horn, J., Neto, A. Serpa, Festic, E., Dondorp, A. M., Grasso, S., Bos, L. D., Schultz, M. J., Koster-Brouwer, M., Verboom, D., Scicluna, B., van de Groep, K., Frencken, J., Schultz, M., van der Poll, T., Bonten, M., Cremer, O., Ko, J. I., Kim, K. S., Suh, G. J., Kwon, W. Y., Kim, K., Shin, J. H., Ranzani, O. T., Prina, E., Menendez, R., Ceccato, A., Mendez, R., Cilloniz, C., Gabarrus, A., Ferrer, M., Torres, A., Urbano, A., Zhang, L. A., Swigon, D., Pike, F., Parker, R. S., Clermont, G., Scheer, C., Kuhn, S. O., Modler, A., Vollmer, M., Fuchs, C., Hahnenkamp, K., Rehberg, S., Gründling, M., Taggu, A., Darang, N., Öveges, N., László, I., Tánczos, K., Németh, M., Lebák, G., Tudor, B., Érces, D., Kaszaki, J., Huber, W., Trásy, D., Molnár, Z., Ferrara, G., Edul, V. S. Kanoore, Canales, H. S., Martins, E., Canullán, C., Murias, G., Pozo, M. O., Eguillor, J. F. Caminos, Buscetti, M. G., Ince, C., Dubin, A., Aya, H. D., Rhodes, A., Fletcher, N., Grounds, R. M., Cecconi, M., Jacquet-Lagrèze, M., Riche, M., Schweizer, R., Portran, P., Fornier, W., Lilot, M., Neidecker, J., Fellahi, J. L., Escoresca-Ortega, A., Gutiérrez-Pizarraya, A., Charris-Castro, L., Corcia-Palomo, Y., Fernandez-Delgado, E., Garnacho-Montero, J., Roger, C., Muller, L., Elotmani, L., Lipman, J., Lefrant, J. Y., Roberts, J. A., Muñoz-Bermúdez, R., Samper, M., Climent, C., Vasco, F., Sara, V., Luque, S., Campillo, N., Cerrato, S. Grau, Masclans, J. R., Alvarez-Lerma, F., Brugger, S. Carvalho, Jimenez, G. Jimenez, Torner, M. Miralbés, Cabello, J. Trujillano, Garrido, B. Balsera, Casals, X. Nuvials, Gaite, F. Barcenilla, Vidal, M. Vallverdú, Martínez, M. Palomar, Gusarov, V., Shilkin, D., Dementienko, M., Nesterova, E., Lashenkova, N., Kuzovlev, A., Zamyatin, M., Demoule, A., Carreira, S., Lavault, S., Palancca, O., Morawiec, E., Mayaux, J., Arnulf, I., Similowski, T., Rasmussen, B. S., Maltesen, R. G., Hanifa, M., Pedersen, S., Kristensen, S. R., Wimmer, R., Panigada, M., Bassi, G. Li, Ranzani, O. T., Kolobow, T., Zanella, A., Cressoni, M., Berra, L., Parrini, V., Kandil, H., Salati, G., Livigni, S., Amatu, A., Andreotti, A., Tagliaferri, F., Moise, G., Mercurio, G., Costa, A., Vezzani, A., Lindau, S., Babel, J., Cavana, M., Consonni, D., Pesenti, A., Gattinoni, L., Torres, A., Mansouri, P., Zand, F., Zahed, L., Dehghanrad, F., Bahrani, M., Ghorbani, M., Cambiaghi, B., Moerer, O., Mauri, T., Kunze-Szikszay, N., Ritter, C., Pesenti, A., Quintel, M., Vilander, L. M., Kaunisto, M. A., Vaara, S. T., Pettilä, V., Mulier, J. L. G. Haitsma, Rozemeijer, S., Spoelstra-de Man, A. M. E., Elbers, P. E., Tuinman, P. R., de Waard, M. C., Oudemans-van Straaten, H. M., Liberatore, A. M. A., Souza, R. B., Martins, A. M. C. R. P. F., Vieira, J. C. F., Koh, I. H. J., Martínez, M. Galindo, Sánchez, R. Jiménez, Gascón, L. Martínez, Mulero, M. D. Rodríguez, Freire, A. Ortín, Muñoz, A. Ojados, Acebes, S. Rebollo, Martínez, Á. Fernández, Aliaga, S. Moreno, Para, L. Herrera, Payá, J. Murcia, Mulero, F. Rodríguez, Guerci, P., Ince, Y., Heeman, P., Ergin, B., Ince, C., Uz, Z., Massey, M., Ince, Y., Papatella, R., Bulent, E., Guerci, P., Toraman, F., Ince, C., Longbottom, E. R., Torrance, H. D., Owen, H. C., Hinds, C. J., Pearse, R. M., O’Dywer, M. J., Trogrlic, Z., van der Jagt, M., Lingsma, H., Ponssen, H. H., Schoonderbeek, J. F., Schreiner, F., Verbrugge, S. J., Duran, S., van Achterberg, T., Bakker, J., Gommers, D. A. M. P. J., Ista, E., Krajčová, A., Waldauf, P., Duška, F., Shah, A., Roy, N., McKechnie, S., Doree, C., Fisher, S., Stanworth, S. J., Jensen, J. F., Overgaard, D., Bestle, M. H., Christensen, D. F., Egerod, I., Pivkina, A., Gusarov, V., Zhivotneva, I., Pasko, N., Zamyatin, M., Jensen, J. F., Egerod, I., Bestle, M. H., Christensen, D. F., Alklit, A., Hansen, R. L., Knudsen, H., Grode, L. B., Overgaard, D., Hravnak, M., Chen, L., Dubrawski, A., Clermont, G., Pinsky, M. R., Parry, S. M., Knight, L. D., Connolly, B. C., Baldwin, C. E., Puthucheary, Z. A., Denehy, L., Hart, N., Morris, P. E., Mortimore, J., Granger, C. L., Jensen, H. I., Piers, R., Van den Bulcke, B., Malmgren, J., Metaxa, V., Reyners, A. K., Darmon, M., Rusinova, K., Talmor, D., Meert, A. P., Cancelliere, L., Zubek, L., Maia, P., Michalsen, A., Decruyenaere, J., Kompanje, E., Vanheule, S., Azoulay, E., Vansteelandt, S., Benoit, D., Van den Bulcke, B., Piers, R., Jensen, H. I., Malmgren, J., Metaxa, V., Reyners, A. K., Darmon, M., Rusinova, K., Talmor, D., Meert, A. P., Cancelliere, L., Zubek, L., Maia, P., Michalsen, A., Decruyenaere, J., Kompanje, E., Vanheule, S., Azoulay, E., Vansteelandt, S., Benoit, D., Ryan, C., Dawson, D., Ball, J., Noone, K., Aisling, B., Prudden, S., Ntantana, A., Matamis, D., Savvidou, S., Giannakou, M., Gouva, M., Nakos, G., Koulouras, V., Aron, J., Lumley, G., Milliken, D., Dhadwal, K., McGrath, B. A., Lynch, S. J., Bovento, B., Sharpe, G., Grainger, E., Pieri-Davies, S., Wallace, S., McGrath, B., Lynch, S. J., Bovento, B., Grainger, E., Pieri-Davies, S., Sharpe, G., Wallace, S., Jung, M., Cho, J., Park, H., Suh, G., Kousha, O., Paddle, J., Gripenberg, L. Gamrin, Rehal, M. Sundström, Wernerman, J., Rooyackers, O., de Grooth, H. J., Choo, W. P., Spoelstra-de Man, A. M., Swart, E. L., Oudemans-van Straaten, H. M., Talan, L., Güven, G., Altıntas, N. D., Padar, M., Uusvel, G., Starkopf, L., Starkopf, J., Blaser, A. Reintam, Kalaiselvan, M. S., Arunkumar, A. S., Renuka, M. K., Shivkumar, R. L., Volbeda, M., ten Kate, D., Hoekstra, M., van der Maaten, J. M., Nijsten, M. W., Komaromi, A., Rooyackers, O., Wernerman, J., Norberg, Å., Smedberg, M., Mori, M., Pettersson, L., Norberg, Å., Rooyackers, O., Wernerman, J., Theodorakopoulou, M., Christodoulopoulou, T., Diamantakis, A., Frantzeskaki, F., Kontogiorgi, M., Chrysanthopoulou, E., Lygnos, M., Diakaki, C., Armaganidis, A., Gundogan, K., Dogan, E., Coskun, R., Muhtaroglu, S., Sungur, M., Ziegler, T., Guven, M., Kleyman, A., Khaliq, W., Andreas, D., Singer, M., Meierhans, R., Schuepbach, R., De Brito-Ashurst, I., Zand, F., Sabetian, G., Nikandish, R., Hagar, F., Masjedi, M., Maghsudi, B., Vazin, A., Ghorbani, M., Asadpour, E., Kao, K. C., Chiu, L. C., Hung, C. Y., Chang, C. H., Li, S. H., Hu, H. C., El Maraghi, S., Ali, M., Rageb, D., Helmy, M., Marin-Corral, J., Vilà, C., Masclans, J. R., Vàzquez, A., Martín-Loeches, I., Díaz, E., Yébenes, J. C., Rodriguez, A., Álvarez-Lerma, F., Varga, N., Cortina-Gutiérrez, A., Dono, L., Martínez-Martínez, M., Maldonado, C., Papiol, E., Pérez-Carrasco, M., Ferrer, R., Nweze, K., Morton, B., Welters, I., Houard, M., Voisin, B., Ledoux, G., Six, S., Jaillette, E., Nseir, S., Romdhani, S., Bouneb, R., Loghmari, D., Aicha, N. Ben, Ayachi, J., Meddeb, K., Chouchène, I., Khedher, A., Boussarsar, M., Chan, K. S., Yu, W. L., Marin-Corral, J., Vilà, C., Masclans, J. R., Nolla, J., Vidaur, L., Bonastre, J., Suberbiola, B., Guerrero, J. E., Rodriguez, A., Coll, N. Ramon, Jiménez, G. Jiménez, Brugger, S. Carvalho, Calero, J. Codina, Garrido, B. Balsera, García, M., Martínez, M. Palomar, Vidal, M. Vallverdú, de la Torre, M. C., Vendrell, E., Palomera, E., Güell, E., Yébenes, J. C., Serra-Prat, M., Bermejo-Martín, J. F., Almirall, J., Tomas, E., Escoval, A., Froe, F., Pereira, M. H. Vitoria, Velez, N., Viegas, E., Filipe, E., Groves, C., Reay, M., Chiu, L. C., Hu, H. C., Hung, C. Y., Chang, C. H., Li, S. H., Kao, K. C., Ballin, A., Facchin, F., Sartori, G., Zarantonello, F., Campello, E., Radu, C. M., Rossi, S., Ori, C., Simioni, P., Umei, N., Shingo, I., Santos, A. C., Candeias, C., Moniz, I., Marçal, R., e Silva, Z. Costa, Ribeiro, J. M., Georger, J. F., Ponthus, J. P., Tchir, M., Amilien, V., Ayoub, M., Barsam, E., Martucci, G., Panarello, G., Tuzzolino, F., Capitanio, G., Ferrazza, V., Carollo, T., Giovanni, L., Arcadipane, A., Sánchez, M. López, González-Gay, M. A., Díaz, F. J. Llorca, López, M. I. Rubio, Zogheib, E., Villeret, L., Nader, J., Bernasinski, M., Besserve, P., Caus, T., Dupont, H., Morimont, P., Habran, S., Hubert, R., Desaive, T., Blaffart, F., Janssen, N., Guiot, J., Pironet, A., Dauby, P., Lambermont, B., Zarantonello, F., Ballin, A., Facchin, F., Sartori, G., Campello, E., Pettenuzzo, T., Citton, G., Rossi, S., Simioni, P., Ori, C., Kirakli, C., Ediboglu, O., Ataman, S., Yarici, M., Tuksavul, F., Keating, S., Gibson, A., Gilles, M., Dunn, M., Price, G., Young, N., Remeta, P., Bishop, P., Zamora, M. D. Fernández, Muñoz-Bono, J., Curiel-Balsera, E., Aguilar-Alonso, E., Hinojosa, R., Gordillo-Brenes, A., Arboleda-Sánchez, J. A., Skorniakov, I., Vikulova, D., Whiteley, C., Shaikh, O., Jones, A., Ostermann, M., Forni, L., Scott, M., Sahatjian, J., Linde-Zwirble, W., Hansell, D., Laoveeravat, P., Srisawat, N., Kongwibulwut, M., Peerapornrattana, S., Suwachittanont, N., Wirotwan, T. O., Chatkaew, P., Saeyub, P., Latthaprecha, K., Tiranathanagul, K., Eiam-ong, S., Kellum, J. A., Berthelsen, R. E., Perner, A., Jensen, A. E. K., Jensen, J. U., Bestle, M. H., Gebhard, D. J., Price, J., Kennedy, C. E., Akcan-Arikan, A., Liberatore, A. M. A., Souza, R. B., Martins, A. M. C. R. P. F., Vieira, J. C. F., Kang, Y. R., Nakamae, M. N., Koh, I. H. J., Hamed, K., Khaled, M. M., Soliman, R. Aly, Mokhtar, M. Sherif, Seller-Pérez, G., Arias-Verdú, D., Llopar-Valdor, E., De-Diós-Chacón, I., Quesada-García, G., Herrera-Gutierrez, M. E., Hafes, R., Carroll, G., Doherty, P., Wright, C., Vera, I. G. Guerra, Ralston, M., Gemmell, M. L., MacKay, A., Black, E., Wright, C., Docking, R. I., Appleton, R., Ralston, M. R., Gemmell, L., Appleton, R., Wright, C., Docking, R. I., Black, E., Mackay, A., Rozemeijer, S., Mulier, J. L. G. Haitsma, Röttgering, J. G., Elbers, P. W. G., Spoelstra-de Man, A. M. E., Tuinman, P. R., de Waard, M. C., Oudemans-van Straaten, H. M., Mejeni, N., Nsiala, J., Kilembe, A., Akilimali, P., Thomas, G., Egerod, I., Andersson, A. E., Fagerdahl, A. M., Knudsen, V., Meddeb, K., Cheikh, A. Ben, Hamdaoui, Y., Ayachi, J., Guiga, A., Fraj, N., Romdhani, S., Sma, N., Bouneb, R., Chouchene, I., Khedher, A., Bouafia, N., Boussarsar, M., Amirian, A., Ziaian, B., Masjedi, M., Fleischmann, C., Thomas-Rueddel, D. O., Schettler, A., Schwarzkopf, D., Stacke, A., Reinhart, K., Filipe, E., Escoval, A., Martins, A., Sousa, P., Velez, N., Viegas, E., Tomas, E., Snell, G., Matsa, R., Paary, T. T. S., Kalaiselvan, M. S., Cavalheiro, A. M., Rocha, L. L., Vallone, C. S., Tonilo, A., Lobato, M. D. S., Malheiro, D. T., Sussumo, G., Lucino, N. M., Zand, F., Rosenthal, V. D., Masjedi, M., Sabetian, G., Maghsudi, B., Ghorbani, M., Dashti, A. Sanaei, Yousefipour, A., Goodall, J. R., Williamson, M., Tant, E., Thomas, N., Balci, C., Gonen, C., Haftacı, E., Gurarda, H., Karaca, E., Paldusová, B., Zýková, I., Šímová, D., Houston, S., D’Antona, L., Lloyd, J., Garnelo-Rey, V., Sosic, M., Sotosek-Tokmazic, V., Kuharic, J., Antoncic, I., Dunatov, S., Sustic, A., Chong, C. T., Sim, M., Lyovarin, T., Díaz, F. M. Acosta, Galdó, S. Narbona, Garach, M. Muñoz, Romero, O. Moreno, Bailón, A. M. Pérez, Pinel, A. Carranza, Colmenero, M., Gritsan, A., Gazenkampf, A., Korchagin, E., Dovbish, N., Lee, R. M., Lim, M. P. P., Chong, C. T., Lim, B. C. L., See, J. J., Assis, R., Filipe, F., Lopes, N., Pessoa, L., Pereira, T., Catorze, N., Aydogan, M. S., Aldasoro, C., Marchio, P., Jorda, A., Mauricio, M. D., Guerra-Ojeda, S., Gimeno-Raga, M., Colque-Cano, M., Bertomeu-Artecero, A., Aldasoro, M., Valles, S. L., Tonon, D., Triglia, T., Martin, J. C., Alessi, M. C., Bruder, N., Garrigue, P., Velly, L., Spina, S., Scaravilli, V., Marzorati, C., Colombo, E., Savo, D., Vargiolu, A., Cavenaghi, G., Citerio, G., Andrade, A. H. V., Bulgarelli, P., Araujo, J. A. P., Gonzalez, V., Souza, V. A., Costa, A., Massant, C., Filho, C. A. C. Abreu, Morbeck, R. A., Burgo, L. E., van