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254 results on '"Lugovoy A."'

2. Kant’s Project of Practical Anthropology and the Teachings of Vl. Solovyov on the Primary Data of Morality

Author

Sergey V. Lugovoy

Subjects
russian philosophy, russian imperial universities, university philosophical community, kantiana, the first world war, Philosophy. Psychology. Religion
Abstract

The purpose of this research is to reconstruct Kant’s project of practical anthropology and trace how it is transformed in the teaching of Vladimir Solovyov about the primary data of morality, as well as to try to identify the reasons that prompted the Russian thinker to move away from following Kant’s plan. During the study, standard methods of the history of philosophy were used, primarily analysis of philosophical texts, including direct quotes and indirect borrowings of Vl. Soloviev. The subject of study was Kant’s works “Groundwork of the Metaphysics of Morals”, “Critique of Practical Reason”, “Metaphysics of Morals”, “Religion within the Boundaries of Mere Reason”, as well as the main ethical work of Vl. Solovyov “Justification of the Good” with the appendix “The formal principle of morality (Kant) - presentation and assessment with critical comments on empirical ethics.” As a result, I established that Vl. Solovyov knew about Kant’s project of practical anthropology and fully shared it in the early period of his work. However, in “The Justification of Good” the intentions of Vl. Solovyov have changed radically. Unlike Kant, who paid more attention to the inclination towards evil in human nature, Vl. Solovyov was interested in her good feelings of shame, pity and reverence, “the primary data of morality.” The desire to supplement Kantian ethics by including irrational feelings as the basis of good grew in the Russian thinker into a desire to improve it in accordance with the philosophy of unity and led to the rejection of the idea of moral autonomy, namely the proclamation of the inextricable unity of Good, God and the immortal soul.

Published
2024
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3. Biochar from Wood Waste: Textural and Structural Properties Depending on Production Method

Author

Antonina Stepacheva, Yury Lugovoy, Vladimir Molchanov, Mikhail Sulman, and Yury Kosivtsov

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

Biochar is a carbonaceous product from biomass obtained by heat treatment of organic materials such as wood, by-products of wood processing, and plant residues. Biochar can be obtained as a result of thermal processing, which can be divided into three main processes: pyrolysis, torrefaction, and hydrothermal carbonization. The resulting biochar has different composition, structural and textural properties, strength, etc. Despite of numerous studies, the investigation of biochar production and properties are of great interest. Modification of carbonaceous products obtained from biomass is one of the actual tasks to produce the tailor-made materials. This article presents a comparison of the characteristics of biochar obtained by three methods: pyrolysis, torrefaction, and hydrothermal carbonization. Another task was the evaluation of the modifier addition to biochar to form materials with higher surface area and abrasion resistance for catalyst applications. The biochar obtained by the torrefaction from different lignocellulosic feedstock (hydrolysed and non-hydrolysed pine and birch sawdust) was found to have the highest carbonization degree, and the highest specific surface area. It was found that the additional modification of biochar with silica provides an increase its abrasion resistance, and higher porosity that allows the material obtained to be used for different purposes (as filler and binder for the construction materials, catalyst support etc.).

Published
2024

4. Hydrolytic Conversion of Sawdust as a Step of Complex Wood Waste Processing

Author

Antonina Stepacheva, Yury Lugovoy, Mariia E. Markova, Oleg V. Manaenkov, Valentina G. Matveeva, and Mikhail Sulman

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

Biomass can be considered as a potential resource for the production of renewable fuels. Lignocellulose biomass is a widely available, renewable, biodegradable, and biocompatible resource that can potentially reduce the dependence of modern society on fossil resources. It is a potential feedstock for the production of heat, electricity, fuel, chemicals, and other bioderived products. Considerable attention of researchers is directed to the conversion of biomass into bioenergy through chemical, biochemical, or thermochemical processes. Hydrolysis is considered to be one of the important steps to convert biomass into valuable chemicals. During hydrolysis, liquid rich in sugars with a certain amount of dissolved lignin, usually called hydrolysate, is formed. In this paper, the influence of the catalyst type, temperature, catalyst concentration, and solvent type on the conversion and composition of hydrolysate was studied. The highest yield of hydrolysis products (hexoses and pentoses) reached up to 80 wt. % at a temperature of 220 °C in water medium in the presence of 1.5 wt. % of sulfuric acid.

Published
2024

5. Associations of intraoperative end–tidal CO2 levels with postoperative outcome–secondary analysis of a worldwide observational study

