Your search keyword '"Kalaska B"' showing total 39 results

1. PB1404 Comparison of Cardiovascular and Respiratory Toxicity of Heparin Antidotes: Protamine Sulfate, PER977 and Heparin-Binding Copolymer (HBC)

Author

Miklosz, J., primary, Swieton, J., additional, Kalaska, B., additional, Yusa, S., additional, Szczubialka, K., additional, Pawlak, D., additional, and Mogielnicki, A., additional

Published

2023

2. PB0547 Poly(Sodium Styrenesulfonate)-based Copolymers with Anticoagulant Activity: Preliminary Efficacy and Safety Studies

Author

Swieton, J., primary, Marcinczyk, N., additional, Gromotowicz-Poplawska, A., additional, Yusa, S., additional, Szczubialka, K., additional, Pawlak, D., additional, Mogielnicki, A., additional, and Kalaska, B., additional

Published

2023

3. P579Cationic derivative of dextran reverses anticoagulant activity of unfractionated heparin in animal models of venous and arterial thrombosis

Author

Kalaska, B., Sokolowska, E., Kaminski, K., Szczubialka, K., Kramkowski, K., Mogielnicki, A., Nowakowska, M., and Buczko, W.

Published

2012

4. P372Heparin binding copolymer reverses the anticoagulant activity of low molecular weight heparins: safety and efficacy data in rats

Author

Miklosz, J, primary, Kalaska, B, additional, Kaminski, K, additional, Szczubialka, K, additional, Pawlak, D, additional, Nowakowska, M, additional, and Mogielnicki, A, additional

