Your search keyword '"Janjić, K."' showing total 41 results

1. Formation of spheroids by dental pulp cells in the presence of hypoxia and hypoxia mimetic agents

Author

Janjić, K., Lilaj, B., Moritz, A., and Agis, H.

Published

2018

2. A global experiment on motivating social distancing during the COVID-19 pandemic

Author

Legate, N, Ngyuen, T-V, Weinstein, N, Moller, A, Legault, L, Vally, Z, Tajchman, Z, Zsido, AN, Zrimsek, M, Chen, Z, Ziano, I, Gialitaki, Z, Ceary, CD, Jang, Y, Lin, Y, Kunisato, Y, Yamada, Y, Xiao, Q, Jiang, X, Du, X, Yao, E, Ryan, WS, Wilson, JP, Cyrus-Lai, W, Jimenez-Leal, W, Law, W, Unanue, W, Collins, WM, Richard, KL, Vranka, M, Ankushev, V, Schei, V, DePaola, C, Lerche, V, Kovic, V, Križanić, V, Kadreva, VH, Adoric, VC, Tran, US, Yeung, SK, Hassan, W, Houston, R, Machin, MA, Lima, TJS, Ostermann, T, Frizzo, T, Sverdrup, TE, House, T, Gill, T, Fedotov, M, Paltrow, T, Jernsäther, T, Rahman, T, Machin, T, Koptjevskaja-Tamm, M, Hostler, TJ, Ishii, T, Szaszi, B, Adamus, S, Suter, L, von Bormann, SM, Habib, S, Studzinska, A, Stojanovska, D, Janssen, SMJ, Stieger, S, Schulenberg, SE, Tatachari, S, Azouaghe, S, Sorokowski, P, Sorokowska, A, Song, X, Morbée, S, Lewis, S, Sinkolova, S, Grigoryev, D, Drexler, SM, Daches, S, Levine, SL, Geniole, SN, Akter, S, Vračar, S, Massoni, S, Costa, S, Zorjan, S, Sarioguz, E, Izquierdo, SM, Tshonda, SS, Alves, SG, Pöntinen, S, Solas, SÁ, Ordoñez-Riaño, S, Očovaj, SB, Onie, S, Lins, S, Biberauer, T, Çoksan, S, Khumkom, S, Sacakli, A, Ruiz-Fernández, S, Geiger, SJ, FatahModares, S, Walczak, RB, Betlehem, R, Vilar, R, Cárcamo, RA, Ross, RM, McCarthy, R, Ballantyne, T, Westgate, EC, Ryan, RM, Gargurevich, R, Afhami, R, Ren, D, Monteiro, RP, Reips, U-D, Reggev, N, Calin-Jageman, RJ, Pourafshari, R, Oliveira, R, Nedelcheva-Datsova, M, Rahal, R-M, Ribeiro, RR, Radtke, T, Searston, R, Jai-ai, R, Habte, R, Zdybek, P, Chen, S-C, Wajanatinapart, P, Maturan, PLG, Perillo, JT, Isager, PM, Kačmár, P, Macapagal, PM, Maniaci, MR, Szwed, P, Hanel, PHP, Forbes, PAG, Arriaga, P, Paris, B, Parashar, N, Papachristopoulos, K, Correa, PS, Kácha, O, Bernardo, M, Campos, O, Bravo, ON, Galindo-Caballero, OJ, Ogbonnaya, CE, Bialobrzeska, O, Kiselnikova, N, Simonovic, N, Cohen, N, Nock, NL, Hernandez, A, Thogersen-Ntoumani, C, Ntoumanis, N, Johannes, N, Albayrak-Aydemir, N, Say, N, Neubauer, AB, Martin, NI, Levy, N, Torunsky, N, Antwerpen, NV, Doren, NV, Sunami, N, Rachev, NR, Majeed, NM, Schmidt, N-D, Nadif, K, Corral-Frías, NS, Ouherrou, N, Abbas, N, Pantazi, M, Lucas, MY, Vasilev, MR, Victoria Ortiz, M, Butt, MM, Kurfalı, M, Kabir, M, Muda, R, Rivera, MDCMCT, Sirota, M, Seehuus, M, Parzuchowski, M, Toro, M, Hricova, M, Maldonado, MA, Rentzelas, P, Vansteenkiste, M, Metz, MA, Marszalek, M, Karekla, M, Mioni, G, Bosma, MJ, Westerlund, M, Vdovic, M, Bialek, M, Silan, MA, Anne, M, Misiak, M, Gugliandolo, MC, Grinberg, M, Capizzi, M, Espinoza Barría, MF, Kurfali, MA, Mensink, MC, Harutyunyan, M, Khosla, M, Dunn, MR, Korbmacher, M, Adamkovič, M, Ribeiro, MFF, Terskova, M, Hruška, M, Martončik, M, Jansen, M, Voracek, M, Čadek, M, Frias-Armenta, M, Kowal, M, Topor, M, Roczniewska, M, Oosterlinck, M, Kohlová, MB, Paruzel-Czachura, M, Sabristov, M, Romanova, M, Papadatou-Pastou, M, Lund, ML, Antoniadi, M, Magrin, ME, Jones, MV, Li, M, Ortiz, MS, Manavalan, M, Muminov, A, Kossowska, M, Friedemann, M, Wielgus, M, van Hooff, MLM, Varella, MAC, Standage, M, Nicolotti, M, Colloff, MF, Bradford, M, Vaughn, LA, Eudave, L, Vieira, L, Lu, JG, Pineda, LMS, Matos, L, Pérez, LC, Lazarevic, LB, Jaremka, LM, Smit, ES, Kushnir, E, Ferguson, LJ, Anton-Boicuk, L, Lins de Holanda Coelho, G, Ahlgren, L, Liga, F, Levitan, CA, Micheli, L, Gunton, L-A, Volz, L, Stojanovska, M, Boucher, L, Samojlenko, L, Delgado, LGJ, Kaliska, L, Beatrix, L, Warmelink, L, Rojas-Berscia, LM, Yu, K, Wylie, K, Wachowicz, J, Desai, K, Barzykowski, K, Kozma, L, Evans, K, Kirgizova, K, Emmanuel Agesin, BB, Koehn, MA, Wolfe, K, Korobova, T, Morris, K, Klevjer, K, van Schie, K, Vezirian, K, Damnjanović, K, Thommesen, KK, Schmidt, K, Filip, K, Staniaszek, K, Grzech, K, Hoyer, K, Moon, K, Khaobunmasiri, S, Rana, K, Janjić, K, Suchow, JW, Kielińska, J, Cruz Vásquez, JE, Chanal, J, Beitner, J, Vargas-Nieto, JC, Roxas, JCT, Taber, J, Urriago-Rayo, J, Pavlacic, JM, Benka, J, Bavolar, J, Soto, JA, Olofsson, JK, Vilsmeier, JK, Messerschmidt, J, Czamanski-Cohen, J, Waterschoot, J, Moss, JD, Boudesseul, J, Lee, JM, Kamburidis, J, Joy-Gaba, JA, Zickfeld, J, Miranda, JF, Verharen, JPH, Hristova, E, Beshears, JE, Djordjevic, JM, Bosch, J, Valentova, JV, Antfolk, J, Berkessel, JB, Schrötter, J, Urban, J, Röer, JP, Norton, JO, Silva, JR, Pickering, JS, Vintr, J, Uttley, J, Kunst, JR, Ndukaihe, ILG, Iyer, A, Vilares, I, Ivanov, A, Ropovik, I, Sula, I, Sarieva, I, Metin-Orta, I, Prusova, I, Pinto, I, Bozdoc, AI, Almeida, IAT, Pit, IL, Dalgar, I, Zakharov, I, Arinze, AI, Ihaya, K, Stephen, ID, Gjoneska, B, Brohmer, H, Flowe, H, Godbersen, H, Kocalar, HE, Hedgebeth, MV, Chuan-Peng, H, Sharifian, M, Manley, H, Akkas, H, Hajdu, N, Azab, H, Kaminski, G, Nilsonne, G, Anjum, G, Travaglino, GA, Feldman, G, Pfuhl, G, Czarnek, G, Marcu, GM, Hofer, G, Banik, G, Adetula, GA, Bijlstra, G, Verbruggen, F, Kung, FYH, Martela, F, Foroni, F, Forest, J, Singer, G, Muchembled, F, Azevedo, F, Mosannenzadeh, F, Marinova, E, Štrukelj, E, Etebari, Z, Bradshaw, EL, Baskin, E, Garcia, EOL, Musser, E, van Steenkiste, IMM, Ahn, ER, Quested, E, Pronizius, E, Jackson, EA, Manunta, E, Agadullina, E, Šakan, D, Dursun, P, Dujols, O, Dubrov, D, Willis, M, Tümer, M, Beaudry, JL, Popović, D, Dunleavy, D, Djamai, I, Krupić, D, Herrera, D, Vega, D, Du, H, Mola, D, Chakarova, D, Davis, WE, Holford, DL, Lewis, DMG, Vaidis, DC, Ozery, DH, Ricaurte, DZ, Storage, D, Sousa, D, Alvarez, DS, Boller, D, Rosa, AD, Dimova, D, Marko, D, Moreau, D, Reeck, C, Correia, RC, Whitt, CM, Lamm, C, Solorzano, CS, von Bastian, CC, Sutherland, CAM, Overkott, C, Aberson, CL, Wang, C, Niemiec, CP, Karashiali, C, Noone, C, Chiu, F, Picciocchi, C, Brownlow, C, Karaarslan, C, Cellini, N, Esteban-Serna, C, Reyna, C, Ferreyra, C, Batres, C, Li, R, Grano, C, Carpentier, J, Tamnes, CK, Fu, CHY, Ishkhanyan, B, Bylinina, L, Jaeger, B, Bundt, C, Allred, TB, Vermote, BJ, Bokkour, A, Bogatyreva, N, Shi, J, Chopik, WJ, Antazo, B, Behzadnia, B, Becker, M, Bayyat, MM, Cocco, B, Chou, W-L, Barkoukis, V, Hubena, B, Žuro, B, Aczel, B, Baklanova, E, Bai, H, Balci, BB, Babinčák, P, Soenens, B, Dixson, BJW, Mokady, A, Kappes, HB, Atari, M, Szala, A, Szabelska, A, Aruta, JJB, Domurat, A, Arinze, NC, Modena, A, Adiguzel, A, Monajem, A, ARABI, KAITEL, Özdoğru, AA, Rothbaum, AO, Torres, AO, Theodoropoulou, A, Skowronek, A, Jurković, AP, Singh, A, Kassianos, AP, Findor, A, Hartanto, A, Landry, AT, Ferreira, A, Santos, AC, De la Rosa-Gomez, A, Gourdon-Kanhukamwe, A, Luxon, AM, Todsen, AL, Karababa, A, Janak, A, Pilato, A, Bran, A, Tullett, AM, Kuzminska, AO, Krafnick, AJ, Urooj, A, Khaoudi, A, Ahmed, A, Groyecka-Bernard, A, Askelund, AD, Adetula, A, Belaus, A, Charyate, AC, Wichman, AL, Stoyanova, A, Greenburgh, A, Thomas, AG, Arvanitis, A, Forscher, PS, Mallik, PR, Coles, NA, Miller, JK, Moshontz, H, Urry, HL, IJzerman, H, Basnight-Brown, DM, Ebersole, CR, Chartier, CR, Buchanan, EM, Primbs, MA, Department of Psychology, Education and Child Studies, Clinical Psychology, Legate, N, Nguyen, T, Weinstein, N, Moller, A, Legault, L, Vally, Z, Tajchman, Z, Zsido, A, Zrimsek, M, Chen, Z, Ziano, I, Gialitaki, Z, Ceary, C, Jang, Y, Lin, Y, Kunisato, Y, Yamada, Y, Xiao, Q, Jiang, X, Du, X, Yao, E, Ryan, W, Wilson, J, Cyrus-Lai, W, Jimenez-Leal, W, Law, W, Unanue, W, Collins, W, Richard, K, Vranka, M, Ankushev, V, Schei, V, Lerche, V, Kovic, V, Krizanic, V, Kadreva, V, Adoric, V, Tran, U, Yeung, S, Hassan, W, Houston, R, Machin, M, Lima, T, Ostermann, T, Frizzo, T, Sverdrup, T, House, T, Gill, T, Fedotov, M, Paltrow, T, Jernsather, T, Rahman, T, Machin, T, Koptjevskaja-Tamm, M, Hostler, T, Ishii, T, Szaszi, B, Adamus, S, Suter, L, von Bormann, S, Habib, S, Studzinska, A, Stojanovska, D, Janssen, S, Stieger, S, Schulenberg, S, Tatachari, S, Azouaghe, S, Sorokowski, P, Sorokowska, A, Song, X, Morbee, S, Lewis, S, Sinkolova, S, Grigoryev, D, Drexler, S, Daches, S, Levine, S, Geniole, S, Akter, S, Vracar, S, Massoni, S, Costa, S, Zorjan, S, Sarioguz, E, Izquierdo, S, Tshonda, S, Alves, S, Pontinen, S, Solas, S, Ordonez-Riano, S, Ocovaj, S, Onie, S, Lins, S, Biberauer, T, Coksan, S, Khumkom, S, Sacakli, A, Ruiz-Fernandez, S, Geiger, S, Modares, S, Walczak, R, Betlehem, R, Vilar, R, Carcamo, R, Ross, R, Mccarthy, R, Ballantyne, T, Westgate, E, Ryan, R, Gargurevich, R, Afhami, R, Ren, D, Monteiro, R, Reips, U, Reggev, N, Calin-Jagema, R, Pourafshari, R, Oliveira, R, Nedelcheva-Datsova, M, Rahal, R, Ribeiro, R, Radtke, T, Searston, R, Jai-ai, R, Habte, R, Zdybek, P, Chen, S, Wajanatinapart, P, Maturan, P, Perillo, J, Isager, P, Kacmar, P, Macapagal, P, Maniaci, M, Szwed, P, Hanel, P, Forbes, P, Arriaga, P, Paris, B, Parashar, N, Papachristopoulos, K, Correa, P, Kacha, O, Bernardo, M, Campos, O, Bravo, O, Galindo-Caballero, O, Ogbonnaya, C, Bialobrzeska, O, Kiselnikova, N, Simonovic, N, Cohen, N, Nock, N, Hernandez, A, Thogersen-Ntouma, C, Ntoumanis, N, Johannes, N, Albayrak-Aydemir, N, Say, N, Neubauer, A, Martin, N, Torunsky, N, van Antwerpen, N, Van Doren, N, Sunami, N, Rachev, N, Majeed, N, Schmidt, N, Nadif, K, Corral-Frias, N, Ouherrou, N, Abbas, N, Pantazi, M, Lucas, M, Vasilev, M, Ortiz, M, Butt, M, Kurfali, M, Kabir, M, Muda, R, Rivera, M, Sirota, M, Seehuus, M, Parzuchowski, M, Toro, M, Hricova, M, Maldonado, M, Rentzelas, P, Vansteenkiste, M, Metz, M, Marszalek, M, Karekla, M, Mioni, G, Bosma, M, Westerlund, M, Vdovic, M, Bialek, M, Silan, M, Anne, M, Misiak, M, Gugliandolo, M, Grinberg, M, Capizzi, M, Barria, M, Mensink, M, Harutyunyan, M, Khosla, M, Dunn, M, Korbmacher, M, Adamkovic, M, Ribeiro, M, Terskova, M, Hruska, M, Martoncik, M, Voracek, M, Cadek, M, Frias-Armenta, M, Kowal, M, Topor, M, Roczniewska, M, Oosterlinck, M, Kohlova, M, Paruzel-Czachura, M, Sabristov, M, Romanova, M, Papadatou-Pastou, M, Lund, M, Antoniadi, M, Magrin, M, Jones, M, Li, M, Manavalan, M, Muminov, A, Kossowska, M, Friedemann, M, Wielgus, M, van Hooff, M, Varella, M, Standage, M, Nicolotti, M, Colloff, M, Bradford, M, Vaughn, L, Eudave, L, Vieira, L, Lu, J, Pineda, L, Matos, L, Perez, L, Lazarevic, L, Jaremka, L, Smit, E, Kushnir, E, Ferguson, L, Anton-Boicuk, L, Coelho, G, Ahlgren, L, Liga, F, Levitan, C, Micheli, L, Gunton, L, Volz, L, Stojanovska, M, Boucher, L, Samojlenko, L, Delgado, L, Kaliska, L, Beatrix, L, Warmelink, L, Rojas-Berscia, L, Yu, K, Wylie, K, Wachowicz, J, Desai, K, Barzykowski, K, Kozma, L, Evans, K, Kirgizova, K, Agesin, B, Koehn, M, Wolfe, K, Korobova, T, Morris, K, Klevjer, K, van Schie, K, Vezirian, K, Damnjanovic, K, Thommesen, K, Schmidt, K, Filip, K, Staniaszek, K, Grzech, K, Hoyer, K, Moon, K, Khaobunmasiri, S, Rana, K, Janjic, K, Suchow, J, Kielinska, J, Vasquez, J, Chanal, J, Beitner, J, Vargas-Nieto, J, Roxas, J, Taber, J, Urriago-Rayo, J, Pavlacic, J, Benka, J, Bavolar, J, Soto, J, Olofsson, J, Vilsmeier, J, Messerschmidt, J, Czamanski-Cohen, J, Waterschoot, J, Moss, J, Boudesseul, J, Lee, J, Kamburidis, J, Joy-Gaba, J, Zickfeld, J, Miranda, J, Verharen, J, Hristova, E, Beshears, J, Djordjevic, J, Bosch, J, Valentova, J, Antfolk, J, Berkessel, J, Schrotter, J, Urban, J, Roer, J, Norton, J, Silva, J, Pickering, J, Vintr, J, Uttley, J, Kunst, J, Ndukaihe, I, Iyer, A, Vilares, I, Ivanov, A, Ropovik, I, Sula, I, Sarieva, I, Metin-Orta, I, Prusova, I, Pinto, I, Bozdoc, A, Almeida, I, Pit, I, Dalgar, I, Zakharov, I, Arinze, A, Ihaya, K, Stephen, I, Gjoneska, B, Brohmer, H, Flowe, H, Godbersen, H, Kocalar, H, Hedgebeth, M, Chuan-Peng, H, Sharifian, M, Manley, H, Akkas, H, Hajdu, N, Azab, H, Kaminski, G, Nilsonne, G, Anjum, G, Travaglino, G, Feldman, G, Pfuhl, G, Czarnek, G, Marcu, G, Hofer, G, Banik, G, Adetula, G, Bijlstra, G, Verbruggen, F, Kung, F, Martela, F, Foroni, F, Forest, J, Singer, G, Muchembled, F, Azevedo, F, Mosannenzadeh, F, Marinova, E, Strukelj, E, Etebari, Z, Bradshaw, E, Baskin, E, Garcia, E, Musser, E, van Steenkiste, I, Ahn, E, Quested, E, Pronizius, E, Jackson, E, Manunta, E, Agadullina, E, Sakan, D, Dursun, P, Dujols, O, Dubrov, D, Willis, M, Tumer, M, Beaudry, J, Popovic, D, Dunleavy, D, Djamai, I, Krupic, D, Herrera, D, Vega, D, Du, H, Mola, D, Chakarova, D, Davis, W, Holford, D, Lewis, D, Vaidis, D, Ozery, D, Ricaurte, D, Storage, D, Sousa, D, Alvarez, D, Boller, D, Dalla Rosa, A, Dimova, D, Marko, D, Moreau, D, Reeck, C, Correia, R, Whitt, C, Lamm, C, Solorzano, C, von Bastian, C, Sutherland, C, Overkott, C, Aberson, C, Wang, C, Niemiec, C, Karashiali, C, Noone, C, Chiu, F, Picciocchi, C, Brownlow, C, Karaarslan, C, Cellini, N, Esteban-Serna, C, Reyna, C, Ferreyra, C, Batres, C, Li, R, Grano, C, Carpentier, J, Tamnes, C, Fu, C, Ishkhanyan, B, Bylinina, L, Jaeger, B, Bundt, C, Allred, T, Vermote, B, Bokkour, A, Bogatyreva, N, Shi, J, Chopik, W, Antazo, B, Behzadnia, B, Becker, M, Bayyat, M, Cocco, B, Chou, W, Barkoukis, V, Hubena, B, Zuro, B, Aczel, B, Baklanova, E, Bai, H, Balci, B, Babincak, P, Soenens, B, Dixson, B, Mokady, A, Kappes, H, Atari, M, Szala, A, Szabelska, A, Aruta, J, Domurat, A, Arinze, N, Modena, A, Adiguzel, A, Monajem, A, El Arabi, K, Ozdogru, A, Rothbaum, A, Torres, A, Theodoropoulou, A, Skowronek, A, Jurkovic, A, Singh, A, Kassianos, A, Findor, A, Hartanto, A, Landry, A, Ferreira, A, Santos, A, De la Rosa-Gomez, A, Gourdon-Kanhukamwe, A, Luxon, A, Todsen, A, Karababa, A, Janak, A, Pilato, A, Bran, A, Tullett, A, Kuzminska, A, Krafnick, A, Urooj, A, Khaoudi, A, Ahmed, A, Groyecka-Bernard, A, Askelund, A, Adetula, A, Belaus, A, Charyate, A, Wichman, A, Stoyanova, A, Greenburgh, A, Thomas, A, Arvanitis, A, Forscher, P, Mallik, P, Coles, N, Miller, J, Moshontz, H, Urry, H, Ijzerman, H, Basnight-Brown, D, Ebersole, C, Chartier, C, Buchanan, E, Primbs, M, Medical and Clinical Psychology, Department of Social Psychology, Psychological Science Accelerator Self-Determination Theory Collaboration, Legate, N., Nguyen, T. -V., Weinstein, N., Moller, A., Legault, L., Vally, Z., Tajchman, Z., Zsido, A. N., Zrimsek, M., Chen, Z., Ziano, I., Gialitaki, Z., Basnight-Brown, D. M., Ceary, C. D., Jang, Y., Ijzerman, H., Lin, Y., Kunisato, Y., Yamada, Y., Xiao, Q., Jiang, X., Du, X., Yao, E., Ryan, W. S., Wilson, J. P., Cyrus-Lai, W., Jimenez-Leal, W., Law, W., Unanue, W., Collins, W. M., Richard, K. L., Vranka, M., Ankushev, V., Schei, V., Lerche, V., Kovic, V., Krizanic, V., Kadreva, V. H., Adoric, V. C., Tran, U. S., Yeung, S. K., Hassan, W., Houston, R., Urry, H. L., Machin, M. A., Lima, T. J. S., Ostermann, T., Frizzo, T., Sverdrup, T. E., House, T., Gill, T., Fedotov, M., Paltrow, T., Moshontz, H., Jernsather, T., Rahman, T., Machin, T., Koptjevskaja-Tamm, M., Hostler, T. J., Ishii, T., Szaszi, B., Adamus, S., Suter, L., Von Bormann, S. M., Habib, S., Studzinska, A., Stojanovska, D., Janssen, S. M. J., Stieger, S., Primbs, M. A., Schulenberg, S. E., Buchanan, E. M., Tatachari, S., Azouaghe, S., Sorokowski, P., Sorokowska, A., Song, X., Morbee, S., Lewis, S., Sinkolova, S., Grigoryev, D., Drexler, S. M., Daches, S., Levine, S. L., Geniole, S. N., Akter, S., Vracar, S., Massoni, S., Costa, S., Zorjan, S., Sarioguz, E., Izquierdo, S. M., Tshonda, S. S., Miller, J. K., Alves, S. G., Pontinen, S., Solas, S. A., Ordonez-Riano, S., Ocovaj, S. B., Onie, S., Lins, S., Biberauer, T., Coksan, S., Khumkom, S., Sacakli, A., Coles, N. A., Ruiz-Fernandez, S., Geiger, S. J., Fatahmodares, S., Walczak, R. B., Betlehem, R., Vilar, R., Carcamo, R. A., Ross, R. M., Mccarthy, R., Ballantyne, T., Westgate, E. C., Ryan, R. M., Gargurevich, R., Afhami, R., Ren, D., Monteiro, R. P., Reips, U. -D., Reggev, N., Calin-Jageman, R. J., Pourafshari, R., Oliveira, R., Nedelcheva-Datsova, M., Rahal, R. -M., Ribeiro, R. R., Radtke, T., Searston, R., Jai-Ai, R., Habte, R., Zdybek, P., Chen, S. -C., Wajanatinapart, P., Maturan, P. L. G., Perillo, J. T., Isager, P. M., Kacmar, P., Macapagal, P. M., Maniaci, M. R., Szwed, P., Hanel, P. H. P., Forbes, P. A. G., Arriaga, P., Paris, B., Parashar, N., Papachristopoulos, K., Chartier, C. R., Correa, P. S., Kacha, O., Bernardo, M., Campos, O., Bravo, O. N., Mallik, P. R., Galindo-Caballero, O. J., Ogbonnaya, C. E., Bialobrzeska, O., Kiselnikova, N., Simonovic, N., Cohen, N., Nock, N. L., Hernandez, A., Thogersen-Ntoumani, C., Ntoumanis, N., Johannes, N., Albayrak-Aydemir, N., Say, N., Neubauer, A. B., Martin, N. I., Torunsky, N., Van Antwerpen, N., Van Doren, N., Sunami, N., Rachev, N. R., Majeed, N. M., Schmidt, N. -D., Nadif, K., Forscher, P. S., Corral-Frias, N. S., Ouherrou, N., Abbas, N., Pantazi, M., Lucas, M. Y., Vasilev, M. R., Ortiz, M. V., Butt, M. M., Kurfali, M., Kabir, M., Muda, R., Del Carmen, M. C. Tejada Rivera M., Sirota, M., Seehuus, M., Parzuchowski, M., Toro, M., Hricova, M., Maldonado, M. A., Arvanitis, A., Rentzelas, P., Vansteenkiste, M., Metz, M. A., Marszalek, M., Karekla, M., Mioni, G., Bosma, M. J., Westerlund, M., Vdovic, M., Bialek, M., Silan, M. A., Anne, M., Misiak, M., Gugliandolo, M. C., Grinberg, M., Capizzi, M., Espinoza Barria, M. F., Kurfali, M. A., Mensink, M. C., Harutyunyan, M., Khosla, M., Dunn, M. R., Korbmacher, M., Adamkovic, M., Ribeiro, M. F. F., Terskova, M., Hruska, M., Martoncik, M., Voracek, M., Cadek, M., Frias-Armenta, M., Kowal, M., Topor, M., Roczniewska, M., Oosterlinck, M., Thomas, A. G., Kohlova, M. B., Paruzel-Czachura, M., Sabristov, M., Greenburgh, A., Romanova, M., Papadatou-Pastou, M., Lund, M. L., Antoniadi, M., Magrin, M. E., Jones, M. V., Li, M., Ortiz, M. S., Manavalan, M., Muminov, A., Stoyanova, A., Kossowska, M., Friedemann, M., Wielgus, M., Van Hooff, M. L. M., Varella, M. A. C., Standage, M., Nicolotti, M., Colloff, M. F., Bradford, M., Vaughn, L. A., Eudave, L., Vieira, L., Lu, J. G., Pineda, L. M. S., Matos, L., Perez, L. C., Lazarevic, L. B., Jaremka, L. M., Smit, E. S., Kushnir, E., Wichman, A. L., Ferguson, L. J., Anton-Boicuk, L., De Holanda Coelho, G. L., Ahlgren, L., Liga, F., Levitan, C. A., Micheli, L., Gunton, L. -A., Volz, L., Stojanovska, M., Boucher, L., Samojlenko, L., Delgado, L. G. J., Kaliska, L., Beatrix, L., Warmelink, L., Rojas-Berscia, L. M., Yu, K., Wylie, K., Wachowicz, J., Charyate, A. C., Desai, K., Barzykowski, K., Kozma, L., Evans, K., Kirgizova, K., Belaus, A., Emmanuel Agesin, B. B., Koehn, M. A., Wolfe, K., Korobova, T., Morris, K., Klevjer, K., Van Schie, K., Vezirian, K., Damnjanovic, K., Thommesen, K. K., Schmidt, K., Filip, K., Staniaszek, K., Adetula, A., Grzech, K., Hoyer, K., Moon, K., Khaobunmasiri, S., Rana, K., Janjic, K., Suchow, J. W., Kielinska, J., Cruz Vasquez, J. E., Chanal, J., Beitner, J., Vargas-Nieto, J. C., Roxas, J. C. T., Taber, J., Urriago-Rayo, J., Askelund, A. D., Pavlacic, J. M., Benka, J., Bavolar, J., Soto, J. A., Olofsson, J. K., Vilsmeier, J. K., Messerschmidt, J., Czamanski-Cohen, J., Waterschoot, J., Moss, J. D., Boudesseul, J., Lee, J. M., Kamburidis, J., Joy-Gaba, J. A., Zickfeld, J., Miranda, J. F., Verharen, J. P. H., Hristova, E., Beshears, J. E., Djordjevic, J. M., Bosch, J., Valentova, J. V., Antfolk, J., Berkessel, J. B., Schrotter, J., Urban, J., Roer, J. P., Norton, J. O., Silva, J. R., Pickering, J. S., Vintr, J., Uttley, J., Kunst, J. R., Ndukaihe, I. L. G., Iyer, A., Vilares, I., Ivanov, A., Ropovik, I., Sula, I., Groyecka-Bernard, A., Sarieva, I., Metin-Orta, I., Prusova, I., Pinto, I., Bozdoc, A. I., Almeida, I. A. T., Pit, I. L., Dalgar, I., Zakharov, I., Arinze, A. I., Ihaya, K., Stephen, I. D., Gjoneska, B., Brohmer, H., Flowe, H., Godbersen, H., Kocalar, H. E., Hedgebeth, M. V., Chuan-Peng, H., Sharifian, M., Manley, H., Akkas, H., Hajdu, N., Azab, H., Kaminski, G., Nilsonne, G., Anjum, G., Travaglino, G. A., Feldman, G., Pfuhl, G., Czarnek, G., Marcu, G. M., Hofer, G., Banik, G., Adetula, G. A., Bijlstra, G., Verbruggen, F., Kung, F. Y. H., Martela, F., Foroni, F., Forest, J., Singer, G., Muchembled, F., Azevedo, F., Mosannenzadeh, F., Marinova, E., Strukelj, E., Etebari, Z., Bradshaw, E. L., Baskin, E., Garcia, E. O. L., Musser, E., Van Steenkiste, I. M. M., Ahn, E. R., Quested, E., Pronizius, E., Jackson, E. A., Manunta, E., Agadullina, E., Sakan, D., Dursun, P., Dujols, O., Dubrov, D., Willis, M., Tumer, M., Beaudry, J. L., Popovic, D., Dunleavy, D., Djamai, I., Krupic, D., Herrera, D., Vega, D., Du, H., Mola, D., Chakarova, D., Davis, W. E., Holford, D. L., Lewis, D. M. G., Vaidis, D. C., Ozery, D. H., Ricaurte, D. Z., Storage, D., Sousa, D., Alvarez, D. S., Boller, D., Rosa, A. D., Dimova, D., Marko, D., Moreau, D., Reeck, C., Correia, R. C., Whitt, C. M., Lamm, C., Solorzano, C. S., Von Bastian, C. C., Sutherland, C. A. M., Ebersole, C. R., Overkott, C., Aberson, C. L., Wang, C., Niemiec, C. P., Karashiali, C., Noone, C., Chiu, F., Picciocchi, C., Brownlow, C., Karaarslan, C., Cellini, N., Esteban-Serna, C., Reyna, C., Ferreyra, C., Batres, C., Li, R., Grano, C., Carpentier, J., Tamnes, C. K., Fu, C. H. Y., Ishkhanyan, B., Bylinina, L., Jaeger, B., Bundt, C., Allred, T. B., Vermote, B. J., Bokkour, A., Bogatyreva, N., Shi, J., Chopik, W. J., Antazo, B., Behzadnia, B., Becker, M., Bayyat, M. M., Cocco, B., Ahmed, A., Chou, W. -L., Barkoukis, V., Hubena, B., Khaoudi, A., Zuro, B., Aczel, B., Baklanova, E., Bai, H., Balci, B. B., Babincak, P., Soenens, B., Dixson, B. J. W., Mokady, A., Kappes, H. B., Atari, M., Szala, A., Szabelska, A., Aruta, J. J. B., Domurat, A., Arinze, N. C., Modena, A., Adiguzel, A., Monajem, A., Ait El Arabi, K., Ozdogru, A. A., Rothbaum, A. O., Torres, A. O., Theodoropoulou, A., Skowronek, A., Urooj, A., Jurkovic, A. P., Singh, A., Kassianos, A. P., Findor, A., Hartanto, A., Landry, A. T., Ferreira, A., Santos, A. C., De La Rosa-Gomez, A., Gourdon-Kanhukamwe, A., Luxon, A. M., Todsen, A. L., Karababa, A., Janak, A., Pilato, A., Bran, A., Tullett, A. M., Kuzminska, A. O., Krafnick, A. J., Department of Industrial Engineering and Management, Aalto-yliopisto, Aalto University, Massey, D., Kurfali, Merve A., Collaboration, Psychological Science Accelerator Self-Determination Theory, FdR overig onderzoek, Persuasive Communication (ASCoR, FMG), and Organizational Psychology