Author

Kroell, Wolfgang, Metzler, Helfried, Struber, Gerd, Wegscheider, Thomas, Gombotz, Hans, Hiesmayr, Michael, Schmid, Werner, Urbanek, Bernhard, Kahn, David, Momeni, Mona, Pospiech, Audrey, Lois, Fernande, Forget, Patrice, Grosu, Irina, Poelaert, Jan, van Mossevelde, Veerle, van Malderen, Marie-Claire, Dylst, Dimitri, van Melkebeek, Jeroen, Beran, Maud, de Hert, Stefan, De Baerdemaeker, Luc, Heyse, Bjorn, Van Limmen, Jurgen, Wyffels, Piet, Jacobs, Tom, Roels, Nathalie, De Bruyne, Ann, van de Velde, Stijn, Leva, Brigitte, Damster, Sandrine, Plichon, Benoit, JurosZovko, Marina, Djonovic-Omanoviċ, Dejana, Pernar, Selma, Zunic, Josip, Miskovic, Petar, Zilic, Antonio, Kvolik, Slavica, Ivic, Dubravka, Azenic-Venzera, Darija, Skiljic, Sonja, Vinkovic, Hrvoje, Oputric, Ivana, Juricic, Kazimir, Frkovic, Vedran, Kopic, Jasminka, Mirkovic, Ivan, Karanovic, Nenad, Carev, Mladen, Dropulic, Natasa, Saric, Jadranka Pavicic, Erceg, Gorjana, Dvorscak, Matea Bogdanovic, Mazul-Sunko, Branka, Pavicic, Anna Marija, Goranovic, Tanja, Maldini, Branka, Radocaj, Tomislav, Gavranovic, Zeljka, Mladic-Batinica, Inga, Sehovic, Mirna, Stourac, Petr, Harazim, Hana, Smekalova, Olga, Kosinova, Martina, Kolacek, Tomas, Hudacek, Kamil, Drab, Michal, Brujevic, Jan, Vitkova, Katerina, Jirmanova, Katerina, Volfova, Ivana, Dzurnakova, Paula, Liskova, Katarina, Dudas, Radovan, Filipsky, Radek, El Kafrawy, Samir, Abdelwahab, Hisham Hosny, Metwally, Tarek, Abdel-Razek, Ahmed, El-Shaarawy, Ahmed Mostafa, Hasan, Wael Fathy, Ahmed, Ahmed Gouda, Yassin, Hany, Magdy, Mohamed, Abdelhady, Mahdy, Mahran, Mohamed, Herodes, Eiko, Kivik, Peeter, Oganjan, Juri, Aun, Annika, Sormus, Alar, Sarapuu, Kaili, Mall, Merilin, Karjagin, Juri, Futier, Emmanuel, Petit, Antoine, Gerard, Adeline, Marret, Emmanuel, Solier, Marc, Jaber, Samir, Prades, Albert, Krassler, Jens, Merzky, Simone, de Abreu, Marcel Gama, Uhlig, Christopher, Kiss, Thomas, Bundy, Anette, Bluth, Thomas, Gueldner, Andreas, Spieth, Peter, Scharffenberg, Martin, Thiem, Denny Tran, Koch, Thea, Treschan, Tanja, Schaefer, Maximilian, Bastin, Bea, Geib, Johann, Weiss, Martin, Kienbaum, Peter, Pannen, Benedikt, Gottschalk, Andre, Konrad, Mirja, Westerheide, Diana, Schwerdtfeger, Ben, Wrigge, Hermann, Simon, Philipp, Reske, Andreas, Nestler, Christian, Valsamidis, Dimitrios, Stroumpoulis, Konstantinos, Antholopoulos, Georgios, Andreou, Antonis, Karapanos, Dimitris, Theodoraki, Kassiani, Gkiokas, Georgios, Tasoulis, Marios-Konstantinos, Sidiropoulou, Tatiana, Zafeiropoulou, Foteini, Florou, Panagiota, Pandazi, Aggeliki, Tsaousi, Georgia, Nouris, Christos, Pourzitaki, Chryssa, Bystritski, Dmitri, Pizov, Reuven, Eden, Arieh, Pesce, Caterina Valeria, Campanile, Annamaria, Marrella, Antonella, Grasso, Salvatore, De Michele, Michele, Bona, Francesco, Giacoletto, Gianmarco, Sardo, Elena, Giancarlo, Luigi, Sottosanti, Vicari, Solca, Maurizio, Volta, Carlo Alberto, Spadaro, Savino, Verri, Marco, Ragazzi, Riccardo, Zoppellari, Roberto, Cinnella, Gilda, Raimondo, Pasquale, La Bella, Daniela, Mirabella, Lucia, D’antini, Davide, Pelosi, Paolo, Molin, Alexandre, Brunetti, Iole, Gratarola, Angelo, Pellerano, Giulia, Sileo, Rosanna, Pezzatto, Stefano, Montagnani, Luca, Pasin, Laura, Landoni, Giovanni, Zangrillo, Alberto, Beretta, Luigi, Di Parma, Ambra Licia, Tarzia, Valentina, Dossi, Roberto, Sassone, Marta Eugenia, Sances, Daniele, Tredici, Stefano, Spano, Gianluca, Castellani, Gianluca, Delunas, Luigi, Peradze, Sopio, Venturino, Marco, Arpino, Ines, Sher, Sara, Tommasino, Concezione, Rapido, Francesca, Morelli, Paola, Vargas, Maria, Servillo, Giuseppe, Cortegiani, Andrea, Raineri, Santi Maurizio, Montalto, Francesca, Russotto, Vincenzo, Giarratano, Antonino, Baciarello, Marco, Generali, Michela, Cerati, Giorgia, Leykin, Yigal, Bressan, Filippo, Bartolini, Vittoria, Zamidei, Lucia, Brazzi, Luca, Liperi, Corrado, Sales, Gabriele, Pistidda, Laura, Severgnini, Paolo, Brugnoni, Elisa, Musella, Giuseppe, Bacuzzi, Alessandro, Muhardri, Dalip, Gecaj-Gashi, Agreta, Sada, Fatos, Bytyqi, Adem, Karbonskiene, Aurika, Aukstakalniene, Ruta, Teberaite, Zivile, Salciute, Erika, Tikuisis, Renatas, Miliauskas, Povilas, Jurate, Sipylaite, Kontrimaviciute, Egle, Tomkute, Gabija, Xuereb, John, Bezzina, Maureen, Borg, Francis Joseph, Hemmes, Sabrine, Schultz, Marcus, Hollmann, Markus, Wiersma, Irene, Binnekade, Jan, Bos, Lieuwe, Boer, Christa, Duvekot, Anne, In’t Veld, Bas, Werger, Alice, Dennesen, Paul, Severijns, Charlotte, De Jong, Jasper, Hering, Jens, van Beek, Rienk, Ivars, Stefan, Jammer, Ib, Breidablik, Alena, Hodt, Katharina Skirstad, Fjellanger, Frode, Avalos, Manuel Vico, MellinOlsen, Jannicke, Andersson, Elisabeth, Shafi-Kabiri, Amir, Molina, Ruby, Wutai, Stanley, Morais, Erick, Tareco, Gloria, Ferreira, Daniel, Amaral, Joana, de Lurdes Goncalves Castro, Maria, Cadilha, Susana, Appleton, Sofia, Parente, Suzana, Correia, Mariana, Martins, Diogo, Monteirosa, Angela, Ricardo, Ana, Rodrigues, Sara, Horhota, Lucian, Grintescu, Ioana Marina, Mirea, Liliana, Grintescu, Ioana Cristina, Corneci, Dan, Negoita, Silvius, Dutu, Madalina, Garotescu, Ioana Popescu, Filipescu, Daniela, Prodan, Alexandru Bogdan, Droc, Gabriela, Fota, Ruxandra, Popescu, Mihai, Tomescu, Dana, Petcu, Ana Maria, Tudoroiu, Marian Irinel, Moise, Alida, Guran, Catalin-Traian, Gherghina, Iorel, Costea, Dan, Cindea, Iulia, Copotoiu, Sanda-Maria, Copotoiu, Ruxandra, Barsan, Victoria, Tolcser, Zsolt, Riciu, Magda, Moldovan, Septimiu Gheorghe, Veres, Mihaly, Gritsan, Alexey, Kapkan, Tatyana, Gritsan, Galina, Korolkov, Oleg, Kulikov, Alexander, Lubnin, Andrey, Ovezov, Alexey, Prokoshev, Pavel, Lugovoy, Alexander, Anipchenko, Natalia, Babayants, Andrey, Komissarova, Irina, Zalina, Karginova, Likhvantsev, Valery, Fedorov, Sergei, Lazukic, Aleksandra, Pejakovic, Jasmina, Mihajlovic, Dunja, Kusnierikova, Zuzana, Zelinkova, Maria, Bruncakova, Katarina, Polakovicova, Lenka, Sobona, Villiam, Novak-Supe, Barbka, Pekle-Golez, Ana, Jovanov, Miroljub, Strazisar, Branka, Markovic-Bozic, Jasmina, Novak-Jankovic, Vesna, Voje, Minca, Grynyuk, Andriy, Kostadinov, Ivan, Spindler-Vesel, Alenka, Moral, Victoria, Unzueta, Mari Carmen, Puigbo, Carlos, Fava, Josep, Canet, Jaume, Moret, Enrique, Nunez, Monicá Rodriguez, Sendra, Mar, Brunelli, Andrea, Rodenas, Frederic, Monedero, Pablo, Martinez, Francisco Hidalgo, Temino, Maria Jose Yepes, Simon, Antonio Martínez, de Abajo Larriba, Ana, Lisi, Alberto, Perez, Gisela, Martinez, Raquel, Granell, Manuel, Vivo, Jose Tatay, Ruiz, Cristina Saiz, de Andrés Ibañez, Jose Antonio, Pastor, Ernesto, Soro, Marina, Ferrando, Carlos, Defez, Mario, Alvares-Santullano, Cesar Aldecoa, Perez, Rocio, Rico, Jesus, Jawad, Monir, Saeed, Yousif, Gillberg, Lars, Bengisun, Zuleyha Kazak, Kazbek, Baturay Kansu, Coskunfirat, Nesil, Boztug, Neval, Sanli, Suat, Yilmaz, Murat, Hadimioglu, Necmiye, Senturk, Nuzhet Mert, Camci, Emre, Kucukgoncu, Semra, Sungur, Zerrin, Sivrikoz, Nukhet, Ozgen, Serpil Ustalar, Toraman, Fevzi, Selvi, Onur, Senturk, Ozgur, Yildiz, Mine, Kuvaki, Bahar, Gunenc, Ferim, Kucukguclu, Semih, Ozbilgin, Şule, Maral, Jale, Canli, Seyda, Arun, Oguzhan, Saltali, Ali, Aydogan, Eyup, Akgun, Fatma Nur, Sanlikarip, Ceren, Karaman, Fatma Mine, Mazur, Andriy, Vorotyntsev, Sergiy, Rousseau, Guy, Barrett, Colin, Stancombe, Lucia, Shelley, Ben, Scholes, Helen, Limb, James, Rafi, Amir, Wayman, Lisa, Deane, Jill, Rogerson, David, Williams, John, Yates, Susan, Rogers, Elaine, Pulletz, Mark, Moreton, Sarah, Jones, Stephanie, Venkatesh, Suresh, Burton, Maudrian, Brown, Lucy, Goodall, Cait, Rucklidge, Matthew, Fuller, Debbie, Nadolski, Maria, Kusre, Sandeep, Lundberg, Michael, Everett, Lynn, Nutt, Helen, Zuleika, Maka, Carvalho, Peter, Clements, Deborah, Creagh-Brown, Ben, Watt, Philip, Raymode, Parizade, Pearse, Rupert, Mohr, Otto, Raj, Ashok, Creary, Thais, Chishti, Ahmed, Bell, Andrea, Higham, Charley, Cain, Alistair, Gibb, Sarah, Mowat, Stephen, Franklin, Danielle, West, Claire, Minto, Gary, Boyd, Nicholas, Mills, Gary, Calton, Emily, Walker, Rachel, Mackenzie, Felicity, Ellison, Branwen, Roberts, Helen, Chikungwa, Moses, Jackson, Clare, Donovan, Andrew, Foot, Jayne, Homan, Elizabeth, Montgomery, Jane, Portch, David, Mercer, Pauline, Palmer, Janet, Paddle, Jonathan, Fouracres, Anna, Datson, Amanda, Andrew, Alyson, Welch, Leanne, Rose, Alastair, Varma, Sandeep, Simeson, Karen, Rambhatla, Mrutyunjaya, Susarla, Jaysimha, Marri, Sudhakar, Kodaganallur, Krishnan, Das, Ashok, Algarsamy, Shivarajan, Colley, Julie, Davies, Simon, Szewczyk, Margaret, Smith, Thomas, Fernandez-Bustamante, Ana, Luzier, Elizabeth, Almagro, Angela, Melo, Marcos Vidal, Fernando, Luiz, Sulemanji, Demet, Sprung, Juraj, Weingarten, Toby, Kor, Daryl, Scavonetto, Federica, Tze, Yeo, Nasa, Prashant, van Meenen, David M.P., Paulus, Frederique, de Abreu, Marcelo Gama, Bossers, Sebastiaan M., Schober, Patrick, Schultz, Marcus J., Neto, Ary Serpa, and Hemmes, Sabrine N.T.

Published
2025
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7. Sex dependence of postoperative pulmonary complications – A post hoc unmatched and matched analysis of LAS VEGAS