Published

2018

5. Poster session 3

Author

Nanka, O., primary, Krejci, E., additional, Pesevski, Z., additional, Sedmera, D., additional, Smart, N., additional, Rossdeutsch, A., additional, Dube, K. N., additional, Riegler, J., additional, Price, A. N., additional, Taylor, A., additional, Muthurangu, V., additional, Turner, M., additional, Lythgoe, M. F., additional, Riley, P. R., additional, Kryvorot, S., additional, Vladimirskaya, T., additional, Shved, I., additional, Schwarzl, M., additional, Seiler, S., additional, Huber, S., additional, Steendijk, P., additional, Maechler, H., additional, Truschnig-Wilders, M., additional, Pieske, B., additional, Post, H., additional, Caprio, C., additional, Baldini, A., additional, Chiavacci, E., additional, Dolfi, L., additional, Verduci, L., additional, Meghini, F., additional, Cremisi, F., additional, Pitto, L., additional, Kuan, T.-C., additional, Chen, M.-C., additional, Yang, T.-H., additional, Wu, W.-T., additional, Lin, C. S., additional, Rai, H., additional, Kumar, S., additional, Sharma, A. K., additional, Mastana, S., additional, Kapoor, A., additional, Pandey, C. M., additional, Agrawal, S., additional, Sinha, N., additional, Orlowska-Baranowska, E. H., additional, Placha, G., additional, Gora, J., additional, Baranowski, R., additional, Abramczuk, E., additional, Hryniewiecki, T., additional, Gaciong, Z., additional, Verschuren, J. J. W., additional, Wessels, J. A. M., additional, Trompet, S., additional, Stott, D. J., additional, Sattar, N., additional, Buckley, B., additional, Guchelaar, H. J., additional, Jukema, J. W., additional, Gharanei, M., additional, Hussain, A., additional, Mee, C. J., additional, Maddock, H. L., additional, Wijnen, W. J., additional, Van Den Oever, S., additional, Van Der Made, I., additional, Hiller, M., additional, Tijsen, A. J., additional, Pinto, Y. M., additional, Creemers, E. E., additional, Nikulina, S. U. Y., additional, Chernova, A., additional, Petry, A., additional, Rzymski, T., additional, Kracun, D., additional, Riess, F., additional, Pike, L., additional, Harris, A. L., additional, Gorlach, A., additional, Katare, R., additional, Oikawa, A., additional, Riu, F., additional, Beltrami, A. P., additional, Cesseli, D., additional, Emanueli, C., additional, Madeddu, P., additional, Zaglia, T., additional, Milan, G., additional, Franzoso, M., additional, Pesce, P., additional, Sarais, C., additional, Sandri, M., additional, Mongillo, M., additional, Butler, T. J., additional, Seymour, A.-M. L., additional, Ashford, D., additional, Jaffre, F., additional, Bussen, M., additional, Flohrschutz, I., additional, Martin, G. R., additional, Engelhardt, S., additional, Kararigas, G., additional, Nguyen, B. T., additional, Jarry, H., additional, Regitz-Zagrosek, V., additional, Van Bilsen, M., additional, Daniels, A., additional, Munts, C., additional, Janssen, B. J. A., additional, Van Der Vusse, G. J., additional, Van Nieuwenhoven, F. A., additional, Montalvo, C., additional, Villar, A. V., additional, Merino, D., additional, Garcia, R., additional, Llano, M., additional, Ares, M., additional, Hurle, M. A., additional, Nistal, J. F., additional, Dembinska-Kiec, A., additional, Beata Kiec-Wilk, B. K. W., additional, Anna Polus, A. P., additional, Urszula Czech, U. C., additional, Tatiana Konovaleva, T. K., additional, Gerd Schmitz, G. S., additional, Bertrand, L., additional, Balteau, M., additional, Timmermans, A., additional, Viollet, B., additional, Sakamoto, K., additional, Feron, O., additional, Horman, S., additional, Vanoverschelde, J. L., additional, Beauloye, C., additional, De Meester, C., additional, Martinez, E., additional, Martin, R., additional, Miana, M., additional, Jurado, R., additional, Gomez-Hurtado, N., additional, Bartolome, M. V., additional, San Roman, J. A., additional, Lahera, V., additional, Nieto, M. L., additional, Cachofeiro, V., additional, Rochais, F., additional, Sturny, R., additional, Mesbah, K., additional, Miquerol, L., additional, Kelly, R. G., additional, Messaoudi, S., additional, Gravez, B., additional, Tarjus, A., additional, Pelloux, V., additional, Samuel, J. L., additional, Delcayre, C., additional, Launay, J. M., additional, Clement, K., additional, Farman, N., additional, Jaisser, F., additional, Hadyanto, L., additional, Castellani, C., additional, Vescovo, G., additional, Ravara, B., additional, Tavano, R., additional, Pozzobon, M., additional, De Coppi, P., additional, Papini, E., additional, Vettor, R., additional, Thiene, G., additional, Angelini, A., additional, Meloni, M., additional, Caporali, A., additional, Cesselli, D., additional, Fortunato, O., additional, Avolio, E., additional, Schindler, R., additional, Simrick, S., additional, Brand, T., additional, Smart, N. S., additional, Herman, A., additional, Roura Ferrer, S., additional, Rodriguez Bago, J., additional, Soler-Botija, C., additional, Pujal, J. M., additional, Galvez-Monton, C., additional, Prat-Vidal, C., additional, Llucia-Valldeperas, A., additional, Blanco, J., additional, Bayes-Genis, A., additional, Foldes, G., additional, Maxime, M., additional, Ali, N. N., additional, Schneider, M. D., additional, Harding, S. E., additional, Reni, C., additional, Mangialardi, G., additional, De Pauw, A., additional, Sekkali, B., additional, Friart, A., additional, Ding, H., additional, Graffeuil, A., additional, Catalucci, D., additional, Balligand, J. L., additional, Azibani, F., additional, Tournoux, F., additional, Schlossarek, S., additional, Polidano, E., additional, Fazal, L., additional, Merval, R., additional, Carrier, L., additional, Chatziantoniou, C., additional, Buyandelger, B., additional, Linke, W., additional, Zou, P., additional, Kostin, S., additional, Ku, C., additional, Felkin, L., additional, Birks, E., additional, Barton, P., additional, Sattler, M., additional, Knoell, R., additional, Schroder, K., additional, Benkhoff, S., additional, Shimokawa, H., additional, Grisk, O., additional, Brandes, R. P., additional, Parepa, I. R., additional, Mazilu, L., additional, Suceveanu, A. I., additional, Suceveanu, A., additional, Rusali, L., additional, Cojocaru, L., additional, Matei, L., additional, Toringhibel, M., additional, Craiu, E., additional, Pires, A. L., additional, Pinho, M., additional, Pinho, S., additional, Sena, C., additional, Seica, R., additional, Leite-Moreira, A., additional, Dabroi, F., additional, Schiaffino, S., additional, Kiseleva, E., additional, Krukov, N., additional, Nikitin, O., additional, Ardatova, L., additional, Mourouzis, I., additional, Pantos, C., additional, Kokkinos, A. D., additional, Cokkinos, D. V., additional, Scoditti, E., additional, Massaro, M., additional, Carluccio, M. A., additional, Pellegrino, M., additional, Calabriso, N., additional, Gastaldelli, A., additional, Storelli, C., additional, De Caterina, R., additional, Lindner, D., additional, Zietsch, C., additional, Schultheiss, H.-P., additional, Tschope, C., additional, Westermann, D., additional, Everaert, B. R., additional, Nijenhuis, V. J., additional, Reith, F. C. M., additional, Hoymans, V. Y., additional, Timmermans, J. P., additional, Vrints, C. J., additional, Simova, I., additional, Mateev, H., additional, Katova, T., additional, Haralanov, L., additional, Dimitrov, N., additional, Mironov, N., additional, Golitsyn, S. P., additional, Sokolov, S. F., additional, Yuricheva, Y. U. A., additional, Maikov, E. B., additional, Shlevkov, N. B., additional, Rosenstraukh, L. V., additional, Chazov, E. I., additional, Radosinska, J., additional, Knezl, V., additional, Benova, T., additional, Slezak, J., additional, Urban, L., additional, Tribulova, N., additional, Virag, L., additional, Kristof, A., additional, Kohajda, Z. S., additional, Szel, T., additional, Husti, Z., additional, Baczko, I., additional, Jost, N., additional, Varro, A., additional, Sarusi, A., additional, Farkas, A. S., additional, Orosz, S. Z., additional, Forster, T., additional, Farkas, A., additional, Zakhrabova-Zwiauer, O. M., additional, Hardziyenka, M., additional, Nieuwland, R., additional, Tan, H. L., additional, Raaijmakers, A. J. A., additional, Bourgonje, V. J. A., additional, Kok, G. J. M., additional, Van Veen, A. A. B., additional, Anderson, M. E., additional, Vos, M. A., additional, Bierhuizen, M. F. A., additional, Benes, J., additional, Sebestova, B., additional, Ghouri, I. A., additional, Kemi, O. J., additional, Kelly, A., additional, Burton, F. L., additional, Smith, G. L., additional, Ozdemir, S., additional, Acsai, K., additional, Doisne, N., additional, Van Der Nagel, R., additional, Beekman, H. D. M., additional, Van Veen, T. A. B., additional, Sipido, K. R., additional, Antoons, G., additional, Harmer, S. C., additional, Mohal, J. S., additional, Kemp, D., additional, Tinker, A., additional, Beech, D., additional, Burley, D. S., additional, Cox, C. D., additional, Wann, K. T., additional, Baxter, G. F., additional, Wilders, R., additional, Verkerk, A., additional, Fragkiadaki, P., additional, Germanakis, G., additional, Tsarouchas, K., additional, Tsitsimpikou, C., additional, Tsardi, M., additional, George, D., additional, Tsatsakis, A., additional, Rodrigues, P., additional, Barros, C., additional, Najmi, A. K., additional, Khan, V., additional, Akhtar, M., additional, Pillai, K. K., additional, Mujeeb, M., additional, Aqil, M., additional, Bayliss, C. R., additional, Messer, A. E., additional, Leung, M.-C., additional, Ward, D., additional, Van Der Velden, J., additional, Poggesi, C., additional, Redwood, C. S., additional, Marston, S., additional, Vite, A., additional, Gandjbakhch, E., additional, Gary, F., additional, Fressart, V., additional, Leprince, P., additional, Fontaine, G., additional, Komajda, M., additional, Charron, P., additional, Villard, E., additional, Falcao-Pires, I., additional, Gavina, C., additional, Hamdani, N., additional, Stienen, G. J. M., additional, Niessens, H. W. M., additional, Leite-Moreira, A. F., additional, Paulus, W. J., additional, Memo, M., additional, Marston, S. B., additional, Vafiadaki, E., additional, Qian, J., additional, Arvanitis, D. A., additional, Sanoudou, D., additional, Kranias, E. G., additional, Elmstedt, N., additional, Lind, B., additional, Ferm-Widlund, K., additional, Westgren, M., additional, Brodin, L.-A., additional, Mansfield, C., additional, West, T., additional, Ferenczi, M., additional, Wijnker, P. J. M., additional, Foster, D. B., additional, Coulter, A., additional, Frazier, A., additional, Murphy, A. M., additional, Shah, M., additional, Sikkel, M. B., additional, Desplantez, T., additional, Collins, T. P., additional, O' Gara, P., additional, Lyon, A. R., additional, Macleod, K. T., additional, Ottesen, A. H., additional, Louch, W. E., additional, Carlson, C., additional, Landsverk, O. J. B., additional, Stridsberg, M., additional, Sjaastad, I., additional, Oie, E., additional, Omland, T., additional, Christensen, G., additional, Rosjo, H., additional, Cartledge, J., additional, Clark, L. A., additional, Ibrahim, M., additional, Siedlecka, U., additional, Navaratnarajah, M., additional, Yacoub, M. H., additional, Camelliti, P., additional, Terracciano, C. M., additional, Chester, A., additional, Gonzalez-Tendero, A., additional, Torre, I., additional, Garcia-Garcia, F., additional, Dopazo, J., additional, Gratacos, E., additional, Taylor, D., additional, Bhandari, S., additional, Seymour, A.-M., additional, Fliegner, D., additional, Jost, J., additional, Bugger, H., additional, Ventura-Clapier, R., additional, Carpi, A., additional, Campesan, M., additional, Canton, M., additional, Menabo, R., additional, Pelicci, P. G., additional, Giorgio, M., additional, Di Lisa, F., additional, Hancock, M., additional, Venturini, A., additional, Al-Shanti, N., additional, Stewart, C., additional, Ascione, R., additional, Angelini, G., additional, Suleiman, M.-S., additional, Kravchuk, E., additional, Grineva, E., additional, Galagudza, M., additional, Kostareva, A., additional, Bairamov, A., additional, Krychtiuk, K. A., additional, Watzke, L., additional, Kaun, C., additional, Demyanets, S., additional, Pisoni, J., additional, Kastl, S. P., additional, Huber, K., additional, Maurer, G., additional, Wojta, J., additional, Speidl, W. S., additional, Varga, Z. V., additional, Farago, N., additional, Zvara, A., additional, Kocsis, G. F., additional, Pipicz, M., additional, Csonka, C., additional, Csont, T., additional, Puskas, G. L., additional, Ferdinandy, P., additional, Klevstigova, M., additional, Silhavy, J., additional, Manakov, D., additional, Papousek, F., additional, Novotny, J., additional, Pravenec, M., additional, Kolar, F., additional, Novakova, O., additional, Novak, F., additional, Neckar, J., additional, Barallobre-Barreiro, J., additional, Didangelos, A., additional, Yin, X., additional, Fernandez-Caggiano, M., additional, Drozdov, I., additional, Willeit, P., additional, Domenech, N., additional, Mayr, M., additional, Lemoine, S., additional, Allouche, S., additional, Coulbault, L., additional, Galera, P., additional, Gerard, J. L., additional, Hanouz, J. L., additional, Suveren, E., additional, Whiteman, M., additional, Studneva, I. M., additional, Pisarenko, O., additional, Shulzhenko, V., additional, Serebryakova, L., additional, Tskitishvili, O., additional, Timoshin, A., additional, Fauconnier, J., additional, Meli, A. C., additional, Thireau, J., additional, Roberge, S., additional, Lompre, A. M., additional, Jacotot, E., additional, Marks, A. M., additional, Lacampagne, A., additional, Dietel, B., additional, Altendorf, R., additional, Daniel, W. G., additional, Kollmar, R., additional, Garlichs, C. D., additional, Parente, V., additional, Balasso, S., additional, Pompilio, G., additional, Colombo, G., additional, Milano, G., additional, Squadroni, L., additional, Cotelli, F., additional, Pozzoli, O., additional, Capogrossi, M. C., additional, Ajiro, Y., additional, Saegusa, N., additional, Iwade, K., additional, Giles, W. R., additional, Stafforini, D. M., additional, Spitzer, K. W., additional, Sirohi, R., additional, Candilio, L., additional, Babu, G., additional, Roberts, N., additional, Lawrence, D., additional, Sheikh, A., additional, Kolvekar, S., additional, Yap, J., additional, Hausenloy, D. J., additional, Yellon, D. M., additional, Aslam, M., additional, Rohrbach, S., additional, Schlueter, K.-D., additional, Piper, H. M., additional, Noll, T., additional, Guenduez, D., additional, Malinova, L., additional, Ryabukho, V. P., additional, Lyakin, D. V., additional, Denisova, T. P., additional, Montoro-Garcia, S., additional, Shantsila, E., additional, Lip, G. Y. H., additional, Kalaska, B., additional, Sokolowska, E., additional, Kaminski, K., additional, Szczubialka, K., additional, Kramkowski, K., additional, Mogielnicki, A., additional, Nowakowska, M., additional, Buczko, W., additional, Stancheva, N., additional, Mekenyan, E., additional, Gospodinov, K., additional, Tisheva, S., additional, Darago, A., additional, Rutkai, I., additional, Kalasz, J., additional, Czikora, A., additional, Orosz, P., additional, Bjornson, H. D., additional, Edes, I., additional, Papp, Z., additional, Toth, A., additional, Riches, K., additional, Warburton, P., additional, O'regan, D. J., additional, Ball, S. G., additional, Turner, N. A., additional, Wood, I. C., additional, Porter, K. E., additional, Kogaki, S., additional, Ishida, H., additional, Nawa, N., additional, Takahashi, K., additional, Baden, H., additional, Ichimori, H., additional, Uchikawa, T., additional, Mihara, S., additional, Miura, K., additional, Ozono, K., additional, Lugano, R., additional, Padro, T., additional, Garcia-Arguinzonis, M., additional, Badimon, L., additional, Ferraro, F., additional, Viner, R., additional, Ho, J., additional, Cutler, D., additional, Matchkov, V., additional, Aalkjaer, C., additional, Krijnen, P. A. J., additional, Hahn, N. E., additional, Kholova, I., additional, Sipkens, J. A., additional, Van Alphen, F. P., additional, Simsek, S., additional, Schalkwijk, C. G., additional, Van Buul, J. D., additional, Van Hinsbergh, V. W. M., additional, Niessen, H. W. M., additional, Caro, C. G., additional, Seneviratne, A., additional, Monaco, C., additional, Hou, D., additional, Singh, J., additional, Gilson, P., additional, Burke, M. G., additional, Heraty, K. B., additional, Krams, R., additional, Coppola, G., additional, Albrecht, K., additional, Schgoer, W., additional, Wiedemann, D., additional, Bonaros, N., additional, Steger, C., additional, Theurl, M., additional, Stanzl, U., additional, Kirchmair, R., additional, Amadesi, S., additional, Spinetti, G., additional, Cangiano, E., additional, Valgimigli, M., additional, Miller, A. M., additional, Cardinali, A., additional, Vierlinger, K., additional, Pagano, G., additional, Liccardo, D., additional, Zincarelli, C., additional, Femminella, G. D., additional, Lymperopoulos, A., additional, De Lucia, C., additional, Koch, W. J., additional, Leosco, D., additional, Rengo, G., additional, Hinkel, R., additional, Husada, W., additional, Trenkwalder, T., additional, Di, Q., additional, Lee, S., additional, Petersen, B., additional, Bock-Marquette, I., additional, Niemann, H., additional, Di Maio, M., additional, Kupatt, C., additional, Nourian, M., additional, Yassin, Z., additional, Kelishadi, R., additional, Memarian, S. H., additional, Heidari, A., additional, Leuner, A., additional, Poitz, D. M., additional, Brunssen, C., additional, Ravens, U., additional, Strasser, R. H., additional, Morawietz, H., additional, Vogt, F., additional, Grahl, A., additional, Flege, C., additional, Marx, N., additional, Borinski, M., additional, De Geest, B., additional, Jacobs, F., additional, Muthuramu, I., additional, Gordts, S. C., additional, Van Craeyveld, E., additional, Herijgers, P., additional, Weinert, S., additional, Medunjanin, S., additional, Herold, J., additional, Schmeisser, A., additional, Braun-Dullaeus, R. C., additional, Wagner, A. H., additional, Moeller, K., additional, Adolph, O., additional, Schwarz, M., additional, Schwale, C., additional, Bruehl, C., additional, Nobiling, R., additional, Wieland, T., additional, Schneider, S. W., additional, Hecker, M., additional, Cross, A., additional, Strom, A., additional, Cole, J., additional, Goddard, M., additional, Hultgardh-Nilsson, A., additional, Nilsson, J., additional, Mauri, C., additional, Mitkovskaya, N. P., additional, Kurak, T. A., additional, Oganova, E. G., additional, Shkrebneva, E. I., additional, Kot, Z. H. N., additional, Statkevich, T. V., additional, Molica, F., additional, Burger, F., additional, Matter, C. M., additional, Thomas, A., additional, Staub, C., additional, Zimmer, A., additional, Cravatt, B., additional, Pacher, P., additional, Steffens, S., additional, Blanco, R., additional, Sarmiento, R., additional, Parisi, C., additional, Fandino, S., additional, Blanco, F., additional, Gigena, G., additional, Szarfer, J., additional, Rodriguez, A., additional, Garcia Escudero, A., additional, Riccitelli, M. A., additional, Wantha, S., additional, Simsekyilmaz, S., additional, Megens, R. T., additional, Van Zandvoort, M. A., additional, Liehn, E., additional, Zernecke, A., additional, Klee, D., additional, Weber, C., additional, Soehnlein, O., additional, Lima, L. M., additional, Carvalho, M. G., additional, Gomes, K. B., additional, Santos, I. R., additional, Sousa, M. O., additional, Morais, C. A. S., additional, Oliveira, S. H. V., additional, Gomes, I. F., additional, Brandao, F. C., additional, Lamego, M. R. A., additional, Fornai, L., additional, Kiss, A., additional, Giskes, F., additional, Eijkel, G., additional, Fedrigo, M., additional, Valente, M. L., additional, Heeren, R. M. A., additional, Grdinic, A., additional, Vojvodic, D., additional, Djukanovic, N., additional, Grdinic, A. G., additional, Obradovic, S., additional, Majstorovic, I., additional, Rusovic, S., additional, Vucinic, Z., additional, Tavciovski, D., additional, Ostojic, M., additional, Lai, S.-C., additional, Chen, M.-Y., additional, Wu, H.-T., additional, Gouweleeuw, L., additional, Oberdorf-Maass, S. U., additional, De Boer, R. A., additional, Van Gilst, W. H., additional, Maass, A. H., additional, Van Gelder, I. C., additional, Benard, L., additional, Li, C., additional, Warren, D., additional, Shanahan, C. M., additional, Zhang, Q. P., additional, Bye, A., additional, Vettukattil, R., additional, Aspenes, S. T., additional, Giskeodegaard, G., additional, Gribbestad, I. S., additional, Wisloff, U., additional, Bathen, T. F., additional, Cubedo, J., additional, Alonso, R., additional, Mata, P., additional, Ivic, I., additional, Vamos, Z., additional, Cseplo, P., additional, Kosa, D., additional, Torok, O., additional, Hamar, J., additional, Koller, A., additional, Norita, K., additional, De Noronha, S. V., additional, Sheppard, M. N., additional, Amat-Roldan, I., additional, Iruretagoiena, I., additional, Psilodimitrakopoulos, S., additional, Crispi, F., additional, Artigas, D., additional, Loza-Alvarez, P., additional, Harrison, J. C., additional, Smart, S. D., additional, Besely, E. H., additional, Kelly, J. R., additional, Yao, Y., additional, Sammut, I. A., additional, Hoepfner, M., additional, Kuzyniak, W., additional, Sekhosana, E., additional, Hoffmann, B., additional, Litwinski, C., additional, Pries, A., additional, Ermilov, E., additional, Fontoura, D., additional, Lourenco, A. P., additional, Vasques-Novoa, F., additional, Pinto, J. P., additional, Roncon-Albuquerque, R., additional, Oyeyipo, I. P., additional, Olatunji, L. A., additional, Usman, T. O., additional, Olatunji, V. A., additional, Bacova, B., additional, Viczenczova, C., additional, Dosenko, V., additional, Goncalvesova, E., additional, Vanrooyen, J., additional, Maulik, S. K., additional, Seth, S., additional, Dinda, A. K., additional, Jaiswal, A., additional, Mearini, G., additional, Khajetoorians, D., additional, Kraemer, E., additional, Gedicke-Hornung, C., additional, Precigout, G., additional, Eschenhagen, T., additional, Voit, T., additional, Garcia, L., additional, Lorain, S., additional, Mendes-Ferreira, P., additional, Maia-Rocha, C., additional, Adao, R., additional, Cerqueira, R. J., additional, Mendes, M. J., additional, Castro-Chaves, P., additional, De Keulenaer, G. W., additional, Bras-Silva, C., additional, Ruiter, G., additional, Wong, Y. Y., additional, Lubberink, M., additional, Knaapen, P., additional, Raijmakers, P., additional, Lammertsma, A. A., additional, Marcus, J. T., additional, Westerhof, N., additional, Van Der Laarse, W. J., additional, Vonk-Noordegraaf, A., additional, Steinbronn, N., additional, Koch, E., additional, Steiner, G., additional, Berezin, A., additional, Lisovaya, O. A., additional, Soldatova, A. M., additional, Kuznetcov, V. A., additional, Yenina, T. N., additional, Rychkov, A. Y. U., additional, Shebeko, P. V., additional, Altara, R., additional, Hessel, M. H. M., additional, Hermans, J. J. R., additional, Blankesteijn, W. M., additional, Berezina, T. A., additional, Seden, V., additional, Bonanad, C., additional, Nunez, J., additional, Navarro, D., additional, Chilet, M. F., additional, Sanchis, F., additional, Bodi, V., additional, Minana, G., additional, Chaustre, F., additional, Forteza, M. J., additional, Llacer, A., additional, Galasso, G., additional, Ferrara, N., additional, Akhmedov, A., additional, Klingenberg, R., additional, Brokopp, C., additional, Hof, D., additional, Zoller, S., additional, Corti, R., additional, Gay, S., additional, Von Eckardstein, A., additional, Hoerstrup, S. P., additional, Luescher, T. F., additional, Heijman, J., additional, Zaza, A., additional, Johnson, D. M., additional, Rudy, Y., additional, Peeters, R. L. M., additional, Volders, P. G. A., additional, Westra, R. L., additional, Fujita, S., additional, Okamoto, R., additional, Taniguchi, M., additional, Konishi, K., additional, Goto, I., additional, Sugimoto, K., additional, Nakamura, M., additional, Shiraki, K., additional, Buechler, C., additional, and Ito, M., additional