Subjects

behavior change, Coronavirus disease 2019 (COVID-19), 230 Affective Neuroscience, INTENTIONS, L400, self-determination theory, Physical Distancing, Social Sciences, Intention, Ciências Sociais::Psicologia [Domínio/Área Científica], FATIGUE, motivation, PARENTAL PROHIBITION, SDG 3 - Good Health and Well-being, Pandemic, Humans, health communication, MESSAGES, Sociology, Pandemics, METAANALYSIS, COVID-19, Behaviour Change and Well-being, Multidisciplinary, business.industry, Social distance, Public relations, Motivation, INTERNALIZATION, business, BEHAVIOR

Abstract

Significance\ud \ud Communicating in ways that motivate engagement in social distancing remains a critical global public health priority during the COVID-19 pandemic. This study tested motivational qualities of messages about social distancing (those that promoted choice and agency vs. those that were forceful and shaming) in 25,718 people in 89 countries. The autonomy-supportive message decreased feelings of defying social distancing recommendations relative to the controlling message, and the controlling message increased controlled motivation, a less effective form of motivation, relative to no message. Message type did not impact intentions to socially distance, but people’s existing motivations were related to intentions. Findings were generalizable across a geographically diverse sample and may inform public health communication strategies in this and future global health emergencies.\ud \ud \ud \ud Abstract\ud \ud Finding communication strategies that effectively motivate social distancing continues to be a global public health priority during the COVID-19 pandemic. This cross-country, preregistered experiment (n = 25,718 from 89 countries) tested hypotheses concerning generalizable positive and negative outcomes of social distancing messages that promoted personal agency and reflective choices (i.e., an autonomy-supportive message) or were restrictive and shaming (i.e., a controlling message) compared with no message at all. Results partially supported experimental hypotheses in that the controlling message increased controlled motivation (a poorly internalized form of motivation relying on shame, guilt, and fear of social consequences) relative to no message. On the other hand, the autonomy-supportive message lowered feelings of defiance compared with the controlling message, but the controlling message did not differ from receiving no message at all. Unexpectedly, messages did not influence autonomous motivation (a highly internalized form of motivation relying on one’s core values) or behavioral intentions. Results supported hypothesized associations between people’s existing autonomous and controlled motivations and self-reported behavioral intentions to engage in social distancing. Controlled motivation was associated with more defiance and less long-term behavioral intention to engage in social distancing, whereas autonomous motivation was associated with less defiance and more short- and long-term intentions to social distance. Overall, this work highlights the potential harm of using shaming and pressuring language in public health communication, with implications for the current and future global health challenges.