Author

Kroell, Wolfgang, Metzler, Helfried, Struber, Gerd, Wegscheider, Thomas, Gombotz, Hans, Hiesmayr, Michael, Schmid, Werner, Urbanek, Bernhard, Kahn, David, Momeni, Mona, Pospiech, Audrey, Lois, Fernande, Forget, Patrice, Grosu, Irina, Poelaert, Jan, van Mossevelde, Veerle, van Malderen, Marie-Claire, Dylst, Dimitri, van Melkebeek, Jeroen, Beran, Maud, de Hert, Stefan, De Baerdemaeker, Luc, Heyse, Bjorn, Van Limmen, Jurgen, Wyffels, Piet, Jacobs, Tom, Roels, Nathalie, De Bruyne, Ann, van de Velde, Stijn, Leva, Brigitte, Damster, Sandrine, Plichon, Benoit, Juros-Zovko, Marina, Djonoviċ-Omanoviċ, Dejana, Pernar, Selma, Zunic, Josip, Miskovic, Petar, Zilic, Antonio, Kvolik, Slavica, Ivic, Dubravka, Azenic-Venzera, Darija, Skiljic, Sonja, Vinkovic, Hrvoje, Oputric, Ivana, Juricic, Kazimir, Frkovic, Vedran, Kopic, Jasminka, Mirkovic, Ivan, Karanovic, Nenad, Carev, Mladen, Dropulic, Natasa, Saric, Jadranka Pavicic, Erceg, Gorjana, Dvorscak, Matea Bogdanovic, Mazul-Sunko, Branka, Pavicic, Anna Marija, Goranovic, Tanja, Maldini, Branka, Radocaj, Tomislav, Gavranovic, Zeljka, Mladic-Batinica, Inga, Sehovic, Mirna, Stourac, Petr, Harazim, Hana, Smekalova, Olga, Kosinova, Martina, Kolacek, Tomas, Hudacek, Kamil, Drab, Michal, Brujevic, Jan, Vitkova, Katerina, Jirmanova, Katerina, Volfova, Ivana, Dzurnakova, Paula, Liskova, Katarina, Dudas, Radovan, Filipsky, Radek, el Kafrawy, Samir, Abdelwahab, Hisham Hosny, Metwally, Tarek, Abdel-Razek, Ahmed, El-Shaarawy, Ahmed Mostafa, Hasan, Wael Fathy, Ahmed, Ahmed Gouda, Yassin, Hany, Magdy, Mohamed, Abdelhady, Mahdy, Mahran, Mohamed, Herodes, Eiko, Kivik, Peeter, Oganjan, Juri, Aun, Annika, Sormus, Alar, Sarapuu, Kaili, Mall, Merilin, Karjagin, Juri, Futier, Emmanuel, Petit, Antoine, Gerard, Adeline, Marret, Emmanuel, Solier, Marc, Jaber, Samir, Prades, Albert, Krassler, Jens, Merzky, Simone, de Abreu, Marcel Gama, Uhlig, Christopher, Kiss, Thomas, Bundy, Anette, Bluth, Thomas, Gueldner, Andreas, Spieth, Peter, Scharffenberg, Martin, Thiem, Denny Tran, Koch, Thea, Treschan, Tanja, Schaefer, Maximilian, Bastin, Bea, Geib, Johann, Weiss, Martin, Kienbaum, Peter, Pannen, Benedikt, Gottschalk, Andre, Konrad, Mirja, Westerheide, Diana, Schwerdtfeger, Ben, Wrigge, Hermann, Simon, Philipp, Reske, Andreas, Nestler, Christian, Valsamidis, Dimitrios, Stroumpoulis, Konstantinos, Antholopoulos, Georgios, Andreou, Antonis, Karapanos, Dimitris, Theodoraki, Kassiani, Gkiokas, Georgios, Tasoulis, Marios-Konstantinos, Sidiropoulou, Tatiana, Zafeiropoulou, Foteini, Florou, Panagiota, Pandazi, Aggeliki, Tsaousi, Georgia, Nouris, Christos, Pourzitaki, Chryssa, Bystritski, Dmitri, Pizov, Reuven, Eden, Arieh, Pesce, Caterina Valeria, Campanile, Annamaria, Marrella, Antonella, Grasso, Salvatore, De Michele, Michele, Bona, Francesco, Giacoletto, Gianmarco, Sardo, Elena, Sottosanti, Luigi Giancarlo Vicari, Solca, Maurizio, Volta, Carlo Alberto, Spadaro, Savino, Verri, Marco, Ragazzi, Riccardo, Zoppellari, Roberto, Cinnella, Gilda, Raimondo, Pasquale, La Bella, Daniela, Mirabella, Lucia, D'antini, Davide, Pelosi, Paolo, Molin, Alexandre, Brunetti, Iole, Gratarola, Angelo, Pellerano, Giulia, Sileo, Rosanna, Pezzatto, Stefano, Montagnani, Luca, Pasin, Laura, Landoni, Giovanni, Zangrillo, Alberto, Beretta, Luigi, Di Parma, Ambra Licia, Tarzia, Valentina, Dossi, Roberto, Sassone, Marta Eugenia, Sances, Daniele, Tredici, Stefano, Spano, Gianluca, Castellani, Gianluca, Delunas, Luigi, Peradze, Sopio, Venturino, Marco, Arpino, Ines, Sher, Sara, Tommasino, Concezione, Rapido, Francesca, Morelli, Paola, Vargas, Maria, Servillo, Giuseppe, Cortegiani, Andrea, Raineri, Santi Maurizio, Montalto, Francesca, Russotto, Vincenzo, Giarratano, Antonino, Baciarello, Marco, Generali, Michela, Cerati, Giorgia, Leykin, Yigal, Bressan, Filippo, Bartolini, Vittoria, Zamidei, Lucia, Brazzi, Luca, Liperi, Corrado, Sales, Gabriele, Pistidda, Laura, Severgnini, Paolo, Brugnoni, Elisa, Musella, Giuseppe, Bacuzzi, Alessandro, Muhardri, Dalip, Gecaj-Gashi, Agreta, Sada, Fatos, Bytyqi, Adem, Karbonskiene, Aurika, Aukstakalniene, Ruta, Teberaite, Zivile, Salciute, Erika, Tikuisis, Renatas, Miliauskas, Povilas, Jurate, Sipylaite, Kontrimaviciute, Egle, Tomkute, Gabija, Xuereb, John, Bezzina, Maureen, Borg, Francis Joseph, Hemmes, Sabrine, Schultz, Marcus, Hollmann, Markus, Wiersma, Irene, Binnekade, Jan, Bos, Lieuwe, Nijbroek, Sunny, Boer, Christa, Duvekot, Anne, ’t Veld, Bas in, Werger, Alice, Dennesen, Paul, Severijns, Charlotte, De Jong, Jasper, Hering, Jens, van Beek, Rienk, Ivars, Stefan, Jammer, Ib, Breidablik, Alena, Hodt, Katharina Skirstad, Fjellanger, Frode, Avalos, Manuel Vico, Mellin-Olsen, Jannicke, Andersson, Elisabeth, Shafi-Kabiri, Amir, Molina, Ruby, Wutai, Stanley, Morais, Erick, Tareco, Glória, Ferreira, Daniel, Amaral, Joana, de Lurdes Goncalves Castro, Maria, Cadilha, Susana, Appleton, Sofia, Parente, Suzana, Correia, Mariana, Martins, Diogo, Monteirosa, Angela, Ricardo, Ana, Rodrigues, Sara, Horhota, Lucian, Grintescu, Ioana Marina, Mirea, Liliana, Grintescu, Ioana Cristina, Corneci, Dan, Negoita, Silvius, Dutu, Madalina, Garotescu, Ioana Popescu, Filipescu, Daniela, Prodan, Alexandru Bogdan, Droc, Gabriela, Fota, Ruxandra, Popescu, Mihai, Tomescu, Dana, Petcu, Ana Maria, Tudoroiu, Marian Irinel, Moise, Alida, Guran, Catalin-Traian, Gherghina, Iorel, Costea, Dan, Cindea, Iulia, Copotoiu, Sanda-Maria, Copotoiu, Ruxandra, Barsan, Victoria, Tolcser, Zsolt, Riciu, Magda, Moldovan, Septimiu Gheorghe, Veres, Mihaly, Gritsan, Alexey, Kapkan, Tatyana, Gritsan, Galina, Korolkov, Oleg, Kulikov, Alexander, Lubnin, Andrey, Ovezov, Alexey, Prokoshev, Pavel, Lugovoy, Alexander, Anipchenko, Natalia, Babayants, Andrey, Komissarova, Irina, Zalina, Karginova, Likhvantsev, Valery, Fedorov, Sergei, Lazukic, Aleksandra, Pejakovic, Jasmina, Mihajlovic, Dunja, Kusnierikova, Zuzana, Zelinkova, Maria, Bruncakova, Katarina, Polakovicova, Lenka, Sobona, Villiam, Novak-Supe, Barbka, Pekle-Golez, Ana, Jovanov, Miroljub, Strazisar, Branka, Markovic-Bozic, Jasmina, Novak-Jankovic, Vesna, Voje, Minca, Grynyuk, Andriy, Kostadinov, Ivan, Spindler-Vesel, Alenka, Moral, Victoria, Unzueta, Mari Carmen, Puigbo, Carlos, Fava, Josep, Canet, Jaume, Moret, Enrique, Nunez, Mónica Rodriguez, Sendra, Mar, Brunelli, Andrea, Rodenas, Frederic, Monedero, Pablo, Martinezv, Francisco Hidalgo, Temino, Maria Jose Yepes, Simon, Antonio Martínez, de Abajo Larriba, Ana, Lisi, Alberto, Perez, Gisela, Martinez, Raquel, Granell, Manuel, Vivo, Jose Tatay, Ruiz, Cristina Saiz, de Andrés Ibañez, Jose Antonio, Pastor, Ernesto, Soro, Marina, Ferrando, Carlos, Defez, Mario, Alvares-Santullano, Cesar Aldecoa, Perez, Rocio, Rico, Jesus, Jawad, Monir, Saeed, Yousif, Gillberg, Lars, Hedenstierma, Göran, Bengisun, Zuleyha Kazak, Kazbek, Baturay Kansu, Coskunfirat, Nesil, Boztug, Neval, Sanli, Suat, Yilmaz, Murat, Hadimioglu, Necmiye, Senturk, Nuzhet Mert, Camci, Emre, Kucukgoncu, Semra, Sungur, Zerrin, Sivrikoz, Nukhet, Ozgen, Serpil Ustalar, Toraman, Fevzi, Selvi, Onur, Senturk, Ozgur, Yildiz, Mine, Kuvaki, Bahar, Gunenc, Ferim, Kucukguclu, Semih, Ozbilgin, Şule, Maral, Jale, Canli, Seyda, Arun, Oguzhan, Saltali, Ali, Aydogan, Eyup, Akgun, Fatma Nur, Sanlikarip, Ceren, Karaman, Fatma Mine, Mazur, Andriy, Vorotyntsev, Sergiy, Rousseau, Guy, Barrett, Colin, Stancombe, Lucia, Shelley, Ben, Scholes, Helen, Limb, James, Rafi, Amir, Wayman, Lisa, Deane, Jill, Rogerson, David, Williams, John, Yates, Susan, Rogers, Elaine, Pulletz, Mark, Moreton, Sarah, Jones, Stephanie, Venkatesh, Suresh, Burton, Maudrian, Brown, Lucy, Goodall, Cait, Rucklidge, Matthew, Fuller, Debbie, Nadolski, Maria, Kusre, Sandeep, Lundberg, Michael, Everett, Lynn, Nutt, Helen, Zuleika, Maka, Carvalho, Peter, Clements, Deborah, Creagh-Brown, Ben, Watt, Philip, Raymode, Parizade, Pearse, Rupert, Mohr, Otto, Raj, Ashok, Creary, Thais, Chishti, Ahmed, Bell, Andrea, Higham, Charley, Cain, Alistair, Gibb, Sarah, Mowat, Stephen, Franklin, Danielle, West, Claire, Minto, Gary, Boyd, Nicholas, Mills, Gary, Calton, Emily, Walker, Rachel, Mackenzie, Felicity, Ellison, Branwen, Roberts, Helen, Chikungwa, Moses, Jackson, Clare, Donovan, Andrew, Foot, Jayne, Homan, Elizabeth, Montgomery, Jane, Portch, David, Mercer, Pauline, Palmer, Janet, Paddle, Jonathan, Fouracres, Anna, Datson, Amanda, Andrew, Alyson, Welch, Leanne, Rose, Alastair, Varma, Sandeep, Simeson, Karen, Rambhatla, Mrutyunjaya, Susarla, Jaysimha, Marri, Sudhakar, Kodaganallur, Krishnan, Das, Ashok, Algarsamy, Shivarajan, Colley, Julie, Davies, Simon, Szewczyk, Margaret, Smith, Thomas, Fernandez-Bustamante, Ana, Luzier, Elizabeth, Almagro, Angela, Melo, Marcos Vidal, Fernando, Luiz, Sulemanji, Demet, Sprung, Juraj, Weingarten, Toby, Kor, Daryl, Scavonetto, Federica, Tze, Yeo, Vermeulen, Tom D., Hol, Liselotte, Swart, Pien, Mills, Gary H., Putensen, Christian, Serpa Neto, Ary, Vidal Melo, Marcos F., Hollmann, Markus W., Gama de Abreu, Marcelo, Schultz, Marcus J., Hemmes, Sabrine N., and van Meenen, David M.