Groenendael, R., van Eijk, L. T., Leijte, G. P., Koeneman, B., Kox, M., Pickkers, P., García-de la Torre, A., de la Torre-Prados, M., Fernández-Porcel, A., Rueda-Molina, C., Nuevo-Ortega, P., Tsvetanova-Spasova, T., Cámara-Sola, E., García-Alcántara, A., Salido-Díaz, L., Liao, X., Feng, T., Zhang, J., Cao, X., Wu, Q., Xie, Z., Li, H., Kang, Y., Winkler, M. S., Nierhaus, A., Mudersbach, E., Bauer, A., Robbe, L., Zahrte, C., Schwedhelm, E., Kluge, S., Zöllner, C., Morton, B., Mitsi, E., Pennington, S. H., Reine, J., Wright, A. D., Parker, R., Welters, I. D., Blakey, J. D., Rajam, G., Ades, E. W., Ferreira, D. M., Wang, D., Kadioglu, A., Gordon, S. B., Koch, R., Kox, M., Rahamat-Langedoen, J., Schloesser, J., de Jonge, M., Pickkers, P., Bringue, J., Guillamat-Prats, R., Torrents, E., Martinez, M. L., Camprubí-Rimblas, M., Artigas, A., Blanch, L., Park, S. Y., Park, Y. B., Song, D. K., Shrestha, S., Park, S. H., Koh, Y., Park, M. J., Hong, C. W., Lesur, O., Coquerel, D., Sainsily, X., Cote, J., Söllradl, T., Murza, A., Dumont, L., Dumaine, R., Grandbois, M., Sarret, P., Marsault, E., Salvail, D., Auger-Messier, M., Chagnon, F., Lauretta, M. P., Greco, E., Dyson, A., Singer, M., Preau, S., Ambler, M., Sigurta, A., Saeed, S., Singer, M., Sarıca, L. Topcu, Zibandeh, N., Genc, D., Gul, F., Akkoc, T., Kombak, E., Cinel, L., Akkoc, T., Cinel, I., Pollen, S. J., Arulkumaran, N., Singer, M., Torrance, H. D., Longbottom, E. R., Warnes, G., Hinds, C. J., Pennington, D. J., Brohi, K., O’Dwyer, M. J., Kim, H. Y., Na, S., Kim, J., Chang, Y. F., Chao, A., Shih, P. Y., Lee, C. T., Yeh, Y. C., Chen, L. W., Adriaanse, M., Trogrlic, Z., Ista, E., Lingsma, H., Rietdijk, W., Ponssen, H. H., Schoonderbeek, J. F., Schreiner, F., Verbrugge, S. J., Duran, S., Gommers, D. A. M. P. J., van der Jagt, M., Funcke, S., Sauerlaender, S., Saugel, B., Pinnschmidt, H., Reuter, D. A., Nitzschke, R., Perbet, S., Biboulet, C., Lenoire, A., Bourdeaux, D., Pereira, B., Plaud, B., Bazin, J. E., Sautou, V., Mebazaa, A., Constantin, J. M., Legrand, M., Boyko, Y., Jennum, P., Nikolic, M., Oerding, H., Holst, R., Toft, P., Nedergaard, H. K., Haberlandt, T., Jensen, H. I., Toft, P., Park, S., Kim, S., Cho, Y. J., Lim, Y. J., Chan, A., Tang, S., Nunes, S. L., Forsberg, S., Blomqvist, H., Berggren, L., Sörberg, M., Sarapohja, T., Wickerts, C. J., Hofhuis, J. G. M., Rose, L., Blackwood, B., Akerman, E., Mcgaughey, J., Egerod, I., Fossum, M., Foss, H., Georgiou, E., Graff, H. J., Kalafati, M., Sperlinga, R., Schafer, A., Wojnicka, A. G., Spronk, P. E., Zand, F., Khalili, F., Afshari, R., Sabetian, G., Masjedi, M., Maghsudi, B., Khodaei, H. Haddad, Javadpour, S., Petramfar, P., Nasimi, S., Vazin, A., Ziaian, B., Tabei, H., Gunther, A., Hansen, J. O., Sackey, P., Storm, H., Bernhardsson, J., Sundin, Ø., Bjärtå, A., Bienert, A., Smuszkiewicz, P., Wiczling, P., Przybylowski, K., Borsuk, A., Trojanowska, I., Matysiak, J., Kokot, Z., Paterska, M., Grzeskowiak, E., Messina, A., Bonicolini, E., Colombo, D., Moro, G., Romagnoli, S., De Gaudio, A. R., Corte, F. Della, Romano, S. M., Silversides, J. A., Major, E., Mann, E. E., Ferguson, A. J., Mcauley, D. F., Marshall, J. C., Blackwood, B., Fan, E., Diaz-Rodriguez, J. A., Silva-Medina, R., Gomez-Sandoval, E., Gomez-Gonzalez, N., Soriano-Orozco, R., Gonzalez-Carrillo, P. L., Hernández-Flores, M., Pilarczyk, K., Lubarksi, J., Wendt, D., Dusse, F., Günter, J., Huschens, B., Demircioglu, E., Jakob, H., Palmaccio, A., Dell’Anna, A. M., Grieco, D. L., Torrini, F., Iaquaniello, C., Bongiovanni, F., Antonelli, M., Toscani, L., Antonakaki, D., Bastoni, D., Aya, H. D., Rhodes, A., Cecconi, M., Jozwiak, M., Depret, F., Teboul, J. L., Alphonsine, J., Lai, C., Richard, C., Monnet, X., László, I., Demeter, G., Öveges, N., Tánczos, K., Németh, M., Trásy, D., Kertmegi, I., Érces, D., Tudor, B., Kaszaki, J., Molnár, Z., Hasanin, A., Lotfy, A., El-adawy, A., Nassar, H., Mahmoud, S., Abougabal, A., Mukhtar, A., Quinty, F., Habchi, S., Luzi, A., Antok, E., Hernandez, G., Lara, B., Enberg, L., Ortega, M., Leon, P., Kripper, C., Aguilera, P., Kattan, E., Bakker, J., Huber, W., Lehmann, M., Sakka, S., Bein, B., Schmid, R. M., Preti, J., Creteur, J., Herpain, A., Marc, J., Zogheib, E., Trojette, F., Bar, S., Kontar, L., Titeca, D., Richecoeur, J., Gelee, B., Verrier, N., Mercier, R., Lorne, E., Maizel, J., Dupont, H., Slama, M., Abdelfattah, M. E., Eladawy, A., Elsayed, M. A. Ali, Mukhtar, A., Montenegro, A. Pedraza, Zepeda, E. Monares, Granillo, J. Franco, Sánchez, J. S. Aguirre, Alejo, G. Camarena, Cabrera, A. Rugerio, Montoya, A. A. Tanaka, Lee, C., Hatib, F., Cannesson, M., Theerawit, P., Morasert, T., Sutherasan, Y., Zani, G., Mescolini, S., Diamanti, M., Righetti, R., Scaramuzza, A., Papetti, M., Terenzoni, M., Gecele, C., Fusari, M., Hakim, K. A., Chaari, A., Ismail, M., Elsaka, A. H., Mahmoud, T. M., Bousselmi, K., Kauts, V., Casey, W. F., Hutchings, S. D., Naumann, D., Wendon, J., Watts, S., Kirkman, E., Jian, Z., Buddi, S., Lee, C., Settels, J., Hatib, F., Pinsky, M. R., Bertini, P., Guarracino, F., Trepte, C., Richter, P., Haas, S. A., Eichhorn, V., Kubitz, J. C., Reuter, D. A., Soliman, M. S., Hamimy, W. I., Fouad, A. Z., Mukhtar, A. M., Charlton, M., Tonks, L., Mclelland, L., Coats, T. J., Thompson, J. P., Sims, M. R., Williams, D., Roushdy, D. Z., Soliman, R. A., Nahas, R. A., Arafa, M. Y., Hung, W. T., Chiang, C. C., Huang, W. C., Lin, K. C., Lin, S. C., Cheng, C. C., Kang, P. L., Wann, S. R., Mar, G. Y., Liu, C. P., Carranza, M. Lopez, Fernandez, H. Sancho, Roman, J. A. Sanchez, Lucena, F., Garcia, A. Campanario, Vazquez, A. Loza, Serrano, A. Lesmes, Moreira, L. Sayagues, Vidal-Perez, R., Herranz, U. Anido, Acuna, J. M. Garcia, Gil, C. Pena, Allut, J. L. Garcia, Sedes, P. Rascado, Lopez, C. Martin, Paz, E. Saborido, Rodriguez, C. Galban, Gonzalez-Juanatey, J. R., Vallejo-Baez, A., de la Torre-Prados, M. V., Nuevo-Ortega, P., Fernández-Porcel, A., Cámara-Sola, E., Tsvetanova-Spasova, T., Rueda-Molina, C., Salido-Díaz, L., García-Alcántara, A., Aron, J., Marharaj, R., Gervasio, K., Bottiroli, M., Mondino, M., De Caria, D., Calini, A., Montrasio, E., Milazzo, F., Gagliardone, M. P., Vallejo-Báez, A., de la Torre-Prados, M. V., Nuevo-Ortega, P., Fernández-Porcel, A., Cámara-Sola, E., Tsvetanova-Spasova, T., Rueda-Molina, C., Salido-Díaz, L., García-Alcántara, A., Moreira, L. Sayagues, Vidal-Perez, R., Anido, U., Gil, C. Pena, Acuna, J. M. Garcia, Sedes, P. Rascado, Lopez, C. Martin, Paz, E. Saborido, Allut, J. L. Garcia, Rodriguez, C. Galban, Gonzalez-Juanatey, J. R., Hamdaoui, Y., Khedher, A., Cheikh-Bouhlel, M., Ayachi, J., Meddeb, K., Sma, N., Fraj, N., Aicha, N. Ben, Romdhani, S., Bouneb, R., Chouchene, I., Boussarsar, M., Dela Cruz, M. P. R. D. L., Bernardo, J. M., Galfo, F., Dyson, A., Singer, M., Marino, A., Dyson, A., Singer, M., Chao, C. C., Hou, P., Huang, W. C., Hung, C. C., Chiang, C. H., Hung, W. T., Lin, K. C., Lin, S. C., Liou, Y. J., Hung, S. M., Lin, Y. S., Cheng, C. C., Kuo, F. Y., Chiou, K. R., Chen, C. J., Yan, L. S., Liu, C. Y., Wang, H. H., Kang, P. L., Chen, H. L., Ho, C. K., Mar, G. Y., Liu, C. P., Grewal, S., Gopal, S., Corbett, C., Wilson, A., Capps, J., Ayoub, W., Lomas, A., Ghani, S., Moore, J., Atkinson, D., Sharman, M., Swinnen, W., Pauwels, J., Mignolet, K., Pannier, E., Koch, A., Sarens, T., Temmerman, W., Elmenshawy, A. M., Fayed, A. M., Elboriuny, M., Hamdy, E., Zakaria, E., Falk, A. C., Petosic, A., Olafsen, K., Wøien, H., Flaatten, H., Sunde, K., Agra, J. J. Cáceres, Cabrera, J. L. Santana, Santana, J. D. Martín, Alzola, L. Melián, Pérez, H. Rodríguez, Pires, T. Castro, Calderón, H., Pereira, A., Castro, S., Granja, C., Norkiene, I., Urbanaviciute, I., Kezyte, G., Ringaitiene, D., Jovaisa, T., Vogel, G., Johansson, U. B., Sandgren, A., Svensen, C., Joelsson-Alm, E., Leite, M. A., Murbach, L. D., Osaku, E. F., Costa, C. R. L. M., Pelenz, M., Neitzke, N. M., Moraes, M. M., Jaskowiak, J. L., Silva, M. M. M., Zaponi, R. S., Abentroth, L. R. L., Ogasawara, S. M., Jorge, A. C., Duarte, P. A. D., Murbach, L. D., Leite, M. A., Osaku, E. F., Barreto, J., Duarte, S. T., Taba, S., Miglioranza, D., Gund, D. P., Lordani, C. F., Costa, C. R. L. M., Ogasawara, S. M., Jorge, A. C., Duarte, P. A. D., Vollmer, H., Gager, M., Waldmann, C., Mazzeo, A. T., Tesio, R., Filippini, C., Vallero, M. E., Giolitti, C., Caccia, S., Medugno, M., Tenaglia, T., Rosato, R., Mastromauro, I., Brazzi, L., Terragni, P. P., Urbino, R., Fanelli, V., Ranieri, V. M., Mascia, L., Ballantyne, J., Paton, L., Mackay, A., Perez-Teran, P., Roca, O., Ruiz-Rodriguez, J. C., Zapatero, A., Serra, J., Masclans, J. R., Bianzina, S., Cornara, P., Rodi, G., Tavazzi, G., Pozzi, M., Iotti, G. A., Mojoli, F., Braschi, A., Vishnu, A., Buche, D., Pande, R., Moolenaar, D. L. J., Bakhshi-Raiez, F., Dongelmans, D. A., de Keizer, N. F., de Lange, D. W., Fernández, I. Fuentes, Baño, D. Martínez, Moreno, J. L. Buendía, Rubio, R. Jara, Scott, J., Phelan, D., Morely, D., O’Flynn, J., Stapleton, P., Lynch, M., Marsh, B., Carton, E., O’Loughlin, C., Cheng, K. C., Sung, M. I., Elghonemi, M. O., Saleh, M. H., Meyhoff, T. S., Krag, M., Hjortrup, P. B., Perner, A., Møller, M. H., Öhman, T., Sigmundsson, T., Redondo, E., Hallbäck, M., Suarez-Sipmann, F., Björne, H., Sander, C. Hällsjö, Cressoni, M., Chiumello, D., Chiurazzi, C., Brioni, M., Algieri, I., Guanziroli, M., Vergani, G., Tonetti, T., Tomic, I., Colombo, A., Crimella, F., Carlesso, E., Colombo, A., Gasparovic, V., Gattinoni, L., El-Sherif, R., Al-Basser, M. Abd, Raafat, A., El-Sherif, A., Simonis, F. D., Schouten, L. R. A., Cremer, O. L., Ong, D. S. Y., Amoruso, G., Cinnella, G., Schultz, M. J., Bos, L. D. J., Huber, W., Schmidle, P., Findeisen, M., Hoppmann, P., Jaitner, J., Brettner, F., Schmid, R. M., Lahmer, T., Festic, E., Rajagopalan, G., Bansal, V., Frank, R., Hinds, R., Levitt, J., Siddiqui, S., Gilbert, J. P., Sim, K., Wang, C. H., Hu, H. C., Li, I. J., Tang, W. R., Kao, K. C., Persona, P., De Cassai, A., Franco, M., Facchin, F., Ori, C., Rossi, S., Goffi, A., Li, S. H., Hu, H. C., Chiu, L. C., Hung, C. Y., Chang, C. H., Kao, K. C., Ruiz, B. Llorente, Varas, J. Lujan, Montero, R. Molina, Delgado, C. Pintado, Navarrete, O., Mezquita, M. Vazquez, Peces, E. Alonso, Nakamura, M. A. M., Hajjar, L. A., Galas, F. R. B. G., Ortiz, T. A., Amato, M. B. P., Bitker, L., Costes, N., Le Bars, D., Lavenne, F., Mojgan, D., Richard, J. C., Chiurazzi, C., Cressoni, M., Massari, D., Guanziroli, M., Vergani, G., Gotti, M., Brioni, M., Algieri, I., Cadringher, P., Tonetti, T., Chiumello, D., Gattinoni, L., Zerman, A., Türkoğlu, M., Arık, G., Yıldırım, F., Güllü, Z., Kara, I., Boyacı, N., Aydoğan, B. Basarık, Gaygısız, Ü., Gönderen, K., Aygencel, G., Aydoğdu, M., Ülger, Z., Gürsel, G., Riera, J., Toral, C. Maldonado, Mazo, C., Martínez, M., Baldirà, J., Lagunes, L., Roman, A., Deu, M., Rello, J., Levine, D. J., Mohus, R. M., Askim, Å., Paulsen, J., Mehl, A., Dewan, A. T., Damås, J. K., Solligård, E., Åsvold, B. O., Paulsen, J., Askim, Å., Mohus, R. M., Mehl, A., DeWan, A., Solligård, E., Damås, J. K., Åsvold, B. O., Aktepe, O., Kara, A., Yeter, H., Topeli, A., Norrenberg, M., Devroey, M., Khader, H., Preiser, J. C., Tang, Z., Qiu, C., Tong, L., Cai, C., Theodorakopoulou, M., Diamantakis, A., Kontogiorgi, M., Chrysanthopoulou, E., Christodoulopoulou, T., Frantzeskaki, F., Lygnos, M., Apostolopoulou, O., Armaganidis, A., Moon, J. Y., Park, M. R., Kwon, I. S., Chon, G. R., Ahn, J. Y., Kwon, S. J., Chang, Y. J., Lee, J. Y., Yoon, S. Y., Lee, J. W., Kostalas, M., Mckinlay, J., Kooner, G., Dudas, G., Horton, A., Kerr, C., Karanjia, N., Creagh-Brown, B., Altintas, N. D., Izdes, S., Keremoglu, O., Alkan, A., Neselioglu, S., Erel, O., Tardif, N., Gustafsson, T., Rooyackers, O., MacEachern, K. N., Traille, M., Bromberg, I., Lapinsky, S. E., Moore, M. J., Tang, Z., Cai, C., Tong, L., García-Garmendia, J. L., Villarrasa-Clemente, F., Maroto-Monserrat, F., Rufo-Tejeiro, O., Jorge-Amigo, V., Sánchez-Santamaría, M., Colón-Pallarés, C., Barrero-Almodóvar, A., Gallego-Lara, S., Anthon, C. T., Müller, R. B., Haase, N., Møller, K., Hjortrup, P. B., Wetterslev, J., Perner, A., Nakanishi, M., Kuriyama, A., Fukuoka, T., Abd