Published

2022

3. In COVID-19 Health Messaging, Loss Framing Increases Anxiety with Little-to-No Concomitant Benefits: Experimental Evidence from 84 Countries

Author

Dorison, C. A., Lerner, J. S., Heller, B. H., Rothman, A. J., Kawachi, I. I., Wang, K., Rees, V. W., Gill, B. P., Gibbs, N., Ebersole, C. R., Vally, Z., Tajchman, Z., Zsido, A. N., Zrimsek, M., Chen, Z., Ziano, I., Gialitaki, Z., Ceary, C. D., Jang, Y., Lin, Y., Kunisato, Y., Yamada, Y., Xiao, Q., Jiang, X., Du, X., Yao, E., Ryan, W., Wilson, J. P., Cyrus-Lai, W., Jimenez-Leal, W., Law, W., Unanue, W., Collins, W. M., Richard, K. L., Vranka, M., Ankushev, V., Schei, V., DePaola, C., Lerche, V., Kovic, V., Križanić, V., Kadreva, V. H., Adoric, V. C., Tran, U. S., Yeung, S. K., Hassan, W., Houston, R., Machin, M. A., Lima, T. J. S., Ostermann, T., Frizzo, T., Sverdrup, T. E., House, T., Gill, T., Fedotov, M., Paltrow, T., Jernsäther, T., Rahman, T., Machin, T., Koptjevskaja-Tamm, M., Hostler, T. J., Ishii, T., Szaszi, B., Adamus, S., Suter, L., von Bormann, S. M., Habib, S., Studzinska, A., Stojanovska, D., Janssen, S. M. J., Stieger, S., Schulenberg, S. E., Tatachari, S., Azouaghe, S., Sorokowski, P., Sorokowska, A., Song, X., Morbée, S., Lewis, S. C., Sinkolova, S., Grigoryev, D., Drexler, S. M., Daches, S., Levine, S. L., Geniole, S. N., Akter, S., Vračar, S., Massoni, S., Costa, S., Zorjan, S., Sarıoğuz, E., Morales Izquierdo, S., Tshonda, S. S., Alves, S. G., Pöntinen, S., Álvarez Solas, S., Ordoñez-Riaño, S., Batić Očovaj, S., Onie, S., Lins, S., Biberauer, T., Çoksan, S., Khumkom, S., Sacakli, A., Ruiz-Fernández, S., Geiger, S. J., FatahModares, S., Walczak, R. B., Betlehem, R., Vilar, R., Doekemeijer, R., Cárcamo, R., Ross, R. M., McCarthy, R., Ballantyne, T., Westgate, E. C., Gargurevich, R., Afhami, R., Ren, D., Monteiro, R. P., Reips, U-D., Reggev, N., Calin-Jageman, R. J., Pourafshari, R., London, R., Oliveira, R., Nedelcheva-Datsova, M., Rahal, R-M., Ribeiro, R. R., Radtke, T., Searston, R., Jai-ai, R., Habte, R., Zdybek, P., Chen, S-C., Wajanatinapart, P., Maturan, P. L. G., Perillo, J. T., Isager, P. M., Kačmár, P., Macapagal, P. M., Maniaci, M. R., Szwed, P., Hanel, P. H. P., Forbes, P. A. G., Arriaga, P., Paris, B., Parashar, N., Papachristopoulos, K., Sebastián-Correa, P., Kácha, O., Bernardo, M., Campos, O., Niño Bravo, O., Galindo-Caballero, O. J., Ogbonnaya, C. E., Bialobrzeska, O., Kiselnikova, N., Simonovic, N., Cohen, N., Nock, N. L., Hernandez, A., Thogersen-Ntoumani, C., Ntoumanis, N., Johannes, N., Albayrak-Aydemir, N., Say, N., Neubauer, A. B., Martin, N. I., Torunsky, N., van Antwerpen, N., Van Doren, N., Sunami, N., Rachev, N. R., Majeed, N. M., Schmidt, N-D., Nadif, K., Corral-Frías, N. S., Ouherrou, N., Abbas, N., Pantazi, M., Lucas, M. Y., Vasilev, Martin R., Ortiz, M. V., Butt, M. M., Kurfali, M., Kabir, M., Muda, R., Tejada Rivera, M. C., Sirota, M., Seehuus, M., Parzuchowski, M., Toro, M., Hricova, M., Alarcón Maldonado, M., Rentzelas, P., Vansteenkiste, M., Metz, M. A., Marszalek, M., Karekla, M., Mioni, G., Bosma, M. J., Westerlund, M., Vdovic, M., Bialek, M., Silan, M. A., Anne, M., Misiak, M., Gugliandolo, M. C., Grinberg, M., Capizzi, M., Espinoza Barría, M. F., Kurfali, M. A., Mensink, M. C., Harutyunyan, M., Khosla, M., Dunn, M. R., Korbmacher, M., Adamkovič, M., Ribeiro, M. F. F., Terskova, M., Hruška, M., Martončik, M., Jansen, M., Voracek, M., Čadek, M., Frias-Armenta, M., Kowal, M., Topor, M., Roczniewska, M., Oosterlinck, M., Braun Kohlová, M., Paruzel-Czachura, M., Sabristov, M., Romanova, M., Papadatou-Pastou, M., Lund, M. L., Antoniadi, M., Magrin, M. E., Jones, M. V., Ortiz, M. S., Manavalan, M., Muminov, A., Kossowska, M., Friedemann, M., Wielgus, M., van Hooff, M. L. M., Varella, M. A. C., Standage, M., Nicolotti, M., Colloff, M. F., Bradford, M., Vaughn, L. A., Eudave, L., Vieira, L., Sanabria Pineda, L. M., Matos, L., Calderón Pérez, L., Lazarevic, L. B., Jaremka, L. M., Smit, E. S., Kushnir, E., Ferguson, L. J., Anton-Boicuk, L., Lins de Holanda Coelho, G., Ahlgren, L., Liga, F., Levitan, C. A., Micheli, L., Gunton, L-A., Volz, L., Stojanovska, M., Boucher, L., Samojlenko, L., Javela Delgado, L. G., Kaliska, L., Labadi, B., Warmelink, L., Rojas-Berscia, L. M., Yu, K., Wylie, K., Wachowicz, J., Desai, K., Barzykowski, K., Kozma, L., Evans, K., Kirgizova, K., Agesin, B. E., Koehn, M. A., Wolfe, K., Korobova, T., Morris, K., Klevjer, K., van Schie, K., Vezirian, K., Damnjanović, K., Krabbe Thommesen, K., Schmidt, K., Filip, K., Staniaszek, K., Grzech, K., Hoyer, K., Moon, K., Khaobunmasiri, S., Rana, K., Janjić, K., Suchow, J. W., Kielińska, J., Cruz Vásquez, J. E., Chanal, J., Beitner, J., Vargas-Nieto, J. C., Roxas, J. C. T., Taber, J., Urriago-Rayo, J., Pavlacic, J. M., Benka, J., Bavolar, J., Soto, J. A., Olofsson, J. K., Vilsmeier, J. K., Messerschmidt, J., Czamanski-Cohen, J., Waterschoot, J., Moss, J. D., Boudesseul, J., Lee, J. M., Kamburidis, J., Joy-Gaba, J. A., Zickfeld, J., Miranda, J. F., Verharen, J. P. H., Hristova, E., Beshears, J. E., Đorđević, J. M., Bosch, J., Valentova, J. V., Antfolk, J., Berkessel, J. B., Schrötter, J., Urban, J., Röer, J. P., Norton, J. O., Silva, J. R., Pickering, J. S., Vintr, J., Uttley, J., Kunst, J. R., Ndukaihe, I. L. G., Iyer, A., Vilares, I., Ivanov, A., Ropovik, I., Sula, I., Sarieva, I., Metin-Orta, I., Prusova, I., Pinto, I., Bozdoc, A. I., Almeida, I. A. T., Pit, I. L., Dalgar, I., Zakharov, I., Arinze, A. I., Ihaya, K., Stephen, I. D., Gjoneska, B., Brohmer, H., Flowe, H., Godbersen, H., Kocalar, H. E., Hedgebeth, M. V., Chuan-Peng, H., Sharifian, M. H., Manley, H., Akkas, H., Hajdu, N., Azab, H., Kaminski, G., Nilsonne, G., Anjum, G., Travaglino, G. A., Feldman, G., Pfuhl, G., Czarnek, G., Marcu, G. M., Hofer, G., Banik, G., Adetula, G. A., Bijlstra, G., Verbruggen, F., Kung, F. Y. H., Martela, F., Foroni, F., Forest, J., Singer, G., Muchembled, F., Azevedo, F., Mosannenzadeh, F., Marinova, E., Štrukelj, E., Etebari, Z., Baskin, E., Garcia, E. O. L., Musser, E., van Steenkiste, I. M. M., Bradshaw, E. L., Ahn, E. R., Quested, E., Pronizius, E., Jackson, E. A., Manunta, E., Agadullina, E., Šakan, D., Dursun, P., Dujols, O., Dubrov, D., Willis, M., Tümer, M., Beaudry, J. L., Popović, D., Dunleavy, D., Djamai, I., Krupić, D., Herrera, D., Vega, D., Du, H., Mola, D., Chakarova, D., Davis, W. E., Holford, D. L., Lewis, D. M. G., Vaidis, D. C., Hausman Ozery, D., Zambrano Ricaurte, D., Storage, D., Sousa, D., Serrato Alvarez, D., Boller, D., Dalla Rosa, A., Dimova, D., Marko, D., Moreau, D., Reeck, C., Correia, R. C., Whitt, C. M., Lamm, C., Singh Solorzano, C., von Bastian, C.C., Sutherland, C. A. M., Overkott, C., Aberson, C. L., Wang, C., Niemiec, C. P., Reimer, C., Karashiali, C., Noone, C., Chiu, F., Picciocchi, C., Eben, C., Brownlow, C., Karaarslan, C., Cellini, N., Esteban-Serna, C., Reyna, C., Ferreyra, C., Batres, C., Li, R., Grano, C., Carpentier, J., Tamnes, C. K., Fu, C. H. Y., Ishkhanyan, B., Bylinina, L., Jaeger, B., Bundt, C., Bulut Allred, T., Vermote, B. J., Bokkour, A., Bogatyreva, N., Shi, J., Chopik, W. J., Antazo, B., Becker, M., Bayyat, M. M., Cocco, B., Chou, W-L., Barkoukis, V., Aczel, B., Baklanova, E., Bai, H., Balci, B. B., Babinčák, P., Soenens, B., Dixson, B. J. W., Mokady, A., Kappes, H. B., Atari, M., Szala, A., Szabelska, A., Aruta, J. J. B., Domurat, A., Arinze, N. C., Modena, A., Adiguzel, A., Monajem, A., El Arabi, K. A., Özdoğru, A. A., Rothbaum, A. O., Torres, A. J. O., Theodoropoulou, A., Skowronek, A., Jurković, A. P., Singh, A., Kassianos, A. P., Findor, A., Hartanto, A., Thibault Landry, A., Ferreira, A., Caetano Santos, A., De la Rosa-Gomez, A., Gourdon-Kanhukamwe, A., Luxon, A. M., Todsen, A. L., Karababa, A., Janak, A., Pilato, A., Bran, A., Tullett, A. M., Kuzminska, A. O., Krafnick, A. J., Urooj, A., Khaoudi, A., Ahmed, A., Groyecka-Bernard, A., Askelund, A. D., Adetula, A., Belaus, A., Charyate, A. C., Wichman, A. L., Stoyanova, A., Greenburgh, A., Thomas, A. G., Arvanitis, A., Forscher, P. S., Mallik, P. R., Primbs, M. A., Miller, J. K., Moshontz, H., Urry, H. L., IJzerman, H., Basnight-Brown, D. M., Chartier, C. R., Buchanan, E. M., Coles, N. A., MÜ, Eğitim Fakültesi, Eğitim Bilimleri Bölümü, Kocalar, Halil Emre, Faculdade de Psicologia e de Ciências da Educação, Organizational Psychology, Jernsäther, Teodor [0000-0002-7030-3299], Tatachari, Srinivasan [0000-0003-1838-2361], Geiger, Sandra J [0000-0002-3262-5609], Butt, Muhammad Mussaffa [0000-0001-5271-111X], Varella, Marco A C [0000-0002-7274-7360], Stephen, Ian D [0000-0001-9714-8295], Kaminski, Gwenael [0000-0001-5300-5655], Bai, Hui [0000-0003-2671-5955], Coles, Nicholas A [0000-0001-8583-5610], Apollo - University of Cambridge Repository, Center Ph. D. Students, Department of Social Psychology, Tilburg University, and Medical and Clinical Psychology

Subjects

Nudges, Behaviour Change and Well-being, ddc:150, 230 Affective Neuroscience, SDG 3 - Good Health and Well-being, message framing, anxiety, nudges, COVID-19, Message framing, General Medicine, Anxiety

Abstract

Contains fulltext : 284232.pdf (Publisher’s version ) (Closed access) The COVID-19 pandemic (and its aftermath) highlights a critical need to communicate health information effectively to the global public. Given that subtle differences in information framing can have meaningful effects on behavior, behavioral science research highlights a pressing question: Is it more effective to frame COVID-19 health messages in terms of potential losses (e.g., "If you do not practice these steps, you can endanger yourself and others") or potential gains (e.g., "If you practice these steps, you can protect yourself and others")? Collecting data in 48 languages from 15,929 participants in 84 countries, we experimentally tested the effects of message framing on COVID-19-related judgments, intentions, and feelings. Loss- (vs. gain-) framed messages increased self-reported anxiety among participants cross-nationally with little-to-no impact on policy attitudes, behavioral intentions, or information seeking relevant to pandemic risks. These results were consistent across 84 countries, three variations of the message framing wording, and 560 data processing and analytic choices. Thus, results provide an empirical answer to a global communication question and highlight the emotional toll of loss-framed messages. Critically, this work demonstrates the importance of considering unintended affective consequences when evaluating nudge-style interventions. 26 p.

Published

2022

4. A multi-country test of brief reappraisal interventions on emotions during the COVID-19 pandemic

Author

Wang, K. Goldenberg, A. Dorison, C.A. Miller, J.K. Uusberg, A. Lerner, J.S. Gross, J.J. Agesin, B.B. Bernardo, M. Campos, O. Eudave, L. Grzech, K. Ozery, D.H. Jackson, E.A. Garcia, E.O.L. Drexler, S.M. Jurković, A.P. Rana, K. Wilson, J.P. Antoniadi, M. Desai, K. Gialitaki, Z. Kushnir, E. Nadif, K. Bravo, O.N. Nauman, R. Oosterlinck, M. Pantazi, M. Pilecka, N. Szabelska, A. van Steenkiste, I.M.M. Filip, K. Bozdoc, A.I. Marcu, G.M. Agadullina, E. Adamkovič, M. Roczniewska, M. Reyna, C. Kassianos, A.P. Westerlund, M. Ahlgren, L. Pöntinen, S. Adetula, G.A. Dursun, P. Arinze, A.I. Arinze, N.C. Ogbonnaya, C.E. Ndukaihe, I.L.G. Dalgar, I. Akkas, H. Macapagal, P.M. Lewis, S. Metin-Orta, I. Foroni, F. Willis, M. Santos, A.C. Mokady, A. Reggev, N. Kurfali, M.A. Vasilev, M.R. Nock, N.L. Parzuchowski, M. Espinoza Barría, M.F. Vranka, M. Kohlová, M.B. Ropovik, I. Harutyunyan, M. Wang, C. Yao, E. Becker, M. Manunta, E. Kaminski, G. Marko, D. Evans, K. Lewis, D.M.G. Findor, A. Landry, A.T. Aruta, J.J.B. Ortiz, M.S. Vally, Z. Pronizius, E. Voracek, M. Lamm, C. Grinberg, M. Li, R. Valentova, J.V. Mioni, G. Cellini, N. Chen, S.-C. Zickfeld, J. Moon, K. Azab, H. Levy, N. Karababa, A. Beaudry, J.L. Boucher, L. Collins, W.M. Todsen, A.L. van Schie, K. Vintr, J. Bavolar, J. Kaliska, L. Križanić, V. Samojlenko, L. Pourafshari, R. Geiger, S.J. Beitner, J. Warmelink, L. Ross, R.M. Stephen, I.D. Hostler, T.J. Azouaghe, S. McCarthy, R. Szala, A. Grano, C. Solorzano, C.S. Anjum, G. Jimenez-Leal, W. Bradford, M. Pérez, L.C. Cruz Vásquez, J.E. Galindo-Caballero, O.J. Vargas-Nieto, J.C. Kácha, O. Arvanitis, A. Xiao, Q. Cárcamo, R. Zorjan, S. Tajchman, Z. Vilares, I. Pavlacic, J.M. Kunst, J.R. Tamnes, C.K. von Bastian, C.C. Atari, M. Sharifian, M.H. Hricova, M. Kačmár, P. Schrötter, J. Rahal, R.-M. Cohen, N. FatahModarres, S. Zrimsek, M. Zakharov, I. Koehn, M.A. Esteban-Serna, C. Calin-Jageman, R.J. Krafnick, A.J. Štrukelj, E. Isager, P.M. Urban, J. Silva, J.R. Martončik, M. Očovaj, S.B. Šakan, D. Kuzminska, A.O. Djordjevic, J.M. Almeida, I.A.T. Ferreira, A. Lazarevic, L.B. Manley, H. Ricaurte, D.Z. Monteiro, R.P. Etabari, Z. Musser, E. Dunleavy, D. Chou, W. Godbersen, H. Ruiz-Fernández, S. Reeck, C. Batres, C. Kirgizova, K. Muminov, A. Azevedo, F. Alvarez, D.S. Butt, M.M. Lee, J.M. Chen, Z. Verbruggen, F. Ziano, I. Tümer, M. Charyate, A.C.A. Dubrov, D. Tejada Rivera, M.C.M.C. Aberson, C. Pálfi, B. Maldonado, M.A. Hubena, B. Sacakli, A. Ceary, C.D. Richard, K.L. Singer, G. Perillo, J.T. Ballantyne, T. Cyrus-Lai, W. Fedotov, M. Du, H. Wielgus, M. Pit, I.L. Hruška, M. Sousa, D. Aczel, B. Szaszi, B. Adamus, S. Barzykowski, K. Micheli, L. Schmidt, N.-D. Zsido, A.N. Paruzel-Czachura, M. Bialek, M. Kowal, M. Sorokowska, A. Misiak, M. Mola, D. Ortiz, M.V. Correa, P.S. Belaus, A. Muchembled, F. Ribeiro, R.R. Arriaga, P. Oliveira, R. Vaughn, L.A. Szwed, P. Kossowska, M. Czarnek, G. Kielińska, J. Antazo, B. Betlehem, R. Stieger, S. Nilsonne, G. Simonovic, N. Taber, J. Gourdon-Kanhukamwe, A. Domurat, A. Ihaya, K. Yamada, Y. Urooj, A. Gill, T. Čadek, M. Bylinina, L. Messerschmidt, J. Kurfalı, M. Adetula, A. Baklanova, E. Albayrak-Aydemir, N. Kappes, H.B. Gjoneska, B. House, T. Jones, M.V. Berkessel, J.B. Chopik, W.J. Çoksan, S. Seehuus, M. Khaoudi, A. Bokkour, A. El Arabi, K.A. Djamai, I. Iyer, A. Parashar, N. Adiguzel, A. Kocalar, H.E. Bundt, C. Norton, J.O. Papadatou-Pastou, M. De la Rosa-Gomez, A. Ankushev, V. Bogatyreva, N. Grigoryev, D. Ivanov, A. Prusova, I. Romanova, M. Sarieva, I. Terskova, M. Hristova, E. Kadreva, V.H. Janak, A. Schei, V. Sverdrup, T.E. Askelund, A.D. Pineda, L.M.S. Krupić, D. Levitan, C.A. Johannes, N. Ouherrou, N. Say, N. Sinkolova, S. Janjić, K. Stojanovska, M. Stojanovska, D. Khosla, M. Thomas, A.G. Kung, F.Y.H. Bijlstra, G. Mosannenzadeh, F. Balci, B.B. Reips, U.-D. Baskin, E. Ishkhanyan, B. Czamanski-Cohen, J. Dixson, B.J.W. Moreau, D. Sutherland, C.A.M. Chuan-Peng, H. Noone, C. Flowe, H. Anne, M. Janssen, S.M.J. Topor, M. Majeed, N.M. Kunisato, Y. Yu, K. Daches, S. Hartanto, A. Vdovic, M. Anton-Boicuk, L. Forbes, P.A.G. Kamburidis, J. Marinova, E. Nedelcheva-Datsova, M. Rachev, N.R. Stoyanova, A. Schmidt, K. Suchow, J.W. Koptjevskaja-Tamm, M. Jernsäther, T. Olofsson, J.K. Bialobrzeska, O. Marszalek, M. Tatachari, S. Afhami, R. Law, W. Antfolk, J. Žuro, B. Van Doren, N. Soto, J.A. Searston, R. Miranda, J. Damnjanović, K. Yeung, S.K. Krupić, D. Hoyer, K. Jaeger, B. Ren, D. Pfuhl, G. Klevjer, K. Corral-Frías, N.S. Frias-Armenta, M. Lucas, M.Y. Torres, A.O. Toro, M. Delgado, L.G.J. Vega, D. Solas, S.Á. Vilar, R. Massoni, S. Frizzo, T. Bran, A. Vaidis, D.C. Vieira, L. Paris, B. Capizzi, M. Coelho, G.L.H. Greenburgh, A. Whitt, C.M. Tullett, A.M. Du, X. Volz, L. Bosma, M.J. Karaarslan, C. Sarıoğuz, E. Allred, T.B. Korbmacher, M. Colloff, M.F. Lima, T.J.S. Ribeiro, M.F.F. Verharen, J.P.H. Karekla, M. Karashiali, C. Sunami, N. Jaremka, L.M. Storage, D. Habib, S. Studzinska, A. Hanel, P.H.P. Holford, D.L. Sirota, M. Wolfe, K. Chiu, F. Theodoropoulou, A. Ahn, E.R. Lin, Y. Westgate, E.C. Brohmer, H. Hofer, G. Dujols, O. Vezirian, K. Feldman, G. Travaglino, G.A. Ahmed, A. Li, M. Bosch, J. Torunsky, N. Bai, H. Manavalan, M. Song, X. Walczak, R.B. Zdybek, P. Friedemann, M. Rosa, A.D. Kozma, L. Alves, S.G. Lins, S. Pinto, I.R. Correia, R.C. Babinčák, P. Banik, G. Rojas-Berscia, L.M. Varella, M.A.C. Uttley, J. Beshears, J.E. Thommesen, K.K. Behzadnia, B. Geniole, S.N. Silan, M.A. Maturan, P.L.G. Vilsmeier, J.K. Tran, U.S. Izquierdo, S.M. Mensink, M.C. Sorokowski, P. Groyecka-Bernard, A. Radtke, T. Adoric, V.C. Carpentier, J. Özdoğru, A.A. Joy-Gaba, J.A. Hedgebeth, M.V. Ishii, T. Wichman, A.L. Röer, J.P. Ostermann, T. Davis, W.E. Suter, L. Papachristopoulos, K. Zabel, C. Ebersole, C.R. Chartier, C.R. Mallik, P.R. Urry, H.L. Buchanan, E.M. Coles, N.A. Primbs, M.A. Basnight-Brown, D.M. IJzerman, H. Forscher, P.S. Moshontz, H.