Published
2024
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14. Thermocatalytic Conversion of Pine and Birch Sawdust over H-ZSM-5 Zeolite Catalyst

Author

Antonina A. Stepacheva, Yury V. Lugovoy, Oleg V. Manaenkov, Yury Yu. Kosivtsov, and Mikhail G. Sulman

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

The processing of lignocellulose wastes is one of the urgent tasks in modern society. These wastes can be effectively used for the production of heat, electricity, fuels, and valuable chemicals. Catalytic pyrolysis can be considered the most effective way to convert waste into valuable products. In this work, the investigation of the pyrolysis process of the birch and pine sawdust was carried out in the presence of a zeolite-based catalyst. The synthesised zeolite-based catalyst is characterised by high porosity (the specific surface area of 350 m2/g) and acidity (0.34 mmol/g). The use of the zeolite-based catalyst increases the yield of the gaseous and liquid products of pyrolysis by ca. 5 % in comparison with the non-catalytic one. Despite this increase seems to be negligible, the composition of the products was changed sufficiently because of the higher degree of feedstock decomposition. The addition of pure zeolite into the pyrolysis zone led to an increase in furanes and phenols yield for 3 times while the addition of Fe-ZSM-5 catalyst increased twice the yield of acids/esters, and hydrocarbons.

Published
2023

15. Influence of the Pyrolysis Mode of Flax Shive on Product Composition

Author

Yury Yu. Kosivtsov, Yury V. Lugovoy, Kirill V. Chalov, Antonina A. Stepacheva, Valeriy E. Tarabanko, and Mikhail G. Sulman

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

Flax shive is a highly lignified nonfibrous plant parts obtained from the scutching of straw flax to produce fibers. It is one of the multi-tonnage agricultural wastes. The use of the flax shive as a source for the valuable products is a promising way to solve the problem of the waste processing. This work is devoted to the study of composition and properties of the products of slow and fast pyrolysis of the flax shive. It was found that the slow pyrolysis results in a higher degree of the feedstock decomposition as well as in a higher yield of valuable gases and liquids. The gaseous product yield was found to be over 35 wt. % for the slow pyrolysis, and about 25 wt. % for the fast pyrolysis. For the gaseous products, methane concentration was found to be twice lower for the fast pyrolysis in comparison with the slow one. This decreases the calorific value of gases and leads to the low feasibility of the process. Interestingly, the fast pyrolysis resulted only 20 wt. % of liquids, while for the slow one, a twice increase (ca. 40 wt. %) of liquid yield was obtained. The liquid obtained in a fast mode contained the higher number of carboxylic acids and furanes, while the product obtained in a slow pyrolysis was characterised by the higher concentration of phenols, aldehydes and hydrocarbons increasing its further application. The solid residue obtained by the slow pyrolysis was found to have a higher porosity in comparison with the sample obtained by the fast mode. As the solid residue can be used as an adsorbent, the porosity is a critical parameter to choice the proper mode for flax shive thermal processing.

Published
2023

16. Magnetic Nanoparticle Support with an Ultra-Thin Chitosan Layer Preserves the Catalytic Activity of the Immobilized Glucose Oxidase

Author

Boris B. Tikhonov, Daniil R. Lisichkin, Alexandrina M. Sulman, Alexander I. Sidorov, Alexey V. Bykov, Yury V. Lugovoy, Alexey Y. Karpenkov, Lyudmila M. Bronstein, and Valentina G. Matveeva

Subjects
biocatalyst, magnetite, nanoparticle, chitosan, glucose oxidase, magnetic nanoparticle aggregates, Chemistry, QD1-999
Abstract

Here, we developed magnetically recoverable biocatalysts based on magnetite nanoparticles coated with an ultra-thin layer (about 0.9 nm) of chitosan (CS) ionically cross-linked by sodium tripolyphosphate (TPP). Excessive CS amounts were removed by multiple washings combined with magnetic separation. Glucose oxidase (GOx) was attached to the magnetic support via the interaction with N-hydroxysuccinimide (NHS) in the presence of carbodiimide (EDC) leading to a covalent amide bond. These steps result in the formation of the biocatalyst for D-glucose oxidation to D-gluconic acid to be used in the preparation of pharmaceuticals due to the benign character of the biocatalyst components. To choose the catalyst with the best catalytic performance, the amounts of CS, TPP, NHS, EDC, and GOx were varied. The optimal biocatalyst allowed for 100% relative catalytic activity. The immobilization of GOx and the magnetic character of the support prevents GOx and biocatalyst loss and allows for repeated use.

Published
2024
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21. Estimates of repeatability for reproductive traits in Large White sows

Author

A. S. Kramarenko, S. S. Kramarenko, and S I. Lugovoy

Subjects
repeatability, reproductive traits, sows, large white., Veterinary medicine, SF600-1100
Abstract

The main aim of this paper was to analyze the effect of parity number on the litter size and other reproductive traits in Large White sows during successive farrowings to determine the repeatability estimates. The population used for the present study is from a pig farm managed by the Limited Liability Company (LLC) “Tavriys’ki svyni” located in Skadovsky district (Kherson region, Ukraine). The experimental materials used for this study consisted of 100 inds. of productive parent sows of the Large White breed. The estimation of reproductive performance was conducted for each animal included in this study. The total number of piglets born (TNB), number piglets born alive (NBA), number weaned piglets (NW), number of stillborn piglets (NSB) and frequency of stillborn piglets (FSB) per litter, number of piglets that died between birth and weaning (NPWM) and frequency of piglets that died between birth and weaning (FPWM) per litter were monitored in the first eight parities in the period of eleven years (2007–2017). For TNB, of the 28 correlations between different parities, 19 (i.e., 68 %) were statistically significant (P

Published
2022
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22. Correlations between microsatellite DNA heterozygosity and reproductive traits in Large White sows

Author

A. S. Kramarenko, S. S. Kramarenko, S. I. Lugovoy, and I. P. Atamanyuk

Subjects
microsatellite dna, heterozygosity-fitness correlations, outbreeding depression, reproductive traits, sows, large white pig., Veterinary medicine, SF600-1100
Abstract

The main aim of this paper was to determine whether heterozygosity (assessed using microsatellite genotypes) was correlated with the reproductive traits in sows. The study was conducted on two herds of sows of the Large White sows breed at the Limited Liability Company “Tavriys’ki svyni” (Kherson region, Ukraine) and the Agricultural Private Enterprise “Techmet-Yug” (Mykolayiv region, Ukraine). During the study, we used eleven microsatellite loci recommended by International Society for Animal Genetics (ISAG) – S0101, S0155, S0228, S0355, S0386, Sw24, Sw72, Sw240, Sw857, Sw936 and Sw951. The litter records included information on the total number of piglets born (TNB), number of piglets born alive (NBA), number of stillborn piglets (NSB), frequency of stillborn piglets (FSB), litter size at weaning (NW) in the first five parities. Individual heterozygosity estimates (for each microsatellite loci separately) and microsatellite multilocus heterozygosity (for all used loci) estimates (MLH) were used in our analysis. ANOVA was used to determine the relationship of the dependent effects (reproductive traits) to single locus heterozygosity using two classes: 0 (for homozygous individuals) and 1 (for heterozygous individuals). In addition, the following indicators were calculated for each genotype: the squared distances (d2) between alleles within an individual for each microsatellite loci and mean squared distances (mean d2) between alleles within an individual for 11 microsatellite loci. Spearman’s rank correlation coefficients were used to measure the association between d2 (for each microsatellite loci) and reproductive traits in sows. ANOVA on reproductive traits of sows belonging to different MLH and mean d2 classes was also undertaken. For sows from the Agricultural Private Enterprise “‘Techmet-Yug” were observed negative associations between heterozygosity and reproductive traits. We conclude that care should be taken when crossing between different breeders (English and Hungarian selection) to avoid outbreeding depression.

Published
2021
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25. Influence of ZSM-5 Zeolite on the Composition and Properties of Gaseous and Liquid Products of Fast Pyrolysis of Flax Processing Waste

Author

Yury Lugovoy, Kirill Chalov, Alexey Bykov, Yury Kosivtsov, and Mikhail G. Sulman

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

In the work, the influence of the initial characteristics of feedstock on the yield, composition, and properties of fast pyrolysis products was studied. Samples of the original flax shive and its cellulose residue obtained as a result of alkaline hydrolysis were chosen as the raw materials for the investigation of fast pyrolysis to obtain useful products – phenyl propane derivatives (guaiacyl- and syringyl propanols, propenes, and propanes). The use of preliminary chemical processing of plant raw materials is aimed at maximizing the use of the initial potential of raw materials, as well as reducing energy costs and improving the quality of pyrolysis products. The paper discusses the dependence of the composition and properties of fast pyrolysis products on the process conditions – temperature, retention time of the raw material in the heating zone, and the diameter of the particle of the feedstock. The optimal conditions for fast pyrolysis for flax processing waste are temperature 700 °C, particle size 0.25 -1 mm, and particle residence time in the heating zone of 4.4 s. The results of a study of the process of fast pyrolysis of flax processing waste in the presence of a ZSM-5 catalyst are also presented. The presence of ZSM-5 zeolite increases the content of ethylene, hydrogen, and carbon dioxide, which is probably associated with the cracking of volatile products passing through the catalyst heated to high temperatures. The composition of liquid products of fast pyrolysis obtained using a thermocatalytic purification stage on the synthetic zeolite ZSM-5 was significantly reduced in the number of chemicals compared to the compositions of liquid products of fast pyrolysis obtained without a purification stage.

Published
2022
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26. The Knight of Contemporary Russian Kantiana. On the 85th Birthday of Leonard Kalinnikov

Author

Vadim A. Chaly, Sergey V. Lugovoy, and Varvara S. Popova

Subjects
kant, philosophy and literature, philosophy and poetry, alexander pushkin, afanasy fet, vladimir solovyov, e. t. a. hoffmann, Philosophy (General), B1-5802
Abstract

This is a review of the main research achievements of Professor L. A. Kalinnikov presented in his articles and monographs. The theoretical issues of Kantianism considered in Kalinnikov’s works include the problem of cognisability of “the thing in itself” and noumenal affection, the character of systematicity in Kant’s philosophy and the methodology of its interpretation. Cycles of articles are devoted to the reception of Kant’s ideas in the philosophical and poetic work of V. S. Solovyov, Kant’s impact on A. S. Pushkin, A. A. Fet, and E. T. A. Hoffmann. These topics are elaborated in the monographs Immanuel Kant in Russian Poetry (2008), E. T. A. Hoffmann and I. Kant (2012), The Philosophical and Poetic Worldview of A. A. Fet: the Impact of I. Kant and A. Schopenhauer (2016), Pushkin and Kant. The Poet and Philosophy (2018), The Philosophical System of Kant. Conception and Outcomes (2021). L. A. Kalinnikov’s works form an impressive and original part of contemporary Russian Kantiana.