el Halim, M. A., Elsaid hafez, M. H., Moktar, A. M., Eladawy, A., Elazizy, H. M., Hakim, K. Abdel, Chaari, A., Elbahr, M., Ismail, M., Mahmoud, T., Kauts, V., Bousselmi, K., Khalil, E., Casey, W., Zaky, S. H., Rizk, A., Elghonemi, M. O., Ahmed, R., Vieira, J. C. F., Souza, R. B., Liberatore, A. M. A., Koh, I. H. J., Ospina-Tascón, G. A., Marin, A. F. Garcia, Echeverry, G. J., Bermudez, W. F., Madriñan-Navia, H. J., Valencia, J. D., Quiñonez, E., Marulanda, A., Arango-Dávila, C. A., Bruhn, A., Hernandez, G., De Backer, D., Cortes, D. Orbegozo, Su, F., Vincent, J. L., Creteur, J., Tullo, L., Mirabella, L., Di Molfetta, P., Cinnella, G., Dambrosio, M., Lujan, C. Villavicencio, irigoyen, J. Leache, Cartanya ferré, M., García, R. Carbonell, Mukhtar, A., Ahmed, M., El Ayashi, M., Hasanin, A., Ayman, E., Salem, M., Eladawy, A., Fathy, S., Nassar, H., Zaghlol, A., Arzapalo, M. F. Aguilar, Valsø, Å., Sunde, K., Rustøen, T., Schou-Bredal, I., Skogstad, L., Tøien, K., Padilla, C., Palmeiro, Y., Egbaria, W., Kigli, R., Maertens, B., Blot, K., Blot, S., Santana-Santos, E., dos Santos, E. R., Ferretti-Rebustini, R. E. D. L., dos Santos, R. D. C. C. D. O., Verardino, R. G. S., Bortolotto, L. A., Doyle, A. M., Naldrett, I., Tillman, J., Price, S., Shrestha, S., Pearson, P., Greaves, J., Goodall, D., Berry, A., Richardson, A., Odundo, G. O., Omengo, P., Obonyo, P., Chanzu, N. M., Kleinpell, R., Sarris, S. J., Nedved, P., Heitschmidt, M., Ben-Ghezala, H., Snouda, S., Djobbi, S., Ben-Ghezala, H., Snouda, S., Rose, L., Adhikari, N. K. J., Leasa, D., Fergusson, D., Mckim, D. A., Weblin, J., Tucker, O., McWilliams, D., Doesburg, F., Cnossen, F., Dieperink, W., Bult, W., Nijsten, M. W. N., Galvez-Blanco, G. A., Zepeda, E. Monares, Guzman, C. I. Olvera, Sánchez, J. S. Aguirre, Granillo, J. Franco, Stroud, J. Santos, Thomson, R., Llaurado-Serra, M., Lobo-Civico, A., Pi-Guerrero, M., Blanco-Sanchez, I., Piñol-Tena, A., Paños-Espinosa, C., Alabart-Segura, Y., Coloma-Gomez, B., Fernandez-Blanco, A., Braga-Dias, F., Treso-Geira, M., Valeiras-Valero, A., Martinez-Reyes, L., Sandiumenge, A., Jimenez-Herrera, M. F., Prada, R., Juárez, P., Argandoña, R., Díaz, J. J., Ramirez, C. Sánchez, Saavedra, P., Santana, S. Ruiz, Obukhova, O., Kashiya, S., Kurmukov, I. A., Pronina, A. M., Simeone, P., Puybasset, L., Auzias, G., Coulon, O., Lesimple, B., Torkomian, G., Velly, L., Bienert, A., Bartkowska-Sniatkowska, A., Wiczling, P., Szerkus, O., Siluk, D., Bartkowiak-Wieczorek, J., Rosada-Kurasinska, J., Warzybok, J., Borsuk, A., Kaliszan, R., Grzeskowiak, E., Caballero, C. Hernandez, Roberts, S., Isgro, G., Hall, D., Guillaume, G., Passouant, O., Dumas, F., Bougouin, W., Champigneulle, B., Arnaout, M., Chelly, J., Chiche, J. D., Varenne, O., Mira, J. P., Marijon, E., Cariou, A., Beerepoot, M., Touw, H. R., Parlevliet, K., Boer, C., Elbers, P. W., Tuinman, P. R., Reina, Á. J. Roldán, Palomo, Y. Corcia, Bermúdez, R. Martín, Villén, L. Martín, García, I. Palacios, Izurieta, J. R. Naranjo, Bernal, J. B. Pérez, Jiménez, F. J. Jiménez, Cota-Delgado, F., de la Torre-Prados, M. V., Fernández-Porcel, A., Nuevo-Ortega, P., Cámara-Sola, E., Tsvetanova-Spasova, T., Rueda-Molina, C., Salido-Díaz, L., García-Alcántara, A., Kaneko, T., Tanaka, H., Kamikawa, M., Karashima, R., Iwashita, S., Irie, H., Kasaoka, S., Arola, O., Laitio, R., Saraste, A., Airaksinen, J., Pietilä, M., Hynninen, M., Wennervirta, J., Bäcklund, M., Ylikoski, E., Silvasti, P., Nukarinen, E., Grönlund, J., Harjola, V. P., Niiranen, J., Korpi, K., Varpula, M., Roine, R. O., Laitio, T., Salah, S., Hassen, B. G., Fehmi, A. Mohamed, Kim, S., Hsu, Y. C., Barea-Mendoza, J., García-Fuentes, C., Castillo-Jaramillo, M., Dominguez-Aguado, H., Viejo-Moreno, R., Terceros-Almanza, L., Aznárez, S. Bermejo, Mudarra-Reche, C., Xu, W., Chico-Fernández, M., Montejo-González, J. C., Crewdson, K., Thomas, M., Merghani, M., Fenner, L., Morgan, P., Lockey, D., van Lieshout, E. J., Oomen, B., Binnekade, J. M., Dongelmans, D. A., de Haan, R. J., Juffermans, N. P., Vroom, M. B., Algarte, R., Martínez, L., Sánchez, B., Romero, I., Martínez, F., Quintana, S., Trenado, J., Sheikh, O., Pogson, D., Clinton, R., Riccio, F., Gemmell, L., MacKay, A., Arthur, A., Young, L., Sinclair, A., Markopoulou, D., Venetsanou, K., Filippou, L., Salla, E., Stratouli, S., Alamanos, I., Guirgis, A. H., Rodriguez, R. Gutiérrez, Lorente, M. J. Furones, Guarasa, I. Macias, Ukere, A., Meisner, S., Greiwe, G., Opitz, B., Benten, D., Nashan, B., Fischer, L., Trepte, C. J. C., Reuter, D. A., Haas, S. A., Behem, C. R., Tavazzi, G., Ana, B., Vazir, A., Gibson, D., Price, S., Masjedi, M., Hadavi, M. R., alam, M. Riahi, Sasani, M. R., Parenti, N., Agrusta, F., Palazzi, C., Pifferi, B., Sganzerla, R., Tagliazucchi, F., Luciani, A., Möller, M., Müller-Engelmann, J., Montag, G., Adams, P., Lange, C., Neuzner, J., Gradaus, R., Wodack, K. H., Thürk, F., Waldmann, A. D., Grässler, M. F., Nishimoto, S., Böhm, S. H., Kaniusas, E., Reuter, D. A., Trepte, C. J., Sigmundsson, T., Öhman, T., Redondo, E., Hallbäck, M., Wallin, M., Sipman, F. Suarez, Oldner, A., Sander, C. Hällsjö, Björne, H., Colinas, L., Hernandez, G., Vicho, R., Serna, M., Cuena, R., Canabal, A., Chaari, A., Hakim, K. Abdel, Etman, M., El Bahr, M., El Sakka, A., Bousselmi, K., Arali, A., Kauts, V., Casey, W. F., Bond, O., De Santis, P., Iesu, E., Franchi, F., Vincent, J. L., Creteur, J., Scolletta, S., Taccone, F. S., Marutyan, Z., Hamidova, L., Shakotko, A., Movsisyan, V., Uysupova, I., Evdokimov, A., Petrikov, S., Gonen, C., Haftacı, E., Balci, C., Calvo, F. J. Redondo, Bejarano, N., Baladron, V., Villazala, R., Redondo, J., Padilla, D., Villarejo, P., Akcan-Arikan, A., Kennedy, C. E., Arzapalo, M. F. Aguilar, Gomez-Gonzalez, C., Mas-Font, S., Puppo-Moreno, A., Herrera-Gutierrez, M., Garcia-Garcia, M., Aldunate-Calvo, S., Plata-Menchaca, E. P., Pérez-Fernández, X. L., Estruch, M., Betbese-Roig, A., Campos, P. Cárdenas, Lora, M. Rojas, Gaibor, N. D. Toapanta, Medina, R. S. Contreras, Sanguino, V. D. Gumucio, Casanova, E. J., Riera, J. Sabater, Kritmetapak, K., Peerapornratana, S., Kittiskulnam, P., Dissayabutra, T., Tiranathanagul, K., Susantithapong, P., Praditpornsilpa, K., Tungsanga, K., Eiam-Ong, S., Srisawat, N., Winkelmann, T., Busch, T., Meixensberger, J., Bercker, S., Cabeza, E. M. Flores, Sánchez, M. Sánchez, Giménez, N. Cáceres, Melón, C. Gutierrez, de Lucas, E. Herrero, Estañ, P. Millán, Bernal, M. Hernández, de Lorenzo y Mateos, A. Garcia, Ergin, B., Guerci, P., Specht, P. A. C., Ince, Y., Ince, C., Balik, M., Zakharchenko, M., Los, F., Brodska, H., de Tymowski, C., Augustin, P., Desmard, M., Montravers, P., Stapel, S. N., de Boer, R., Oudemans, H. M., Hollinger, A., Schweingruber, T., Jockers, F., Dickenmann, M., Siegemund, M., Runciman, N., Ralston, M., Appleton, R., Mauri, T., Alban, L., Turrini, C., Sasso, T., Langer, T., Panigada, M., Taccone, P., Carlesso, E., Marenghi, C., Grasselli, G., Pesenti, A., Wibart, P., Reginault, T., Garcia, M., Barbrel, B., Benard, A., Bader, C., Vargas, F., Bui, H. N., Hilbert, G., Simón, J. M. Serrano, Sánchez, P. Carmona, Ferrón, F. Ruiz, de Acilu, M. García, Marin, J., Antonia, V., Ruano, L., Monica, M., Ferrer, R., Masclans, J. R., Roca, O., Hong, G., Kim, D. H., Kim, Y. S., Park, J. S., Jee, Y. K., xiang, Z. Yu, Jia-xing, W., dan, W. Xiao, long, N. Wen, Yu, W., Yan, Z., Cheng, X., Kobayashi, T., Onodera, Y., Akimoto, R., Sugiura, A., Suzuki, H., Iwabuchi, M., Nakane, M., Kawamae, K., Sanchez, P. Carmona, Rodriguez, M. D. Bautista, Delgado, M. Rodriguez, Sánchez, V. Martínez de Pinillos, Gómez, A. Mula, Simón, J. M. Serrano, Beuret, P., Fortes, C., Lauer, M., Reboul, M., Chakarian, J. C., Fabre, X., Philippon-Jouve, B., Devillez, S., Clerc, M., Rittayamai, N., Sklar, M., Dres, M., Rauseo, M., Campbell, C., West, B., Tullis, D. E., Brochard, L., Onodera, Y., Akimoto, R., Suzuki, H., Okada, M., Nakane, M., Kawamae, K., Ahmad, N., Wood, M., Glossop, A., Lucas, J. Higuera, Ortiz, A. Blandino, Alonso, D. Cabestrero, De Pablo Sánchez, R., González, L. Rey, Costa, R., Spinazzola, G., Pizza, A., Ferrone, G., Rossi, M., Antonelli, M., Conti, G., Ribeiro, H., Alves, J., Sousa, M., Reis, P., Socolovsky, C. S., Cauley, R. P., Frankel, J. E., Beam, A. L., Olaniran, K. O., Gibbons, F. K., Christopher, K. B., Pennington, J., Zolfaghari, P., King, H. S., Kong, H. H. Y., Shum, H. P., Yan, W. W., Kaymak, C., Okumus, N., Sari, A., Erdogdu, B., Aksun, S., Basar, H., Ozcan, A., Ozcan, N., Oztuna, D., Malmgren, J. A., Lundin, S., Torén, K., Eckerström, M., Wallin, A., Waldenström, A. C., Riccio, F. C., Pogson, D., Antonio, A. C. P., Leivas, A. F., Kenji, F., James, E., Morgan, P., Carroll, G., Gemmell, L., MacKay, A., Wright, C., Ballantyne, J., Jonnada, S., Gerrard, C. S., Jones, N., Salciccioli, J. D., Marshall, D. C., Komorowski, M., Hartley, A., Sykes, M. C., Goodson, R., Shalhoub, J., Villanueva, J. R. Fernández, Garda, R. Fernández, Lago, A. M. López, Ruiz, E. Rodríguez, Vaquero, R. Hernández, Rodríguez, C. Galbán, Pérez, E. Varo, Hilasque, C., Oliva, I., Sirgo, G., Martin, M. C., Olona, M., Gilavert, M. C., Bodí, M., Ebm, C., Aggarwal, G., Huddart, S., Quiney, N., Cecconi, M., Fernandes, S. M., Silva, J. Santos, Gouveia, J., Silva, D., Marques, R., Bento, H., Alvarez, A., Silva, Z. Costa, Diaz, D. Díaz, Martínez, M. Villanova, Herrejon, E. Palencia, de la Gandara, A. Martinez, Gonzalo, G., Lopez, M. A., de Gopegui Miguelena, P. Ruíz, Matilla, C. I. Bernal, Chueca, P. Sánchez, Longares, M. D. C. Rodríguez, Abril, R. Ramos, Aguilar, A. L. Ruíz, de Murillas, R. Garrido López, Fernández, R. Fernández, Laborías, P. Morales, Castellanos, M. A. Díaz, Laborías, M. E. Morales, Cho, J., Kim, J., Park, J., Woo, S., West, T., Powell, E., Rimmer, A., Orford, C., Jones, N., Williams, J., Matilla, C. I. Bernal, de Gopegui Miguelena, P. Ruiz, Chueca, P. Sánchez, Abril, R. Ramos, Longares, M. D. C. Rodríguez, Aguilar, A. L. Ruíz, de Murillas, R. Garrido López, Bourne, R. S., Shulman, R., Tomlin, M., Mills, G. H., Borthwick, M., Berry, W., Huertas, D. García, Manzano, F., Villagrán-Ramírez, F., Ruiz-Perea, A., Rodríguez-Mejías, C., Santiago-Ruiz, F., Colmenero-Ruiz, M., König, C., Matt, B., Kortgen, A., Hartog, C. S., Wong, A., Balan, C., Barker, G., Srisawat, N., Peerapornratana, S., Laoveeravat, P., Tachaboon, S., Eiam-ong, S., Paratz, J., Kayambu, G., Boots, R., Arzapalo, M. F. Aguilar, Vlasenko, R., Gromova, E., Loginov, S., Kiselevskiy, M., Dolgikova, Y., Tang, K. B., Chau, C. M., Lam, K. N., Gil, E., Suh, G. Y., Park, C. M., Park, J., Chung, C. R., Lee, C. T., Chao, A., Shih, P. Y., Chang, Y. F., Lai, C. H., Hsu, Y. C., Yeh, Y. C., Cheng, Y. J., Colella, V., Zarrillo, N., D’Amico, M., Forfori, F., Pezza, B., Laddomada, T., Beltramelli, V., Pizzaballa, M. L., Doronzio, A., Balicco, B., Kiers, D., van der Heijden, W., Gerretsen, J., de Mast, Q., el Messaoudi, S., Rongen, G., Gomes, M., Kox, M., Pickkers, P., Riksen, N. P., Kashiwagi, Y., Okada, M., Hayashi, K., Inagaki, Y., Fujita, S., Nakamae, M. N., Kang, Y. R., Souza, R. B., Liberatore, A. M. A., Koh, I. H. J., Blet, A., Sadoune, M., Lemarié, J., Bihry, N., Bern, R., Polidano, E., Merval, R., Launay, J. M., Lévy, B., Samuel, J. L., Mebazaa, A., Hartmann, J., Harm, S., and Weber, V.