Abstract

The COVID-19 pandemic has increased negative emotions and decreased positive emotions globally. Left unchecked, these emotional changes might have a wide array of adverse impacts. To reduce negative emotions and increase positive emotions, we tested the effectiveness of reappraisal, an emotion-regulation strategy that modifies how one thinks about a situation. Participants from 87 countries and regions (n = 21,644) were randomly assigned to one of two brief reappraisal interventions (reconstrual or repurposing) or one of two control conditions (active or passive). Results revealed that both reappraisal interventions (vesus both control conditions) consistently reduced negative emotions and increased positive emotions across different measures. Reconstrual and repurposing interventions had similar effects. Importantly, planned exploratory analyses indicated that reappraisal interventions did not reduce intentions to practice preventive health behaviours. The findings demonstrate the viability of creating scalable, low-cost interventions for use around the world. Protocol registration: The stage 1 protocol for this Registered Report was accepted in principle on 12 May 2020. The protocol, as accepted by the journal, can be found at https://doi.org/10.6084/m9.figshare.c.4878591.v1 © 2021, The Author(s), under exclusive licence to Springer Nature Limited.

Published

2021

5. Formation of spheroids by dental pulp cells in the presence of hypoxia and hypoxia mimetic agents

Author

Janjić, K., primary, Lilaj, B., additional, Moritz, A., additional, and Agis, H., additional

Published

2017

6. Difference in release kinetics of unwashed and washed platelet-released supernatants from bone substitute materials: the impact of platelet preparation modalities

Author

Knoop, C., primary, Edelmayer, M., additional, Janjić, K., additional, Pensch, M., additional, Fischer, M. B., additional, Gruber, R., additional, and Agis, H., additional

Published

2017

7. The impact of print orientation and graphene nanoplatelets on biaxial flexural strength and cytotoxicity of a 3D printable resin for occlusal splints.

Author

Janjić K, Valentova A, Arellano S, Unterhuber A, Krause A, Oberoi G, Unger E, Tabrizi HAS, and Schedle A

Abstract

Objectives: 3D printing found its way into various medical applications and could be particularly beneficial for dentistry. Currently, materials for 3D printing of occlusal splints lack mechanical strength compared to polymethyl methacrylate (PMMA) used for standard milling of occlusal splints. It is known that print orientation and graphene nanoplatelets (GNP) can increase biaxial strength in a variety of materials. Thus, the aim of this study was to assess if adjustment of print orientation and addition of GNP improve biaxial strength and if they affect cytotoxicity of a 3D printable resin for occlusal splints., Methods: Specimens were printed vertically and horizontally with a stereolithography (SLA) printer and multilayered GNP powder was added to the resin at different concentrations. Printed specimens were characterized by Raman spectroscopy, optical profilometer analysis and scanning electron microscopy. Biaxial strength was evaluated by biaxial flexural testing. Cytotoxicity of specimens on L929 and gingival stromal cells (GSC) was assessed by the toxdent test, the resazurin-based toxicity assay and live-dead staining., Results: Horizontally printed specimens showed significantly higher biaxial strength and lower deformation. GNP did not improve biaxial strength and material deformation of 3D-printed resins. None of the specimens were cytotoxic to L929 cells or GSC., Significance: Print orientation in SLA printing has a significant impact on biaxial strength and material deformation. 3D printable materials can reach comparable or even improved biaxial strength compared to PMMA when using the optimal print orientation while GNP has no beneficial effects on the biaxial strength of resins for 3D printing of occlusal splints., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

8. Differential gene expression and protein-protein interaction networks of human periodontal ligament stromal cells under mechanical tension.

Author

Janjić K, Nemec M, Maaser JL, Sagl B, Jonke E, and Andrukhov O

Subjects

Humans, Stress, Mechanical, Tooth Movement Techniques, Transcriptome, Periodontal Ligament metabolism, Protein Interaction Maps

Abstract

Orthodontic treatment is based on complex strategies and takes up to years until a desired therapeutic outcome is accomplished, implying long periods of high costs and discomfort for the patient. Choosing the optimal settings for force intensities in the initial phase of orthodontic tooth movement is the key to successful orthodontic treatment. It is known that orthodontic tooth movement is mainly mediated by tensile and compressive forces that are communicated to the alveolar bone via the periodontal ligament. While the revelation of the complex molecular network was already approached by transcriptomic analysis of compressed periodontal ligament cells, the entity of molecular key players activated by tensile forces remains elusive. Therefore, the aim of this study was to assess the effect of mechanical tensile forces on the gene expression profile of human primary periodontal ligament stromal cells, mimicking the initial phase of orthodontic tooth movement. A transcriptomic analysis of tension-treated and untreated periodontal ligament stromal cells yielded 543 upregulated and 793 downregulated differentially expressed genes. Finally, six highly significant genes were found in the transcriptome that are related to biological processes with relevance to orthodontic tooth movement, including apelin, fibroblast growth factor receptor 2, noggin, sulfatase 1, secreted frizzled-related protein 4 and stanniocalcin 1. Additionally, differences of gene expression profiles between individual cell donors showed a high effect size. Closer understanding of the roles of the identified candidates in the initial phase of orthodontic tooth movement could help to clarify the underlying mechanisms, which will be essential for the development of personalized treatment strategies in orthodontics., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published

2023

9. In COVID-19 Health Messaging, Loss Framing Increases Anxiety with Little-to-No Concomitant Benefits: Experimental Evidence from 84 Countries.

Author

Dorison CA, Lerner JS, Heller BH, Rothman AJ, Kawachi II, Wang K, Rees VW, Gill BP, Gibbs N, Ebersole CR, Vally Z, Tajchman Z, Zsido AN, Zrimsek M, Chen Z, Ziano I, Gialitaki Z, Ceary CD, Lin Y, Kunisato Y, Yamada Y, Xiao Q, Jiang X, Du X, Yao E, Wilson JP, Cyrus-Lai W, Jimenez-Leal W, Law W, Collins WM, Richard KL, Vranka M, Ankushev V, Schei V, Križanić V, Kadreva VH, Adoric VC, Tran US, Yeung SK, Hassan W, Houston R, Lima TJS, Ostermann T, Frizzo T, Sverdrup TE, House T, Gill T, Fedotov M, Paltrow T, Jernsäther T, Koptjevskaja-Tamm M, Hostler TJ, Ishii T, Szaszi B, Adamus S, Suter L, Habib S, Studzinska A, Stojanovska D, Janssen SMJ, Stieger S, Schulenberg SE, Tatachari S, Azouaghe S, Sorokowski P, Sorokowska A, Song X, Lewis SC, Sinkolova S, Grigoryev D, Drexler SM, Daches S, Geniole SN, Vračar S, Massoni S, Zorjan S, Sarıoğuz E, Izquierdo SM, Alves SG, Pöntinen S, Solas SÁ, Ordoñez-Riaño S, Očovaj SB, Onie S, Lins S, Çoksan S, Sacakli A, Ruiz-Fernández S, Geiger SJ, FatahModares S, Walczak RB, Betlehem R, Vilar R, Cárcamo R, Ross RM, McCarthy R, Ballantyne T, Westgate EC, Afhami R, Ren D, Monteiro RP, Reips UD, Reggev N, Calin-Jageman RJ, Pourafshari R, Oliveira R, Nedelcheva-Datsova M, Rahal RM, Ribeiro RR, Radtke T, Searston R, Habte R, Zdybek P, Chen SC, Maturan PLG, Perillo JT, Isager PM, Kačmár P, Macapagal PM, Szwed P, Hanel PHP, Forbes PAG, Arriaga P, Paris B, Papachristopoulos K, Correa PS, Kácha O, Bernardo M, Campos O, Bravo ON, Galindo-Caballero OJ, Ogbonnaya CE, Bialobrzeska O, Kiselnikova N, Simonovic N, Cohen N, Nock NL, Johannes N, Albayrak-Aydemir N, Say N, Torunsky N, Van Doren N, Sunami N, Rachev NR, Majeed NM, Schmidt ND, Nadif K, Corral-Frías NS, Ouherrou N, Pantazi M, Lucas MY, Vasilev MR, Ortiz MV, Butt MM, Kabir M, Muda R, Tejada Rivera MDCM, Sirota M, Seehuus M, Parzuchowski M, Toro M, Hricova M, Maldonado MA, Marszalek M, Karekla M, Mioni G, Bosma MJ, Westerlund M, Vdovic M, Bialek M, Silan MA, Anne M, Misiak M, Grinberg M, Capizzi M, Espinoza Barría MF, Kurfali MA, Mensink MC, Harutyunyan M, Khosla M, Korbmacher M, Adamkovič M, Ribeiro MFF, Terskova M, Hruška M, Martončik M, Voracek M, Čadek M, Frías-Armenta M, Kowal M, Topor M, Roczniewska M, Oosterlinck M, Kohlová MB, Paruzel-Czachura M, Romanova M, Papadatou-Pastou M, Lund ML, Antoniadi M, Jones MV, Ortiz MS, Manavalan M, Muminov A, Kossowska M, Friedemann M, Wielgus M, Varella MAC, Colloff MF, Bradford M, Vaughn LA, Eudave L, Vieira L, Pineda LMS, Pérez LC, Lazarevic LB, Jaremka LM, Kushnir E, Anton-Boicuk L, de Holanda Coelho GL, Ahlgren L, Levitan CA, Micheli L, Volz L, Stojanovska M, Boucher L, Samojlenko L, Delgado LGJ, Kaliska L, Warmelink L, Rojas-Berscia LM, Yu K, Wachowicz J, Desai K, Barzykowski K, Kozma L, Evans K, Kirgizova K, Agesin BE, Koehn MA, Wolfe K, Korobova T, Klevjer K, van Schie K, Vezirian K, Damnjanović K, Thommesen KK, Schmidt K, Filip K, Grzech K, Hoyer K, Moon K, Rana K, Janjić K, Suchow JW, Kielińska J, Cruz Vásquez JE, Beitner J, Vargas-Nieto JC, Roxas JCT, Taber J, Urriago-Rayo J, Pavlacic JM, Bavolar J, Soto JA, Olofsson JK, Vilsmeier JK, Messerschmidt J, Czamanski-Cohen J, Boudesseul J, Lee JM, Kamburidis J, Zickfeld J, Miranda JF, Verharen JPH, Hristova E, Beshears JE, Đorđević JM, Bosch J, Valentova JV, Antfolk J, Berkessel JB, Schrötter J, Urban J, Röer JP, Norton JO, Silva JR, Pickering JS, Vintr J, Uttley J, Kunst JR, Ndukaihe ILG, Iyer A, Vilares I, Ivanov A, Ropovik I, Sula I, Sarieva I, Metin-Orta I, Prusova I, Pinto I, Bozdoc AI, Almeida IAT, Pit IL, Dalgar I, Zakharov I, Arinze AI, Ihaya K, Stephen ID, Gjoneska B, Brohmer H, Flowe H, Godbersen H, Kocalar HE, Hedgebeth MV, Chuan-Peng H, Sharifian M, Manley H, Akkas H, Hajdu N, Azab H, Kaminski G, Nilsonne G, Anjum G, Travaglino GA, Feldman G, Pfuhl G, Czarnek G, Marcu GM, Hofer G, Banik G, Adetula GA, Bijlstra G, Verbruggen F, Kung FYH, Foroni F, Singer G, Muchembled F, Azevedo F, Mosannenzadeh F, Marinov E, Štrukelj E, Etebari Z, Baskin E, Garcia EOL, Musser E, van Steenkiste IMM, Ahn ER, Pronizius E, Jackson EA, Manunta E, Agadullina E, Šakan D, Dursun P, Dujols O, Dubrov D, Willis M, Tümer M, Beaudry JL, Popović D, Dunleavy D, Djamai I, Krupić D, Vega D, Du H, Mola D, Davis WE, Holford DL, Lewis DMG, Vaidis DC, Ozery DH, Ricaurte DZ, Storage D, Sousa D, Alvarez DS, Rosa AD, Krupić D, Marko D, Moreau D, Reeck C, Correia RC, Whitt CM, Lamm C, Solorzano CS, von Bastian CC, Sutherland CA, Overkott C, Aberson CL, Wang C, Karashiali C, Noone C, Chiu F, Picciocchi C, Karaarslan C, Cellini N, Esteban-Serna C, Reyna C, Batres C, Li R, Grano C, Carpentier J, Tamnes CK, Fu CHY, Ishkhanyan B, Bylinina L, Jaeger B, Bundt C, Allred TB, Bokkour A, Bogatyreva N, Chopik WJ, Antazo B, Behzadnia B, Becker M, Cocco B, Chou WL, Hubena B, Žuro B, Aczel B, Baklanova E, Bai H, Balci BB, Babinčák P, Dixson BJW, Mokady A, Kappes HB, Atari M, Szala A, Szabelska A, Aruta JJB, Domurat A, Arinze NC, Modena A, Adiguzel A, Monajem A, Arabi KAE, Özdoğru AA, Olaya Torres AJ, Theodoropoulou A, Jurković AP, Kassianos AP, Findor A, Hartanto A, Thibault Landry A, Ferreira A, Santos AC, De la Rosa-Gomez A, Gourdon-Kanhukamwe A, Todsen AL, Karababa A, Janak A, Bran A, Tullett AM, Kuzminska AO, Krafnick AJ, Urooj A, Khaoudi A, Ahmed A, Groyecka-Bernard A, Askelund AD, Adetula A, Belaus A, Charyate AC, Wichman AL, Stoyanova A, Greenburgh A, Thomas AG, Arvanitis A, Forscher PS, Mallik PR, Primbs MA, Miller JK, Moshontz H, Urry HL, IJzerman H, Basnight-Brown DM, Chartier CR, Buchanan EM, and Coles NA

Abstract

The COVID-19 pandemic (and its aftermath) highlights a critical need to communicate health information effectively to the global public. Given that subtle differences in information framing can have meaningful effects on behavior, behavioral science research highlights a pressing question: Is it more effective to frame COVID-19 health messages in terms of potential losses (e.g., "If you do not practice these steps, you can endanger yourself and others") or potential gains (e.g., "If you practice these steps, you can protect yourself and others")? Collecting data in 48 languages from 15,929 participants in 84 countries, we experimentally tested the effects of message framing on COVID-19-related judgments, intentions, and feelings. Loss- (vs. gain-) framed messages increased self-reported anxiety among participants cross-nationally with little-to-no impact on policy attitudes, behavioral intentions, or information seeking relevant to pandemic risks. These results were consistent across 84 countries, three variations of the message framing wording, and 560 data processing and analytic choices. Thus, results provide an empirical answer to a global communication question and highlight the emotional toll of loss-framed messages. Critically, this work demonstrates the importance of considering unintended affective consequences when evaluating nudge-style interventions., Competing Interests: Conflict of InterestThe authors declare no conflict of interest., (© The Society for Affective Science 2022.)