Published
2021
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28. Naphthalene-Based Polymers as Catalytic Supports for Suzuki Cross-Coupling

Author

Elena S. Bakhvalova, Alexey V. Bykov, Mariia E. Markova, Yury V. Lugovoy, Alexander I. Sidorov, Vladimir P. Molchanov, Mikhail G. Sulman, Lioubov Kiwi-Minsker, and Linda Z. Nikoshvili

Subjects
naphthalene, Friedel–Crafts crosslinking, sulfonation, nitration, palladium, Suzuki cross-coupling, Organic chemistry, QD241-441
Abstract

In this work, for the first time, naphthalene (NA)-based polymers were synthesized by one-stage Friedel–Crafts crosslinking. The influence of NA functionalization by -OH, -SO3H, and -NO2 groups on the polymers’ porosity and distribution of the catalytically active phase (Pd) was studied. Synthesized catalytic systems containing 1 wt.% of Pd either in the form of Pd(II) species or Pd(0) nanoparticles supported on NA-based polymers were tested in a model reaction of Suzuki cross-coupling between 4-bromoanisole and phenylboronic acid under mild reaction conditions (60 °C, ethanol-water mixture as a solvent). These novel catalysts demonstrated high efficiency with more than 95% of 4-bromoanisole conversion and high selectivity (>97%) for the target 4-methoxybiphenyl.

Published
2023
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29. Biochar from Wood Waste: Textural and Structural Properties Depending on Production Method.

Author

Stepacheva, Antonina, Lugovoy, Yuri, Molchanov, Vladimir, Sulman, Mikhail, and Kosivtsov, Yury

Subjects
HYDROTHERMAL carbonization, PLANT residues, BINDING agents, HEAT treatment, CATALYST supports, WOOD waste
Abstract

Biochar is a carbonaceous product from biomass obtained by heat treatment of organic materials such as wood, by-products of wood processing, and plant residues. Biochar can be obtained as a result of thermal processing, which can be divided into three main processes: pyrolysis, torrefaction, and hydrothermal carbonization. The resulting biochar has different composition, structural and textural properties, strength, etc. Despite of numerous studies, the investigation of biochar production and properties are of great interest. Modification of carbonaceous products obtained from biomass is one of the actual tasks to produce the tailor-made materials. This article presents a comparison of the characteristics of biochar obtained by three methods: pyrolysis, torrefaction, and hydrothermal carbonization. Another task was the evaluation of the modifier addition to biochar to form materials with higher surface area and abrasion resistance for catalyst applications. The biochar obtained by the torrefaction from different lignocellulosic feedstock (hydrolysed and non-hydrolysed pine and birch sawdust) was found to have the highest carbonization degree, and the highest specific surface area. It was found that the additional modification of biochar with silica provides an increase its abrasion resistance, and higher porosity that allows the material obtained to be used for different purposes (as filler and binder for the construction materials, catalyst support etc.). [ABSTRACT FROM AUTHOR]

Published
2024
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30. Hydrolytic Conversion of Sawdust as a Step of Complex Wood Waste Processing.

Author

Stepacheva, Antonina A., Lugovoy, Yury V., Markova, Mariia E., Manaenkov, Oleg V., Matveeva, Valentina G., and Sulman, Mikhail G.

Subjects
ALTERNATIVE fuels, BIOMASS chemicals, BIOMASS conversion, RENEWABLE natural resources, MODERN society
Abstract

Biomass can be considered as a potential resource for the production of renewable fuels. Lignocellulose biomass is a widely available, renewable, biodegradable, and biocompatible resource that can potentially reduce the dependence of modern society on fossil resources. It is a potential feedstock for the production of heat, electricity, fuel, chemicals, and other bioderived products. Considerable attention of researchers is directed to the conversion of biomass into bioenergy through chemical, biochemical, or thermochemical processes. Hydrolysis is considered to be one of the important steps to convert biomass into valuable chemicals. During hydrolysis, liquid rich in sugars with a certain amount of dissolved lignin, usually called hydrolysate, is formed. In this paper, the influence of the catalyst type, temperature, catalyst concentration, and solvent type on the conversion and composition of hydrolysate was studied. The highest yield of hydrolysis products (hexoses and pentoses) reached up to 80 wt. % at a temperature of 220 °C in water medium in the presence of 1.5 wt. % of sulfuric acid. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Analysis of the stillborn piglet’s distribution in the Large White sows

Author

A. S. Kramarenko, S. S. Kramarenko, and S. I. Lugovoy

Subjects
stillborn piglets, sows, parity number, entropy, the large white breed pig., Veterinary medicine, SF600-1100
Abstract

The main aim of this paper was to estimate the piglet stillbirth incidence distribution in the Large White (LW) sows. The population used for the present study is from a pig farm managed by the Limited Liability Company (LLC) “Tavriys’ki svyni” located in Skadovsky district (Kherson region, Ukraine). The experimental materials used for this study consisted of 100 inds. of productive parent sows of the Large White breed. The estimation of reproductive performance was conducted for each animal included in this study. The total number of piglets born (TNB), number of stillborn piglets (NSB) and frequency of stillborn piglets (FSB) per litter were monitored in the first eight parities in the period of eleven years (2007–2017). The 800 farrowings averaged 11.3 piglets per litter. Of the 9037 piglets born, 7895 were live born and 1142 were stillborn. Stillborn pigs were observed in 63.3 ± 1.7 % of the litters and the pig stillbirth incidence was 12.6 ± 0.4 %. The percentage of pigs born dead in total pigs born, obtained in this study is within the range of rates (5 to 15 %) reported for commercial pig farms in other countries. The frequencies of litters with 1, 2, 3, 4 and 5 or more stillborn piglets were 27.1, 14.8, 10.6, 5.8 and 5.0 %, respectively. The frequency of litters with at least one stillborn piglet varied from 44 % (2nd parity) to 76 % (6th parity). Significant factor in the analysis for frequency of litters with at least one stillborn piglet was parity number in sow (Chi-squared test: χ2 = 51.35; df = 7; P < 0.001). This frequency increased as parity number in sow increased (Pearson correlation coefficient: r = 0.929; P < 0.01). We noted that the piglet stillbirth incidence in the LW sow’s litter took place already during the first farrowing for almost half of the sows (46%). In general, this distribution is well approximated by the exponential model equation (y = 73.567*exp(-0.551x); R2 = 97.09 %). The LW sows with stillborn piglets in four out of eight farrowings were the most reported. The value of the entropy of the traits NSB and FSB varied significantly among sows of different parities (Chi-squared test: in both cases P < 0.001). At the same time, a significant increase in the entropy estimates for both traits from the 1st parity to the 8th parity was noted (Spearman's rank correlation: P

Published
2021
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32. Analysis of the influence of genetic and non-genetic factors on the birth weight and weaning weight of lambs

Author

A. S. Kramarenko, S. S. Kramarenko, S. I. Lugovoy, and O. I. Yulevich

Subjects
birth and weaning weight of lambs, ram genotype, year of lambing, age of the ewes, litter size (type of birth), sex of lamb, sex ratio in twins, the ascanian fine-fleece breed., Veterinary medicine, SF600-1100
Abstract

The main aim of this paper is to analyze the influence of genetic and non-genetic factors on the birth weight and weaning weight of lambs. The study was carried out on the basis of the Institute of Animal Husbandry of Steppe Regions named by M. F. Ivanov “Askania-Nova” – the National Scientific Agricultural Center in Sheep Breeding of NAAS. Birth and weaning weights data collected during a 5-vear period from 3961 lambs were used. The reproductive traits of the Ascanian fine-fleece (AC) ewes were evaluated in combination with the rams of different genotypes: Ascanian fine-fleece, Australian merino (AM) and half-bred animals (1/2AC+1/2AM). The main effect of the ram genotype and the year of lambing, the age of the ewes, the litter size, the sex of lamb and the sex ratio in twins on the birth weight and weaning weight of lambs was analysed using one-way ANOVA. Differences between years of the 5-year period were highly significantly (P < 0.001) for all lamb traits studied. The effects of the environmental factor (year of lambing) on the birth weight and weaning weight of lambs represented 27.2 and 15.2 per cent of the total variance, respectively. The ram-group effects, which are mainly genetic differences, were highly significant (P

Published
2020
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34. Kant’s ethical attitudes in his master’s thesis On fire

Author

Lugovoy Sergey

Subjects
kant, natural philosophy, ethics, moral sense, perfection, Social Sciences
Abstract

The significance of the ethical concepts of Kant, developed in the critical period of his philosophy, goes far beyond the boundaries of the Enlightenment. In the Groundwork of the Metaphysics of Morals, the Critique of Practical Reason, The Metaphysics of Morals Kant criticises the most common doctrines of morality in the eighteenth century, including the philosophy of moral sense and the Wolffian ethics. However, almost all of Kant’s life took place in the “Age of Reason”, and his early works fit completely into the cultural context of the Enlightenment. True, a significant part of them is devoted to natural science problems that are not directly related to practical philosophy. In this material it is difficult to identify the ethical foundations which Kant, the natural philosopher, followed and to establish how typical they are for the German Enlightenment of the mideighteenth century. It is similarly difficult to see which of them would continue to be significant for Kant in his mature period. It is advisable to begin with an analysis of Kant’s Master’s thesis On Fire. As examples of Kant’s ethical attitudes, I can point out: observance of the etiquette norms of writing in the Gallant Century; trust in the geometric method; declaration of distrust of philosophical speculation in itself, combined with the construction of empirically verifiable hypotheses; the desire to establish the truth, synthesising speculative and experimental knowledge.