Published

2012

6. KYNURENINE MODULATES BONE STRENGTH IN RATS WITH CHRONIC KIDNEY DISEASE DEPENDING ON THE PLACE OF ITS OCCURRENCE

Author

Kalaska, B., Pawlak, K., Domaniewski, T., Oksztulka-Kolanek, E., Znorko, B., Karbowska, M., Mor, A., Brzoska, M., Lipowicz, P., Michał Doroszko, Pryczynicz, A., and Pawlak, D.

7. Nonclinical evaluation of heparin binding copolymer - HBC1 for restoring of blood coagulation after heparin treatment

Author

Kalaska, B., Sokolowska, E., Kaminski, K., Miklosz, J., Yusa, S. -I, Blazejczyk, A., Wietrzyk, J., Irena Kasacka, Szczubialka, K., Pawlak, D., Nowakowska, M., and Mogielnicki, A.

8. Synthesis, Biological Evaluation and Reversal of Sulfonated Di- and Triblock Copolymers as Novel Parenteral Anticoagulants.

Author

Swieton J, Miklosz J, Bielicka N, Frackiewicz A, Depczynski K, Stolarek M, Bonarek P, Kaminski K, Rozga P, Yusa SI, Gromotowicz-Poplawska A, Szczubialka K, Pawlak D, Mogielnicki A, and Kalaska B

Abstract

Despite targeting different coagulation cascade sites, all Food and Drug Administration-approved anticoagulants present an elevated risk of bleeding, including potentially life-threatening intracranial hemorrhage. Existing studies have not thoroughly investigated the efficacy and safety of sulfonate polymers in animal models and fully elucidate the precise mechanisms by which these polymers act. The activity and safety of sulfonated di- and triblock copolymers containing poly(sodium styrenesulfonate) (PSSS), poly(sodium 2-acrylamido-2-methylpropanesulfonate) (PAMPS), poly(ethylene glycol) (PEG), poly(sodium methacrylate) (PMAAS), poly(acrylic acid) (PAA), and poly(sodium 11-acrylamidoundecanoate) (PAaU) blocks are synthesized and assessed. PSSS-based copolymers exhibit greater anticoagulant activity than PAMPS-based ones. Their activity is mainly affected by the total concentration of sulfonate groups and molecular weight. PEG-containing copolymers demonstrate a better safety profile than PAA-containing ones. The selected copolymer PEG 47 -PSSS 32 exhibits potent anticoagulant activity in rodents after subcutaneous and intravenous administration. Heparin Binding Copolymer (HBC) completely reverses the anticoagulant activity of polymer in rat and human plasma. No interaction with platelets is observed. Selected copolymer targets mainly factor XII and fibrinogen, and to a lesser extent factors X, IX, VIII, and II, suggesting potential application in blood-contacting biomaterials for anticoagulation purposes. Further studies are needed to explore its therapeutic applications fully., (© 2024 Wiley‐VCH GmbH.)

Published

2024

9. Probiotic Lactobacillus plantarum 299v supplementation in patients with major depression in a double-blind, randomized, placebo-controlled trial: A metabolomics study.

Author

Godzien J, Kalaska B, Rudzki L, Barbas-Bernardos C, Swieton J, Lopez-Gonzalvez A, Ostrowska L, Szulc A, Waszkiewicz N, Ciborowski M, García A, Kretowski A, Barbas C, and Pawlak D

Subjects

Humans, Male, Double-Blind Method, Female, Adult, Middle Aged, Selective Serotonin Reuptake Inhibitors therapeutic use, Selective Serotonin Reuptake Inhibitors pharmacology, Carnitine analogs & derivatives, Histidine analogs & derivatives, Valine analogs & derivatives, Sphingomyelins metabolism, Dietary Supplements, Lactobacillus plantarum metabolism, Depressive Disorder, Major drug therapy, Depressive Disorder, Major therapy, Depressive Disorder, Major metabolism, Metabolomics, Probiotics administration & dosage, Probiotics therapeutic use, Probiotics pharmacology

Abstract

Background: Understanding the multifactorial nature of major depressive disorder (MDD) is crucial for tailoring treatments. However, the complex interplay of various factors underlying the development and progression of MDD poses significant challenges. Our previous study demonstrated improvements in cognitive functions in MDD patients undergoing treatment with selective serotonin reuptake inhibitors (SSRIs) supplemented with Lactobacillus plantarum 299v (LP299v)., Methods: To elucidate the biochemical mechanisms underlying cognitive functions improvements, we explored underlying metabolic changes. We employed multi-platform metabolomics, including LC-QTOF-MS and CE-TOF-MS profiling, alongside chiral LC-QqQ-MS analysis for amino acids., Results: Supplementation of SSRI treatment with LP299v intensified the reduction of long-chain acylcarnitines, potentially indicating improved mitochondrial function. LP299v supplementation reduced N-acyl taurines more than four times compared to the placebo, suggesting a substantial impact on restoring biochemical balance. The LP299v-supplemented group showed increased levels of oxidized glycerophosphocholine (oxPC). Additionally, LP299v supplementation led to higher levels of sphingomyelins, L-histidine, D-valine, and p-cresol., Limitations: This exploratory study suggests potential metabolic pathways influenced by LP299v supplementation. However, the need for further research hinders the ability to draw definitive conclusions., Conclusions: Observed metabolic changes were linked to mitochondrial dysfunction, inflammation, oxidative stress, and gut microbiota disruption. Despite the subtle nature of this alterations, our research successfully detected these differences and connected them to the metabolic disruptions associated with MDD. Our findings emphasise the intricate relationship between metabolism, gut microbiota, and mental health prompting further research into the mechanisms of action of probiotics in MDD treatment., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2025

10. Metabolic profiling reveals the nutraceutical effect of Gongolaria abies-marina and Rosmarinus officinalis extracts in a type 1 diabetes animal model.