Published

2022

10. Author Correction: A multi-country test of brief reappraisal interventions on emotions during the COVID-19 pandemic.

Author

Wang K, Goldenberg A, Dorison CA, Miller JK, Uusberg A, Lerner JS, Gross JJ, Agesin BB, Bernardo M, Campos O, Eudave L, Grzech K, Ozery DH, Jackson EA, Garcia EOL, Drexler SM, Jurković AP, Rana K, Wilson JP, Antoniadi M, Desai K, Gialitaki Z, Kushnir E, Nadif K, Bravo ON, Nauman R, Oosterlinck M, Pantazi M, Pilecka N, Szabelska A, van Steenkiste IMM, Filip K, Bozdoc AI, Marcu GM, Agadullina E, Adamkovič M, Roczniewska M, Reyna C, Kassianos AP, Westerlund M, Ahlgren L, Pöntinen S, Adetula GA, Dursun P, Arinze AI, Arinze NC, Ogbonnaya CE, Ndukaihe ILG, Dalgar I, Akkas H, Macapagal PM, Lewis S, Metin-Orta I, Foroni F, Willis M, Santos AC, Mokady A, Reggev N, Kurfali MA, Vasilev MR, Nock NL, Parzuchowski M, Espinoza Barría MF, Vranka M, Kohlová MB, Ropovik I, Harutyunyan M, Wang C, Yao E, Becker M, Manunta E, Kaminski G, Boudesseul J, Marko D, Evans K, Lewis DMG, Findor A, Landry AT, Aruta JJB, Ortiz MS, Vally Z, Pronizius E, Voracek M, Lamm C, Grinberg M, Li R, Valentova JV, Mioni G, Cellini N, Chen SC, Zickfeld J, Moon K, Azab H, Levy N, Karababa A, Beaudry JL, Boucher L, Collins WM, Todsen AL, van Schie K, Vintr J, Bavolar J, Kaliska L, Križanić V, Samojlenko L, Pourafshari R, Geiger SJ, Beitner J, Warmelink L, Ross RM, Stephen ID, Hostler TJ, Azouaghe S, McCarthy R, Szala A, Grano C, Solorzano CS, Anjum G, Jimenez-Leal W, Bradford M, Pérez LC, Cruz Vásquez JE, Galindo-Caballero OJ, Vargas-Nieto JC, Kácha O, Arvanitis A, Xiao Q, Cárcamo R, Zorjan S, Tajchman Z, Vilares I, Pavlacic JM, Kunst JR, Tamnes CK, von Bastian CC, Atari M, Sharifian M, Hricova M, Kačmár P, Schrötter J, Rahal RM, Cohen N, FatahModares S, Zrimsek M, Zakharov I, Koehn MA, Esteban-Serna C, Calin-Jageman RJ, Krafnick AJ, Štrukelj E, Isager PM, Urban J, Silva JR, Martončik M, Očovaj SB, Šakan D, Kuzminska AO, Djordjevic JM, Almeida IAT, Ferreira A, Lazarevic LB, Manley H, Ricaurte DZ, Monteiro RP, Etabari Z, Musser E, Dunleavy D, Chou W, Godbersen H, Ruiz-Fernández S, Reeck C, Batres C, Kirgizova K, Muminov A, Azevedo F, Alvarez DS, Butt MM, Lee JM, Chen Z, Verbruggen F, Ziano I, Tümer M, Charyate ACA, Dubrov D, Tejada Rivera MDCMC, Aberson C, Pálfi B, Maldonado MA, Hubena B, Sacakli A, Ceary CD, Richard KL, Singer G, Perillo JT, Ballantyne T, Cyrus-Lai W, Fedotov M, Du H, Wielgus M, Pit IL, Hruška M, Sousa D, Aczel B, Hajdu N, Szaszi B, Adamus S, Barzykowski K, Micheli L, Schmidt ND, Zsido AN, Paruzel-Czachura M, Muda R, Bialek M, Kowal M, Sorokowska A, Misiak M, Mola D, Ortiz MV, Correa PS, Belaus A, Muchembled F, Ribeiro RR, Arriaga P, Oliveira R, Vaughn LA, Szwed P, Kossowska M, Czarnek G, Kielińska J, Antazo B, Betlehem R, Stieger S, Nilsonne G, Simonovic N, Taber J, Gourdon-Kanhukamwe A, Domurat A, Ihaya K, Yamada Y, Urooj A, Gill T, Čadek M, Bylinina L, Messerschmidt J, Kurfalı M, Adetula A, Baklanova E, Albayrak-Aydemir N, Kappes HB, Gjoneska B, House T, Jones MV, Berkessel JB, Chopik WJ, Çoksan S, Seehuus M, Khaoudi A, Bokkour A, El Arabi KA, Djamai I, Iyer A, Parashar N, Adiguzel A, Kocalar HE, Bundt C, Norton JO, Papadatou-Pastou M, De la Rosa-Gomez A, Ankushev V, Bogatyreva N, Grigoryev D, Ivanov A, Prusova I, Romanova M, Sarieva I, Terskova M, Hristova E, Kadreva VH, Janak A, Schei V, Sverdrup TE, Askelund AD, Pineda LMS, Krupić D, Levitan CA, Johannes N, Ouherrou N, Say N, Sinkolova S, Janjić K, Stojanovska M, Stojanovska D, Khosla M, Thomas AG, Kung FYH, Bijlstra G, Mosannenzadeh F, Balci BB, Reips UD, Baskin E, Ishkhanyan B, Czamanski-Cohen J, Dixson BJW, Moreau D, Sutherland CAM, Chuan-Peng H, Noone C, Flowe H, Anne M, Janssen SMJ, Topor M, Majeed NM, Kunisato Y, Yu K, Daches S, Hartanto A, Vdovic M, Anton-Boicuk L, Forbes PAG, Kamburidis J, Marinova E, Nedelcheva-Datsova M, Rachev NR, Stoyanova A, Schmidt K, Suchow JW, Koptjevskaja-Tamm M, Jernsäther T, Olofsson JK, Bialobrzeska O, Marszalek M, Tatachari S, Afhami R, Law W, Antfolk J, Žuro B, Van Doren N, Soto JA, Searston R, Miranda J, Damnjanović K, Yeung SK, Krupić D, Hoyer K, Jaeger B, Ren D, Pfuhl G, Klevjer K, Corral-Frías NS, Frias-Armenta M, Lucas MY, Torres AO, Toro M, Delgado LGJ, Vega D, Solas SÁ, Vilar R, Massoni S, Frizzo T, Bran A, Vaidis DC, Vieira L, Paris B, Capizzi M, Coelho GLH, Greenburgh A, Whitt CM, Tullett AM, Du X, Volz L, Bosma MJ, Karaarslan C, Sarıoğuz E, Allred TB, Korbmacher M, Colloff MF, Lima TJS, Ribeiro MFF, Verharen JPH, Karekla M, Karashiali C, Sunami N, Jaremka LM, Storage D, Habib S, Studzinska A, Hanel PHP, Holford DL, Sirota M, Wolfe K, Chiu F, Theodoropoulou A, Ahn ER, Lin Y, Westgate EC, Brohmer H, Hofer G, Dujols O, Vezirian K, Feldman G, Travaglino GA, Ahmed A, Li M, Bosch J, Torunsky N, Bai H, Manavalan M, Song X, Walczak RB, Zdybek P, Friedemann M, Rosa AD, Kozma L, Alves SG, Lins S, Pinto IR, Correia RC, Babinčák P, Banik G, Rojas-Berscia LM, Varella MAC, Uttley J, Beshears JE, Thommesen KK, Behzadnia B, Geniole SN, Silan MA, Maturan PLG, Vilsmeier JK, Tran US, Izquierdo SM, Mensink MC, Sorokowski P, Groyecka-Bernard A, Radtke T, Adoric VC, Carpentier J, Özdoğru AA, Joy-Gaba JA, Hedgebeth MV, Ishii T, Wichman AL, Röer JP, Ostermann T, Davis WE, Suter L, Papachristopoulos K, Zabel C, Onie S, Ebersole CR, Chartier CR, Mallik PR, Urry HL, Buchanan EM, Coles NA, Primbs MA, Basnight-Brown DM, IJzerman H, Forscher PS, and Moshontz H

Published

2022

11. Common Ground between Biological Rhythms and Forensics.

Author

Janjić K, Reisinger C, and Kanz F

Abstract

Biological clocks set the timing for a large number of essential processes in the living human organism. After death, scientific evidence is required in forensic investigations in order to collect as much information as possible on the death circumstances and personal identifiers of the deceased victim. We summarize the associations between the molecular mechanisms of biological rhythms and forensically relevant aspects, including post-mortem interval and cause of death, entomological findings, sex, age, ethnicity and development. Given their importance during lifetime, biological rhythms could be potential tools to draw conclusions on the death circumstances and the identity of a deceased person by mechanistic investigations of the different biological clocks in a forensic context. This review puts the known effects of biological rhythms on the functions of the human organism in context with potential applications in forensic fields of interest, such as personal identification, entomology as well as the determination of the post-mortem interval and cause of death.

Published

2022

12. Effects of collagen membranes and bone substitute differ in periodontal ligament cell microtissues and monolayers.

Author

Janjić K, Agis H, Moritz A, Rausch-Fan X, and Andrukhov O

Subjects

Collagen pharmacology, Collagen Type I, Guided Tissue Regeneration, Periodontal, Humans, Membranes, Artificial, Vascular Endothelial Growth Factor A, Bone Substitutes pharmacology, Periodontal Ligament

Abstract

Background: Barrier membranes and bone substitute are major tools of guided tissue regeneration (GTR) after periodontal disease. Integrity of the periodontal ligament plays a key role in periodontal health, but its functionality fails to be fully re-established by GTR after disease or trauma. Microtissue models suggest an in vivo-like model to develop novel GTR approaches due to its three-dimensionality. This study aims to assess the effects of collagen membranes and bone substitute on cell viability, adhesion and gene expression of regenerative and inflammatory biomarkers by periodontal ligament cell (PDLC) microtissues., Methods: Human PDLC microtissues and monolayers were cultured on collagen membranes or bone substitute. After 24 hours incubation, metabolic activity, focal adhesion, mRNA and protein production of collagen-type-I (COL1A1), periostin (POSTN), vascular endothelial growth factor (VEGF), angiogenin (ANG), interleukin (IL)6 and IL8 were measured by resazurin-based toxicity assay, focal adhesion staining, quantitative polymerase chain reaction and enzyme-linked immunosorbent assay, respectively., Results: PDLC microtissues and monolayers were viable on collagen membranes and bone substitute, but microtissues were less metabolically active. Dominant staining of actin filaments was found in PDLC microtissues on collagen membranes. COL1A1, POSTN, VEGF, ANG and IL6 were modulated in PDLC microtissues on bone substitute, while there were no significant changes on collagen membranes. PDLC monolayers showed a different character of gene expression changes., Conclusions: PDLC microtissues and monolayers react diversely to collagen membranes and bone substitute. Further descriptive and mechanistic tests will be required to clarify the potential of PDLC microtissues as in vivo-like model for GTR., (© 2021 The Authors. Journal of Periodontology published by Wiley Periodicals LLC on behalf of American Academy of Periodontology.)

Published

2022

13. A Novel Quantitative Method for Tooth Grinding Surface Assessment Using 3D Scanning.

Author

Sagl B, Besirevic-Bulic F, Schmid-Schwap M, Laky B, Janjić K, Piehslinger E, and Rausch-Fan X

Abstract

Sleep bruxism is an oral parafunction that involves involuntary tooth grinding and clenching. Splints with a colored layer that gets removed during tooth grinding are a common tool for the initial diagnosis of sleep bruxism. Currently, such splints are either assessed qualitatively or using 2D photographs, leading to a non-neglectable error due to the 3D nature of the dentition. In this study we propose a new and fast method for the quantitative assessment of tooth grinding surfaces using 3D scanning and mesh processing. We assessed our diagnostic method by producing 18 standardized splints with 8 grinding surfaces each, giving us a total of 144 surfaces. Moreover, each splint was scanned and analyzed five times. The accuracy and repeatability of our method was assessed by computing the intraclass correlation coefficient (ICC) as well reporting means and standard deviations of surface measurements for intra- and intersplint measurements. An ICC of 0.998 was computed as well as a maximum standard deviation of 0.63 mm 2 for repeated measures, suggesting an appropriate accuracy of our proposed method. Overall, this study proposes an innovative, fast and cost effective method to support the initial diagnosis of sleep bruxism.

Published

2021

14. A multi-country test of brief reappraisal interventions on emotions during the COVID-19 pandemic.

Author

Wang K, Goldenberg A, Dorison CA, Miller JK, Uusberg A, Lerner JS, Gross JJ, Agesin BB, Bernardo M, Campos O, Eudave L, Grzech K, Ozery DH, Jackson EA, Garcia EOL, Drexler SM, Jurković AP, Rana K, Wilson JP, Antoniadi M, Desai K, Gialitaki Z, Kushnir E, Nadif K, Bravo ON, Nauman R, Oosterlinck M, Pantazi M, Pilecka N, Szabelska A, van Steenkiste IMM, Filip K, Bozdoc AI, Marcu GM, Agadullina E, Adamkovič M, Roczniewska M, Reyna C, Kassianos AP, Westerlund M, Ahlgren L, Pöntinen S, Adetula GA, Dursun P, Arinze AI, Arinze NC, Ogbonnaya CE, Ndukaihe ILG, Dalgar I, Akkas H, Macapagal PM, Lewis S, Metin-Orta I, Foroni F, Willis M, Santos AC, Mokady A, Reggev N, Kurfali MA, Vasilev MR, Nock NL, Parzuchowski M, Espinoza Barría MF, Vranka M, Kohlová MB, Ropovik I, Harutyunyan M, Wang C, Yao E, Becker M, Manunta E, Kaminski G, Boudesseu J, Marko D, Evans K, Lewis DMG, Findor A, Landry AT, Aruta JJB, Ortiz MS, Vally Z, Pronizius E, Voracek M, Lamm C, Grinberg M, Li R, Valentova JV, Mioni G, Cellini N, Chen SC, Zickfeld J, Moon K, Azab H, Levy N, Karababa A, Beaudry JL, Boucher L, Collins WM, Todsen AL, van Schie K, Vintr J, Bavolar J, Kaliska L, Križanić V, Samojlenko L, Pourafshari R, Geiger SJ, Beitner J, Warmelink L, Ross RM, Stephen ID, Hostler TJ, Azouaghe S, McCarthy R, Szala A, Grano C, Solorzano CS, Anjum G, Jimenez-Leal W, Bradford M, Pérez LC, Cruz Vásquez JE, Galindo-Caballero OJ, Vargas-Nieto JC, Kácha O, Arvanitis A, Xiao Q, Cárcamo R, Zorjan S, Tajchman Z, Vilares I, Pavlacic JM, Kunst JR, Tamnes CK, von Bastian CC, Atari M, Sharifian M, Hricova M, Kačmár P, Schrötter J, Rahal RM, Cohen N, FatahModares S, Zrimsek M, Zakharov I, Koehn MA, Esteban-Serna C, Calin-Jageman RJ, Krafnick AJ, Štrukelj E, Isager PM, Urban J, Silva JR, Martončik M, Očovaj SB, Šakan D, Kuzminska AO, Djordjevic JM, Almeida IAT, Ferreira A, Lazarevic LB, Manley H, Ricaurte DZ, Monteiro RP, Etabari Z, Musser E, Dunleavy D, Chou W, Godbersen H, Ruiz-Fernández S, Reeck C, Batres C, Kirgizova K, Muminov A, Azevedo F, Alvarez DS, Butt MM, Lee JM, Chen Z, Verbruggen F, Ziano I, Tümer M, Charyate ACA, Dubrov D, Tejada Rivera MDCMC, Aberson C, Pálfi B, Maldonado MA, Hubena B, Sacakli A, Ceary CD, Richard KL, Singer G, Perillo JT, Ballantyne T, Cyrus-Lai W, Fedotov M, Du H, Wielgus M, Pit IL, Hruška M, Sousa D, Aczel B, Hajdu N, Szaszi B, Adamus S, Barzykowski K, Micheli L, Schmidt ND, Zsido AN, Paruzel-Czachura M, Muda R, Bialek M, Kowal M, Sorokowska A, Misiak M, Mola D, Ortiz MV, Correa PS, Belaus A, Muchembled F, Ribeiro RR, Arriaga P, Oliveira R, Vaughn LA, Szwed P, Kossowska M, Czarnek G, Kielińska J, Antazo B, Betlehem R, Stieger S, Nilsonne G, Simonovic N, Taber J, Gourdon-Kanhukamwe A, Domurat A, Ihaya K, Yamada Y, Urooj A, Gill T, Čadek M, Bylinina L, Messerschmidt J, Kurfalı M, Adetula A, Baklanova E, Albayrak-Aydemir N, Kappes HB, Gjoneska B, House T, Jones MV, Berkessel JB, Chopik WJ, Çoksan S, Seehuus M, Khaoudi A, Bokkour A, El Arabi KA, Djamai I, Iyer A, Parashar N, Adiguzel A, Kocalar HE, Bundt C, Norton JO, Papadatou-Pastou M, De la Rosa-Gomez A, Ankushev V, Bogatyreva N, Grigoryev D, Ivanov A, Prusova I, Romanova M, Sarieva I, Terskova M, Hristova E, Kadreva VH, Janak A, Schei V, Sverdrup TE, Askelund AD, Pineda LMS, Krupić D, Levitan CA, Johannes N, Ouherrou N, Say N, Sinkolova S, Janjić K, Stojanovska M, Stojanovska D, Khosla M, Thomas AG, Kung FYH, Bijlstra G, Mosannenzadeh F, Balci BB, Reips UD, Baskin E, Ishkhanyan B, Czamanski-Cohen J, Dixson BJW, Moreau D, Sutherland CAM, Chuan-Peng H, Noone C, Flowe H, Anne M, Janssen SMJ, Topor M, Majeed NM, Kunisato Y, Yu K, Daches S, Hartanto A, Vdovic M, Anton-Boicuk L, Forbes PAG, Kamburidis J, Marinova E, Nedelcheva-Datsova M, Rachev NR, Stoyanova A, Schmidt K, Suchow JW, Koptjevskaja-Tamm M, Jernsäther T, Olofsson JK, Bialobrzeska O, Marszalek M, Tatachari S, Afhami R, Law W, Antfolk J, Žuro B, Van Doren N, Soto JA, Searston R, Miranda J, Damnjanović K, Yeung SK, Krupić D, Hoyer K, Jaeger B, Ren D, Pfuhl G, Klevjer K, Corral-Frías NS, Frias-Armenta M, Lucas MY, Torres AO, Toro M, Delgado LGJ, Vega D, Solas SÁ, Vilar R, Massoni S, Frizzo T, Bran A, Vaidis DC, Vieira L, Paris B, Capizzi M, Coelho GLH, Greenburgh A, Whitt CM, Tullett AM, Du X, Volz L, Bosma MJ, Karaarslan C, Sarıoğuz E, Allred TB, Korbmacher M, Colloff MF, Lima TJS, Ribeiro MFF, Verharen JPH, Karekla M, Karashiali C, Sunami N, Jaremka LM, Storage D, Habib S, Studzinska A, Hanel PHP, Holford DL, Sirota M, Wolfe K, Chiu F, Theodoropoulou A, Ahn ER, Lin Y, Westgate EC, Brohmer H, Hofer G, Dujols O, Vezirian K, Feldman G, Travaglino GA, Ahmed A, Li M, Bosch J, Torunsky N, Bai H, Manavalan M, Song X, Walczak RB, Zdybek P, Friedemann M, Rosa AD, Kozma L, Alves SG, Lins S, Pinto IR, Correia RC, Babinčák P, Banik G, Rojas-Berscia LM, Varella MAC, Uttley J, Beshears JE, Thommesen KK, Behzadnia B, Geniole SN, Silan MA, Maturan PLG, Vilsmeier JK, Tran US, Izquierdo SM, Mensink MC, Sorokowski P, Groyecka-Bernard A, Radtke T, Adoric VC, Carpentier J, Özdoğru AA, Joy-Gaba JA, Hedgebeth MV, Ishii T, Wichman AL, Röer JP, Ostermann T, Davis WE, Suter L, Papachristopoulos K, Zabel C, Onie S, Ebersole CR, Chartier CR, Mallik PR, Urry HL, Buchanan EM, Coles NA, Primbs MA, Basnight-Brown DM, IJzerman H, Forscher PS, and Moshontz H