Published
2023
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35. Association between night-time surgery and occurrence of intraoperative adverse events and postoperative pulmonary complications

Author

Kroell, W., Metzler, H., Struber, G., Wegscheider, T., Gombotz, H., Hiesmayr, M., Schmid, W., Urbanek, B., Kahn, D., Momeni, M., Pospiech, A., Lois, F., Forget, P., Grosu, I., Poelaert, J., Mossevelde, V., van Malderen, M.C., Dylst, D., Melkebeek, J.V., Beran, M., Hert, S.D., Baerdemaeker, L.D., Heyse, B., Limmen, J.V., Wyffels, P., Jacobs, T., Roels, N., Bruyne, A.D., Velde, S.V.D., Marina, J.Z., Dejana, D.O., Pernar, S., Zunic, J., Miskovic, P., Zilic, A., Kvolik, S., Ivic, D., Darija, A.V., Skiljic, S., Vinkovic, H., Oputric, I., Juricic, K., Frkovic, V., Kopic, J., Mirkovic, I., Saric, J.P., Erceg, G., Dvorscak, M.B., Branka, M.S., Pavicic, A.M., Goranovic, T., Maldini, B., Radocaj, T., Gavranovic, Z., Inga, M.B., Sehovic, M., Stourac, P., Harazim, H., Smekalova, O., Kosinova, M., Kolacek, T., Hudacek, K., Drab, M., Brujevic, J., Vitkova, K., Jirmanova, K., Volfova, I., Dzurnakova, P., Liskova, K., Dudas, R., Filipsky, R., Kafrawy, S.E., Abdelwahab, H.H., Metwally, T., Ahmed, A.R., Ahmed Mostafa, E.S., Hasan, W.F., Ahmed, A.G., Yassin, H., Magdy, M., Abdelhady, M., Mahran, M., Herodes, E., Kivik, P., Oganjan, J., Aun, A., Sormus, A., Sarapuu, K., Mall, M., Karjagin, J., Futier, E., Petit, A., Gerard, A., Marret, E., Solier, M., Jaber, S., Prades, A., Krassler, J., Merzky, S., Abreu, M.G.D., Uhlig, C., Kiss, T., Bundy, A., Bluth, T., Gueldner, A., Spieth, P., Scharffenberg, M., Thiem, D.T., Koch, T., Treschan, T., Schaefer, M., Bastin, B., Geib, J., Weiss, M., Kienbaum, P., Pannen, B., Gottschalk, A., Konrad, M., Westerheide, D., Schwerdtfeger, B., Wrigge, H., Simon, P., Reske, A., Nestler, C., Valsamidis, D., Stroumpoulis, K., Antholopoulos, G., Andreou, A., Karapanos, D., Theodoraki, K., Gkiokas, G., Tasoulis, M.K., Sidiropoulou, T., Zafeiropoulou, F., Florou, P., Pandazi, A., Tsaousi, G., Nouris, C., Pourzitaki, C., Bystritski, D., Pizov, R., Eden, A., Pesce, C.V., Campanile, A., Marrella, A., Grasso, S., Michele, M.D., Bona, F., Giacoletto, G., Sardo, E., Sottosanti, L.G.V., Solca, M., Volta, C.A., Spadaro, S., Verri, M., Ragazzi, R., Zoppellari, R., Cinnella, G., Raimondo, P., Bella, D.L., Mirabella, L., D'antini, D., Pelosi, P., Molin, A., Brunetti, I., Gratarola, A., Pellerano, G., Sileo, R., Pezzatto, S., Montagnani, L., Pasin, L., Landoni, G., Zangrillo, A., Beretta, L., Parma, A.L.D., Tarzia, V., Dossi, R., Sassone, M.E., Sances, D., Tredici, S., Spano, G., Castellani, G., Delunas, L., Peradze, S., Venturino, M., Arpino, I., Sher, S., Tommasino, C., Rapido, F., Morelli, P., Vargas, M., Servillo, G., Cortegiani, A., Raineri, S.M., Montalto, F., Russotto, V., Giarratano, A., Baciarello, M., Generali, M., Cerati, G., Leykin, Y., Bressan, F., Bartolini, V., Zamidei, L., Brazzi, L., Liperi, C., Sales, G., Pistidda, L., Severgnini, P., Brugnoni, E., Musella, G., Bacuzzi, A., Muhardri, D., Agreta, G.G., Sada, F., Bytyqi, A., Karbonskiene, A., Aukstakalniene, R., Teberaite, Z., Salciute, E., Tikuisis, R., Miliauskas, P., Jurate, S., Kontrimaviciute, E., Tomkute, G., Xuereb, J., Bezzina, M., Borg, F. Joseph, Hemmes, S., Schultz, M., Hollmann, M., Wiersma, I., Binnekade, J., Bos, L., Boer, C., Duvekot, A., Veld, B.I ‘t, Werger, A., Dennesen, P., Severijns, C., Jong, J.D., Hering, J., Beek, R.V., Ivars, S., Jammer, I.B., Breidablik, A., Hodt, K.S., Fjellanger, F., Avalos, M.V., Jannicke, M.O., Andersson, E., Amir, S.K., Molina, R., Wutai, S., Morais, E., Tareco, G., Ferreira, D., Amaral, J., Castro, M.D.L.G., Cadilha, S., Appleton, S., Parente, S., Correia, M., Martins, D., Monteirosa, A., Ricardo, A., Rodrigues, S., Horhota, L., Grintescu, I.M., Mirea, L., Grintescu, I.C., Corneci, D., Negoita, S., Dutu, M., Popescu Garotescu, I., Filipescu, D., Prodan, A.B., Droc, G., Fota, R., Popescu, M., Tomescu, D., Petcu, A.M., Tudoroiu, M.I., Moise, A., Guran, C.T., Gherghina, I., Costea, D., Cindea, I., Copotoiu, S.M., Copotoiu, R., Barsan, V., Tolcser, Z., Riciu, M., Moldovan, S.G., Veres, M., Gritsan, A., Kapkan, T., Gritsan, G., Korolkov, O., Kulikov, A., Lubnin, A., Ovezov, A., Prokoshev, P., Lugovoy, A., Anipchenko, N., Babayants, A., Komissarova, I., Zalina, K., Likhvantsev, V., Fedorov, S., Lazukic, A., Pejakovic, J., Mihajlovic, D., Kusnierikova, Z., Zelinkova, M., Bruncakova, K., Polakovicova, L., Sobona, V., Barbka, N.S., Ana, P.G., Jovanov, M., Strazisar, B., Jasmina, M.B., Vesna, N.J., Voje, M., Grynyuk, A., Kostadinov, I., Alenka, S.V., Moral, V., Unzueta, M.C., Puigbo, C., Fava, J., Canet, J., Moret, E., Nunez, M.R., Sendra, M., Brunelli, A., Rodenas, F., Monedero, P., Hidalgo, F., Yepes, M.J., Martinez-Simon, A., Abajo, A., Lisi, A., Perez, G., Martinez, R., Granell, M., Vivo, J.T., Ruiz, C.S., Andrés Ibañez, J.A.D., Pastor, E., Soro, M., Ferrando, C., Defez, M., Cesar Aldecoa, A.S., Perez, R., Rico, J., Jawad, M., Saeed, Y., Gillberg, L., Bengisun, Z.K., Kazbek, B.K., Coskunfirat, N., Boztug, N., Sanli, S., Yilmaz, M., Hadimioglu, N., Senturk, N.M., Camci, E., Kucukgoncu, S., Sungur, Z., Sivrikoz, N., Ozgen, S.U., Toraman, F., Selvi, O., Senturk, O., Yildiz, M., Kuvaki, B., Gunenc, F., Kucukguclu, S., Ozbilgin, S., Maral, J., Canli, S., Arun, O., Saltali, A., Aydogan, E., Akgun, F.N., Sanlikarip, C., Karaman, F.M., Mazur, A., Vorotyntsev, S., Rousseau, G., Barrett, C., Stancombe, L., Shelley, B., Scholes, H., Limb, J., Rafi, A., Wayman, L., Deane, J., Rogerson, D., Williams, J., Yates, S., Rogers, E., Pulletz, M., Moreton, S., Jones, S., Venkatesh, S., Burton, M., Brown, L., Goodall, C., Rucklidge, M., Fuller, D., Nadolski, M., Kusre, S., Lundberg, M., Everett, L., Nutt, H., Zuleika, M., Carvalho, P., Clements, D., Ben, C.B., Watt, P., Raymode, P., Pearse, R., Mohr, O., Raj, A., Creary, T., Chishti, A., Bell, A., Higham, C., Cain, A., Gibb, S., Mowat, S., Franklin, D., West, C., Minto, G., Boyd, N., Mills, G., Calton, E., Walker, R., Mackenzie, F., Ellison, B., Roberts, H., Chikungwa, M., Jackson, C., Donovan, A., Foot, J., Homan, E., Montgomery, J., Portch, D., Mercer, P., Palmer, J., Paddle, J., Fouracres, A., Datson, A., Andrew, A., Welch, L., Rose, A., Varma, S., Simeson, K., Rambhatla, M., Susarla, J., Marri, S., Kodaganallur, K., Das, A., Algarsamy, S., Colley, J., Davies, S., Szewczyk, M., Smith, T., Ana, F.B., Luzier, E., Almagro, A., Melo, M.V., Fernando, L., Sulemanji, D., Sprung, J., Weingarten, T., Kor, D., Scavonetto, F., Tze, Y., Gregoretti, C., Neto, A.S., Hemmes, S.N.T., Ball, L., Hollmann, M.W., Mills, G.H., Melo, M.F.V., Putensen, C., Gama de Abreu, M., and Schultz, M.J.

Published
2019
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36. Slow Pyrolysis of Flax Production Waste

Author

Yuri Lugovoy, Kirill Chalov, Yuriy Yu. Kosivtsov, Alexander Sidorov, and Mikhail G. Sulman

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

The slow pyrolysis of flax shive and the cellulose residue of flax shive obtained by ethanolysis was studied in this work. Investigation of temperature effect on physical properties of pyrolysis products in the range of 500-750 º? on a laboratory slow pyrolysis unit was presented in this manuscript. The experimental obtained data of initial properties of investigation samples, thermal stability of samples, heat effects of pyrolysis process, chemical composition and physical properties of liquid and gaseous pyrolysis products are presented.

Published
2021
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37. Use of Ash and Slag Waste from Thermal Power Plants as an Active Component of Building Materials

Author

Yuriy Yu. Kosivtsov, Kirill Chalov, Mikhail G. Sulman, Yuri Lugovoy, Tatiana Novichenkova, Victoria Petropavlovskaya, Shamil Gadzhiev, and Oleg Popel

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

This paper presents the use of ash and slag waste generated from the combustion of coal at thermal power plants as a secondary raw material in various areas of industry. The process of separation of ash and slag is considered into the following components: coal, magnetic concentrate, and aluminum silicate concentrates. The possibility of using aluminum silicate concentrate in the building industry for the production of mineral binders and premixes is investigated. Mineral binding compositions based on gypsum were studied by thermogravimetric methods (differential scanning calorimeter DSC Q2000, thermogravimetric analyzer TG 209 F1). The influence of aluminosilicate microspheres on the quality of the building material was evaluated. The introduction of aluminosilicate concentrate into the building composition reduces the moisture content by 1 %, but the weight loss profile does not change. This indicates the redistribution of microspheres in the volume of the mineral binder composition and the formation of a new physical phase. When using a superplasticizer (Melflux 1641F1), the mechanism of water loss (additional peak) changes. There is a change in the formation of phase contact in the condensed system.