Published
2016
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11. Results of the phase-I open-label clinical trial SAKK 06/14 assessing safety of intravesical instillation of the recombinant BCG VPM1002BC in patients with non-muscle invasive bladder cancer and previous failure to conventional BCG therapy

Author

Rentsch, C., primary, Bosshard, P., additional, Mayor, G., additional, Rieken, M., additional, Püschel, H., additional, Wirth, G., additional, Cathomas, R., additional, Grode, L., additional, Parzmair, G., additional, Eisele, B., additional, Sharma, H., additional, Shaligram, U., additional, Goldenberger, D., additional, Spertini, F., additional, Audran, R., additional, Enoui, M., additional, Berardi-Vilei, S., additional, Hayoz, S., additional, and Wicki, A., additional

Published
2018
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13. Effective DNA Vaccination Against Listeriosis by Prime/Boost Inoculation with the Gene Gun

Author

Fensterle, J., Grode, L., Hess, J., and Stefan HE Kaufmann

Subjects
CD4-Positive T-Lymphocytes, Mice, Inbred BALB C, Immunodominant Epitopes, T-Lymphocytes, Bacterial Toxins, Immunology, Immunization, Secondary, Epitopes, T-Lymphocyte, Biolistics, Antibodies, Bacterial, Hemolysin Proteins, Interferon-gamma, Mice, Bacterial Proteins, Bacterial Vaccines, Vaccines, DNA, Animals, Immunology and Allergy, Female, Listeriosis, Heat-Shock Proteins, Plasmids, T-Lymphocytes, Cytotoxic
Abstract

Protective immunity against Listeria monocytogenes strongly depends on CD8+ T lymphocytes, and both IFN-γ secretion and target cell killing are considered relevant to protection. We analyzed whether we could induce a protective type 1 immune response by DNA vaccination with the gene gun using plasmids encoding for two immunodominant listerial Ags, listeriolysin and p60. To induce a Th1 response, we 1) coprecipitated a plasmid encoding for GM-CSF, 2) employed a prime/boost vaccination schedule with a 45-day interval, and 3) coinjected oligodeoxynucleotides (ODN) containing immunostimulatory CpG motifs. DNA immunization of BALB/c mice with plasmids encoding for listeriolysin (pChly) and p60 (pCiap) efficiently induced MHC class I-restricted, Ag-specific CD8+ T cells that produced IFN-γ. Coinjection of CpG-ODN significantly increased the frequency of specific IFN-γ-secreting T cells. Although pChly induced specific CD8+ T cells expressing CTL activity, it failed to stimulate CD4+ T cells. Only pCiap induced significant CD4+ T cell and humoral responses, which were predominantly of Th2 type. Vaccination with either plasmid induced protective immunity against listerial challenge, and coinjection of CpG ODN improved vaccine efficacy in some situations. This study demonstrates the feasibility of gene gun administration of plasmid DNA for inducing immunity against an intracellular pathogen for which protection primarily depends on type 1 CD8+ T cells.

Published
1999
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14. Developing whole mycobacteria cell vaccines for tuberculosis: Workshop proceedings, Max Planck Institute for Infection Biology, Berlin, Germany, July 9, 2014

Author

Kaufmann, S H E, Bloom, B, Brosch, R, Cardona, P-J, Dockrell, H, Fritzell, B, Grode, L, Hanekom, W, Hokey, D, Levin, M, Martin, C, Sander, P, Scriba, T, Shaligram, U, Tameris, M, von Reyn, F, Walker, B, Weiner, J, White, R G, Schrager, L, Kaufmann, S H E, Bloom, B, Brosch, R, Cardona, P-J, Dockrell, H, Fritzell, B, Grode, L, Hanekom, W, Hokey, D, Levin, M, Martin, C, Sander, P, Scriba, T, Shaligram, U, Tameris, M, von Reyn, F, Walker, B, Weiner, J, White, R G, and Schrager, L

Abstract

On July 9, 2014, Aeras and the Max Planck Institute for Infection Biology convened a workshop entitled "Whole Mycobacteria Cell Vaccines for Tuberculosis" at the Max Planck Institute for Infection Biology on the grounds of the Charité Hospital in Berlin, Germany, close to the laboratory where, in 1882, Robert Koch first identified Mycobacterium tuberculosis (Mtb) as the pathogen responsible for tuberculosis (TB). The purpose of the meeting was to discuss progress in the development of TB vaccines based on whole mycobacteria cells. Live whole cell TB vaccines discussed at this meeting were derived from Mtb itself, from Bacille Calmette-Guérin (BCG), the only licensed vaccine against TB, which was genetically modified to reduce pathogenicity and increase immunogenicity, or from commensal non-tuberculous mycobacteria. Inactivated whole cell TB and non-tuberculous mycobacterial vaccines, intended as immunotherapy or as safer immunization alternatives for HIV+ individuals, also were discussed. Workshop participants agreed that TB vaccine development is significantly hampered by imperfect animal models, unknown immune correlates of protection and the absence of a human challenge model. Although a more effective TB vaccine is needed to replace or enhance the limited effectiveness of BCG in all age groups, members of the workshop concurred that an effective vaccine would have the greatest impact on TB control when administered to adolescents and adults, and that use of whole mycobacteria cells as TB vaccine candidates merits greater support, particularly given the limited understanding of the specific Mtb antigens necessary to generate an immune response capable of preventing Mtb infection and/or disease.