Subjects

Adult, Female, Humans, Male, COVID-19 psychology, Emotional Regulation, Emotions

Abstract

The COVID-19 pandemic has increased negative emotions and decreased positive emotions globally. Left unchecked, these emotional changes might have a wide array of adverse impacts. To reduce negative emotions and increase positive emotions, we tested the effectiveness of reappraisal, an emotion-regulation strategy that modifies how one thinks about a situation. Participants from 87 countries and regions (n = 21,644) were randomly assigned to one of two brief reappraisal interventions (reconstrual or repurposing) or one of two control conditions (active or passive). Results revealed that both reappraisal interventions (vesus both control conditions) consistently reduced negative emotions and increased positive emotions across different measures. Reconstrual and repurposing interventions had similar effects. Importantly, planned exploratory analyses indicated that reappraisal interventions did not reduce intentions to practice preventive health behaviours. The findings demonstrate the viability of creating scalable, low-cost interventions for use around the world. PROTOCOL REGISTRATION: The stage 1 protocol for this Registered Report was accepted in principle on 12 May 2020. The protocol, as accepted by the journal, can be found at https://doi.org/10.6084/m9.figshare.c.4878591.v1., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2021

15. The impact of 3D-printed LAY-FOMM 40 and LAY-FOMM 60 on L929 cells and human oral fibroblasts.

Author

Oberoi G, Nitsch S, Janjić K, Shokoohi-Tabrizi H, Moritz A, Moscato F, Unger E, and Agis H

Subjects

Animals, Cells, Cultured, Humans, Mice, Periodontal Ligament, Printing, Three-Dimensional, Fibroblasts, Gingiva

Abstract

Objectives: LAY-FOMM is a promising material for FDA-approved Fused Deposition Modeling (FDM) applications in drug delivery. Here we investigated the impact on oral cells., Materials and Methods: We evaluated the impact of 3D-printed LAY-FOMM 40, LAY-FOMM 60, and biocompatible polylactic acid (PLA) on the activity of murine L929 cells, gingival fibroblasts (GF), and periodontal ligament fibroblasts (PDLF) using indirect (samples on cells), direct monolayer culture models (cells on samples), and direct spheroid cultures with resazurin-based toxicity assay, confirmed by MTT and Live-dead staining. The surface topography was evaluated with scanning electron microscopy., Results: The materials LAY-FOMM 40 and LAY-FOMM 60 led to a reduction in resazurin conversion in L929 cells, GF, and PDLF, higher than the impact of PLA in indirect and direct culture models. Fewer vital cells were found in the presence of LAY-FOMM 40 and 60 than PLA, in the staining in both models. In the direct model, LAY-FOMM 40 and PLA showed less impact on viability in the resazurin-based toxicity assay than in the indirect model. Spheroid microtissues showed a reduction of cell activity of GF and PDLF with LAY-FOMM 40 and 60., Conclusion: Overall, we found that LAY-FOMM 40 and LAY-FOMM 60 can reduce the activity of L292 and oral cells. Based on the results from the PLA samples, the direct model seems more reliable than the indirect model., Clinical Relevance: A material modification is desired in terms of biocompatibility as it can mask the effect of drugs and interfere with the function of the 3D-printed device.

Published

2021

16. The response of gingiva monolayer, spheroid, and ex vivo tissue cultures to collagen membranes and bone substitute.

Author

Janjić K, Schädl B, Andrukhov O, and Agis H

Subjects

Apoptosis drug effects, Cell Proliferation drug effects, Cell Shape drug effects, Humans, Membranes, RNA, Messenger genetics, RNA, Messenger metabolism, Spheroids, Cellular drug effects, Spheroids, Cellular metabolism, Bone Substitutes pharmacology, Collagen pharmacology, Gingiva cytology, Spheroids, Cellular cytology, Tissue Culture Techniques

Abstract

Collagen membranes and bone substitute are popular biomaterials in guided tissue regeneration for treatment of traumatized or diseased periodontal tissue. Development of these biomaterials starts in monolayer cell culture, failing to reflect in vivo tissue organization. Spheroid cultures potentially mimic in vivo tissues in structure and functionality. This study aims to compare gingiva cell (GC) monolayers and spheroids to ex vivo gingiva. Human GC monolayers, spheroids and gingiva ex vivo tissues were cultured on plastic surfaces, collagen membranes or bone substitute. Hematoxylin-eosin (HE) staining, immunohistochemistry for KI67 and caspase 3 (CASP3), resazurin-based toxicity assays, quantitative polymerase chain reaction for collagen I (COL1A1), vascular endothelial growth factor (VEGF), angiogenin (ANG), interleukin (IL)6 and IL8 and ELISA for COL1A1, VEGF, ANG, IL6 and IL8 were performed in all cultures. Morphology was different in all culture set-ups. Staining of KI67 was positive in monolayers and staining of CASP3 was positive in spheroids. All culture set-ups were viable. COL1A1 production was modulated in monolayers and ex vivo tissues at mRNA levels, VEGF in monolayers and ex vivo tissues at mRNA levels and in spheroids at protein levels, ANG in spheroids at mRNA levels and in monolayers and spheroids at protein levels, IL6 in monolayers and spheroids at mRNA levels and in spheroids and ex vivo tissues at protein levels and IL8 in monolayers and ex vivo tissues at mRNA levels. Modulations were surface-dependent. In conclusion, each culture model is structurally and functionally different. Neither GC monolayers nor spheroids mimicked gingiva ex vivo tissue in all measured aspects., (© 2020 The Authors. Journal of Tissue Engineering and Regenerative Medicine published by John Wiley & Sons Ltd.)

Published

2020

17. The response of periodontal cells to kaolinite.

Author

Müller AS, Janjić K, Shokoohi-Tabrizi H, Oberoi G, Moritz A, and Agis H

Subjects

Cell Survival, Cells, Cultured, Culture Media, Humans, Interleukin-6 metabolism, Interleukin-8 metabolism, Vascular Endothelial Growth Factor A metabolism, Fibroblasts drug effects, Kaolin pharmacology, Periodontal Ligament cytology

Abstract

Objectives: The impact of kaolinite on human periodontal cells is yet unknown. The aim of the study was to assess the response of human periodontal cells to kaolinite., Methods: Human periodontal cells were treated with kaolinite at reducing concentrations from 30 to 0.0015 mg/mL and with conditioned medium, which was depleted of kaolinite. Cell viability was evaluated with a resazurin-based toxicity assay, Live-Dead staining, and MTT assay and staining. The pro-angiogenic factors vascular endothelial growth factor (VEGF) and interleukin (IL)-6 and IL-8 were quantified via ELISA in periodontal fibroblasts. L-929, a standard cell-line used for cytotoxicity studies, served as control cell line. Composition of kaolinite was verified using energy-dispersive X-ray spectroscopy., Results: Kaolinite in suspension but not in conditioned medium impaired cell viability dose-dependently. VEGF, IL-6, and IL-8 production was not substantially modulated by kaolinite or the conditioned medium in periodontal cells., Conclusion: Overall, kaolinite can decrease cell viability dose-dependently while conditioned medium showed no toxic effect. No pronounced impact of kaolinite on VEGF, IL-6, and IL-8 production was observed. This study provided first insights into the impact of kaolinite on human periodontal cells thereby inferring to the basis for the evaluation of kaolinite as a carrier in regenerative dentistry., Clinical Relevance: Kaolinite, a clay mineral, is successfully used in medicine due to its favorable properties. Also, applications in conservative dentistry are described. However, the response of oral cells to kaolinite is still unclear. Here, we assessed the impact of kaolinite on human periodontal cells.

Published

2020

18. Contraction dynamics of dental pulp cell rod microtissues.

Author

Oberoi G, Janjić K, Müller AS, Schädl B, Moritz A, and Agis H

Subjects

Cells, Cultured, Humans, Mitogen-Activated Protein Kinases, Phosphatidylinositol 3-Kinases, Signal Transduction, Transforming Growth Factor beta, Dental Pulp

Abstract

Objectives: The factors that contribute to the morphological changes of dental pulp cell-derived microtissues are unknown. Here, we investigated the contraction dynamics of rod-shaped microtissues derived from dental pulp cells and examined the underlying cell signaling pathways., Methods: Human dental pulp cells were seeded into agarose molds to assemble into rod-shaped microtissues. Resazurin- and tetrazolium-based cytotoxicity assays, Live/Dead staining, and hematoxylin and eosin staining for histological evaluation of rods were performed. Rod contraction was evaluated and measured for a period of 10 days. The role of TGF-β, phosphoinositide 3-kinase (PI3K)/AKT, and mitogen-activated protein kinase (MAPK) signaling pathway was analyzed., Results: Dental pulp cells readily assembled into rods, maintaining the geometric shape for 48 h. Following this period, they condensed to form stable spheroidal structures that remained vital for 10 days from seeding. Inhibition of phosphoinositide 3-kinase signaling pathway by LY294002 significantly prolonged the diminution in the length of rods formed by dental pulp cells. TGF-β and pharmacological inhibition of TGF-β signaling did not show pronounced effects., Conclusion: Overall, dental pulp cells readily formed rod-shaped patterns of microtissues which, over a period of time, condensed into more stable spheroidal structures. Hence, technologies like bioprinting, using direct fabrication of microtissues need to consider the contraction dynamics., Clinical Relevance: The field of regenerative endodontology will benefit from our findings as it can be applied as a novel platform to test the impact of pharmacological agents, biomaterials, and regenerative approaches including bioprinting.

Published

2020

19. The Influence of Pro-Inflammatory Factors on Sclerostin and Dickkopf-1 Production in Human Dental Pulp Cells Under Hypoxic Conditions.

Author

Janjić K, Samiei M, Moritz A, and Agis H

Abstract

Sclerostin (Sost) and dickkopf (Dkk)-1 are inhibitors of the Wnt signaling pathway that plays a role in regenerative processes. Hypoxia-based strategies are used for regenerative approaches, but the influence of hypoxia on Sost and Dkk-1 production in a pro-inflammatory environment is unclear. The aim of this study was to assess if pro-inflammatory molecules have an influence on Sost and Dkk-1 production in dental pulp cells (DPC) under normoxia and hypoxia. Human DPC were treated with interleukin (IL)-1β, tumor necrosis factor (TNF)α or transforming growth factor (TGF)β, with L-mimosine (L-MIM) or hypoxia or a combination. Sost and Dkk-1 mRNA and protein levels were measured with qPCR and western blot, respectively. TNFα, TGFβ, L-MIM, or combined treatment did not modulate Sost and Dkk-1. IL-1β downregulated Sost at the mRNA level. Hypoxia alone and together with inflammatory markers downregulated Dkk-1 at the mRNA level. Sost and Dkk-1 protein production was below the detection limit. In conclusion, there is a differential effect of hypoxia and IL-1β on the mRNA production of Sost and Dkk-1. Pro-inflammatory molecules do not further modulate the effects of L-MIM or hypoxia on Sost and Dkk-1 production in DPC., (Copyright © 2019 Janjić, Samiei, Moritz and Agis.)

Published

2019

20. Angiopoietin-like 4 production upon treatment with hypoxia and L-mimosine in periodontal fibroblasts.

Author

Janjić K, Schellner A, Engenhart A, Kernstock K, Schädl B, Moritz A, and Agis H

Subjects

Angiopoietins, Cells, Cultured, Fibroblasts, Humans, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Periodontal Ligament metabolism, Angiopoietin-Like Protein 4 metabolism, Escherichia coli, Hypoxia, Mimosine pharmacology

Abstract

Background and Objective: A key factor in the modulation of angiogenesis as well as in bone resorption is angiopoietin-like 4. However, the role of angiopoietin-like 4 in periodontal tissue is unknown. Here, we hypothesized that hypoxia and the hypoxia mimetic agent L-mimosine can induce the production of angiopoietin-like 4 in periodontal fibroblasts., Methods: Human periodontal ligament fibroblasts (PDLF) were cultured in monolayer and spheroid cultures. The cultures were incubated in the presence of hypoxia or L-mimosine. Angiopoietin-like 4 mRNA and protein levels were measured by qPCR and ELISA, respectively. Also, the impact of Lipopolysaccharides of E. coli and P. gingivalis, interleukin (IL)-1β and tumor necrosis factor (TNF)α was evaluated. Furthermore, we tested dependency on hypoxia-inducible factor (HIF)-1 activity by Western blotting for HIF-1 and inhibitor studies with echinomycin. Potential autocrine effects were assessed by exposure of PDLF to recombinant angiopoietin-like 4 in full length, C-terminal and N-terminal fragments. The impact on viability, DNA synthesis, alkaline phosphatase, and matrix mineralization was evaluated., Results: Both hypoxia and L-mimosine elevated angiopoietin-like 4 mRNA and protein levels in monolayer cultures of PDLF. HIF-1 was elevated after both hypoxia and L-mimosine treatment. LPS, IL-1β, and TNFα did not modulate angiopoietin-like 4 levels significantly. Addition of echinomycin in the cultures inhibited the production of angiopoietin-like 4. In spheroid cultures of PDLF, the increase did not reach the level of significance at mRNA and protein levels. Angiopoietin-like 4 in full length, C-terminal, and N-terminal fragments did not modulate viability, DNA synthesis, alkaline phosphatase, and matrix mineralization., Conclusion: Overall, we found that hypoxia and the hypoxia mimetic agent L-mimosine can stimulate angiopoietin-like 4 production in monolayer cultures of PDLF. This increase depends on HIF-1 activity. Future studies will reveal how the modulation of angiopoietin-like 4 in the periodontium contributes to periodontal disease and regeneration., (© 2019 The Authors. Journal of Periodontal Research Published by John Wiley & Sons Ltd.)

Published

2019

21. Angiogenin production in response to hypoxia and l-mimosine in periodontal fibroblasts.

Author

Janjić K, Bauer P, Edelmayer M, Cvikl B, Schädl B, Moritz A, and Agis H

Subjects

Cells, Cultured, Fibroblasts, Humans, Hypoxia-Inducible Factor 1, alpha Subunit, Periodontal Ligament, Ribonuclease, Pancreatic, Hypoxia, Mimosine

Abstract

Background: A major mediator of angiogenesis is angiogenin, which is expressed in the early phase of healing in oral tissue engineering strategies. It is unclear how angiogenin is regulated in the periodontal tissue. The objective of this study was to reveal the regulation of angiogenin in response to hypoxia and the hypoxia mimetic agent l-mimosine in periodontal fibroblasts., Methods: Human fibroblasts of the periodontal ligament (PDLF) and the gingiva (GF) in monolayer and spheroid cultures were exposed to hypoxia or l-mimosine. The production of angiogenin was evaluated at mRNA and protein levels with reverse transcription quantitative polymerase chain reaction and enzyme-linked immunosorbent assays, respectively. Echinomycin, an inhibitor of hypoxia-inducible factor (HIF)-1 activity, was used to test the involvement of HIF-1., Results: Our data show that hypoxia and l-mimosine can increase angiogenin mRNA and protein levels in PDLF monolayer cultures. In GF monolayer cultures, we found an increase of angiogenin at the mRNA level in response to hypoxia. The increase of angiogenin can be blocked by inhibition of HIF-1 signaling via echinomycin. In PDLF and GF spheroid cultures, the impact of hypoxia and l-mimosine did not reach the level of significance., Conclusion: Hypoxia and the hypoxia mimetic agent l-mimosine can increase the production of angiogenin via HIF-1 signaling in PDLF monolayer cultures but not in spheroid cultures. GF were less sensitive to the impact of hypoxia and l-mimosine. Overall, these results suggest a link between hypoxia, HIF-1 signaling and angiogenin in the periodontium., (© 2018 American Academy of Periodontology.)

Published

2019

22. The impact of clay-based hypoxia mimetic hydrogel on human fibroblasts of the periodontal soft tissue.

Author

Müller AS, Gashi M, Janjić K, Edelmayer M, Moritz A, and Agis H

Subjects

Amino Acids, Dicarboxylic administration & dosage, Amino Acids, Dicarboxylic pharmacology, Biocompatible Materials chemistry, Cells, Cultured, Cobalt administration & dosage, Cobalt pharmacology, Deferoxamine administration & dosage, Deferoxamine pharmacology, Drug Delivery Systems, Fibroblasts cytology, Humans, Mimosine administration & dosage, Mimosine pharmacology, Periodontium drug effects, Tissue Scaffolds chemistry, Cell Hypoxia drug effects, Clay chemistry, Fibroblasts drug effects, Hydrogels chemistry, Periodontium cytology

Abstract

Thixotropic clays have favorable properties for tissue regeneration. Hypoxia mimetic agents showed promising results in pre-clinical models for hard and soft tissue regeneration. It is unclear if clays can be used as carrier for hypoxia mimetic agent in a periodontal regenerative setting. Here, we tested the response of human fibroblasts of the periodontal soft tissue to synthetic clay hydrogels and assessed hypoxia mimetic agent release. Cells were cultured on synthetic clay hydrogels (5.00%-0.15%). We assessed viability and differentiation capacity with resazurin-based toxicity assays, MTT staining, Live-Dead staining, and alkaline phosphatase staining. To reveal the response of fibroblasts to hypoxia mimetic agent-loaded clay hydrogels, cells were exposed to clay supplemented with dimethyloxalylglycine, deferoxamine, l-mimosine, and CoCl 2 . Supernatants from hypoxia mimetic agent-loaded clay hydrogels were harvested and replaced with medium at hour 1, 3, 6, 24, 48, and 72. To reveal the hypoxia mimetic capacity of supernatants, vascular endothelial growth factor production in the fibroblasts was assessed in the culture medium. Our data show that clay did not induce relevant toxic effects in the fibroblasts which remained capable to differentiate into alkaline phosphatase-positive cells at the relevant concentrations. Fibroblasts cultured on clay hydrogel loaded with dimethyloxalylglycine, deferoxamine, l-mimosine, and CoCl 2 remained vital, however, no significant increase in vascular endothelial growth factor levels was found in the culture medium. Only dimethyloxalylglycine-loaded clay supernatants taken in the first hours stimulated vascular endothelial growth factor production in fibroblasts. In conclusion no pronounced toxic effects of synthetic clay were observed. Supplementation with dimethyloxalylglycine leads to hypoxia mimetic activity. This pilot study provides first insights into the impact of synthetic clay on periodontal tissue.