Author

Godzien J, Jablonowski K, Ruperez FJ, Kretowski A, Ciborowski M, and Kalaska B

Subjects

Animals, Male, Rats, Rats, Wistar, Metabolomics, Metabolome drug effects, Blood Glucose drug effects, Blood Glucose metabolism, Streptozocin, Hypoglycemic Agents pharmacology, Hypoglycemic Agents isolation & purification, Plant Extracts pharmacology, Dietary Supplements, Rosmarinus chemistry, Diabetes Mellitus, Experimental drug therapy, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Type 1 drug therapy, Diabetes Mellitus, Type 1 metabolism

Abstract

Nutraceuticals have gained increasing interest, prompting the need to investigate plant extracts for their beneficial properties and potential side effects. This study aimed to assess the nutraceutical effects of environmentally clean extracts from Rosmarinus officinalis and Gongolaria abies-marina (formerly Cystoseira abies-marina (Phaeophyceae)) on the metabolic profile of streptozotocin-induced diabetic rats. We conducted untargeted LC-QTOF-MS metabolic profiling on six groups of rats: three diabetic groups receiving either a placebo, R. officinalis, or G. abies-marina extracts, and three corresponding control groups. The metabolic analysis revealed significant alterations in the levels of various glycerophospholipids, sterol lipids, and fatty acyls. Both extracts influenced the metabolic profile, partially mitigating diabetes-induced changes. Notably, G. abies-marina extract had a more pronounced impact on the animals' metabolic profiles compared to R. officinalis. In conclusion, our findings suggest that environmentally clean extracts from R. officinalis and G. abies-marina possess nutraceutical potential, as they were able to modulate the metabolic profile in streptozotocin-induced diabetic rats. G. abies-marina extract exhibited a more substantial effect on metabolic alterations induced by diabetes compared to R. officinalis. These results warrant further exploration of these plant extracts for their potential in managing diabetes-related metabolic disturbances., 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 © 2024 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2024

11. On-Demand Sequential Release of Dual Drug from pH-Responsive Electrospun Janus Nanofiber Membranes toward Wound Healing and Infection Control.

Author

Amarjargal A, Cegielska O, Kolbuk D, Kalaska B, and Sajkiewicz P

Subjects

Humans, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Wound Healing, Drug Liberation, Infection Control, Hydrogen-Ion Concentration, Nanofibers chemistry

Abstract

Drugs against bacteria and abnormal cells, such as antibiotics and anticancer drugs, may save human lives. However, drug resistance is becoming more common in the clinical world. Nowadays, a synergistic action of multiple bioactive compounds and their combination with smart nanoplatforms has been considered an alternative therapeutic strategy to fight drug resistance in multidrug-resistant cancers and microorganisms. The present study reports a one-step fabrication of innovative pH-responsive Janus nanofibers loaded with two active compounds, each in separate polymer compartments for synergistic combination therapy. By dissolving one of the compartments from the nanofibers, we could clearly demonstrate a highly yielded anisotropic Janus structure with two faces by scanning electron microscopy (SEM) analysis. To better understand the distinctive attributes of Janus nanofibers, several analytical methods, such as X-ray diffraction (XRD), FTIR spectroscopy, and contact angle goniometry, were utilized to examine and compare them to those of monolithic nanofibers. Furthermore, a drug release test was conducted in pH 7.4 and 6.0 media since the properties of Janus nanofibers correlate significantly with different environmental pH levels. This resulted in the on-demand sequential codelivery of octenidine (OCT) and curcumin (CUR) to the corresponding pH stimulus. Accordingly, the antibacterial properties of Janus fibers against Escherichia coli and Staphylococcus aureus , tested in a suspension test, were pH-dependent, i.e., greater in pH 6 due to the synergistic action of two active compounds, and Eudragit E100 (EE), and highly satisfactory. The biocompatibility of the Janus fibers was confirmed in selected tests.

Published

2024

12. A facile one-stone-two-birds strategy for fabricating multifunctional 3D nanofibrous scaffolds.

Author

Amarjargal A, Moazzami Goudarzi Z, Cegielska O, Gradys A, Kolbuk D, Kalaska B, Ruszczyńska A, and Sajkiewicz P

Subjects

Mice, Animals, Tissue Scaffolds chemistry, Silver, Anti-Bacterial Agents chemistry, Nanofibers chemistry, Metal Nanoparticles chemistry, Diabetes Mellitus drug therapy

Abstract

Local bacterial infections lead to delayed wound healing and in extreme cases, such as diabetic foot ulcers, to non-healing due to the impaired cellular function in such wounds. Thus, many scientists have focused on developing advanced therapeutic platforms to treat infections and promote cellular proliferation and angiogenesis. This study presents a facile approach for designing nanofibrous scaffolds in three dimensions (3D) with enhanced antibacterial activity to meet the need of treating chronic diabetic wounds. Being a cationic surfactant as well as an antimicrobial agent, octenidine (OCT) makes a 2D membrane hydrophilic, enabling it to be modified into a 3D scaffold in a "one stone, two birds" manner. Aqueous sodium borohydride (NaBH 4 ) solution plays a dual role in the fabrication process, functioning as both a reducing agent for the in situ synthesis of silver nanoparticles (Ag NPs) anchored on the nanofiber surface and a hydrogen gas producer for expanding the 2D membranes into fully formed 3D nanofiber scaffolds, as demonstrated by morphological analyses. Various techniques were used to characterize the developed scaffold ( e.g. , SEM, XRD, DSC, FTIR, and surface wettability), demonstrating a multilayered porous structure and superhydrophilic properties besides showing sustained and prolonged release of OCT (61% ± 1.97 in 144 h). Thanks to the synergistic effect of OCT and Ag NPs, the antibacterial performance of the 3D scaffold was significantly higher than that of the 2D membrane. Moreover, cell viability was studied in vitro on mouse fibroblasts L929, and the noncytotoxic character of the 3D scaffold was confirmed. Overall, it is shown that the obtained multifunctional 3D scaffold is an excellent candidate for diabetic wound healing and skin repair.

Published

2023

13. Studies on Antifungal Properties of Methacrylamido Propyl Trimethyl Ammonium Chloride Polycations and Their Toxicity In Vitro .

Author

Skóra M, Obłoza M, Tymecka M, Kalaska B, Gurgul M, and Kamiński K

Subjects

Humans, Ammonium Chloride, Pandemics, Microbial Sensitivity Tests, Polymers pharmacology, Antifungal Agents toxicity, COVID-19

Abstract

The biological activity of polycations is usually associated with their biocidal properties. Their antibacterial features are well known, but in this work, observations on the antifungal properties of macromolecules obtained by methacrylamido propyl trimethyl ammonium chloride (MAPTAC) polymerization are presented. The results, not previously reported, make it possible to correlate antifungal properties directly with the structure of the macromolecule, in particular the molecular mass. The polymers described here have antifungal activity against some filamentous fungi. The strongest effect occurs for polymers with a mass of about 0.5 mDa which have confirmed activity against the multidrug-resistant species Scopulariopsis brevicaulis, Fusarium oxysporum, and Fusarium solani, as well as the dermatophytes Trichophyton mentagrophytes, Trichophyton rubrum, Trichophyton interdigitale, and Trichophyton tonsurans. In addition, this publication describes the effects of these macromolecular systems on serum and blood components and provides a preliminary assessment of toxicity on cell lines of skin-forming cells, i.e., fibroblasts and keratinocytes. Additionally, using a Franz diffusion chamber, a negligibly low transport of the active polymer through the skin was demonstrated, which is a desirable effect for externally applied antifungal drugs. IMPORTANCE Infectious diseases are a very big medical, social, and economic problem. Even before the COVID-19 pandemic, certain infections were among of the most common causes of death. The difficulties in the treatment of infectious diseases concern in particular fungal diseases, against which we have only a few classes of drugs represented by a few substances. The publication presents the preliminary results of the in vitro antifungal activity studies of four MAPTAC polymers on different fungal species and their cytotoxicity to human cells (fibroblasts and keratinocytes). The paper also compares these properties with analogous ones of two commonly used antifungal drugs, ciclopirox and terbinafine., Competing Interests: The authors declare no conflict of interest.

Published

2023

14. The methods for removal of direct oral anticoagulants and heparins to improve the monitoring of hemostasis: a narrative literature review.

Author

Frackiewicz A, Kalaska B, Miklosz J, and Mogielnicki A

Abstract

The assessment of hemostasis is necessary to make suitable decisions on the management of patients with thrombotic disorders. In some clinical situations, for example, during thrombophilia screening, the presence of anticoagulants in sample makes diagnosis impossible. Various elimination methods may overcome anticoagulant interference. DOAC-Stop, DOAC-Remove and DOAC Filter are available methods to remove direct oral anticoagulants in diagnostic tests, although there are still reports on their incomplete efficacy in several assays. The new antidotes for direct oral anticoagulants - idarucizumab and andexanet alfa - could be potentially useful, but have their drawbacks. The necessity to remove heparins is also arising as heparin contamination from central venous catheter or therapy with heparin disturbs the appropriate hemostasis assessment. Heparinase and polybrene are already present in commercial reagents but a fully-effective neutralizer is still a challenge for researchers, thus promising candidates remain in the research phase., (© 2023. The Author(s).)

Published

2023

15. Monitoring of Anticoagulant Activity of Dabigatran and Rivaroxaban in the Presence of Heparins.

Author

Jakimczuk A, Kalaska B, Kamiński K, Miklosz J, Yusa SI, Pawlak D, Szczubiałka K, and Mogielnicki A

Abstract

The routine monitoring of direct oral anticoagulants (DOACs) may be considered in patients with renal impairment, patients who are heavily obese, or patients requiring elective surgery. Using the heparin-binding copolymer (HBC) and polybrene, we aimed to develop a solution for monitoring the anticoagulant activity of DOACs in human plasma in the interfering presence of unfractionated heparin (UFH) and enoxaparin. The thrombin time (TT) and anti-factor Xa activity were monitored in pooled plasma from healthy volunteers. In these tests, plasma with dabigatran or rivaroxaban was mixed with UFH or enoxaparin and then incubated with HBC or polybrene, respectively. HBC and polybrene neutralized heparins and enabled monitoring of anticoagulant activity of dabigatran in the TT test. Both agents allowed for accurate measurement of anti-factor Xa activity in the plasma containing rivaroxaban and heparins in the concentration range reached in patients' blood. Here, we present diagnostic tools that may improve the control of anticoagulation by eliminating the contamination of blood samples with heparins and enabling the monitoring of DOACs' activity.