Published
2015

15. 728 - Results of the phase-I open-label clinical trial SAKK 06/14 assessing safety of intravesical instillation of the recombinant BCG VPM1002BC in patients with non-muscle invasive bladder cancer and previous failure to conventional BCG therapy

Author

Rentsch, C., Bosshard, P., Mayor, G., Rieken, M., Püschel, H., Wirth, G., Cathomas, R., Grode, L., Parzmair, G., Eisele, B., Sharma, H., Shaligram, U., Goldenberger, D., Spertini, F., Audran, R., Enoui, M., Berardi-Vilei, S., Hayoz, S., and Wicki, A.

Published
2018
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16. Induktion von Antigen-spezifischen multifunktionallen T-Zellen nach Vakzinierung mit der lebenden rekombinanten Tuberkulose Vakzine VPM1002 in einer klinischen Phase I- Studie

Author

Eisele, B., Grode, L., Henneicke-Von Zepelin, H.-H., Desel, C., Maertzdorf, J., and Kaufmann, S. H.

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Introduction: VPM1002 is a live vaccine against tuberculosis (TB). It is based on the well known Mycobacterium bovis Bacille Calmette-Guérin (BCG) strain which has been applied appr. 4 billion times world wide. As BCG is not sufficiently effective to stop the spread of TB, two modifications have[for full text, please go to the a.m. URL], 10. Kongress für Infektionskrankheiten und Tropenmedizin (KIT 2010)

Published
2010

17. Soluferon® - ein Typ-1 Interferonder nächsten Generation zur Behandlung viraler Infektionen

Author

Grode, L., Oertelt, C., Henneicke-Von Zepelin, H.-H., and Eisele, B.

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Soluferon® is a 2nd generation modified interferon-β (IFN-β) with increased bioavailability, due to enhanced hydrophilic properties. It is well known that the major shortcomings of the currently marketed interferon-ß, namely limited efficacy and tolerability, have been attributed[for full text, please go to the a.m. URL], 10. Kongress für Infektionskrankheiten und Tropenmedizin (KIT 2010)

Published
2010

19. 521 VPM1002 – a recombinant BCG with favourable preclinical toxicity and immunogenicity for potential improvement of BCG immunotherapy for non-muscle invasive bladder cancer

Author

Rentsch, C.A., primary, Wetterauer, C., additional, Gsponer, J.R., additional, Püschel, H., additional, Bachmann, A., additional, De Blok, W., additional, Van Der, Wel N., additional, Behrens, D., additional, Minhas, A., additional, Grode, L., additional, Eisele, B., additional, and Van Rhijn, B.W.G., additional

Published
2014
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24. Limited mycobacterial infection of the liver as a consequence of its microanatomical structure causing restriction of mycobacterial growth to professional phagocytes

Author

Seiler, P, Schwendener, R, Bandermann, S, Brinkmann, V, Grode, L, Kaufmann, S H E, Aichele, P, Seiler, P, Schwendener, R, Bandermann, S, Brinkmann, V, Grode, L, Kaufmann, S H E, and Aichele, P

Abstract

Among sites of extrapulmonary growth of Mycobacterium tuberculosis, the liver is the least infected. Our data suggest that this is due to the complete restriction of mycobacterial growth to liver macrophages. Unlike in organs more persistently seeded by M. tuberculosis, in the liver the bacteria do not infect cell types other than professional phagocytes.

Published
2001

27. Challenge Dose Titration in a Mycobacterium bovis Infection Model in Goats.

Author

Liebler-Tenorio EM, Wedlich N, Figl J, Köhler H, Ulrich R, Schröder C, Rissmann M, Grode L, Kaufmann SHE, and Menge C

Subjects
Animals, Goat Diseases microbiology, Lung microbiology, Lung pathology, Feces microbiology, Interferon-gamma metabolism, Goats, Mycobacterium bovis pathogenicity, Disease Models, Animal, Tuberculosis microbiology, Tuberculosis veterinary, Tuberculosis pathology, Tuberculosis immunology
Abstract

Goats are natural hosts of Mycobacterium (M.) bovis , and affected herds can be the cause of significant economic losses. Similarites in disease course and lesions of M. bovis infections in goats and M. tuberculosis in humans make goats good models for human tuberculosis. The aim of this investigation was to characterize M. bovis challenge models in goats. For this, goats were endobronchially inoculated with three doses of M. bovis or culture medium. Clinical signs, shedding, and immune responses were monitored until 146 days post inoculation (dpi). At necropsy, lesions were examined by computed tomography, histology, and bacteriological culture. Infected goats did not develop clinical signs. M. bovis was cultured from feces, but never from nasal swabs. IGRAs were positive from 28 dpi onwards, antibodies at 140 dpi, and SICCT at 146 dpi. The increase in CD25 + , IFN-γ + , and IFN-γ-releasing T-cell subpopulations was time-related, but not dose-dependent. All infected goats developed paucibacillary granulomas in the lungs and regional lymph nodes. M. bovis was regularly cultured. Dose-dependent effects included the size of pulmonary lesions, caverns, intestinal lesions, and early generalization in the high-dose group. In summary, reproducible challenge models with dose-dependent differences in lesions were established, which may serve for testing vaccines for veterinary or medical use.

Published
2024
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28. Safety and immunogenicity of SIIPL Tdap, a new tetanus toxoid, reduced diphtheria toxoid and acellular pertussis vaccine, in healthy subjects 4-65 years of age: A Phase II/III randomized, observer-blinded, active controlled, multicenter clinical study in Germany.

Author

Aydin I, May M, Pisano F, Mpofu-Maetzig N, Grode L, Parekh S, Pujari P, Shewale S, Desai S, Sharma H, Rao H, Gautam M, Gairola S, and Shaligram U

Subjects
Humans, Male, Middle Aged, Female, Adult, Adolescent, Young Adult, Child, Child, Preschool, Germany, Aged, Healthy Volunteers, Tetanus Toxoid immunology, Tetanus Toxoid administration & dosage, Tetanus Toxoid adverse effects, Immunogenicity, Vaccine, Diphtheria Toxoid immunology, Diphtheria Toxoid administration & dosage, Diphtheria Toxoid adverse effects, Vaccination methods, Diphtheria-Tetanus-Pertussis Vaccine, Diphtheria-Tetanus-acellular Pertussis Vaccines immunology, Diphtheria-Tetanus-acellular Pertussis Vaccines adverse effects, Diphtheria-Tetanus-acellular Pertussis Vaccines administration & dosage, Antibodies, Bacterial blood, Immunization, Secondary methods, Tetanus prevention & control, Tetanus immunology, Whooping Cough prevention & control, Whooping Cough immunology, Diphtheria prevention & control, Diphtheria immunology
Abstract

Background: This study assessed the safety and immunogenicity of a new booster vaccine against tetanus, diphtheria, and pertussis manufactured by Serum Institute of India Pvt. Ltd (SIIPL Tdap)., Methods: The Phase II/III trial was randomized (2:1), observer blinded and active controlled. Healthy subjects aged 4-65 years received a single dose of either SIIPL Tdap or comparator Tdap vaccine (Boostrix®, GlaxoSmithKline, Belgium), and were followed-up for 30 days. Blood samples for safety and immunogenicity assessments were collected pre-vaccination and on day 30 post-vaccination. The study assessed safety and reactogenicity of SIIPL Tdap compared to the comparator Tdap as well as the co-primary immunogenicity outcomes: (i) seroprotection rates against diphtheria toxoid (DT) and tetanus toxoid (TT) and (ii) the booster response rates against pertussis toxoid (PT), filamentous hemagglutinin (FHA) and pertactin (PRN) 30 days post-vaccination in all study subjects. A margin of -10 % was used for non-inferiority testing. Secondary outcomes included the booster response rates against DT and TT, seropositivity rates against pertussis antigens, and antibody geometric mean concentrations (GMCs) for all vaccine components., Results: At Day 30 post-vaccination, SIIPL Tdap was assessed as non-inferior to the comparator Tdap in terms of: i) seroprotection rates against DT (94.4 % vs. 94.9 %) and TT (99.9 % vs. 100 %) and ii) pertussis booster response rates (93.8 % vs. 88.4 % anti-PT, 89.7 % vs. 90.9 % anti-FHA and 86.3 % vs. 84.4 % anti-PRN), for SIIPL Tdap versus comparator Tdap, respectively. GMCs for anti-PT and anti-PRN were higher in subjects vaccinated with SIIPL Tdap compared to comparator Tdap. All other secondary outcomes were comparable. The overall frequency of local and systemic solicited AEs was comparable; no treatment related SAEs were reported., Conclusions: Booster vaccination with SIIPL Tdap was non-inferior to comparator Tdap with respect to the immunogenicity of the vaccine components and was equally well tolerated. EudraCT number: 2019-002706-46., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: IA, MM, FP, NMM, LG reports a relationship with Serum Institute of India Pvt Ltd that includes: consulting or advisory. SP, PP, SS, SD, HS, HR, MG, SG, US reports a relationship with Serum Institute of India Pvt Ltd that includes: employment., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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29. Prevalence of factors contributing to unplanned hospital readmission of older medical patients when assessed by patients, their significant others and healthcare professionals: a cross-sectional survey.

Author

Rasmussen LF, Grode L, Barat I, and Gregersen M

Subjects
Aged, Female, Humans, Male, Cross-Sectional Studies, Delivery of Health Care, Prevalence, Aged, 80 and over, Patient Readmission, Patients
Abstract

Objective: To describe the prevalence of factors contributing to readmission of older medical patients perceived by patients, significant others and healthcare professionals and to examine the agreement of factors contributing to readmission., Methods: This cross-sectional survey was conducted at Horsens Regional Hospital from September 2020 to June 2021. Patients aged ≥ 65 years and who were readmitted within 30 days were included. The questionnaire covered eight themes: disease; diagnosing, treatment and care; network; organisation; communication; skills and knowledge; resources; and practical arrangements. Response groups were patients, significant others, GPs, district nurses and hospital physicians. Outcomes were the prevalence of factors contributing to 30-day readmission and inter-rater agreement between respondents., Results: In total, 165 patients, 147 significant others, 115 GPs, 75 district nurses and 165 hospital physicians were included. The patients' median age was 79 years (IQR 74-85), and 44% were women. The following were the most prevalent contributing factors: (1) relapse of the condition that caused the index admission, (2) the patient could not manage the symptoms or illness, (3) worsening of other illnesses or conditions, (4) the patient was not fully treated at the time of discharge and (5) the patient's situation was too complex for the medical practice to handle. Kappas ranged from 0.0142 to 0.2421 for patient-significant other dyads and 0.0032 to 0.2459 for GP-hospital physician dyads., Conclusion: From the perspectives of the included respondents, factors associated with the disease and its management were the most prevalent contributors to readmission for older medical patients. Agreement on the contributing factors was generally low., Trial Registration: Clinical trial number NCT05116644. Registration date October 27, 2021., (© 2023. The Author(s).)

Published
2023
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30. VPM1002 as Prophylaxis Against Severe Respiratory Tract Infections Including Coronavirus Disease 2019 in the Elderly: A Phase 3 Randomized, Double-Blind, Placebo-Controlled, Multicenter Clinical Study.

Author

Blossey AM, Brückner S, May M, Parzmair GP, Sharma H, Shaligram U, Grode L, Kaufmann SHE, Netea MG, and Schindler C

Subjects
Aged, Humans, Double-Blind Method, Hospitalization statistics & numerical data, SARS-CoV-2, Respiratory Tract Diseases prevention & control, Middle Aged, Aged, 80 and over, Male, Female, Time Factors, Patient Acuity, BCG Vaccine immunology, BCG Vaccine standards, COVID-19 prevention & control
Abstract

Background: Bacille Calmette-Guérin (BCG) vaccination can potentially reduce the rate of respiratory infections in vulnerable populations. This study evaluates the safety and efficacy of VPM1002 (a genetically modified BCG) as prophylaxis against severe respiratory tract infections including coronavirus disease 2019 (COVID-19) in an elderly population., Methods: In this phase 3, randomized, double-blind, placebo-controlled, multicenter clinical trial, healthy elderly volunteers (N = 2064) were enrolled, randomized (1:1) to receive either VPM1002 or placebo, and followed up remotely for 240 days. The primary outcome was the mean number of days with severe respiratory infections at hospital and/or at home. Secondary endpoints included the incidence of self-reported fever, number of hospital and intensive care unit (ICU) admissions, and number of adverse events., Results: A total of 31 participants in the VPM1002 group reported at least 1 day with severe respiratory disease and a mean number of days with severe respiratory disease of 9.39 ± 9.28 while in the placebo group; 38 participants reported a mean of 14.29 ± 16.25 days with severe respiratory disease. The incidence of self-reported fever was lower in the VPM1002 group (odds ratio, 0.46 [95% confidence interval, .28-.74]; P = .001), and consistent trends to fewer hospitalization and ICU admissions due to COVID-19 were observed after VPM1002 vaccination. Local reactions typical for BCG were observed in the VPM1002-vaccinated group, which were mostly of mild intensity., Conclusions: Vaccination with VPM1002 is well tolerated and seems to have a prophylactic effect against severe respiratory disease in the elderly., Clinical Trials Registration: NCT04435379., Competing Interests: Potential conflicts of interest. H. S. and U. S. are employed by SIIPL, which manufactures VPM1002. L. G., A. M. B., S. B., M. M., and G. P. P. are employed by VPM, which developed the vaccine. S. H. E. K. and L. G. are coinventors and named patent holders for VPM1002, which is licensed to Vakzine Projekt Management, Hannover, Germany, and sublicensed to Serum Institute of India Pvt Ltd. S. H. E. K. is also coholder of a patent licensed to Serum Institute of India Pvt Ltd; reports consulting fees (honorarium) from Memo Therapeutics AG, Switzerland, LTS Lohmann Therapie-Systeme AG, Germany, kENUP Foundation, Malta, and TUI AG, Germany; honorarium from IPSEN for speaker activities (information event for IPSEN employees) and from Gilead for speaker activity; and a role as Chair of Board for Schering Foundation. S. B. reports royalties or licenses related to a patent planned issued or pending (TB vaccine VPM1002) as an employee of VPM, the patent holder. M. G. N. is a scientific founder of TTxD and Lemba. M. G. N. also reports unrestricted research grants from GSK, ViiV Healthcare, Ono Pharma, and TTxD, all awarded to institution; patents for nanobiologics inducing or inhibiting trained immunity; participation on a scientific advisory board for TTxD; and stock in TTxD. G. P. P. reports royalties or licences and patents planned, issued, or pending for TB vaccine VPM1002, as an employee of VPM, the patent holder. H. S. reports license held by Serum Institute of India Pvt Ltd. L. G. reports royalties or licences and patents planned, issued, or pending related to employment with VPM, the patent holder of TB vaccine VPM1002. C. S. reports participation in the blinded part of the data and safety monitoring board as principal investigator of the present trial (no advisory board). All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2022. Published by Oxford University Press on behalf of Infectious Diseases Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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31. Safety and Immunogenicity of Recombinant Bacille Calmette-Guérin Strain VPM1002 and Its Derivatives in a Goat Model.