Published

2019

23. The impact of collagen membranes on 3D gingival fibroblast toroids.

Author

Janjić K, Cvikl B, Schädl B, Moritz A, and Agis H

Subjects

Animals, Cells, Cultured, Collagen, Humans, Materials Testing, Fibroblasts, Gingiva

Abstract

Background: Development in guided tissue regeneration requires biomaterial testing. 3D cell constructs represent a new approach to bridge the gap between cell culture and animal models. Following the hypothesis that attachment behavior of cells could be observed in toroidal 3D cell constructs, the aim of this study was to evaluate 3D gingival fibroblast (GF) toroids as a simple and feasible in vitro assay to test attachment of oral fibroblasts to collagen membranes., Methods: 3D ring-like structures (toroids) were formed from human GF. Hematoxylin-eosin staining was performed with formed GF toroids. Produced GF toroids were seeded onto plastic surfaces or collagen membranes. The morphology was documented at 24 h, 48 h and 72 h after seeding with light and fluorescence microscopy. Toroid vitality was assessed at same time points with a resazurin-based toxicity assay., Results: GF showed normal morphology in toroid hematoxylin-eosin staining. Over 72 h, GF toroids on plastic surfaces stayed unchanged, while GF toroids on collagen membranes showed dilatation. GF toroids on plastic surfaces and collagen membranes were metabolically active over the observed period., Conclusions: Depending on the surface material, 3D GF toroids show different attachment behavior. Thus, GF toroids are suitable as simple assay to study attachment behavior to various biomaterials.

Published

2019

24. Chronodentistry: the role & potential of molecular clocks in oral medicine.

Author

Janjić K and Agis H

Subjects

Dentistry, Sleep, Circadian Clocks, Orthodontics, Surgery, Oral

Abstract

Molecular clocks help organisms to adapt important physiological functions to periodically changing conditions in the environment. These include the adaption of the 24 h sleep-wake rhythm to changes of day and night. The circadian clock is known to act as a key regulator in processes of health and disease in different organs. The knowledge on the circadian clock led to the development of chronopharmacology and chronotherapy. These fields aim to investigate how efficiency of medication and therapies can be improved based on circadian clock mechanisms. In this review we aim to highlight the role of the circadian clock in oral tissues and its potential in the different fields of dentistry including oral and maxillofacial surgery, restorative dentistry, endodontics, periodontics and orthodontics to trigger the evolving field of chronodentistry.

Published

2019

25. The role of sclerostin and dickkopf-1 in oral tissues - A review from the perspective of the dental disciplines.

Author

Samiei M, Janjić K, Cvikl B, Moritz A, and Agis H

Subjects

Humans, Wnt Signaling Pathway, Wound Healing, Adaptor Proteins, Signal Transducing physiology, Dentistry, Intercellular Signaling Peptides and Proteins physiology, Mouth Mucosa physiology

Abstract

Wnt signaling is of high relevance in the development, homeostasis, and regeneration of oral tissues. Therefore, Wnt signaling is considered to be a potential target for therapeutic strategies. The action of Wnt is tightly controlled by the inhibitors sclerostin (SOST) and Dickkopf (DKK)-1. Given the impact of SOST and DKK-1 in hard tissue formation, related diseases and healing, it is of high relevance to understand their role in oral tissues. The clinical relevance of this knowledge is further underlined by systemic and local approaches which are currently in development for treating a variety of diseases such as osteoporosis and inflammatory hard tissue resorption. In this narrative review, we summarize the current knowledge and understanding on the Wnt signaling inhibitors SOST and DKK-1, and their role in physiology, pathology, and regeneration in oral tissues. We present this role from the perspective of the different specialties in dentistry, including endodontics, orthodontics, periodontics, and oral surgery., Competing Interests: No competing interests were disclosed.

Published

2019

26. Contraction Dynamics of Rod Microtissues of Gingiva-Derived and Periodontal Ligament-Derived Cells.

Author

Oberoi G, Janjić K, Müller AS, Schädl B, Andrukhov O, Moritz A, and Agis H

Abstract

Tissue engineering strategies using microtissues as "building blocks" have high potential in regenerative medicine. Cognition of contraction dynamics involved in the in vitro self-assembly of these microtissues can be conceived as the bedrock of an effective periodontal tissue regenerative therapy. Our study was directed at evaluating the shrinkage in the rod-shaped structure of a directed self-assembly of human gingiva-derived cells (GC) and periodontal ligament-derived cells (PDLC) and developing insights into the potential mechanisms responsible for the shrinkage. GC and PDLC were seeded in non-adherent agarose molds to form rod microtissues. Cells used for the experiments were characterized using fluorescence-activated cell sorting (FACS). To assess the viability, resazurin-based cytotoxicity assays, trypan blue dye exclusion assay, MTT and live/dead staining, and histological evaluation of rods based on hematoxylin and eosin staining were performed. Rod contraction was evaluated and measured at 0, 2, 6, and 24 h and compared to L-929 cells. The role of transforming growth factor (TGF)-β signaling, phosphoinositide 3-kinase (PI3K)/AKT, and mitogen activated protein kinase (MAPK) signaling was analyzed. Our results show that the rod microtissues were vital after 24 h. A reduction in the length of rods was seen in the 24 h period. While the recombinant TGF-β slightly reduced contraction, inhibition of TGF-β signaling did not interfere with the contraction of the rods. Interestingly, inhibition of phosphoinositide 3-kinase by LY294002 significantly delayed contraction in GC and PDLC rods. Overall, GC and PDLC have the ability to form rod microtissues which contract over time. Thus, approaches for application of these structures as "building blocks" for periodontal tissue regeneration should consider that rods have the capacity to contract substantially. Further investigation will be needed to unravel the mechanisms behind the dynamics of contraction.

Published

2018

27. 3D Printing-Encompassing the Facets of Dentistry.

Author

Oberoi G, Nitsch S, Edelmayer M, Janjić K, Müller AS, and Agis H

Abstract

This narrative review presents an overview on the currently available 3D printing technologies and their utilization in experimental, clinical and educational facets, from the perspective of different specialties of dentistry, including oral and maxillofacial surgery, orthodontics, endodontics, prosthodontics, and periodontics. It covers research and innovation, treatment modalities, education and training, employing the rapidly developing 3D printing process. Research-oriented advancement in 3D printing in dentistry is witnessed by the rising number of publications on this topic. Visualization of treatment outcomes makes it a promising clinical tool. Educational programs utilizing 3D-printed models stimulate training of dental skills in students and trainees. 3D printing has enormous potential to ameliorate oral health care in research, clinical treatment, and education in dentistry.

Published

2018

28. Deferoxamine but Not Dimethyloxalylglycine, L-Mimosine, or Cobalt Dichloride Can Interfere with the MTT Assay.

Author

Müller AS, Janjić K, Oberoi G, Pensch M, Kurzmann C, Moritz A, and Agis H

Subjects

3T3 Cells, Animals, Biocompatible Materials chemistry, Cell Line, Cell Survival drug effects, Dimethyl Sulfoxide chemistry, Mice, Amino Acids, Dicarboxylic chemistry, Cobalt chemistry, Deferoxamine chemistry, Mimosine chemistry, Tetrazolium Salts chemistry, Thiazoles chemistry

Abstract

Hypoxia mimetic agents (HMAs) have been shown to have a positive influence on cellular functions in a multitude of tissue regenerative strategies. Novel experimental approaches use biomaterials as carriers for controlled delivery of these HMAs. Here, the cytotoxic aspects of biocompatibility are of key relevance. The MTT assay is widely used to evaluate cytotoxicity and proliferation. Based on the implications from the proceeding research we hypothesized that specific HMAs such as deferoxamine at high concentrations can interfere with the MTT assay. Thus, the aim of this study was to test the repercussions of the HMAs dimethyloxalylglycine, deferoxamine, L-mimosine, and CoCl 2 on the validity of the MTT assay. Murine MC3T3-E1 cells were cultured in serum-free alphaMEM and in alphaMEM supplemented with 10 % fetal bovine serum with the HMAs dimethyloxalylglycine, deferoxamine, L-mimosine, and CoCl 2 , respectively, at 3 mM-0.3 mM for 24 h (experimental groups). Cells without HMAs served as control (control groups). The same experiments were performed with medium and phosphate buffered saline (PBS) without cells. In all settings MTT solution was added to PBS-washed or unwashed culture plates for the last two hours of the incubation period. Then MTT solution was removed and dimethyl sulfoxide was added to dissolve the formazan crystals and absorption was measured. Our data show that the presence of deferoxamine can interfere with the MTT assay if not removed before the addition of MTT. This is particularly important when evaluating cell viability in setups where deferoxamine-loaded biomaterials are used.

Published

2018

29. Core circadian clock gene expression in human dental pulp-derived cells in response to L-mimosine, hypoxia and echinomycin.

Author

Janjić K, Kurzmann C, Moritz A, and Agis H

Subjects

Blotting, Western, Cell Culture Techniques, Electrophoresis, Polyacrylamide Gel, Humans, In Vitro Techniques, Polymerase Chain Reaction, RNA, Messenger metabolism, Circadian Clocks genetics, Dental Pulp cytology, Echinomycin pharmacology, Gene Expression Regulation, Hypoxia, Mimosine pharmacology

Abstract

Core circadian clock genes set the pace for a wide range of physiological functions, including regeneration. The role of these genes and their regulation in the dental pulp, in particular under hypoxic conditions, is unknown. Here we investigated if core clock genes are expressed in human dental pulp-derived cells (DPC) and if their expression is modulated by the hypoxia mimetic agent, L-mimosine (L-MIM), hypoxia or echinomycin. Dental pulp-derived cells in monolayers and spheroids were treated with L-MIM, hypoxia or echinomycin. mRNA levels of the core circadian clock genes were analysed using quantitative PCR (qPCR) and their protein levels were analysed by western blot. All core clock genes and proteins were produced in DPC monolayer and spheroid cultures. The expression of cryptochrome circadian regulators and period circadian regulators was reduced by L-MIM, hypoxia and echinomycin at mRNA, but not at protein levels. Time course experiments indicated that modulations were based on alterations in overall mRNA levels of core circadian clock genes. Our results suggest a potential role of the core circadian clock in the response of dental pulp to hypoxia. Future studies need to consider that regulation of the core circadian clock at mRNA levels might not be paralleled by modulation of protein levels., (© 2018 Eur J Oral Sci.)

Published

2018

30. Synthetic Clay-based Hypoxia Mimetic Hydrogel for Pulp Regeneration: The Impact on Cell Activity and Release Kinetics Based on Dental Pulp-derived Cells In Vitro.

Author

Müller AS, Artner M, Janjić K, Edelmayer M, Kurzmann C, Moritz A, and Agis H

Subjects

Cell Survival, Cells, Cultured, Clay, Dental Pulp cytology, Dental Pulp drug effects, Humans, Hydrogel, Polyethylene Glycol Dimethacrylate, Hypoxia metabolism, Vascular Endothelial Growth Factor A metabolism, Dental Pulp physiology, Regenerative Endodontics methods

Abstract

Introduction: Thixotropic synthetic clays have been successfully used for tissue engineering in regenerative medicine. The impact of these clays on the dental pulp, in particular in combination with hypoxia-based approaches using hypoxia mimetic agents (HMAs), is unknown. Our aim was to reveal the response of dental pulp-derived cells (DPCs) to a synthetic clay-based hydrogel and evaluate the release of HMAs., Methods: Using resazurin-based toxicity assays, live-dead staining, and 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide staining, the viability of human DPCs seeded onto a synthetic clay-based hydrogel of 5%-0.15% as well as onto the hydrogels loaded with the HMAs dimethyloxalylglycine (DMOG), desferrioxamine, L-mimosine, and CoCl 2 was evaluated. Furthermore, supernatant of the hydrogels loaded with HMAs were generated. Vascular endothelial growth factor (VEGF) production of DPCs in response to the supernatant was measured to reveal the cellular response to the HMAs., Results: We found that the synthetic clay-based hydrogel did not impair the viability of DPCs. Cell monolayer and cell cluster formations were observed on the hydrogel. No significant increase of VEGF levels was observed in the supernatant when DPCs were cultured on hydrogels loaded with HMAs. Supernatant of DMOG-loaded hydrogels stimulated VEGF production in DPCs in the first hour, whereas the effect of desferrioxamine, L-mimosine, and CoCl 2 did not reach a level of significance., Conclusions: The synthetic clay-based hydrogel represents a promising biomaterial that does not induce prominent toxic effects in DPCs. It can be loaded with DMOG to induce hypoxia mimetic activity. Overall, we provided first insights into the impact of synthetic clays on DPCs for tissue engineering purposes in regenerative endodontics., (Copyright © 2018 American Association of Endodontists. Published by Elsevier Inc. All rights reserved.)

Published

2018

31. Do hypoxia and L-mimosine modulate sclerostin and dickkopf-1 production in human dental pulp-derived cells? Insights from monolayer, spheroid and tooth slice cultures.

Author

Janjić K, Cvikl B, Kurzmann C, Moritz A, and Agis H

Subjects

Adaptor Proteins, Signal Transducing, Blotting, Western, Cell Survival drug effects, Cells, Cultured, Chemokine CXCL12 metabolism, Dental Pulp drug effects, Dental Pulp metabolism, Enzyme-Linked Immunosorbent Assay, Genetic Markers, Humans, Interleukin-8 metabolism, Reverse Transcriptase Polymerase Chain Reaction, Vascular Endothelial Growth Factor A metabolism, Bone Morphogenetic Proteins metabolism, Dental Pulp cytology, Hypoxia metabolism, Intercellular Signaling Peptides and Proteins metabolism, Mimosine pharmacology

Abstract

Background: To understand the responses of the dental pulp to hypoxia is of high relevance for regenerative endodontics and dental traumatology. Here, we aimed to reveal the effects of hypoxia and the hypoxia mimetic agent L-mimosine (L-MIM) on the production of sclerostin (SOST) and dickkopf-1 (DKK-1) in human dental pulp-derived cells (DPC)., Methods: DPC in monolayer, spheroid and tooth slice cultures were treated with L-MIM or hypoxia. Resazurin-based toxicity and MTT assays were performed to determine cell viability. mRNA and protein levels of SOST and DKK-1 were measured with quantitative reverse transcription PCR and ELISA, respectively. To validate the hypoxia-like response, SDF-1, VEGF and IL-8 were assessed. In addition Western blots for HIF-1α, HIF-2α and HIF-3α were done., Results: Cells were vital upon treatment procedures and showed increased levels of HIF-1α, and HIF-2α. In monolayer cultures, mRNA levels of SOST and DKK-1 were downregulated by L-MIM and hypoxia, respectively. A significant downregulation of SOST by hypoxia was found at the protein level compared to untreated cells while the effect on DKK-1 and the impact of L-MIM on SOST and DKK-1 did not reach the level of significance at the protein level. In spheroid cultures, mRNA levels of SOST and DKK-1 were downregulated by L-MIM. A significant downregulation of DKK-1 upon hypoxia treatment was found at the protein level while the impact of hypoxia on SOST and the effect of L-MIM on SOST and DKK-1 did not reach the level of significance. SOST and DKK-1 were also produced in tooth slices, but no pronounced modulation by L-MIM or hypoxia was found. Evaluation of SDF-1, VEGF and IL-8 showed a hypoxia-like response in the culture models., Conclusions: There is no pronounced influence of hypoxia and L-MIM on DPC viability, SOST and DKK-1 protein production. However, the specific response depends on the culture model and the level of evaluation (mRNA or protein). These results deepen our understanding about the role of hypoxia and the potential impacts of hypoxia-based strategies on dental pulp.

Published

2018

32. Collagen barrier membranes do not adsorb hypoxia mimetic activity-Activity of gingival fibroblasts cultured directly on collagen barrier membranes loaded with hypoxia mimetic agents.

Author

Al-Habbal D, Janjić K, Edelmayer M, Moritz A, and Agis H

Subjects

Cell Hypoxia drug effects, Cells, Cultured, Female, Fibroblasts pathology, Gingiva pathology, Humans, Male, Biomimetic Materials pharmacology, Collagen chemistry, Fibroblasts metabolism, Gingiva metabolism, Membranes, Artificial

Abstract

Hypoxia-based strategies for applications in oral surgery and periodontology have been proposed where collagen barrier membranes (CBM) are loaded with hypoxia mimetic agents (HMA) to induce a pro-angiogenic response. While it was found that CBM release HMA, it remained unclear if CBM adsorb HMA activity. Here we evaluated the response of oral cells cultured on CBM, supplemented with the HMA dimethyloxalylglycine (DMOG), desferrioxamine (DFO), and l-mimosine (l-MIM). Gingival fibroblasts (GF) were cultured on unwashed CBM as well as on CBM that had been washed with serum-free medium for 48 hours. The pro-angiogenic response was measured based on vascular endothelial growth factor (VEGF) production. Viability and proliferation were assessed based on MTT and BrdU assays. We found that GF seeded onto CBM loaded with DFO and l-MIM, but not DMOG, showed an increase in VEGF to 6.1-fold and 7.7-fold compared to unloaded CBM, respectively. Cells remained vital, but a trend for decreased proliferation was observed on DMOG and DFO-loaded CBM which did not reach the level of significance. Evaluation of washed CBM revealed no difference between the unloaded CBM and CBM supplemented with DMOG, DFO, or l-MIM. In conclusion, our results suggest that CBM do not adsorb hypoxia mimetic activity but release HMA within the first hours. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 106B: 874-879, 2018., (© 2017 Wiley Periodicals, Inc.)