Published

2022

16. The effect of ChAdOx1 nCov-19 vaccine on arterial thrombosis development and platelet aggregation in female rats.

Author

Kalaska B, Miklosz J, Swieton J, Jakimczuk A, Pawlak D, and Mogielnicki A

Subjects

Animals, COVID-19 Vaccines adverse effects, ChAdOx1 nCoV-19, Female, Humans, Platelet Aggregation, Rats, SARS-CoV-2, COVID-19 prevention & control, Thrombosis etiology, Thrombosis prevention & control, Vaccines

Abstract

ChAdOx1 nCoV-19 adenoviral vector vaccine (ChAd) against coronavirus disease 2019 has been associated with vaccine-induced thrombosis and thrombocytopenia (VITT), especially in young women who have presented with unusual localized thrombosis after receiving the vaccine. The pathogenesis of VITT remains incompletely understood. We tried to provide new insights into mechanisms underlying this phenomenon in the model of arterial thrombosis electrically induced in the carotid artery of female rats. At 28 days post-vaccination, ChAd induced SARS-CoV-2-specific neutralizing antibody responses in all animals. The analysis of the blood vessel/thrombus area showed slight luminal narrowing of the carotid artery with extravasation of blood in vaccinated rats. These small changes were not accompanied by differences in thrombus weight and composition. The vaccinated animals presented a slight increase (by around 14-24%) in platelet aggregation. ChAd did not significantly affect blood coagulation, platelet counts, and their activation markers. Unaffected thrombus formation, the lack of thrombocytopenia and all the measured blood and hemostasis parameters that predominantly stayed unchanged, indicate that the ChAd does not increase the risk of arterial thrombosis development in female rats., 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 © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

17. Monitoring of Cardiorespiratory Parameters in Rats-Validation Based on Pharmacological Stimulation.

Author

Miklosz J, Kalaska B, Zajaczkowski S, Pawlak D, and Mogielnicki A

Abstract

The methods used in preclinical studies should minimize the suffering and the number of animals but still provide precise and consistent results enabling the introduction of drug candidates into the phase of clinical trials. Thus, we aimed to develop a method allowing us to perform preliminary safety and toxicity studies of candidates for human medicines, while reducing the number of animals. We have devised a method based on a combination of two devices: Plugsys (Transonics System Inc., Ithaca, NY, USA) and PhysioSuite (Kent Scientific Corporation, Torrington, CT, USA), which allow simultaneous registration of nine circulatory and respiratory parameters, and body temperature. Vehicle and adrenaline, or nitroglycerin, as reference substances were administered into the right femoral vein of Wistar rats. Physiological conditions were registered over 60 min after drug administration by measuring systolic, diastolic and mean blood pressure, heart rate (HR), blood perfusion of paw vessels, blood oxygen saturation, respiratory rate, average and peak exhaled CO 2 , and body temperature. Blood pressure was measured by cannula placed in the left common carotid artery and connected to the pressure transducer (Plugsys). The other parameters were measured by the PhysioSuite. Adrenaline-induced immediate dose-related hypertension and nitroglycerin hypotension were correlated with the change in blood perfusion. They both increased HR. Adrenaline decreased blood oxygen saturation and slightly affected respiratory parameters, while nitroglycerin caused a progressive increase in respiratory rate and a decrease in the peak of exhaled CO 2 . Our method may become an inseparable part of the preliminary safety and toxicity studies of tested drugs, while being an important step towards improving animal welfare.

Published

2021

18. Reversal Activity and Toxicity of Heparin-Binding Copolymer after Subcutaneous Administration of Enoxaparin in Mice.

Author

Swieton J, Miklosz J, Yusa SI, Szczubialka K, Pawlak D, Mogielnicki A, and Kalaska B

Subjects

Animals, Anticoagulants pharmacology, Anticoagulants therapeutic use, Blood Coagulation Tests, Drug-Related Side Effects and Adverse Reactions drug therapy, Drug-Related Side Effects and Adverse Reactions prevention & control, Enoxaparin administration & dosage, Female, Hemorrhage chemically induced, Hemorrhage prevention & control, Heparin metabolism, Heparin Antagonists metabolism, Heparin Antagonists pharmacology, Heparin Antagonists therapeutic use, Infusions, Subcutaneous, Male, Mice, Mice, Inbred BALB C, Polymers chemistry, Polymers metabolism, Polymers pharmacology, Polymers therapeutic use, Protamines metabolism, Protamines pharmacology, Protein Binding, Enoxaparin adverse effects, Hemorrhage drug therapy, Protamines therapeutic use

Abstract

Uncontrolled bleeding after enoxaparin (ENX) is rare but may be life-threatening. The only registered antidote for ENX, protamine sulfate (PS), has 60% efficacy and can cause severe adverse side effects. We developed a diblock copolymer, heparin-binding copolymer (HBC), that reverses intravenously administered heparins. Here, we focused on the HBC inhibitory activity against subcutaneously administered ENX in healthy mice. BALB/c mice were subcutaneously injected with ENX at the dose of 5 mg/kg. After 110 min, vehicle, HBC (6.25 and 12.5 mg/kg), or PS (5 and 10 mg/kg) were administered into the tail vein. The blood was collected after 3, 10, 60, 120, 360, and 600 min after vehicle, HBC, or PS administration. The activities of antifactors Xa and IIa and biochemical parameters were measured. The main organs were collected for histological analysis. HBC at the lower dose reversed the effect of ENX on antifactor Xa activity for 10 min after antidote administration, whereas at the higher dose, HBC reversed the effect on antifactor Xa activity throughout the course of the experiment. Both doses of HBC completely reversed the effect of ENX on antifactor IIa activity. PS did not reverse antifactor Xa activity and partially reversed antifactor IIa activity. HBC modulated biochemical parameters. Histopathological analysis showed changes in the liver, lungs, and spleen of mice treated with HBC and in the lungs and heart of mice treated with PS. HBC administered in an appropriate dose might be an efficient substitute for PS to reverse significantly increased anticoagulant activity that may be connected with major bleeding in patients receiving ENX subcutaneously.

Published

2021

19. Preclinical Toxicity and Safety of MM-129-First-in-Class BTK/PD-L1 Inhibitor as a Potential Candidate against Colon Cancer.

Author

Hermanowicz JM, Kalaska B, Pawlak K, Sieklucka B, Miklosz J, Mojzych M, and Pawlak D

Abstract

MM-129 is a novel inhibitor targeting BTK/PI3K/AKT/mTOR and PD-L1, as it possesses antitumor activity against colon cancer. To evaluate the safety profile of MM-129, we conducted a toxicity study using the zebrafish and rodent model. MM-129 was also assessed for pharmacokinetics features through an in vivo study on Wistar rats. The results revealed that MM-129 exhibited favorable pharmacokinetics with quick absorption and 68.6% of bioavailability after intraperitoneal administration. No serious adverse events were reported for the use of MM-129, confirming a favorable safety profile for this compound. It was not fatal and toxic to mice at an anticancer effective dose of 10 μmol/kg. At the end of 14 days of administering hematological and biochemical parameters, liver and renal functions were all at normal levels. No sublethal effects were either detected in zebrafish embryos treated with a concentration of 10 μM. MM-129 has the potential as a safe and well-tolerated anticancer formulation for future treatment of patients with colon cancer.

Published

2021

20. Cardiovascular and Respiratory Toxicity of Protamine Sulfate in Zebrafish and Rodent Models.

Author

Miklosz J, Kalaska B, Podlasz P, Chmielewska-Krzesińska M, Zajączkowski M, Kosiński A, Pawlak D, and Mogielnicki A

Abstract

Protamine sulfate (PS) is the only available option to reverse the anticoagulant activity of unfractionated heparin (UFH), however it can cause cardiovascular and respiratory complications. We explored the toxicity of PS and its complexes with UFH in zebrafish, rats, and mice. The involvement of nitric oxide (NO) in the above effects was investigated. Concentration-dependent lethality, morphological defects, and decrease in heart rate (HR) were observed in zebrafish larvae. PS affected HR, blood pressure, respiratory rate, peak exhaled CO 2 , and blood oxygen saturation in rats. We observed hypotension, increase of HR, perfusion of paw vessels, and enhanced respiratory disturbances with increases doses of PS. We found no effects of PS on human hERG channels or signs of heart damage in mice. The hypotension in rats and bradycardia in zebrafish were partially attenuated by the inhibitor of endothelial NO synthase. The disturbances in cardiovascular and respiratory parameters were reduced or delayed when PS was administered together with UFH. The cardiorespiratory toxicity of PS seems to be charge-dependent and involves enhanced release of NO. PS administered at appropriate doses and ratios with UFH should not cause permanent damage of heart tissue, although careful monitoring of cardiorespiratory parameters is necessary.

Published

2021

21. Kynurenine Pathway in Chronic Kidney Disease: What's Old, What's New, and What's Next?

Author

Mor A, Kalaska B, and Pawlak D

Abstract

Impaired kidney function and increased inflammatory process occurring in the course of Chronic Kidney Disease (CKD) contribute to the development of complex amino-acid alterations. The essential amino-acid tryptophan (TRP) undergoes extensive metabolism along several pathways, resulting in the production of many biologically active compounds. The results of many studies have shown that its metabolism via the kynurenine pathway is potently increased in the course of CKD. Metabolites of this pathway exhibit differential, sometimes opposite, roles in several biological processes. Their accumulation in the course of CKD may induce oxidative cell damage which stimulates inflammatory processes. They can also modulate the activity of numerous cellular signaling pathways through activation of the aryl hydrocarbon receptor, leading to the disruption of homeostasis of various organs. As a result, they can contribute to the development of the systemic disorders accompanying the course of chronic renal failure. This review gathers and systematizes reports concerning the knowledge connecting the kynurenine pathway metabolites to systemic disorders accompanying the development of CKD., Competing Interests: Declaration of conflicting interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© The Author(s) 2020.)

Published

2020

22. Modulation of the Paracrine Kynurenic System in Bone as a New Regulator of Osteoblastogenesis and Bone Mineral Status in an Animal Model of Chronic Kidney Disease Treated with LP533401.

Author

Mor A, Pawlak K, Kalaska B, Domaniewski T, Sieklucka B, Zieminska M, Cylwik B, and Pawlak D

Subjects

Animals, Bone Diseases, Metabolic etiology, Bone Diseases, Metabolic metabolism, Kynurenine metabolism, Male, Mice, Osteoblasts metabolism, Osteoblasts pathology, Paracrine Communication, Pyrimidines therapeutic use, Rats, Rats, Wistar, Renal Insufficiency, Chronic complications, Serotonin biosynthesis, Serotonin Agents therapeutic use, Tryptophan metabolism, Tryptophan Oxygenase genetics, Tryptophan Oxygenase metabolism, Vitamin D analogs & derivatives, Vitamin D metabolism, Bone Diseases, Metabolic prevention & control, Calcification, Physiologic, Osteoblasts drug effects, Osteogenesis, Pyrimidines pharmacology, Renal Insufficiency, Chronic metabolism, Serotonin Agents pharmacology

Abstract

An increase in the peripheral synthesis of serotonin and kynurenine, observed during the chronic kidney disease (CKD) course, is negatively associated with bone health. Serotonin and kynurenine are connected by the common precursor, tryptophan. LP533401 is an inhibitor of peripheral serotonin synthesis. This study aimed to establish if the inhibition of serotonin synthesis by LP533401 may affect the kynurenine pathway activity in bone tissue and its potential consequence with regard to osteogenesis and bone mineral status. Nephrectomized rats were treated with LP533401 at a dose of 30 and 100 mg/kg daily for eight weeks. Tryptophan and kynurenine concentrations were determined, and tryptophan 2,3-dioxygenase (TDO) expression was assessed. We discovered the presence of a TDO-dependent, paracrine kynurenic system in the bone of rats with CKD. Its modulation during LP533401 treatment was associated with impaired bone mineral status. Changes in TDO expression affecting the kynurenine pathway activity were related to the imbalance between peripheral serotonin and 25-hydroxyvitamin D. There were also close associations between the expression of genes participating in osteoblastogenesis and activation of the kynurenine pathway in the bones of LP53301-treated rats. Our results represent the next step in studying the role of tryptophan metabolites in renal osteodystrophy.