Author

Figl J, Köhler H, Wedlich N, Liebler-Tenorio EM, Grode L, Parzmair G, Krishnamoorthy G, Nieuwenhuizen NE, Kaufmann SHE, and Menge C

Subjects
Animals, Mice, Goats, T-Lymphocytes, Vaccination adverse effects, BCG Vaccine, Tuberculosis prevention & control
Abstract

A more effective vaccine against tuberculosis than Bacille Calmette-Guérin (BCG) is urgently needed. BCG derived recombinant VPM1002 has been found to be more efficacious and safer than the parental strain in mice models. Newer candidates, such as VPM1002 Δ pdx1 (PDX) and VPM1002 Δ nuoG (NUOG), were generated to further improve the safety profile or efficacy of the vaccine. Herein, we assessed the safety and immunogenicity of VPM1002 and its derivatives, PDX and NUOG, in juvenile goats. Vaccination did not affect the goats' health in regards to clinical/hematological features. However, all three tested vaccine candidates and BCG induced granulomas at the site of injection, with some of the nodules developing ulcerations approximately one month post-vaccination. Viable vaccine strains were cultured from the injection site wounds in a few NUOG- and PDX- vaccinated animals. At necropsy (127 days post-vaccination), BCG, VPM1002, and NUOG, but not PDX, still persisted at the injection granulomas. All strains, apart from NUOG, induced granuloma formation only in the lymph nodes draining the injection site. In one animal, the administered BCG strain was recovered from the mediastinal lymph nodes. Interferon gamma (IFN-γ) release assay showed that VPM1002 and NUOG induced a strong antigen-specific response comparable to that elicited by BCG, while the response to PDX was delayed. Flow cytometry analysis of IFN-γ production by CD4 + , CD8 + , and γδ T cells showed that CD4 + T cells of VPM1002- and NUOG-vaccinated goats produced more IFN-γ compared to BCG-vaccinated and mock-treated animals. In summary, the subcutaneous application of VPM1002 and NUOG induced anti-tuberculous immunity, while exhibiting a comparable safety profile to BCG in goats.

Published
2023
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32. Effects of a transitional care intervention on readmission among older medical inpatients: a quasi-experimental study.

Author

Rasmussen LF, Barat I, Riis AH, Gregersen M, and Grode L

Subjects
Aged, Aged, 80 and over, Female, Humans, Male, Aftercare, Inpatients, Patient Discharge, Referral and Consultation, Telephone, Patient Readmission, Transitional Care
Abstract

Purpose: To evaluate the effect of a transitional care intervention (TCI) on readmission among older medical inpatients., Methods: This non-randomised quasi-experimental study was conducted at Horsens Regional Hospital in Denmark from 1 February 2017 to 31 December 2018. Inclusion criteria were patients ≥ 75 years old admitted for at least 48 h. First, patients were screened for eligibility. Then, the allocation to the intervention or control group was performed according to the municipality of residence. Patients living in three municipalities were offered the hospital-based intervention, and patients living in a fourth municipality were allocated to the control group. The intervention components were (1) discharge transportation with a home visit, (2) a post-discharge cross-sectorial video conference and (3) seven-day telephone consultation. The primary outcome was 30-day unplanned readmission. Secondary outcomes were 30- and 90-day mortality and days alive and out of hospital (DAOH)., Results: The study included 1205 patients (intervention: n = 615; usual care: n = 590). In the intervention group, the median age was 84.3 years and 53.7% were females. In the control group, the median age was 84.9 years and 57.5% were females. The 30-day readmission rates were 20.8% in the intervention group and 20.2% in the control group. Adjusted relative risk was 1.00 (95% confidence interval: 0.80, 1.26; p = 0.99). No significant difference was found between the groups for the secondary outcomes., Conclusion: The TCI did not impact readmission, mortality or DAOH. Future research should conduct a pilot test, address intervention fidelity and consider real-world challenges., Trial Registration: Clinical trial number: NCT04796701. Registration date: 24 February 2021., (© 2022. The Author(s).)

Published
2023
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33. Safety and immunogenicity of VPM1002 versus BCG in South African newborn babies: a randomised, phase 2 non-inferiority double-blind controlled trial.

Author

Cotton MF, Madhi SA, Luabeya AK, Tameris M, Hesseling AC, Shenje J, Schoeman E, Hatherill M, Desai S, Kapse D, Brückner S, Koen A, Jose L, Moultrie A, Bhikha S, Walzl G, Gutschmidt A, Kotze LA, Allies DL, Loxton AG, Shaligram U, Abraham M, Johnstone H, Grode L, Kaufmann SHE, and Kulkarni PS

Subjects
Adolescent, Adult, BCG Vaccine, CD8-Positive T-Lymphocytes, Double-Blind Method, Humans, Immunogenicity, Vaccine, Infant, Infant, Newborn, Interferon-gamma, South Africa, HIV Infections drug therapy, Lymphadenopathy, Tuberculosis drug therapy
Abstract

Background: Tuberculosis is a major public health problem worldwide. Immunisation with Mycobacterium bovis BCG vaccine is partially effective in infants, reducing the incidence of miliary and tuberculosis meningitis, but is less effective against pulmonary tuberculosis. We aimed to compare safety and immunogenicity of VPM1002-a recombinant BCG vaccine developed to address this gap-with BCG in HIV exposed and HIV unexposed newborn babies., Methods: This double-blind, randomised, active controlled phase 2 study was conducted at four health centres in South Africa. Eligible neonates were aged 12 days or younger with a birthweight of 2·5-4·2 kg, and could be HIV exposed (seropositive mothers) or unexposed (seronegative mothers). Newborn babies were excluded if they had acute or chronic illness, fever, hypothermia, sepsis, cancer, or congenital malformation, or if they received blood products or immunosuppressive therapy. Participants were excluded if their mothers (aged ≥18 years) had active tuberculosis disease, diabetes, a history of immunodeficiency except for HIV, hepatitis B or syphilis seropositivity, received blood products in the preceding 6 months, any acute infectious disease, or any suspected substance abuse. Participants were randomly assigned to VPM1002 or BCG vaccination in a 3:1 ratio, stratified by HIV status using the random number generator function in SAS, using a block size of eight paticipants. The primary outcome was non-inferiority (margin 15%) of VPM1002 to BCG vaccine in terms of incidence of grade 3-4 adverse drug reactions or ipsilateral or generalised lymphadenopathy of 10 mm or greater in diameter by 12 months. The primary outcome was assessed in all vaccinated participants (safety population) at regular follow-up visits until 12 months after vaccination. Secondary immunogenicity outcomes were interferon-γ levels and percentages of multifunctional CD4 + and CD8 + T cells among all lymphocytes across the 12 month study period. The study was registered with ClinicalTrials.gov, NCT02391415., Findings: Between June 4, 2015 and Oct 16, 2017, 416 eligible newborn babies were randomly assigned and received study vaccine. Seven (2%) of 312 participants in the VPM1002 group had a grade 3-4 vaccine-related adverse reaction or lymphadenopathy of 10 mm or greater in diameter compared with 34 (33%) of 104 participants in the BCG group (risk difference -30·45% [95% CI -39·61% to -21·28%]; p non-inferiority <0·0001); VPM1002 was thus non-inferior to BCG for the primary outcome. Incidence of severe injection site reactions was lower with VPM1002 than BCG: scarring occurred in 65 (21%) participants in the VPM1002 group versus 77 (74%) participants in the BCG group (p<0·0001); ulceration occurred in one (<1%) versus 15 (14%; p<0·0001); and abscess formation occurred in five (2%) versus 23 (22%; p<0·0001). Restimulated IFNγ concentrations were lower in the VPM1002 group than the BCG group at week 6, week 12, month 6, and month 12. The percentage of multifunctional CD4 + T cells was higher in the VPM1002 group than the BCG group at day 14 but lower at week 6, week 12, month 6, and month 12. The percentage of multifunctional CD8 + T cells was lower in the VPM1002 group than the BCG group at week 6, week 12, and month 6, but did not differ at other timepoints., Interpretation: VPM1002 was less reactogenic than BCG and was not associated with any serious safety concern. Both vaccines were immunogenic, although responses were higher with the BCG vaccine. VPM1002 is currently being studied for efficacy and safety in a multicentric phase 3 clinical trial in babies in sub-Saharan Africa., Funding: Serum Institute of India., Competing Interests: Declaration of interests SD, DK, US, and PSK are employed by Serum Institute of India, which manufactures VPM1002. LG and SBr are employed by Vakzine Projekt Management, which developed the VPM1002 vaccine. SHEK and LG are co-inventors and named patent holders for VPM1002., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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34. Vaccine-Induced Subcutaneous Granulomas in Goats Reflect Differences in Host-Mycobacterium Interactions between BCG- and Recombinant BCG-Derivative Vaccines.

Author

Liebler-Tenorio EM, Heyl J, Wedlich N, Figl J, Köhler H, Krishnamoorthy G, Nieuwenhuizen NE, Grode L, Kaufmann SHE, and Menge C

Subjects
Animals, Goats, Granuloma etiology, Lipids, Necrosis, BCG Vaccine adverse effects, Mycobacterium genetics, Tuberculosis
Abstract

Tuberculous granulomas are highly dynamic structures reflecting the complex host-mycobacterium interactions. The objective of this study was to compare granuloma development at the site of vaccination with BCG and its recombinant derivatives in goats. To characterize the host response, epithelioid cells, multinucleated giant cells (MNGC), T cell subsets, B cells, plasma cells, dendritic cells and mycobacterial antigen were labelled by immunohistochemistry, and lipids and acid-fast bacteria (AFB) were labelled by specific staining. Granulomas with central caseous necrosis developed at the injection site of most goats though lesion size and extent of necrosis differed between vaccine strains. CD4 + T and B cells were more scarce and CD8 + cells were more numerous in granulomas induced by recombinant derivatives compared to their parental BCG strain. Further, the numbers of MNGCs and cells with lipid bodies were markedly lower in groups administered with recombinant BCG strains. Microscopic detection of AFB and mycobacterial antigen was rather frequent in the area of central necrosis, however, the isolation of bacteria in culture was rarely successful. In summary, BCG and its recombinant derivatives induced reproducibly subcutaneous caseous granulomas in goats that can be easily monitored and surgically removed for further studies. The granulomas reflected the genetic modifications of the recombinant BCG-derivatives and are therefore suitable models to compare reactions to different mycobacteria or TB vaccines.

Published
2022
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35. Results of the phase I open label clinical trial SAKK 06/14 assessing safety of intravesical instillation of VPM1002BC, a recombinant mycobacterium Bacillus Calmette Guérin (BCG), in patients with non-muscle invasive bladder cancer and previous failure of conventional BCG therapy.

Author

Rentsch CA, Bosshard P, Mayor G, Rieken M, Püschel H, Wirth G, Cathomas R, Parzmair GP, Grode L, Eisele B, Sharma H, Gupta M, Gairola S, Shaligram U, Goldenberger D, Spertini F, Audran R, Enoiu M, Berardi S, Hayoz S, and Wicki A

Subjects
Administration, Intravesical, Aged, Aged, 80 and over, Humans, Male, BCG Vaccine administration & dosage, Mycobacterium bovis genetics, Mycobacterium bovis immunology, Urinary Bladder Neoplasms drug therapy
Abstract

Background : VPM1002BC is a modified mycobacterium Bacillus Calmette Guérin (BCG) for the treatment of non-muscle invasive bladder cancer (NMIBC). The genetic modifications are expected to result in better immunogenicity and less side effects. We report on patient safety and immunology of the first intravesical application of VPM1002BC in human. Methods : Six patients with BCG failure received a treatment of 6 weekly instillations with VPM1002BC. Patients were monitored for adverse events (AE), excretion of VPM1002BC and cytokines, respectively. Results : No DLT (dose limiting toxicity) occurred during the DLT-period. No grade ≥3 AEs occurred. Excretion of VPM1002BC in the urine was limited to less than 24 hours. Plasma levels of TNFα significantly increased after treatment and blood-derived CD4+ T cells stimulated with PPD demonstrated significantly increased intracellular GM-CSF and IFN expression. Conclusion : The intravesical application of VPM1002BC is safe and well tolerated by patients and results in a potential Th1 weighted immune response., (© 2020 The Author(s). Published with license by Taylor & Francis Group, LLC.)

Published
2020
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36. Production Strategies for Pentamer-Positive Subviral Dense Bodies as a Safe Human Cytomegalovirus Vaccine.