Published

2018

33. L-mimosine and hypoxia enhance angiopoietin-like 4 production involving hypoxia-inducible factor-1alpha: Insights from monolayer and spheroid cultures of dental pulp-derived cells and tooth slice cultures.

Author

Janjić K, Alhujazy U, Moritz A, and Agis H

Subjects

Blotting, Western, Cell Hypoxia, Cells, Cultured, Humans, Organ Culture Techniques, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Angiopoietin-Like Protein 4 metabolism, Dental Pulp cytology, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Mimosine pharmacology

Abstract

Objective: Angiopoietin-like 4 (Angptl4) is an angiogenesis modulating signaling factor and as such involved in blood vessel formation but also in hard tissue resorption. Here we hypothesized that the hypoxia mimetic agent L-mimosine (L-MIM) and hypoxia stimulate the production of Angptl4 in the dental pulp., Material and Methods: Monolayer and spheroid cultures of primary human dental pulp-derived cells (DPC) were treated with L-MIM or hypoxia. Furthermore, tooth slice cultures were performed. The production of Angptl4 was assessed at mRNA and protein levels using reverse transcription qPCR and immunoassays, respectively. To assess the involvement of hypoxia inducible factor (HIF)-1α (HIF-1signaling, inhibitor studies with echinomycin and Western Blot analysis for HIF-1α were performed in DPC monolayer cultures.(HIF-1 RESULTS: L-MIM and hypoxia increased production of Angptl4 at mRNA and protein levels in monolayer cultures of DPC. The increase of Angptl4 was paralleled by an increase of HIF-1α and inhibited by echinomycin. Angptl4 protein levels were also elevated in spheroid cultures. In tooth slice cultures, the pulp tissue expressed and released Angptl4 under normoxic and hypoxic conditions and in the presence of L-MIM. There was a trend for an increase in Angptl4 mRNA levels and a trend for a decrease in the protein levels of the supernatants., Conclusions: Our results suggest that the hypoxia mimetic agent L-MIM and hypoxia can increase Angptl4 production in DPC involving HIF-1α. However, the increase in the cell culture supernatants does not translate in an increased release in tooth slice organ cultures., (Copyright © 2017. Published by Elsevier Ltd.)

Published

2018

34. Hypoxia-based strategies for regenerative dentistry-Views from the different dental fields.

Author

Müller AS, Janjić K, Lilaj B, Edelmayer M, and Agis H

Subjects

Endodontics trends, Humans, Orthodontics trends, Periodontics trends, Surgery, Oral trends, Dentistry trends, Hypoxia, Regeneration physiology, Specialties, Dental trends

Abstract

The understanding of the cell biological processes underlying development and regeneration of oral tissues leads to novel regenerative approaches. Over the past years, knowledge on key roles of the hypoxia-based response has become more profound. Based on these findings, novel regenerative approaches for dentistry are emerging, which target cellular oxygen sensors. These approaches include hypoxia pre-conditioning and pharmacologically simulated hypoxia. The increase in studies on hypoxia and hypoxia-based strategies in regenerative dentistry highlights the growing attention to hypoxia's role in regeneration and its underlying biology, as well as its application in a therapeutic setting. In this narrative review, we present the current knowledge on the role of hypoxia in oral tissues and review the proposed hypoxia-based approaches in different fields of dentistry, including endodontics, orthodontics, periodontics, and oral surgery., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

35. Expression of circadian core clock genes in fibroblasts of human gingiva and periodontal ligament is modulated by L-Mimosine and hypoxia in monolayer and spheroid cultures.

Author

Janjić K, Kurzmann C, Moritz A, and Agis H

Subjects

ARNTL Transcription Factors genetics, ARNTL Transcription Factors metabolism, Cells, Cultured, Cryptochromes genetics, Cryptochromes metabolism, Gene Expression Regulation, Humans, Period Circadian Proteins genetics, Period Circadian Proteins metabolism, RNA, Messenger metabolism, Real-Time Polymerase Chain Reaction, Circadian Clocks genetics, Circadian Clocks physiology, Fibroblasts metabolism, Gingiva metabolism, Hypoxia metabolism, Mimosine metabolism, Periodontal Ligament metabolism

Abstract

Objective: The circadian clock is involved in a plethora of physiological processes including bone formation and tooth development. While expression of circadian core clock genes was observed in various tissues, their role in the periodontium is unclear. We hypothesized that periodontal cells express circadian core clock genes and that their levels are modulated by hypoxia mimetic agents and hypoxia., Material and Methods: Fibroblasts of human gingiva (GF) and periodontal ligament (PDLF) in monolayer and spheroid cultures were treated with the hypoxia mimetic agent L-Mimosine (L-MIM) or hypoxia. Reverse transcription and quantitative PCR were performed to assess the impact on mRNA levels of the circadian core clock genes Clock, Bmal1, Cry1, Cry2, Per1, Per2, and Per3., Results: GF and PDLF expressed Clock, Bmal1, Cry1, Cry2, Per1, Per2, and Per3 in monolayer and spheroid cultures. In monolayer cultures, L-MIM significantly reduced Clock, Cry2, and Per3 mRNA expression in GF and Clock, Cry1, Cry2, Per1, and Per3 in PDLF. Hypoxia significantly reduced Clock, Cry2, and Per3 in GF and Cry1, Cry2, and Per3 in PDLF. In spheroid cultures, L-MIM significantly decreased Clock, Cry1, Cry2, and Per3 in GF and PDLF. Hypoxia significantly decreased Cry2 and Per3 in GF and Clock and Per3 in PDLF., Conclusions: GF and PDLF express circadian core clock genes. The hypoxia mimetic agent L-MIM and hypoxic conditions can decrease the expression of Clock, Cry1-2 and Per1 and Per3. The specific response depends on cell type and culture model. Future studies will show how this effect contributes to periodontal health and disease., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

36. L-mimosine and hypoxia can increase angiogenin production in dental pulp-derived cells.

Author

Janjić K, Edelmayer M, Moritz A, and Agis H

Subjects

Cells, Cultured, Echinomycin pharmacology, Enzyme-Linked Immunosorbent Assay, Humans, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Ribonuclease, Pancreatic genetics, Dental Pulp cytology, Hypoxia, Mimosine pharmacology, Ribonuclease, Pancreatic metabolism

Abstract

Background: Angiogenin is a key molecule in the healing process which has been successfully applied in the field of regenerative medicine. The role of angiogenin in dental pulp regeneration is unclear. Here we aimed to reveal the impact of the hypoxia mimetic agent L-mimosine (L-MIM) and hypoxia on angiogenin in the dental pulp., Methods: Human dental pulp-derived cells (DPC) were cultured in monolayer and spheroid cultures and treated with L-MIM or hypoxia. In addition, tooth slice organ cultures were applied to mimic the pulp-dentin complex. We measured angiogenin mRNA and protein levels using qPCR and ELISA, respectively. Inhibitor studies with echinomycin were performed to reveal the role of hypoxia-inducible factor (HIF)-1 signaling., Results: Both, L-MIM and hypoxia increased the production of angiogenin at the protein level in monolayer cultures of DPC, while the increase at the mRNA level did not reach the level of significance. The increase of angiogenin in response to treatment with L-MIM or hypoxia was reduced by echinomycin. In spheroid cultures, L-MIM increased angiogenin at protein levels while the effect of hypoxia was not significant. Angiogenin was also expressed and released in tooth slice organ cultures under normoxic and hypoxic conditions and in the presence of L-MIM., Conclusions: L-MIM and hypoxia modulate production of angiogenin via HIF-1 differentially and the response depends on the culture model. Given the role of angiogenin in regeneration the here presented results are of high relevance for pre-conditioning approaches for cell therapy and tissue engineering in the field of regenerative endodontics.

Published

2017

37. Effect of prolyl hydroxylase inhibitor-loaded collagen barrier membranes on osteoclastogenesis and osteoblastogenesis.

Author

Edelmayer M, Al-Habbal D, Pensch M, Janjić K, and Agis H

Subjects

Alkaline Phosphatase metabolism, Amino Acids, Dicarboxylic chemistry, Animals, Biological Transport, Bone Resorption metabolism, Cell Line, Cell Proliferation, Cell Survival, Deferoxamine chemistry, Guided Tissue Regeneration, Mice, Osteogenesis, Permeability, Prolyl-Hydroxylase Inhibitors chemistry, Tartrate-Resistant Acid Phosphatase metabolism, Tissue Engineering, Vascular Endothelial Growth Factor A metabolism, Amino Acids, Dicarboxylic pharmacology, Collagen chemistry, Deferoxamine pharmacology, Osteoblasts metabolism, Osteoclasts metabolism, Prolyl-Hydroxylase Inhibitors pharmacology

Abstract

Prolyl hydroxylase inhibitors induce a proangiogenic response and are therefore proposed to optimize regenerative approaches in periodontics and oral surgery. Here the effect of the prolyl hydroxylase inhibitors dimethyloxalylglycine and deferoxamine, released from collagen barrier membranes, on osteoclastogenesis and osteoblastogenesis was evaluated. Collagen barrier membranes were loaded with dimethyloxalylglycine and deferoxamine. Release studies were performed and supernatants were taken after 1, 3, 6, 24, and 48 h. The effect of these supernatants on osteoblast- and osteoclast-precursor cells was evaluated. Furthermore, dose response studies for dimethyloxalylglycine and deferoxamine were performed. Osteoclastogenesis was evaluated with RAW 264.7 cells based on the number of multinuclear tartrate-resistant acid phosphatase positive cells. Osteoblastogenesis was evaluated with MC3T3-E1 cells based on alkaline phosphatase. Metabolic activity and cell proliferation were assessed based on MTT and BrdU assays. Vascular endothelial growth factor production was evaluated using an immunoassay. We found that supernatants taken in the first hour from collagen barrier membranes loaded with dimethyloxalylglycine or deferoxamine reduced osteoclastogenesis. Osteoblastogenesis was not reduced significantly. Cell proliferation and metabolic activity of RAW 264.7 and MC3T3-E1 cells were inhibited by supernatants of collagen barrier membranes loaded with deferoxamine but not dimethyloxalylglycine. In RAW 264.7 cell culture, vascular endothelial growth factor production was increased only by supernatants of collagen barrier membranes loaded with dimethyloxalylglycine, but not deferoxamine. In MC3T3-E1 cell culture, supernatants of collagen barrier membranes loaded with dimethyloxalylglycine and deferoxamine both increased vascular endothelial growth factor production. Direct measurements showed that the majority of dimethyloxalylglycine and deferoxamine is released in the first hours. Dose-response studies supported the divergent effects of deferoxamine and dimethyloxalylglycine in RAW 264.7 and MC3T3-E1 cultures. Our findings show diverse effects of dimethyloxalylglycine- and deferoxamine-loaded collagen barrier membranes during osteoclastogenesis and osteoblastogenesis. Preclinical studies will reveal if the increase in vascular endothelial growth factor together with the inhibitory effect on osteoclasts can stimulate oral tissue regeneration.

Published

2017

38. Release kinetics and mitogenic capacity of collagen barrier membranes supplemented with secretome of activated platelets - the in vitro response of fibroblasts of the periodontal ligament and the gingiva.

Author

Mozgan EM, Edelmayer M, Janjić K, Pensch M, Fischer MB, Moritz A, and Agis H

Subjects

Cells, Cultured, Guided Tissue Regeneration, Periodontal methods, Humans, In Vitro Techniques, Microscopy, Electron, Scanning, Microscopy, Fluorescence, Biocompatible Materials metabolism, Blood Platelets, Collagen metabolism, Fibroblasts metabolism, Gingiva cytology, Membranes, Artificial, Periodontal Ligament cytology

Abstract

Background: Platelet preparations can stimulate the healing process and have mitogenic properties. We hypothesized that collagen barrier membranes (CBM), clinically used in guided bone regeneration and guided tissue regeneration, can serve as carriers for platelet secretome., Methods: Secretome was generated from washed platelets and unwashed platelets (washed/unwashed PSEC) and lyophilized onto CBM. Overall appearance of CBM was evaluated by scanning electron microscopy. The impact of PSEC on cell attachment was measured based on fluorescence microscopy with DiI-labeled cells. To assess the release kinetics, supernatants of CBM were collected and medium was replaced at hour 1-48. The mitogenic effect was evaluated with periodontal fibroblasts. Furthermore, the release of total protein, platelet-derived growth factor (PDGF)-BB, and transforming growth factor (TGF) β1 was measured., Results: CBM overall appearance and cell attachment was not modulated by PSEC. Supernatants taken after one hour induced a mitogenic response in fibroblasts and showed the highest levels of total protein, TGFβ1 and PDGF-BB. These effects decreased rapidly in subsequent supernatants. While supernatants of CBM loaded with unwashed PSEC induced a stronger mitogenic response than supernatants of CBM loaded with washed PSEC this difference between the PSEC preparations was not observed when cells were seeded on 48-hours-washed CBM., Conclusions: CBM release platelet-derived factors in continuously declining release kinetics.

Published

2017

39. Relevance of the plasminogen system in physiology, pathology, and regeneration of oral tissues - From the perspective of dental specialties.

Author

Wehner C, Janjić K, and Agis H

Subjects

Extracellular Matrix metabolism, Fibrinolysin physiology, Fibrinolysis physiology, Humans, Inflammation metabolism, Neovascularization, Pathologic metabolism, Orthodontics, Peri-Implantitis metabolism, Periodontics, Periodontitis metabolism, Plasminogen immunology, Plasminogen Activators, Pulpitis metabolism, Specialties, Dental, Surgery, Oral, Wound Healing, Plasminogen physiology, Regeneration physiology

Abstract

Plasmin is a proteolytic enzyme that is crucial in fibrinolysis. In oral tissues, the plasminogen system plays an essential role in physiological and pathological processes, which in addition to fibrinolysis include degradation of extracellular matrix, inflammation, immune response, angiogenesis, tissue remodeling, cell migration, and wound healing. Oral tissues reveal a change in the plasminogen system during pathological processes such as periodontitis, peri-implantitis, or pulpitis, as well as in response to mechanical load. The plasminogen system is also a key element in tissue regeneration. The number of studies investigating the plasminogen system in dentistry have grown continuously in recent years, highlighting its increasing relevance in dental medicine. In this review, we present the diverse functions of the plasminogen system in physiology and its importance for dental specialists in pathology and regeneration. We thus provide an overview of the current knowledge on the role of the plasminogen system in the different fields of dentistry, including endodontics, orthodontics, periodontics, and oral surgery., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

40. Evaluation of Resins for Stereolithographic 3D-Printed Surgical Guides: The Response of L929 Cells and Human Gingival Fibroblasts.

Author

Kurzmann C, Janjić K, Shokoohi-Tabrizi H, Edelmayer M, Pensch M, Moritz A, and Agis H

Subjects

Fibroblasts drug effects, Gingiva growth & development, Gingiva surgery, Humans, Oxazines chemistry, Stereolithography instrumentation, Xanthenes chemistry, Dental Materials pharmacology, Gingiva drug effects, Printing, Three-Dimensional, Resins, Synthetic pharmacology

Abstract

Additive manufacturing is becoming increasingly important in dentistry for the production of surgical guides. The development of cost-effective desktop stereolithography (SLA) printing systems and the corresponding resins makes this novel technique accessible to dental offices and dental laboratories. The aim of the study was to reveal the response of soft tissue cells to Clear and Dental SG resins used in desktop SLA printing systems at different stages of processing. Cell activity of L929 cells and gingival fibroblasts (GF) in response to the materials was examined in indirect and direct monolayer culture models and a direct spheroid culture model based on MTT, resazurin-based toxicity assays, and live-dead staining. Overall we found that the impact of Clear and Dental SG resins on L929 and GF depends on the processing stage of the materials. Liquid Clear resin induced a stronger reduction of cell activity compared to Dental SG resin. Printing and postcuring reduced the impact on cell activity and viability. As in-house 3D printing for surgical guides is getting integrated in the digital workflow, our data suggest that careful adherence to processing guidelines-especially postcuring-is of clinical relevance.

Published

2017

41. Effects of Prolyl Hydroxylase Inhibitor L-mimosine on Dental Pulp in the Presence of Advanced Glycation End Products.

Author

Müller HD, Cvikl B, Janjić K, Nürnberger S, Moritz A, Gruber R, and Agis H

Subjects

Cell Survival drug effects, Cells, Cultured, Cytokines biosynthesis, Enzyme-Linked Immunosorbent Assay, Gene Expression Profiling, Humans, Immunohistochemistry, Models, Biological, Organ Culture Techniques, Dental Pulp drug effects, Glycation End Products, Advanced, Mimosine metabolism, Prolyl-Hydroxylase Inhibitors metabolism

Abstract

Introduction: Proangiogenic prolyl hydroxylase (PHD) inhibitors represent a novel approach to stimulate tissue regeneration. Diabetes mellitus involves the accumulation of advanced glycation end products (AGEs). Here we evaluated the impact of AGEs on the response of human pulp tissue to the PHD inhibitor L-mimosine (L-MIM) in monolayer cultures of dental pulp-derived cells (DPCs) and tooth slice organ cultures., Methods: In monolayer cultures, DPCs were incubated with L-MIM and AGEs. Viability was assessed based on formazan formation, live-dead staining, annexin V/propidium iodide, and trypan blue exclusion assay. Vascular endothelial growth factor (VEGF), interleukin (IL)-6, and IL-8 production was evaluated by quantitative polymerase chain reaction and immunoassays. Furthermore, expression levels of odontoblast markers were assessed, and alizarin red staining was performed. Tooth slice organ cultures were performed, and VEGF, IL-6, and IL8 levels in their supernatants were measured by immunoassays. Pulp tissue vitality and morphology were assessed by MTT assay and histology., Results: In monolayer cultures of DPCs, L-MIM at nontoxic concentrations increased the production of VEGF and IL-8 in the presence of AGEs. Stimulation with L-MIM decreased alkaline phosphatase levels and matrix mineralization also in the presence of AGEs, whereas no significant changes in dentin matrix protein 1 and dentin sialophosphoprotein expression were observed. In tooth slice organ cultures, L-MIM increased VEGF but not IL-6 and IL-8 production in the presence of AGEs. The pulp tissue was vital, and no signs of apoptosis or necrosis were observed., Conclusions: Overall, in the presence of AGEs, L-MIM increases the proangiogenic capacity, but decreases alkaline phosphatase expression and matrix mineralization., (Copyright © 2015 American Association of Endodontists. Published by Elsevier Inc. All rights reserved.)

Published

2015