Published

2020

23. Neurobehavioral effects of uremic toxin-indoxyl sulfate in the rat model.

Author

Karbowska M, Hermanowicz JM, Tankiewicz-Kwedlo A, Kalaska B, Kaminski TW, Nosek K, Wisniewska RJ, and Pawlak D

Subjects

Animals, Central Nervous System metabolism, Dopamine metabolism, Kidney drug effects, Kidney metabolism, Locomotion drug effects, Male, Maze Learning drug effects, Models, Animal, Nervous System Diseases chemically induced, Nervous System Diseases metabolism, Norepinephrine metabolism, Rats, Rats, Wistar, Renal Insufficiency, Chronic chemically induced, Renal Insufficiency, Chronic metabolism, Serotonin metabolism, Spatial Memory drug effects, Uremia metabolism, Central Nervous System drug effects, Indican pharmacology, Toxins, Biological toxicity, Uremia chemically induced

Abstract

Chronic kidney disease (CKD) is deemed to be a worldwide health concern connected with neurological manifestations. The etiology of central nervous system (CNS) disorders in CKD is still not fully understood, however particular attention is currently being paid to the impact of accumulated toxins. Indoxyl sulfate (IS) is one of the most potent uremic toxins. The purpose of the present study was to assess IS concentrations in the cerebellum, brainstem, cortex, hypothalamus, and striatum with hippocampus of rats chronically exposed to IS. To evaluate IS impact on neurochemical and behavioral alterations, we examined its influence on brain levels of norepinephrine, epinephrine, dopamine, serotonin and their metabolites, as well as changes in behavioral tests (open field test, elevated plus maze test, chimney test, T maze test, and splash test). Our results show the highest IS accumulation in the brainstem. IS leads to behavioral alterations involving apathetic behavior, increased stress sensitivity, and reduced locomotor and exploratory activity. Besides, IS contributes to the impairment of spatial memory and motor coordination. Furthermore, we observed reduced levels of norepinephrine, dopamine or serotonin, mainly in the brainstem. Our findings indicate that IS can be one of the crucial uremic factors responsible for altered mental status in CKD.

Published

2020

24. Heparin-Binding Copolymer as a Complete Antidote for Low-Molecular-Weight Heparins in Rats.

Author

Kalaska B, Miklosz J, Kamiński K, Swieton J, Jakimczuk A, Yusa SI, Pawlak D, Nowakowska M, Szczubiałka K, and Mogielnicki A

Subjects

Animals, Anticoagulants pharmacology, Anticoagulants therapeutic use, Antidotes pharmacology, Antidotes therapeutic use, Dose-Response Relationship, Drug, Factor Xa metabolism, Hemorrhage prevention & control, Heparin adverse effects, Heparin metabolism, Heparin, Low-Molecular-Weight adverse effects, Human Umbilical Vein Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells metabolism, Humans, Male, Protein Binding drug effects, Protein Binding physiology, Random Allocation, Rats, Rats, Wistar, Anticoagulants metabolism, Antidotes metabolism, Hemorrhage metabolism, Heparin, Low-Molecular-Weight metabolism

Abstract

Bleeding resulting from the application of low-molecular-weight heparins (LMWHs) may be treated with protamine sulfate, but this treatment lacks efficiency; its action against antifactor Xa activity is limited to ∼60%. Moreover, protamine sulfate can cause life-threatening hypersensitivity reactions. We developed diblock heparin-binding copolymer (HBC), which can neutralize the anticoagulant activity of parenteral anticoagulants. In the present study, we explored the safety profile of HBC and its potential to reverse enoxaparin, nadroparin, dalteparin, and tinzaparin in human plasma and at in vivo conditions. HBC-LMWH complexes were characterized using zeta potential, isothermal titration calorimetry, and dynamic light scattering. The rat cardiomyocytes and human endothelial cells were used for the assessment of in vitro toxicity. Male Wistar rats were observed for up to 4 days after HBC administration for clinical evaluation, gross necropsy, and biochemistry and histopathological analysis. Rats were treated with LMWHs alone or followed by short-time intravenous infusion of HBC, and bleeding time and antifactor Xa activity were measured. HBC completely reversed antifactor Xa activity prolonged in vitro by all LMWHs with an optimal weight ratio of 2.5:1. The complexes of HBC-LMWHs were below 5 µm. We observed no effects on the viability of cardiovascular cells treated with HBC at concentrations up to 0.05 mg/ml. Single doses up to 20 mg/kg of HBC were well tolerated by rats. HBC completely reversed the effects of LMWHs on bleeding time and antifactor Xa activity in vivo after 20 minutes and retained ∼80% and ∼60% of reversal activity after 1 and 2 hours, respectively. Well-documented efficacy and safety of HBC both in vitro and in vivo make this polymer a promising candidate for LMWHs reversal. SIGNIFICANCE STATEMENT: Over the last decade, there has been significant progress in developing antidotes for the reversal of anticoagulants. Until now, there has been no effective and safe treatment for patients with severe bleeding under low-molecular-weight heparin therapy. Based on our in vitro and in vivo studies, heparin-binding copolymer seems to be a promising candidate for neutralizing all clinically relevant low-molecular-weight heparins., (Copyright © 2020 by The Author(s).)

Published

2020

25. The Inhibitory Effect of Protamine on Platelets is Attenuated by Heparin without Inducing Thrombocytopenia in Rodents.

Author

Miklosz J, Kalaska B, Kaminski K, Rusak M, Szczubialka K, Nowakowska M, Pawlak D, and Mogielnicki A

Subjects

Animals, Anticoagulants administration & dosage, Blood Platelets drug effects, Disease Models, Animal, Hemorrhage blood, Hemorrhage chemically induced, Hemorrhage prevention & control, Heparin administration & dosage, Heparin Antagonists administration & dosage, Humans, Male, Mice, Partial Thromboplastin Time, Platelet Aggregation drug effects, Protamines administration & dosage, Rats, Thrombocytopenia blood, Thrombocytopenia chemically induced, Time Factors, Anticoagulants adverse effects, Heparin adverse effects, Heparin Antagonists adverse effects, Protamines adverse effects, Thrombocytopenia diagnosis

Abstract

Protamine sulfate (PS) is a polycationic protein drug obtained from the sperm of fish, and is used to reverse the anticoagulant effect of unfractionated heparin (UFH). However, the interactions between PS, UFH, and platelets are still not clear. We measured the platelet numbers and collagen-induced aggregation, P-selectin, platelet factor 4, β-thromboglobulin, prostacyclin metabolite, D-dimers, activated partial thromboplastin time, prothrombin time, anti-factor Xa, fibrinogen, thrombus weight and megakaryocytopoiesis in blood collected from mice and rats in different time points.. All of the groups were treated intravenously with vehicle, UFH, PS, or UFH with PS. We found a short-term antiplatelet activity of PS in mice and rats, and long-term platelet-independent antithrombotic activity in rats with electrically-induced thrombosis. The antiplatelet and antithrombotic potential of PS may contribute to bleeding risk in PS-overdosed patients. The inhibitory effect of PS on the platelets was attenuated by UFH without inducing thrombocytopenia. Treatment with UFH and PS did not affect the formation, number, or activation of platelets, or the thrombosis development in rodents.

Published

2019

26. Oxidized glycerophosphatidylcholines in diabetes through non-targeted metabolomics: Their annotation and biological meaning.

Author

Godzien J, Kalaska B, Adamska-Patruno E, Siroka J, Ciborowski M, Kretowski A, and Barbas C

Subjects

Adult, Chromatography, Liquid, Diabetes Mellitus, Type 2 metabolism, Humans, Middle Aged, Oxidation-Reduction, Tandem Mass Spectrometry, Diabetes Mellitus, Type 2 blood, Glycerylphosphorylcholine blood, Glycerylphosphorylcholine chemistry, Metabolome physiology, Metabolomics methods

Abstract

Lipid oxidation is one of the most important processes occurring in living cells and has been investigated through stable end-products. Currently, new insights into many physiological and pathophysiological processes provide a measurement of the first products of oxidation, e.g., oxidized glycerophosphatidylcholines (oxGPCs). Here, we evaluate the capacity of untargeted global metabolomics to measure oxGPCs in serum samples. This evaluation covered analytical reproducibility and data quality as well as the ability to capture metabolic alterations in diverse conditions. The analytical evaluation was performed based on the quality control samples, while the comparative analysis was based on the model of the development of type 2 diabetes mellitus (T2DM). The novelty of this approach arises not only from the measurement of oxGPCs instead of lipid peroxide-derived aldehydes but also from the stratification of the patients according to body mass index (BMI). Such a scenario was dictated by the fact that, despite the well-known relationship between obesity and T2DM development, there are lean individuals suffering from T2DM as well as obese people with normal glucose homeostasis. Our results provided evidence to support the ability of nontargeted metabolomics to measure oxGPCs. Comparative analysis of measured oxGPCs revealed differences in the level of oxGPCs either between different stages of disease development (insulin resistance, prediabetes) or BMI groups (normal weight, overweight, obese). The obtained results provided new insights into the metabolic processes leading to the development of T2DM and opened new paths in the investigation of the impact of body mass in T2DM progress., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

27. The neutralization of heparan sulfate by heparin-binding copolymer as a potential therapeutic target.

Author

Kalaska B, Miklosz J, Kamiński K, Musielak B, Yusa SI, Pawlak D, Nowakowska M, Szczubiałka K, and Mogielnicki A

Abstract

Besides regulating ligand-receptor and cell-cell interactions, heparan sulfate (HS) may participate in the development of many diseases, such as cancer, bacterial or viral infections, and their complications, like bleeding or inflammation. In these cases, the neutralization of HS could be a potential therapeutic target. The heparin-binding copolymer (HBC, PEG41-PMAPTAC53) was previously reported by us as a fully synthetic compound for efficient and safe neutralization of heparins and synthetic anticoagulants. In a search for molecular antagonists of HS, we examined the activity of HBC as an HS inhibitor both in vitro and in vivo and characterized HBC/HS complexes. Using a colorimetric Azure A method, isothermal titration calorimetry and dynamic light scattering techniques we found that HBC binds HS by forming complexes below 200 nm with less than 1 : 1 stoichiometry. We confirmed the HBC inhibitory effect in rats by measuring activated partial thromboplastin time, prothrombin time, anti-factor Xa activity, anti-factor IIa activity, and platelet aggregation. HBC reversed the enhancement of all tested parameters caused by HS demonstrating that cationic synthetic block copolymers may have a therapeutic value in various disorders involving overproduction of HS., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2019

28. LP533401 restores bone health in 5/6 nephrectomized rats by a decrease of gut-derived serotonin and regulation of serum phosphate through the inhibition of phosphate co-transporters expression in the kidneys.