Published
2021
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38. Post-anaesthesia pulmonary complications after use of muscle relaxants (POPULAR): a multicentre, prospective observational study

Author

Abad Gurumeta, Alfredo, Abernethy, Caroline, Abigail, Patrick, Achaibar, Kira, Adam, Emily, Afshari, Arash, Agudelo Montoya, M. Elizabeth, Akgün, Fatma Nur, Aletti, Gabriele, Alkış, Neslihan, Allan, Katie, Allan, Ashley, Allaouchiche, Bernard, Allcock, Clare, Almasy, Emoke, Amey, Isobel, Amigoni, Maria, Andersen, Elin, Andersson, Peder, Anipchenko, Natalya, Antunes, Pedro, Armstrong, Earlene, Aslam, Tayyba Naz, Aslin, Bjorn, Assunção, José Pedro, Ausserer, Julia, Avvai, Mary, Awad, Nahla, Ayas Montero, Begoña, Ayuso, Mercedes, Azevedo, Patricia, Badarau, Victoria, Badescu, Roxana, Baiardo Redaelli, Martina, Baird, Colin, Baird, Yolanda, Baker, Tim, Balaji, Packianathaswamy, Bălan, Cristina, Balandin, Alina, Balescu-Arion, Carmen, Baliuliene, Vilda, Baltasar Isabel, Jorge, Baluch, Saif Nasr, Bandrabur, Daniela, Bankewitz, Carla, Barber, Katrina, Barbera, Francesco, Barcraft-Barnes, Helena, Barletti, Valentina, Barnett, Gill, Baron, Kirsty, Barros, Ana, Barsan, Victoria, Bartlett, Pauline, Batistaki, Chrysanthi, Baumgarten, Georg, Baytas, Volkan, Beauchamp, Nigel, Becerra Cayetano, Isabel A., Bell, Stephanie, Bellandi, Mattia, Belletti, Alessandro, Belmonte Cuenca, Julio, Benitez-Cano, Adela, Beretta, Luigi, Berger, Marc, Bergmann, Nicole, Bergmark, Kristina, Bermudez Lopez, Maria, Bernotaite, Monika, Beurskens, Charlotte, Bidd, Heena, Bifulco, Francesca, Bignami, Elena, Bilic, Aleksandar, Bilskiene, Diana, Bischoff, Petra, Bishop, Luke, Bjonness, Therese, Blaylock, Hether, Blethyn, Kate, Blincoe, Thomas, Blokhin, Ivan, Blunt, Nadia, Boer, Christa, Bois, Grégory, Bonicolini, Eleonora, Booth, Joanna, Borecka-Kedzierska, Miroslawa, Borstnar, Katarina, Borys, Michał, Boselli, Emmanuel, Bouvet, Lionel, Bouwman, Arthur, Bowen, Leonora, Bowrey, Sarah, Boxall, Leigh, Božić, Teodora, Bradley, Tom, Branco, Teresa, Brazzi, Luca, Brazzoni, Marcella, Brear, Tracy, Brogly, Nicolas, Brohi, Farooq, Broms, Jacob, Bubliauskas, Andrius, Bucolo, Gea Erika, Buerkle, Hartmut, Buggy, Donal, Buhre, Wolfgang, Bukauskas, Tomas, Butturini, Francesco, Byttner, Anders, Cabrera Díaz, Itahísa, Calderon, Adriana, Calhau, Ricardo, Callejo, Angel, Cammu, Guy, Campesato, Manuela, Can, Özlem S, Candeias, Margarida, Cantor, Andreea, Carise, Elsa, Carmona, Cristina, Carreteiro, Joana, Carrieri, Cosima, Carter, Anna, Casal, Manuela, Casanova, Irene, Cascella, Marco, Casero, Luis M., Casiraghi, Guiseppina Maria, Castelo-Branco, Laila, Castro Arranz, Carlos, Cernea, Daniela Denisa, Cervantes, Jesoporiol, Chandler, Ben, Charnock, Robert, Chatzimicali, Aikaterini, Chinery, Elane, Chishti, Ahmed, Chondhury, Priyakam, Christie, Emily, Christodoudiles, George, Ciardo, Stefano, Cimpeanu, Luminata, Cindea, Iulia, Cinnella, Gilda, Clark, Sebastian, Clayton, Matthew, Cocu, Simona, Collyer, Thomas, Colvin, Carie, Cope, Sean, Copeta, Filomena, Copotoiu, Sanda-Maria, Correia de Barros, Filinto, Corso, Ruggero Massimo, Cortegiani, Andrea, Costa, Gabriela, Cowton, Amanda, Cox, Nicolas, Craig, James, Cricca, Valentina, Cronin, John, Cunha, Mariana, Cuomo, Arturo, Curley, Katherine, Czuczwar, Mirosław, Dabrowska, Domenika, Damster, Sabrine, Danguy des Déserts, Marc, Daniliuc, Aura, Danninger, Thomas, Darwish, Imad, Dascalu, Corina, Davies, Kirsty, Davies, Simon, De Boer, Hans, De Flaviis, Adelisa, De Selincourt, Gabrielle, Deana, Cristian, Debaene, Bertrand, Debreceni, Gabor, Dedhia, Jatin, Delgado Garcia, Isabel, Della Rocca, Giorgio, Delroy-Buelles, Llana, Desai, Tejal, Dhillon, Parveen, Di Giacinto, Ida, Di Mauro, Piero, Diaz Gomez, Tamara V., Dimitrovski, Aleksandar, Dinic, Vesna, Dîrzu, Dan-Sebastian, Divander, Mona Britt, Dolinar, Janez, Domingues, Susana, Doolan, James, Downes, Charlotte, Dragoescu, Nicoleta Alice, Droc, Gabriela, Dum, Elisabeth, Dumitrescu, Alexandra, Duncan, Louise, Dzurňáková, Paul, Eberl, Susanne, Edwards, Jayne, Edwards, Mark, Ekelund, Kim, Ekengren, Patrik, Elghouty, Eyad, Ellerkmann, Richard, Ellis, Helen, Elme, Andreas, Ernst, Thomas, Errando, Carlos Luis, Estenes, Simao, Ewaldsson, Callis, Farid, Nahla, Featherstone, James, Febres, Daniela, Fedorov, Sergey, Feggeler, Johanna, Feijten, Prisca, Fellmann, Tobias, Fernandez Candil, Juan, Fernandez Castineira, Ana, Fernández Castineira, Juan, Fernando, Aruna, Ferrando, Carlos, Ferreira, Leonia, Ferreira, Patrick, Feyling, Anders, Filipescu, Daniela, Fleischer, Andreas, Floris, Leda, Foerster, Urs, Fox, Benjamin, Franke, Uwe, Frasca, Denis, Frey, Christian, Frost, Victoria, Fullin, Giorgio, Fumagalli, Jacopo, Furneval, Julie, Fusari, Maurizio, Gallacher, Stuart, Galushka, Svetlana, Gambale, Giorgio, Gambino, Irene, Garcia-Perez, Maria Luisa, Garg, Sanjeev, Garlak, Justyna, Gavranovic, Zeljka, Gavrilov, Roman, Gaynor, Lames, Gecaj Gashi, Agreta, Georghiou, Maria, Gerjevic, Bozena, Gferer, Gudrun, Giarratano, Antonino, Gibson, Andy, Gievski, Vanja, Giles, Julian, Gillberg, Lars, Gilowska, Katarzyna, Gilsanz Rodriguez, Fernando, Gioia, Antonio, Giovannoni, Cecilia, Girotra, Vandana, Gkinas, Dimitrios, Gkiokas, George, Godoroja, Daniela, Goebel, Ulrich, Goel, Vandana, Gonzalez, Matilde, Goranovic, Tatjana, Gornik-Wlaszczuk, Ewa, Gosavi, Smita, Gottfridsson, peter, Gottschalk, André, Granell, Manuel, Granstrom, Anna, Grassetto, Alberto, Greenwood, Anna, Grigoras, Ioana, Grintescu, Ioana, Gritsan, Alexey, Gritsan, Galina, Grynyuk, Andriy, Guadagnin, Giovanni Maria, Guarnieri, Marcello, Güçlü, Çiğdem, Guerrero Diez, Maria, Gunenc, Ferim, Günther, Ulf, Gupta, Pawan, Guttenthaler, Vera, Hack, Yvonne, Hafisayena, Ade, Hagau, Natalia, Haldar, Jagannath, Hales, Dawn, Hancı, Volkan, Hanna-Jumma, Sameer, Harazim, Hana, Harlet, Pierre, Harper, Daniel, Harris, Benjamin, Harvey, Orla, Hashimi, Medita, Hawkins, Lesley, Hayes, Conrad, Heaton, James, Heier, Tom, Helliwell, Laurence, Hemmes, Sabrine, Henderson, Kate, Hermanides, Jeroen, Hermanns, Henning, Herrera Hueso, Berta, Hestenes, Siv, Hettiarachchi, Roshane, Highgate, Judith, Hodgson, Keith, Hoelbling, Daniel, Holland, Jonathan, Horhota, Lucian, Hormis, Anil, Hribar, Renata, Hua, Alina, Humphreys, Sally, Humphries, Ryan, Humpliková, Simona, Hunt, Janez, Husnain, Ali, Hussein, Ahmed, Hyams, Benjamin, Iannuccelli, Fabrizio, Ilette, Katie, Ilyas, Carl, Inan, Turgay, India, Immaculada, Ionițăv, Victor, Irwin, Foo, Jain, Vipul, Janez, Benedikt, Jankovic, Radmilo, Jenkins, Sarah, Jenko, Matej, Jimenez, Raquel, Jiménez Gomez, Bárbara, Joachim, Sugganthi, Joelsson-Alm, Eva, John, John, Jonikaite, Lina, Jovic, Miomir, Jungwirth, Bettina, Junke, Etienne, Kabakov, Borys, Kadaoui, Salah-Din, Kanski, Andrzej, Karadag, Süheyla, Karbonskiene, Aurika, Karjagin, Juri, Kasnik, Darja, Katanolli, Fatos, Katsika, Eleni, Kaufmann, Kai, Keane, Helen, Kelly, Martin, Kent, Melanie, Keraitiene, Grazina, Khudhur, Ahmed, Khuenl-Brady, Karin, Kidd, Laurie, King, Siobhan, Kirchgäßner, Katharina, Klancir, Tino, Klucniks, Andris, Knotzer, Johann, Knowlden, Peter, Koers, Lena, Kompan, Janez, Koneti, Kiran K, Kooij, Fabian, Koolen, Eric, Koopman - van Gemert, Anna Wilhelmina Margaretha