Author

Gogesch P, Penner I, Krauter S, Büscher N, Grode L, Aydin I, and Plachter B

Abstract

Infections with the human cytomegalovirus (HCMV) are associated with severe clinical manifestations in children following prenatal transmission and after viral reactivation in immunosuppressed individuals. The development of an HCMV vaccine has long been requested but there is still no licensed product available. Subviral dense bodies (DB) are immunogenic in pre-clinical models and are thus a promising HCMV vaccine candidate. Recently, we established a virus based on the laboratory strain Towne that synthesizes large numbers of DB containing the pentameric protein complex gH/gL/UL128-131 (Towne-UL130repΔGFP). The work presented here focuses on providing strategies for the production of a safe vaccine based on that strain. A GMP-compliant protocol for DB production was established. Furthermore, the DB producer strain Towne-UL130rep was attenuated by deleting the UL25 open reading frame. Additional genetic modifications aim to abrogate its capacity to replicate in vivo by conditionally expressing pUL51 using the Shield-1/FKBP destabilization system. We further show that the terminase inhibitor letermovir can be used to reduce infectious virus contamination of a DB vaccine by more than two orders of magnitude. Taken together, strategies are provided here that allow for the production of a safe and immunogenic DB vaccine for clinical testing., Competing Interests: The authors declare no conflict of interest.

Published
2019
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37. Diagnostic Accuracy of a Point-of-Care Test for Celiac Disease Antibody Screening among Infertile Patients.

Author

Grode L, Møller Jensen T, Parkner T, Agerholm IE, Humaidan P, Hammer Bech B, and Ramlau-Hansen C

Abstract

Background: Screening for celiac disease among infertile patients has been suggested. Several rapid point-of-care (POC) tests aimed at detecting celiac disease antibodies have been developed. It has been suggested that these POC tests can be implemented as a replacement for standard laboratory tests., Objective: To evaluate the diagnostic accuracy of a POC test (Simtomax®) that detects celiac disease antibodies compared with standard laboratory tests when screening for celiac disease among patients referred for fertility treatment in 2 Danish fertility clinics., Methods: Serum samples were analyzed for IgA anti-tissue transglutaminase (TGA) as the reference standard test with a cutoff of ≥7 kU/L and by the index POC test based on IgA and IgG antibodies against deamidated gliadin peptides (DGP). In IgA deficiency, the reference standard test was IgG DGP with a cutoff of ≥7 kU/L. Participants answered a questionnaire on gluten intake, symptoms, and risk factors. Diagnostic confirmation was made by duodenal biopsies. IgA TGA/IgG DGP were used as the reference standard to calculate positive and negative predictive values., Results: A total of 622 men and women (51.6%) were enrolled during 2015. The reference standard IgA TGA/IgG DGP was positive in 7 participants (1.1% [95% CI 0.5-2.3]) and the POC test was positive in 84 participants (13.5% [95% CI 10.9-16.4]), 3 of whom also had positive reference standard tests. This yields a sensitivity of the index POC test of 42.9% (95% CI 9.9-81.6) and a specificity of 86.8% (95% CI 83.9-89.4). Positive and negative predictive values were 3.57% (95% CI 0.7-10.1) and 99.3% (95% CI 98.1-99.8)., Conclusion: The sensitivity of the POC test was low; however, the specificity was moderately good. The POC test had a high negative predictive value in this low prevalent population but missed 1 patient with biopsy-confirmed celiac disease. However, because of many false-positive tests, it cannot be recommended as replacement for standard laboratory tests but rather as a triage test to decide if the standard serology tests should be performed., Competing Interests: The authors have no conflict of interest to declare.

Published
2019
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38. Prevalence, incidence, and autoimmune comorbidities of celiac disease: a nation-wide, population-based study in Denmark from 1977 to 2016.

Author

Grode L, Bech BH, Jensen TM, Humaidan P, Agerholm IE, Plana-Ripoll O, and Ramlau-Hansen CH

Subjects
Adolescent, Adult, Age Distribution, Age Factors, Aged, Aged, 80 and over, Autoimmune Diseases diagnosis, Case-Control Studies, Celiac Disease diagnosis, Child, Child, Preschool, Comorbidity, Denmark epidemiology, Female, Humans, Incidence, Infant, Infant, Newborn, Male, Middle Aged, Prevalence, Registries, Risk Factors, Sex Distribution, Sex Factors, Time Factors, Young Adult, Autoimmune Diseases epidemiology, Celiac Disease epidemiology
Abstract

Aim: The aim of this study was to describe and identify potential trends with respect to prevalence, incidence, age, sex, and autoimmune comorbidity of celiac disease (CD)., Patients and Methods: A Danish nationwide cohort study of CD using data from The National Patient Register. Patients with a primary or secondary diagnosis code of CD during the period 1977 to 2016 were identified. Information on sex, date of birth, death, or immigration was obtained from the Danish Civil Registration System, and autoimmune comorbidities were identified in the Danish National Patient Register. The CD cohort was compared with the general Danish population using a control cohort and aggregated data obtained from Statistics Denmark., Results: The CD cohort consisted of 11 802 (65% women) patients. The median age at diagnosis of CD varied between 30 years in 1980-1984 and 45 years in 1995-1999 and 27 years in 2015-2016. The prevalence of CD in 1986 and 2016 was 14 and 180 per 100 000 persons, respectively, with a female/male ratio changing from 1.3 to 2.0. Incidence rates (per 100 000 person-years) changed from 1.6 in 1980-1984 to 15.2 in 2015-2016, with the largest increase among females aged 0-9 years. In 2016, prevalence of autoimmune comorbidities was 16.4% among the CD patients compared with 5.3% in the general population., Conclusion: The prevalence of diagnosed CD has doubled every decade in Denmark from 1986 to 2016, and in the same period the female/male ratio has increased and the median age at diagnosis has decreased. The prevalence of autoimmune comorbidity in 2016 was three times higher among CD patients compared with the general Danish population.

Published
2018
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39. The Recombinant Bacille Calmette-Guérin Vaccine VPM1002: Ready for Clinical Efficacy Testing.

Author

Nieuwenhuizen NE, Kulkarni PS, Shaligram U, Cotton MF, Rentsch CA, Eisele B, Grode L, and Kaufmann SHE

Abstract

The only licensed vaccine against tuberculosis (TB), bacille Calmette-Guérin (BCG), protects against severe extrapulmonary forms of TB but is virtually ineffective against the most prevalent form of the disease, pulmonary TB. BCG was genetically modified at the Max Planck Institute for Infection Biology to improve its immunogenicity by replacing the urease C encoding gene with the listeriolysin encoding gene from Listeria monocytogenes . Listeriolysin perturbates the phagosomal membrane at acidic pH. Urease C is involved in neutralization of the phagosome harboring BCG. Its depletion allows for rapid phagosome acidification and promotes phagolysosome fusion. As a result, BCGΔ ureC :: hly (VPM1002) promotes apoptosis and autophagy and facilitates release of mycobacterial antigens into the cytosol. In preclinical studies, VPM1002 has been far more efficacious and safer than BCG. The vaccine was licensed to Vakzine Projekt Management and later sublicensed to the Serum Institute of India Pvt. Ltd., the largest vaccine producer in the world. The vaccine has passed phase I clinical trials in Germany and South Africa, demonstrating its safety and immunogenicity in young adults. It was also successfully tested in a phase IIa randomized clinical trial in healthy South African newborns and is currently undergoing a phase IIb study in HIV exposed and unexposed newborns. A phase II/III clinical trial will commence in India in 2017 to assess efficacy against recurrence of TB. The target indications for VPM1002 are newborn immunization to prevent TB as well as post-exposure immunization in adults to prevent TB recurrence. In addition, a Phase I trial in non-muscle invasive bladder cancer patients has been completed, and phase II trials are ongoing. This review describes the development of VPM1002 from the drawing board to its clinical assessment.

Published
2017
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40. Safety and Immunogenicity of the Recombinant Mycobacterium bovis BCG Vaccine VPM1002 in HIV-Unexposed Newborn Infants in South Africa.

Author

Loxton AG, Knaul JK, Grode L, Gutschmidt A, Meller C, Eisele B, Johnstone H, van der Spuy G, Maertzdorf J, Kaufmann SHE, Hesseling AC, Walzl G, and Cotton MF

Subjects
Abscess epidemiology, Abscess pathology, BCG Vaccine administration & dosage, BCG Vaccine genetics, CD8-Positive T-Lymphocytes immunology, Drug-Related Side Effects and Adverse Reactions epidemiology, Drug-Related Side Effects and Adverse Reactions pathology, Female, Humans, Incidence, Infant, Newborn, Male, South Africa, Treatment Outcome, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic adverse effects, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, BCG Vaccine adverse effects, BCG Vaccine immunology, Tuberculosis prevention & control
Abstract

Tuberculosis is a global threat to which infants are especially vulnerable. Effective vaccines are required to protect infants from this devastating disease. VPM1002, a novel recombinant Mycobacterium bovis bacillus Calmette-Guérin (BCG) vaccine previously shown to be safe and immunogenic in adults, was evaluated for safety in its intended target population, namely, newborn infants in a region with high prevalence of tuberculosis. A total of 48 newborns were vaccinated intradermally with VPM1002 (n = 36) or BCG Danish strain (n = 12) in a phase II open-labeled, randomized trial with a 6-month follow-up period. Clinical and laboratory measures of safety were evaluated during this time. In addition, vaccine-induced immune responses to mycobacteria were analyzed in whole-blood stimulation and proliferation assays. The safety parameters and immunogenicity were comparable in the two groups. Both vaccines induced interleukin-17 (IL-17) responses; however, VPM1002 vaccination led to an increase of CD8 + IL-17 + T cells at the week 16 and month 6 time points. The incidence of abscess formation was lower for VPM1002 than for BCG. We conclude that VPM1002 is a safe, well-tolerated, and immunogenic vaccine in newborn infants, confirming results from previous trials in adults. These results strongly support further evaluation of the safety and efficacy of this vaccination in larger studies. (This study has been registered at ClinicalTrials.gov under registration no. NCT01479972.)., (Copyright © 2017 Loxton et al.)

Published
2017
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41. The BCG replacement vaccine VPM1002: from drawing board to clinical trial.

Author

Kaufmann SH, Cotton MF, Eisele B, Gengenbacher M, Grode L, Hesseling AC, and Walzl G

Subjects
Animals, Humans, Mycobacterium tuberculosis physiology, Tuberculosis epidemiology, BCG Vaccine administration & dosage, Clinical Trials as Topic trends, Mycobacterium tuberculosis drug effects, Tuberculosis prevention & control
Abstract

Tuberculosis remains a major health threat and vaccines better than bacillus Calmette-Guérin (BCG) are urgently required. Here we describe our experience with a recombinant BCG expressing listeriolysin and deficient in urease. This potential replacement vaccine has demonstrated superior efficacy and safety over BCG in Mycobacterium tuberculosis aerosol-challenged mice and was safe in numerous animal models including immune-deficient mice, guinea pigs, rabbits and nonhuman primates. Phase I clinical trials in adults in Germany and South Africa have proven safety and a current Phase IIa trial is under way to assess immunogenicity and safety in its target population, newborns in a high tuberculosis incidence setting, with promising early results. Second-generation candidates are being developed to improve safety and efficacy.

Published
2014
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42. Nonclinical Development of BCG Replacement Vaccine Candidates.

Author

Velmurugan K, Grode L, Chang R, Fitzpatrick M, Laddy D, Hokey D, Derrick S, Morris S, McCown D, Kidd R, Gengenbacher M, Eisele B, Kaufmann SH, Fulkerson J, and Brennan MJ

Abstract

The failure of current Mycobacterium bovis bacille Calmette-Guérin (BCG) vaccines, given to neonates to protect against adult tuberculosis and the risk of using these live vaccines in HIV-infected infants, has emphasized the need for generating new, more efficacious and safer replacement vaccines. With the availability of genetic techniques for constructing recombinant BCG (rBCG) strains containing well-defined gene deletions or insertions, new vaccine candidates are under evaluation at both the preclinical and clinical stages of development. Since most BCG vaccines in use today were evaluated in clinical trials decades ago and are produced by outdated processes, the development of new BCG vaccines offers a number of advantages that include a modern well-defined manufacturing process along with state-of-the-art evaluation of safety and efficacy in target populations. We provide a description of the preclinical development of two novel rBCGs, VPM1002 that was constructed by adding a modified hly gene coding for the protein listeriolysin O (LLO) from Listeria monocytogenes and AERAS-422, which carries a modified pfoA gene coding for the protein perfringolysin O (PFO) from Clostridium perfringens, and three genes from Mycobacterium tuberculosis. Novel approaches like these should be helpful in generating stable and effective rBCG vaccine candidates that can be better characterized than traditional BCG vaccines.

Published
2013
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43. Safety and immunogenicity of the recombinant BCG vaccine VPM1002 in a phase 1 open-label randomized clinical trial.

Author

Grode L, Ganoza CA, Brohm C, Weiner J 3rd, Eisele B, and Kaufmann SH

Subjects
Adolescent, Adult, Antibodies, Bacterial blood, BCG Vaccine administration & dosage, BCG Vaccine genetics, Flow Cytometry, Healthy Volunteers, Humans, Injections, Intradermal, Interferon-gamma metabolism, Leukocytes, Mononuclear immunology, Male, Middle Aged, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic adverse effects, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Young Adult, BCG Vaccine adverse effects, BCG Vaccine immunology
Abstract

Background: Current vaccination using Mycobacterium bovis bacillus Calmette-Guérin (BCG), fails to prevent pulmonary tuberculosis (TB). New vaccination strategies are essential for reducing the global incidence of TB. We assessed the safety and immunogenicity of VPM1002, a recombinant BCG vaccine candidate. EudraCT (2007-002789-37) and ClinicalTrials.gov (NCT00749034)., Methods: Healthy volunteers were enrolled in a phase 1 open-label, dose escalation randomized clinical trial, and received one intradermal dose of VPM1002 (Mycobacterium bovis BCG ΔureC::hly Hm(R)) or BCG. Immunogenicity was assessed by interferon-gamma (IFN-γ) production, cellular immune response markers by flow cytometry and serum antibodies against mycobacterial antigens., Results: Eighty volunteers were randomized into two groups according to previous BCG vaccination and mycobacterial exposure (BCG-naïve, n=40 and BCG-immune, n=40). In each group, 30 individuals were vaccinated with VPM1002 (randomized to three escalating doses) and 10 with BCG. VPM1002 was safe and stimulated IFN-γ-producing and multifunctional T cells, as well as antibody-producing B cells in BCG-naïve and BCG-immune individuals., Conclusions: VPM1002 was safe and immunogenic for B-cell and T-cell responses and hence will be brought forward through the clinical trial pipeline., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2013
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44. Unique transcriptome signature of Mycobacterium tuberculosis in pulmonary tuberculosis.