Author

Pawlak D, Znorko B, Kalaska B, Domaniewski T, Zawadzki R, Lipowicz P, Doroszko M, Łebkowska U, Grabowski P, and Pawlak K

Subjects

Animals, Disease Models, Animal, Kidney metabolism, Male, Nephrectomy, Phosphates blood, Rats, Rats, Wistar, Renal Insufficiency, Chronic, Sodium-Phosphate Cotransporter Proteins, Type II metabolism, Tryptophan Hydroxylase antagonists & inhibitors, Bone Density drug effects, Kidney drug effects, Pyrimidines pharmacology, Serotonin biosynthesis, Sodium-Phosphate Cotransporter Proteins, Type II drug effects

Abstract

LP533401 is an orally bioavailable small molecule that inhibits tryptophan hydroxylase-1, an enzyme responsible for the synthesis of gut-derived serotonin (GDS). Recently, we showed that increased GDS in rats with chronic kidney disease (CKD) affected bone strength and metabolism. We tested the hypothesis that treatment with LP533401 could reverse CKD-induced bone loss in uremia. Sixteen weeks after 5/6 nephrectomy, rats were randomized into untreated (CKD), treated with vehicle (VEH) and LP533401 at a dose of 30 or 100 mg/kg daily for 8 weeks. Treatment with LP533401 decreased serotonin turnover and restored bone mineral status, microarchitecture, and strength in CKD rats to the values observed in the controls. In parallel with the reduction of serotonin, serum phosphate levels also decreased, particularly in the LP533401, 100 mg/kg group. The mechanism underlying this phenomenon resulted from decreased expression of the renal VDR/FGF1R/Klotho/Npt2a/Npt2c axis, leading to elevated phosphate excretion in the kidneys. The elevated urinary phosphate excretion resulted in improved bone mineral status and strength in LP533401-treated rats. Unexpectedly, the standard VEH used in this model was able to reduce renal VDR/FGF1R/Klotho/Npt2a expression, leading to a compensatory increase in Npt2c mRNA levels, secondary disturbances in phosphate-regulated hormones and partial improvement in the mineral status of the trabecular bone. The decrease of serotonin synthesis together with the simultaneous reduction of renal Npt2a and Npt2c expression in rats treated with LP533401, 100 mg/kg led to an increase in 1,25(OH) 2 D 3 levels; this mechanism seems to be particularly beneficial in relation to the mineral status of cortical bone., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

29. Pharmacogenetic considerations of anticoagulant medication.

Author

Miklosz J, Kalaska B, and Mogielnicki A

Subjects

Genotype, Hemorrhage chemically induced, Hemorrhage genetics, Heparin therapeutic use, Humans, Thrombosis prevention & control, Vitamin K antagonists & inhibitors, Warfarin therapeutic use, Anticoagulants therapeutic use, Thrombosis genetics

Abstract

Predicting the clinical consequences of anticoagulant therapy by identifying gene variants could help in the risk assessment of thrombosis or bleeding before and after surgery and may result in choosing more beneficial therapy. This work provides an overview of pharmacogenetic data of commonly used anticoagulant medication. The review focuses on polymorphisms influencing the efficacy and safety of the parenteral and oral anticoagulants. There is evidence that heparin resistance and heparin-induced thrombocytopenia could be genetically determined but it does not mean that the risk of bleeding or thromboembolism is related to mutations in general. CYP2C9 and VKORC1 polymorphisms are essential determinants in the genotype-guided dosing of warfarin and may distinguish patients who would benefit from switching to direct oral anticoagulants (DOACs). Further multi-ethnic studies associating genes of enzymes metabolizing DOACs with primary clinical endpoints are necessary. Pharmacogenetics-based dosing of anticoagulant medication should point towards the subpopulation of patients.

Published

2018

30. Anticoagulant Properties of Poly(sodium 2-(acrylamido)-2-methylpropanesulfonate)-Based Di- and Triblock Polymers.

Author

Kalaska B, Kamiński K, Miklosz J, Nakai K, Yusa SI, Pawlak D, Nowakowska M, Mogielnicki A, and Szczubiałka K

Subjects

Animals, Anticoagulants pharmacology, Male, Methacrylates chemistry, Phosphorylcholine analogs & derivatives, Phosphorylcholine chemistry, Platelet Aggregation drug effects, Polyethylene Glycols chemistry, Polymers pharmacology, Rats, Rats, Wistar, Sulfonic Acids pharmacology, Anticoagulants chemical synthesis, Polymers chemistry, Sulfonic Acids chemistry

Abstract

Di- and triblock copolymers with low dispersity of molecular weight were synthesized using radical addition-fragmentation chain transfer polymerization. The copolymers contained anionic poly(sodium 2-acrylamido-2-methylpropanesulfonate) (PAMPS) block as an anticoagulant component. The block added to lower the toxicity was either poly(ethylene glycol) (PEG) or poly(2-(methacryloyloxy)ethyl phosphorylcholine) (PMPC). The polymers prolonged clotting times both in vitro and in vivo. The influence of the polymer architecture and composition on the efficacy of anticoagulation and safety parameters was evaluated. The polymer with the optimal safety/efficacy profile was PEG47- b-PAMPS108, i.e., a block copolymer with the degrees of polymerization of PEG and PAMPS blocks equal to 47 and 108, respectively. The anticoagulant action of copolymers is probably mediated by antithrombin, but it differs from that of unfractionated heparin. PEG47- b-PAMPS108 also inhibited platelet aggregation in vitro and increased the prostacyclin production but had no antiplatelet properties in vivo. PEG47- b-PAMPS108 anticoagulant activity can be efficiently reversed with a copolymer of PEG and poly((3-(methacryloylamino)propyl)trimethylammonium chloride) (PMAPTAC) (PEG41- b-PMAPTAC53, HBC), which may be attributed to the formation of polyelectrolyte complexes with PEG shells without anticoagulant properties.

Published

2018

31. Elevated Levels of Peripheral Kynurenine Decrease Bone Strength in Rats with Chronic Kidney Disease.

Author

Kalaska B, Pawlak K, Domaniewski T, Oksztulska-Kolanek E, Znorko B, Roszczenko A, Rogalska J, Brzoska MM, Lipowicz P, Doroszko M, Pryczynicz A, and Pawlak D

Abstract

The diagnosis and treatment of bone disorders in patients with chronic kidney disease (CKD) represent a clinical challenge. CKD leads to mineral and bone complications starting early in the course of renal failure. Recently, we have observed the positive relationship between intensified central kynurenine turnover and bone strength in rats with subtotal 5/6 nephrectomy (5/6 Nx)-induced CKD. The aim of the present study was to determine the association between peripheral kynurenine pathway metabolites and bone strength in rats with 5/6 Nx-induced CKD. The animals were sacrificed 1 and 3 months after 5/6 Nx or sham operation. Nephrectomized rats presented higher concentrations of serum creatinine, urea nitrogen, and parathyroid hormone both 1 and 3 months after nephrectomy. These animals revealed higher concentrations of kynurenine and 3-hydroxykynurenine in the serum and higher gene expression of aryl hydrocarbon receptor (AhR) as a physiological receptor for kynurenine and AhR-dependent cytochrome in the bone tissue. Furthermore, nephrectomy significantly increased the number of osteoclasts in the bone without affecting their resorptive activity measured in serum. These changes were particularly evident in rats 1 month after 5/6 Nx. The main bone biomechanical parameters of the tibia were unchanged between nephrectomized and sham-operated rats but were significantly increased in older compared to younger animals. A similar trend was observed for geometrical parameters measured with calipers, bone mineral density based on Archimedes' method and image of bone microarchitecture obtained from micro-computed tomography analyses of tibial cortical bone. In nephrectomized animals, peripheral kynurenine levels correlated negatively with the main parameters of bone biomechanics, bone geometry, and bone mineral density values. In conclusion, our data suggest that CKD-induced elevated levels of peripheral kynurenine cause pathological changes in bone structure via AhR pathway. This finding opens new opportunities for the treatment/prevention of osteoporosis in CKD.

Published

2017

32. A link between central kynurenine metabolism and bone strength in rats with chronic kidney disease.

Author

Kalaska B, Pawlak K, Oksztulska-Kolanek E, Domaniewski T, Znorko B, Karbowska M, Citkowska A, Rogalska J, Roszczenko A, Brzoska MM, and Pawlak D

Abstract

Background: Disturbances in mineral and bone metabolism represent one of the most complex complications of chronic kidney disease (CKD). Serotonin, a monoamine synthesized from tryptophan, may play a potential role in bone metabolism. Brain-derived serotonin exerts a positive effect on the bone structure by limiting bone resorption and enhancing bone formation. Tryptophan is the precursor not only to the serotonin but also and primarily to kynurenine metabolites. The ultimate aim of the present study was to determine the association between central kynurenine metabolism and biomechanical as well as geometrical properties of bone in the experimental model of the early stage of CKD., Methods: Thirty-three Wistar rats were randomly divided into two groups (sham-operated and subtotal nephrectomized animals). Three months after surgery, serum samples were obtained for the determination of biochemical parameters, bone turnover biomarkers, and kynurenine pathway metabolites; tibias were collected for bone biomechanical, bone geometrical, and bone mass density analysis; brains were removed and divided into five regions for the determination of kynurenine pathway metabolites., Results: Subtotal nephrectomized rats presented higher serum concentrations of creatinine, urea nitrogen, and parathyroid hormone, and developed hypocalcemia. Several biomechanical and geometrical parameters were significantly elevated in rats with experimentally induced CKD. Subtotal nephrectomized rats presented significantly higher kynurenine concentrations and kynurenine/tryptophan ratio and significantly lower tryptophan levels in all studied parts of the brain. Kynurenine in the frontal cortex and tryptophan in the hypothalamus and striatum correlated positively with the main parameters of bone biomechanics and bone geometry., Discussion: In addition to the complex mineral, hormone, and metabolite changes, intensified central kynurenine turnover may play an important role in the development of bone changes in the course of CKD., Competing Interests: The authors declare there are no competing interests.

Published

2017

33. Serum metabolic fingerprinting after exposure of rats to quinolinic acid.

Author

Kalaska B, Ciborowski M, Domaniewski T, Czyzewska U, Godzien J, Miltyk W, Kretowski A, and Pawlak D

Subjects

Animals, Infusion Pumps, Infusions, Parenteral, Male, Rats, Metabolomics, Quinolinic Acid pharmacology

Abstract

Quinolinic acid (QUIN), one of the end metabolites in the kynurenine pathway, plays an important role in the pathogenesis of several diseases. Serum QUIN concentration rises in patients with renal dysfunction, liver cirrhosis, and many other inflammatory diseases. In the present study, osmotic minipumps containing QUIN (0.3 and 1mg/day) were implanted intraperitoneally into rats for 28days. Then, the physiological and toxicological variables were evaluated and LC-QTOF-MS serum metabolic fingerprinting was performed. QUIN significantly decreased the serum concentrations of several amino acids (phenylalanine, valine, tyrosine, and tryptophan), pantothenic acid, branched chain C4 acylcarnitine, total cholesterol, and glucose; increased the serum concentrations of amides (pentadecanoic amide, palmitic amide, oleamide, and stearamide), polyamines (spermine and spermidine), sphingosine, and deoxy-prostaglandin; caused alterations in phospholipids. This is the first report of comprehensive metabolites analysis after chronic intraperitoneal administration of QUIN. Further studies could develop new therapeutics for patients with disorders accompanied by increased serum level of QUIN., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

34. Heparin-binding copolymer reverses effects of unfractionated heparin, enoxaparin, and fondaparinux in rats and mice.

Author

Kalaska B, Kaminski K, Miklosz J, Yusa SI, Sokolowska E, Blazejczyk A, Wietrzyk J, Kasacka I, Szczubialka K, Pawlak D, Nowakowska M, and Mogielnicki A

Subjects

Adult, Animals, Anticoagulants pharmacology, Bleeding Time, Cell Survival drug effects, Enoxaparin administration & dosage, Fondaparinux, Heparin administration & dosage, Humans, Male, Mice, Nude, Neutralization Tests, Organ Specificity drug effects, Partial Thromboplastin Time, Polysaccharides administration & dosage, Rats, Wistar, Thrombosis pathology, Enoxaparin pharmacology, Heparin pharmacology, Polymers pharmacology, Polysaccharides pharmacology

Abstract

The parenteral anticoagulants may cause uncontrolled and life-threatening bleeding. Protamine, the only registered heparin antidote, is partially effective against low-molecular weight heparins, completely ineffective against fondaparinux and may cause unacceptable toxicity. Therefore, we aimed to develop a synthetic compound for safe and efficient neutralization of all parenteral anticoagulants. We synthesized pegylated PMAPTAC block copolymers, and then, we selected a lead heparin-binding copolymer (HBC). We assessed the effectiveness of HBC in the model of arterial thrombosis electrically induced in the carotid artery of rats by measuring thrombus weight, bleeding time, activated partial thromboplastin time, activated clotting time, and anti-factor Xa activity. The intravital tissue distribution, the cardiorespiratory, and organ toxicity were monitored. HBC diminished antithrombotic and anticoagulant effects of unfractionated heparin. Moreover, it stopped bleeding and completely reversed the enhancement of clotting times and anti-factor Xa activity caused by enoxaparin or fondaparinux. We observed slight pulmonary congestion and cell infiltration, but the cardiorespiratory parameters remained unchanged. We found a strong signal of fluorescently-labeled HBC in the urine, and a weaker in the liver and in the kidney. No signs of hepatic or nephrotoxicity were observed in the blood biochemistry or histopathologic examination. We developed a copolymer efficiently neutralizing effects of heparins in the living organism, which shows a very promising efficacy/safety profile and may help in the management of uncontrolled bleeding resulting from an anticoagulant injection. HBC could enable the safe replacement of unfractionated heparin with low-molecular weight heparins in patients undergoing cardiac surgery and complex vascular procedures., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

35. The toxicology of heparin reversal with protamine: past, present and future.

Author

Sokolowska E, Kalaska B, Miklosz J, and Mogielnicki A

Subjects

Animals, Anticoagulants adverse effects, Antidotes adverse effects, Antidotes therapeutic use, Drug Design, Hemorrhage chemically induced, Hemorrhage drug therapy, Heparin Antagonists therapeutic use, Humans, Protamines therapeutic use, Heparin adverse effects, Heparin Antagonists adverse effects, Protamines adverse effects

Abstract

Introduction: Unfractionated heparin is a strongly anionic anticoagulant used extensively in medicine to prevent blood clotting. In the case of an emergency bleeding in response to heparin, the protamine sulfate is administered. Despite its extensive clinical use, protamine may produce life-threatening side effects such as systemic hypotension, catastrophic pulmonary vasoconstriction or allergic reactions. Recent studies have demonstrated new organ-specific complications of the heparin reversal with protamine., Areas Covered: Past and present knowledge of the mechanisms responsible for the toxicity of protamine and the most promising potential replacements of protamine in the different phases of development., Expert Opinion: Despite of the low therapeutic index, protamine is the only registered antidote of heparins. The toxicology of protamine depends on a complex interaction of the high molecular weight, a cationic peptide with the surfaces of the vasculature and blood cells. The mechanisms involve membrane receptors and ion channels targeted by different vasoactive compounds, such as nitric oxide, bradykinin or histamine. Unacceptable side effects of protamine have led to a search for new alternatives: UHRA, LMWP, and Dex40-GTMAC3 are in the preclinical stage; the two other agents (andexanet alfa and PER977) are already in the advanced clinical phases.

Published

2016

36. The Toxicokinetic Profile of Dex40-GTMAC3-a Novel Polysaccharide Candidate for Reversal of Unfractionated Heparin.

Author

Sokolowska E, Kalaska B, Kaminski K, Lewandowska A, Blazejczyk A, Wietrzyk J, Kasacka I, Szczubialka K, Pawlak D, Nowakowska M, and Mogielnicki A

Abstract

Though protamine sulfate is the only approved antidote of unfractionated heparin (UFH), yet may produce life threatening side effects such as systemic hypotension, catastrophic pulmonary vasoconstriction or allergic reactions. We have described 40 kDa dextrans (Dex40) substituted with glycidyltrimethylammonium chloride (GTMAC) as effective, immunogenically and hemodynamically neutral inhibitors of UFH. The aim of the present study was to evaluate in mice and rats toxicokinetic profile of the most promising polymer-Dex40-GTMAC3. Polymer was rapidly eliminated with a half-time of 12.5 ± 3.0 min in Wistar rats, and was mainly distributed to the kidneys and liver in mice. The safety studies included the measurement of blood count and blood biochemistry, erythrocyte osmotic fragility and the evaluation of the histological alterations in kidneys, liver and lungs of mice and rats in acute and chronic experiments. We found that Dex40-GTMAC3 is not only effective but also very well tolerated. Additionally, we found that protamine may cause overt hemolysis with appearance of permanent changes in the liver and kidneys. In summary, fast renal clearance behavior and generally low tissue accumulation of Dex40-GTMAC3 is likely to contribute to its superior to protamine biocompatibility. Intravenous administration of therapeutic doses to living animals does not result in the immunogenic, hemodynamic, blood, and organ toxicity. Dex40-GTMAC3 seems to be a promising effective and safe candidate for further clinical development as new UFH reversal agent.

Published

2016

37. Nonclinical evaluation of novel cationically modified polysaccharide antidotes for unfractionated heparin.

Author

Kalaska B, Kaminski K, Sokolowska E, Czaplicki D, Kujdowicz M, Stalinska K, Bereta J, Szczubialka K, Pawlak D, Nowakowska M, and Mogielnicki A

Subjects

Animals, Blood Pressure drug effects, Female, Heparin metabolism, Immunization, Male, Mice, Mice, Inbred BALB C, Partial Thromboplastin Time, Polymers chemistry, Polysaccharides chemistry, Protamines metabolism, Rats, Rats, Wistar, Thrombosis metabolism, Antidotes pharmacology, Cations chemistry, Heparin chemistry, Heparin Antagonists pharmacology, Polymers pharmacology, Thrombosis drug therapy, Thrombosis immunology

Abstract

Protamine, the only registered antidote of unfractionated heparin (UFH), may produce a number of adverse effects, such as anaphylactic shock or serious hypotension. We aimed to develop an alternative UFH antidote as efficient as protamine, but safer and easier to produce. As a starting material, we have chosen generally non-toxic, biocompatible, widely available, inexpensive, and easy to functionalize polysaccharides. Our approach was to synthesize, purify and characterize cationic derivatives of dextran, hydroxypropylcellulose, pullulan and γ-cyclodextrin, then to screen them for potential heparin-reversal activity using an in vitro assay and finally examine efficacy and safety of the most active polymers in Wistar rat and BALB/c mouse models of experimentally induced arterial and venous thrombosis. Efficacy studies included the measurement of thrombus formation, activated partial thromboplastin time, bleeding time, and anti-factor Xa activity; safety studies included the measurement of hemodynamic, hematologic and immunologic parameters. Linear, high molecular weight dextran substituted with glycidyltrimethylammonium chloride groups at a ratio of 0.65 per glucose unit (Dex40-GTMAC3) is the most potent and the safest UFH inhibitor showing activity comparable to that of protamine while possessing lower immunogenicity. Cationic polysaccharides of various structures neutralize UFH. Dex40-GTMAC3 is a promising and potentially better UFH antidote than protamine.

Published

2015

38. Antithrombotic effects of pyridinium compounds formed from trigonelline upon coffee roasting.

Author

Kalaska B, Piotrowski L, Leszczynska A, Michalowski B, Kramkowski K, Kaminski T, Adamus J, Marcinek A, Gebicki J, Mogielnicki A, and Buczko W

Subjects

Alkaloids administration & dosage, Animals, Cooking, Fibrinolytic Agents chemistry, Humans, Male, Plant Extracts chemistry, Platelet Aggregation drug effects, Pyridinium Compounds chemistry, Rats, Rats, Wistar, Thrombosis blood, Alkaloids chemistry, Coffea chemistry, Fibrinolytic Agents administration & dosage, Plant Extracts administration & dosage, Pyridinium Compounds administration & dosage, Thrombosis prevention & control

Abstract

Coffee may exert a preventive effect on arterial thrombosis. Trigonelline is one of the most abundant compounds in coffee that undergoes pyrolysis upon roasting of coffee beans. The aim of the present study was to identify pyridinium compounds formed upon trigonelline pyrolysis and coffee roasting and to investigate the effect of three of them, i.e., 1-methylpyridine and 1,3- and 1,4-dimethylpyridine, on experimentally induced arterial thrombosis in rats. 1,3- and 1,4-dimethylpyridine but not 1-methylpyridine inhibited arterial thrombus formation. 1,3-Dimethylpyridine inhibited platelet aggregation and reduced fibrin formation in platelet-rich plasma, whereas 1,4-dimethylpyridine increased the plasma level of 6-keto-PGF1α. 1,4-Dimethylpyridine slightly increased rat tissue plasminogen activator plasma activity. In summary, we demonstrated that pyridinium compounds display mild antithrombotic properties due to stimulation by prostacyclin release (1,4-dimethylpyridine) and inhibition of platelet aggregation (1,3-dimethylpyridine). Those pyridinium compounds may, to some extent, be responsible for the beneficial effects of coffee drinking.

Published

2014

39. Cationic derivative of dextran reverses anticoagulant activity of unfractionated heparin in animal models of arterial and venous thrombosis.

Author

Kalaska B, Sokolowska E, Kaminski K, Szczubialka K, Kramkowski K, Mogielnicki A, Nowakowska M, and Buczko W

Subjects

Animals, Anticoagulants pharmacology, Bleeding Time, Blood Coagulation drug effects, Chlorides, Dextrans chemistry, Dextrans pharmacology, Disease Models, Animal, Ferric Compounds, Heparin Antagonists pharmacology, Male, Mice, Partial Thromboplastin Time, Platelet Aggregation drug effects, Protamines pharmacology, Protamines therapeutic use, Rats, Rats, Wistar, Thrombosis chemically induced, Thrombosis physiopathology, Anticoagulants therapeutic use, Dextrans therapeutic use, Heparin pharmacology, Heparin Antagonists therapeutic use, Thrombosis drug therapy

Abstract

Heparin is a natural polymer widely used in medicine especially during the treatment of cardiovascular diseases since it is a potent blood anticoagulant. In case of emergency, e.g., massive hemorrhage, the anticoagulant activity of heparin has to be quickly stopped by the administration of a heparin reversing agent. Currently protamine sulfate, an allergenic protein, is used for this purpose. We are reporting the studies on a new polymeric substance, a cationic dextran derivative, which is able to form complexes with heparin. Dextran is a blood compatible polymer which is also frequently applied in medicine. By substituting dextran with glycidyltrimethylammonium chloride a cationic polymer was obtained that in vitro binds to heparin with an efficiency similar to that of protamine. To investigate the influence of modified dextran on the reversal of conventional heparin we used the models of experimental arterial thrombosis induced by electrical stimulation and chemically induced venous thrombosis. A decrease in bleeding time and activated partial thromboplastin time after administration of the cationic dextran to heparinized rats was found. Moreover, other routinely measured blood parameters are significantly affected. Modified dextran, in contrast to protamine sulfate, significantly increases red blood cell counts, hemoglobin level, and hematocrit value. The data we obtained show that the modified dextran may reduce anticoagulative heparin activity both under in vivo and in vitro conditions. Further clinical studies are needed to estimate whether modified dextran could replace protamine sulfate, especially in dialyzed patients with the end-stage renal disease associated with anemia., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012