Author

Rachman H, Strong M, Ulrichs T, Grode L, Schuchhardt J, Mollenkopf H, Kosmiadi GA, Eisenberg D, and Kaufmann SH

Subjects
Bacterial Proteins genetics, Computational Biology methods, Gene Expression Regulation, Bacterial, Humans, Lung microbiology, Lung surgery, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis isolation & purification, Mycobacterium tuberculosis metabolism, Proteome, Transcription, Genetic, Tuberculosis, Multidrug-Resistant microbiology, Tuberculosis, Multidrug-Resistant surgery, Tuberculosis, Pulmonary surgery, Bacterial Proteins metabolism, Gene Expression Profiling, Genome, Bacterial, Mycobacterium tuberculosis pathogenicity, Oligonucleotide Array Sequence Analysis, Tuberculosis, Pulmonary microbiology
Abstract

Although tuberculosis remains a substantial global threat, the mechanisms that enable mycobacterial persistence and replication within the human host are ill defined. This study represents the first genome-wide expression analysis of Mycobacterium tuberculosis from clinical lung samples, which has enabled the identification of M. tuberculosis genes actively expressed during pulmonary tuberculosis. To obtain optimal information from our DNA array analyses, we analyzed the differentially expressed genes within the context of computationally inferred protein networks. Protein networks were constructed using functional linkages established by the Rosetta stone, phylogenetic profile, conserved gene neighbor, and operon computational methods. This combined approach revealed that during pulmonary tuberculosis, M. tuberculosis actively transcribes a number of genes involved in active fortification and evasion from host defense systems. These genes may provide targets for novel intervention strategies.

Published
2006
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45. Evaluation of vaccines in the EU TB Vaccine Cluster using a guinea pig aerosol infection model of tuberculosis.

Author

Williams A, Hatch GJ, Clark SO, Gooch KE, Hatch KA, Hall GA, Huygen K, Ottenhoff TH, Franken KL, Andersen P, Doherty TM, Kaufmann SH, Grode L, Seiler P, Martin C, Gicquel B, Cole ST, Brodin P, Pym AS, Dalemans W, Cohen J, Lobet Y, Goonetilleke N, McShane H, Hill A, Parish T, Smith D, Stoker NG, Lowrie DB, Källenius G, Svenson S, Pawlowski A, Blake K, and Marsh PD

Subjects
Aerosols, Animals, BCG Vaccine therapeutic use, Colony Count, Microbial methods, Drug Evaluation, Preclinical methods, European Union, Guinea Pigs, Humans, Lung microbiology, Mycobacterium tuberculosis immunology, Mycobacterium tuberculosis isolation & purification, Spleen microbiology, Survival Analysis, Tuberculosis immunology, Tuberculosis Vaccines immunology, Tuberculosis, Pulmonary immunology, Tuberculosis, Pulmonary prevention & control, Vaccination methods, Disease Models, Animal, Tuberculosis prevention & control, Tuberculosis Vaccines therapeutic use
Abstract

The TB Vaccine Cluster project funded by the EU Fifth Framework programme aims to provide novel vaccines against tuberculosis that are suitable for evaluation in humans. This paper describes the studies of the protective efficacy of vaccines in a guinea pig aerosol-infection model of primary tuberculosis. The objective was to conduct comparative evaluations of vaccines that had previously demonstrated efficacy in other animal models. Groups of 6 guinea pigs were immunized with vaccines provided by the relevant EU Vaccine Cluster partners. Survival over 17 or 26 weeks was used as the principal measure of vaccine efficacy following aerosol challenge with H37Rv. Counts of mycobacteria in lungs and spleens, and histopathological changes in the lungs, were also used to provide evidence of protection. A total of 24 vaccines were evaluated in 4 experiments each of a different design. A heterologous prime-boost strategy of DNA and MVA, each expressing Ag85A and a fusion protein of ESAT-6 and Ag85B in adjuvant, protected the guinea pigs to the same extent as BCG. Genetically modified BCG vaccines and boosted BCG strategies also protected guinea pigs to the same extent as BCG but not statistically significantly better. A relatively high aerosol-challenge dose and evaluation over a protracted time post-challenge allowed superior protection over BCG to be demonstrated by BCG boosted with MVA and fowl pox vectors expressing Ag85A.

Published
2005
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46. Comparative analysis of different vaccine constructs expressing defined antigens from Mycobacterium tuberculosis.

Author

Doherty TM, Olsen AW, Weischenfeldt J, Huygen K, D'Souza S, Kondratieva TK, Yeremeev VV, Apt AS, Raupach B, Grode L, Kaufmann S, and Andersen P

Subjects
Acyltransferases immunology, Animals, Antigens, Bacterial immunology, Bacterial Proteins immunology, Female, Lymphocyte Activation immunology, Male, Mice, Mice, Inbred C57BL, Mycobacterium tuberculosis immunology, Recombinant Fusion Proteins immunology, Specific Pathogen-Free Organisms, T-Lymphocytes immunology, Time Factors, Tuberculosis prevention & control, Vaccines, Synthetic immunology, Tuberculosis Vaccines immunology
Abstract

Background: Studies of different vaccine constructs have demonstrated variable efficacy against Mycobacterium tuberculosis in animal models. Despite the fact that these vaccines have used one or another of a very small number of immunodominant antigens, a direct comparison of the relative efficacy of the antigens and delivery systems has been difficult, because the studies have used different parameters for assessment., Methods: We compared the efficacies of the most commonly used vaccine constructs--adjuvanted protein, plasmid DNA, and live bacterial vectors--bearing the immunodominant secreted antigens early secreted antigen target-6 and antigen 85B, either alone or as a fusion protein. Mice were vaccinated with these constructs, and the effects of different delivery systems on protective efficacy (as assessed by survival studies and by monitoring bacterial load) and antigen-specific responses (including the contribution of CD4 and CD8 T cells to these responses) were assayed by various methods., Results: The relative efficacy of different vaccines is dependent on the delivery system, the antigen, and the animal model. Likewise, the relative immunodominance of individual antigens in the fusion molecule is altered by the choice of delivery system., Conclusion: These results clearly demonstrate the importance of assessing vaccine function by use of multiple parameters and indicate which parameters are most reliable for assessing vaccine efficacy.

Published
2004
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47. Application of mycobacterial proteomics to vaccine design: improved protection by Mycobacterium bovis BCG prime-Rv3407 DNA boost vaccination against tuberculosis.

Author

Mollenkopf HJ, Grode L, Mattow J, Stein M, Mann P, Knapp B, Ulmer J, and Kaufmann SH

Subjects
Animals, Antibodies, Bacterial blood, Bacterial Proteins genetics, Bacterial Proteins immunology, Bacterial Proteins metabolism, Cattle, Computational Biology, Drug Design, Humans, Interferon-gamma metabolism, Mice, Mice, Inbred BALB C, Mycobacterium bovis immunology, Mycobacterium bovis metabolism, Mycobacterium tuberculosis immunology, Mycobacterium tuberculosis metabolism, Vaccination, Antigens, Bacterial genetics, Antigens, Bacterial immunology, Antigens, Bacterial metabolism, BCG Vaccine immunology, Immunization, Secondary, Proteome, Tuberculosis prevention & control, Tuberculosis Vaccines immunology, Vaccines, DNA immunology
Abstract

Information from comparative proteome analysis of Mycobacterium tuberculosis and Mycobacterium bovis bacillus Calmette-Guerin (BCG) principally allows prediction of potential vaccine candidates. Thirty-six M. tuberculosis DNA vaccine candidates identified by comparative proteome analysis were evaluated in the mouse model for protection against low-dose aerosol M. tuberculosis infection. We identified the DNA vaccine candidate Rv3407 as a protective antigen and analyzed putative major histocompatibility complex class I epitopes by computational predictions and gamma interferon Elispot assays. Importantly, we discovered that the DNA vaccine Rv3407 improved the efficacy of BCG vaccination in a heterologous prime-boost vaccination protocol. Our data demonstrate the rationale of a combination of proteomics, epitope prediction, and broad screening of putative antigens for identification of novel DNA vaccine candidates. Furthermore, our experiments show that heterologous prime-boost vaccination with a defined antigen boost "on top" of a BCG primer provides superior protection against tuberculosis over vaccination with BCG alone.

Published
2004
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48. Enhanced protective efficacy of a tuberculosis DNA vaccine by adsorption onto cationic PLG microparticles.

Author

Mollenkopf HJ, Dietrich G, Fensterle J, Grode L, Diehl KD, Knapp B, Singh M, O'Hagan DT, Ulmer JB, and Kaufmann SH

Subjects
Adsorption, Animals, DNA Primers, Drug Delivery Systems, Injections, Intramuscular, Interferon-gamma metabolism, Lactic Acid, Mice, Mice, Inbred BALB C, Microspheres, Mycobacterium bovis genetics, Mycobacterium bovis immunology, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis immunology, Polyglycolic Acid, Polylactic Acid-Polyglycolic Acid Copolymer, Polymers, Reverse Transcriptase Polymerase Chain Reaction, Spleen cytology, Spleen metabolism, Spleen microbiology, T-Lymphocytes metabolism, Tuberculosis immunology, Tuberculosis microbiology, Tuberculosis Vaccines chemistry, Vaccines, DNA administration & dosage, Vaccines, DNA chemistry, Vaccines, DNA therapeutic use, Tuberculosis prevention & control, Tuberculosis Vaccines administration & dosage, Tuberculosis Vaccines therapeutic use
Abstract

Immunization with plasmid DNA vectors represents a promising new approach to vaccination. It has been shown to elicit humoral and cellular immunity and protection in various infection models. Here, we assessed the immunogenicity and protective efficacy of a DNA vaccine vector encoding the antigen 85A (Ag85A) of Mycobacterium tuberculosis. Since intramuscular (i.m.) immunization with naked DNA requires considerable amounts of DNA in order to be effective, we evaluated a strategy to reduce the amount of DNA needed. To this end, we used Ag85A DNA adsorbed onto cationic poly(DL-lactide-co-glycolide) (PLG) microparticles and observed similar levels of protection against aerosol challenge in mice using doses of PLG-DNA two orders of magnitude lower than with naked DNA itself.

Published
2004
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49. Macrophages of the splenic marginal zone are essential for trapping of blood-borne particulate antigen but dispensable for induction of specific T cell responses.

Author

Aichele P, Zinke J, Grode L, Schwendener RA, Kaufmann SH, and Seiler P

Subjects
Animals, Antigen Presentation, Antigen-Presenting Cells immunology, Antigen-Presenting Cells metabolism, Antigen-Presenting Cells microbiology, Antimetabolites administration & dosage, Clodronic Acid administration & dosage, Immunity, Innate immunology, Injections, Intravenous, Liposomes, Listeria monocytogenes growth & development, Listeria monocytogenes immunology, Listeriosis immunology, Listeriosis microbiology, Macrophages drug effects, Macrophages metabolism, Macrophages microbiology, Mice, Mice, Inbred C57BL, Organ Specificity immunology, Spleen cytology, Spleen microbiology, T-Lymphocyte Subsets microbiology, Antigens, Bacterial blood, Epitopes, T-Lymphocyte blood, Lymphocyte Activation, Macrophages immunology, Spleen blood supply, Spleen immunology, T-Lymphocyte Subsets immunology, T-Lymphocyte Subsets metabolism
Abstract

Rapid removal of pathogens from the circulation by secondary lymphoid organs is prerequisite for successful control of infection. Blood-borne Ags are trapped mainly in the splenic marginal zone. To identify the cell populations responsible for Ag trapping in the marginal zone, mice were selectively depleted of marginal zone macrophages and marginal metallophilic macrophages. In the absence of these cells, trapping of microspheres and Listeria monocytogenes organisms was lost, and early control of infection was impaired. Depletion of marginal zone macrophages and marginal metallophilic macrophages, however, did not limit Ag presentation because Listeria-specific protective T cell immunity was induced. Therefore, marginal zone macrophages and marginal metallophilic macrophages are crucial for trapping of particulate Ag but dispensable for Ag presentation.

Published
2003
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50. Macrophage migration inhibitory factor (MIF) plays a pivotal role in immunity against Salmonella typhimurium.

Author

Koebernick H, Grode L, David JR, Rohde W, Rolph MS, Mittrücker HW, and Kaufmann SH

Subjects
Animals, Corticosterone blood, Inflammation Mediators metabolism, Interferon-gamma biosynthesis, Interleukin-12 biosynthesis, Macrophage Migration-Inhibitory Factors deficiency, Macrophage Migration-Inhibitory Factors genetics, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Nitric Oxide biosynthesis, Salmonella Infections blood, Salmonella typhimurium pathogenicity, Th1 Cells immunology, Tumor Necrosis Factor-alpha biosynthesis, Macrophage Migration-Inhibitory Factors immunology, Salmonella Infections immunology, Salmonella typhimurium immunology
Abstract

The cytokine macrophage migration inhibitory factor (MIF) exerts a multitude of biological functions. Notably, it induces inflammation at the interface between the immune system and the hypothalamus-pituitary-adrenal stress axis. The role of MIF in infectious diseases is not understood completely. Here, we show that MIF-deficient (MIF(-/-)) knockout mice fail to control an infection with wild-type Salmonella typhimurium. Increased susceptibility was accompanied by a reduced Th1 response, demonstrated by decreased levels of IL-12, IFNgamma, and tumor necrosis factor alpha. In Salmonella-infected MIF(-/-) mice, levels of IL-1beta were markedly increased. Additionally, infected MIF(-/-) mice showed elevated serum levels of nitric oxide and corticosterone as compared with control mice. Our results point to MIF as a key mediator in the host response to S. typhimurium. MIF not only promotes development of a protective Th1 response but ameliorates disease by altering levels of reactive nitrogen intermediates and corticosteroid hormones, which both exert immunosuppressive functions.

Published
2002
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