Maria, Kopp, Kristen, Korfiotis, Dimitrios, Korolkov, Oleg, Kosinová, Martina, Köstenberger, Markus, Kotzinger, Oskar, Kovačević, Marko, Kranke, Peter, Kranke, Eva, Kraus, Christiane, Kraus, Stephanie, Kubitzek, Christiane, Kucharski, Rafal, Kucukguclu, Semih, Kudrashou, Allaksandr, Kumar, Vinayak, Kummen, Live, Kunit, Cornelia, Kushakovsky, Vlad, Kuvaki, Bahar, Kuzmanovska, Biljana, Kyttari, Aikaterina, Landoni, Giovanni, Lau, Gary, Lazarev, Konstantin, Legett, Samantha, Legrottaglie, Anna Maria, Leonardi, Silvia, Leong, Maria, Lercher, Helene, Leuvrey, Matthieu, Leva, Brigitte, Levstek, Meta, Limb, James, Lindholm, Espen, Linton, Fiona, Liperi, Corradero, Lipski, Fabian, Lirk, Philipp, Lisi, Alberto, Lišková, Katarina, Lluch Oltra, Aitana, Loganathan, Vinothan, Lombardi, Stefania, Lopez, Eloisa, Lopez Rodríguez, Maria, Lorenzini, Laura, Lowicka, Malgorzata, Lugovoy, Alexander, Luippold, Madeleine, Lumb, Andrew, Macas, Andrius, Macgregor, Mark, Machado, Humberto, Maciariello, Maria, Madeira, Isabel, Maitan, Stefan, Majewski, Jacek, Maldini, Branka, Malewski, Georgia, Manfredini, Livia, Männer, Olja, Marchand, Bahareh, Marcu, Alexandra, Margalef, Jordi, Margarson, Michael, Marinheiro, Lucia, Markic, Ana, Markovic Bozic, Jasmina, Marrazzo, Francesco, Martin, Jane, Martin Ayuso, Maria, Martinez, Esteher, Martino, Enrico Antonio, Martinson, Victoria, Marusic-Gaser, Katarina, Mascarenhas, Catia, Mathis, Cindy, Matsota, Paraskevi, Mavrommati, Eleni, Mazul Sunko, Branka, McCourt, Killian, McGill, Neil, McKee, Raymond, Meço, Başak Ceyda, Meier, Sonja, Melbourne, Susan, Melbybråthen, Grethe, Meli, Andrea, Melia, Aiden, Melotti, Rita Maria, Menga, Maria Rosaria, Mercer, Pauline, Merotra, Susan, Mescolini, Silvia, Metterlein, Thomas, Michalov, Martin, Michlig, Sam, Midgley, Susan, Milić, Morena, Milojevic, Milan, Miñana, Amanda, Minto, Gary, Mirabella, Lucia, Mirea, Liliana, Mittelstädt, Ludger, Moeglen, Aude, Moise, Alida, Mokini, Zhirajr, Molin, Anna, Moltó, Luis, Monea, Maria Concetta, Montalto, Francesca, Montgomery, Jane, Montgomery, Claire, Montillo, Gerardo, Moore, Sally, Moore, Faye, Moreira, Zelia, Moreno, Tania, Moreno, Ricardo, Moret, Enrique, Moreton, Sarah, Morgan, Marianne, Moro Velasco, Concepción, Morri, Davide, Moull, Alice, Moura, Fernando, Mráz, Peter, Mrozek, Katarzyna, Mukhtar, Karim, Muniyappa, Sudeshkumar, Murray, Heather, Murthy, Burra VS, Mushambi, Mary, Nadolski, Maria, Nardelli, Pasquale, Nardin, Giordano, Navarro Pérez, Rosalía, Naveiro, Andrea, Negri, Manuela, Nesek Adam, Visnja, Neskovic, Vojislava, Neuwersch, Stefan, Neves, Miriam, Nguyen, Bavinh, Ní Eochagáin, Aisling, Nicholas, Caroline, Nightingale, Jeremy, Norrie, Kylie, Novak-Jankovic, Vesna, Novakova, Andrea, Novillo, Marta, Numan, Sandra, Oduro-Dominah, Louise, Oldner, Anders, Oliveira, Isabel, Ologoiu, Daniela, Oloktsidou, Irini, O'Reilly, Rosalind, Orlando, Alessandro, Ovezov, Alexey, Ozbilgin, Sule, Paal, Peter, Padin Barreiro, Lidia, Palugniok, Ryszard, Papaioannou, Alexandra, Papapostolou, Konstantinos, Paranthaman, Prabhakar, Pardey Bracho, Gilda, Parente, Suzana, Parfeni, Alexandru, Pasin, Laura, Passey, Samuel, Pastor, Ernesto, Patch, Sarah, Patil, Andan, Paunescu, Marilena-Alina, Pehboeck, Daniel, Pereira, Manuela, Pereira, Carla, Perez Caballero, Paula, Pérez García, Aníbal, Pérez Soto, Antonia, Perez Tejero, Gisela, Perez-Cerda, Francisco, Pesenti, Antonio, Petta, Rocco, Philippe, Simon, Pickering, David, Pico Veloso, Jandro, Pina, Pedro, Pinho-Oliveira, Vítor, Pinol, Santiago, Pinto, Rita, Pistidda, Laura, Pitterle, Manuela, Piwowarczyk, Paweł, Plotnikova, Olga, Pohl, Holger, Poldermann, Jorinde, Polkovicová, Lucia, Pompei, Livia, Popescu, Mihai, Popović, Radmila, Pota, Vincenzo, Potocnik, Miriam, Potręć, Beata, Potter, Alison, Pramod, Nalwaya, Prchalova, Martina, Preckel, Benedikt, Pugh, Richard, Pulletz, Mark, Radoeshki, Aleksandar, Rafi, Amir, Ragazzi, Riccardo, Raineri Santi, Maurizio, Rajamanickam, Tamiselvan, Rajput, Zahra, Ramachandran, Rajeskar, Ramasamy, Radhika, Ramessur, Suneil, Rao, Roshan, Rasmussen, Anders, Rato, André, Razaque, Usman, Real Navacerrada, M. Isabel, Reavley, Caroline, Reid, James, Reschreiter, Henrik, Rial, Erick, Ribas Carrasco, Patricia, Ribeiro, Sandy, Rich, Nathalie, Richardson, Lydia, Rimaitis, Kestutis, Rimaitis, Marius, Ringvold, Else-Marie, Ripke, Fabian, Ristescu, Irina, Ritchie, Keith, Ródenas, Frederic, Rodrigues, Patrícia, Rogers, Emma, Rogerson, David, Romagnoli, Stefano, Romero, Esther, Rondovic, Goran, Rose, Bernd Oliver, Roth, Winfried, Rotter, Marie-Therese, Rousseau, Guy, Rudjord, Anders, Rueffert, Henrik, Rundgren, Malin, Rupprecht, Korbinian, Rushton, Andrew, Russotto, Vincenzo, Rypulak, Elżbieta, Ryszka, Maciej, Sà, Jacinta, Sà Couto, Paula, Saby, Sandrine, Sagic, Jelena, Saleh, Omar, Sales, Gabriele, Sánchez Sánchez, Yván, Sanghera, Sumayer, Şanli Karip, Ceren, Santiveri Papiol, Francisco Javier, Santos, Sofia, Sarno, Stephen, Saul, Daniel, Saunders, David, Savic, Nenad, Scalco, Loïc, Scanlon, Deborah, Schaller, Stefan, Schax, Christoph, Scheffer, Gert Jan, Schening, Anna, Schiavone, Vincenzo, Schmidt-Ehrenberg, Florian, Schmidt-Mutter, Catherine, Schönberg, Christina, Schopflin, Christian, Schreiber, Jan-Uwe, Schultz, Marcus, Schurig, Marlen, Scott, Carmen, Sebestian, Siby, Sehgal, Selena, Sem, Victoria, Semenas, Egidijus, Serafini, Elena, Serchan, Pashalitsa, Shields, Martin, Shobha, Ramakrishnan, Shosholcheva, Mirjana, Siamansour, Tanja, Siddaiah, Narendra, Siddiqi, Khalid, Sinclair, Rhona, Singh, Permendra, Singh, Rajendra, Sinha, Aneeta, Sinha, Ashok, Skinner, Amanda, Smee, Elizabeth, Smekalova, Olga, Smith, Neil, Smith, Thomas, Smitz, Carine, Smole, Daniel, Sojčić, Nataša, Soler Pedrola, Maria, Somanath, Sameer, Sonksen, Julian, Sorella, Maria Christina, Sörmus, Alar, Soro, Marina, Soto, Carmen, Spada, Anna, Spadaro, Savino, Spaeth, Johannes, Sparr, Harald, Spielmann, Annika, Spindler-Vesel, Alenka, Stamelos, Matthaios, Stancombe L, Liucia, Stanculescu, Andreea, Standl, Thomas, Standley, Tom, Stanek, Ondrej, Stanisavljević, Snežana, Starczewska, Malgorzata, Stäuble, Christiane, Steen, Julie, Stefan, Oana Maria, Stell, Elizabeth, Stera, Caterina, Stevens, Markus, Stoerckel, Marlène, Stošić, Biljana, Stourac, Petr, Stroumpoulis, Konstantinos, Struck, Rafael, Suarez de la Rica, Alejandro, Sultanpori, Altaf, Sundara Rajan, Rajinikanth, Suying, Ong, Svensen, Christer, Swan, Louise, Syrogianni, Paulina, Sysiak, Justyna, Szederjesi, Janos, Taddei, Stefania, Tan Hao, Ern, Tanou, Virginia, Tarabová, Katarina, Tardaguila Sancho, Paula, Tarroso, Maria, Tartaglione, Marco, Taylor, Emma, Tbaily, Lee, Telford, Richard, Terenzoni, Massimo, Theodoraki, Kassiani, Thornley, Helen, Tiganiuc, Liviu, Toim, Hardo, Tomescu, Dana, Tommasino, Concezione, Toni, Jessica, Toninelli, Arturo, Toretti, Ilaria, Townley, Stephen, Trepenaitis, Darius, Trethowan, Brian, Tsaousi, Georgia, Tsiftsi, Aikaterini, Tudor, Adrada, Turan, Güldem, Turhan, Sanem Çakar, Unic-Stojanovic, Dragana, Unterbuchner, Christoph, Unzueta, Carmen, Uranjek, Jasna, Ursic, Tomaz, Vaida, Simona, Valldeperas Ferrer, Silvia, Valldeperas Hernandez, Maria Inmaculada, Valsamidis, Dimitri, Van Beek, Rienk, Van dasselaer, Nick, Van Der Beek, Tim, Van Duivenvoorde, Yoni, van Klei, Wilton A., Van Poorter, Frans, Van Zaane, Bas, Van Zundert, Tom, Van Zyl, Rebekka, Vargas Munoz, Ana Milena, Varsani, Nimu, Vasconcelos, Pedro, Vassilakis, Georgios, Vecchiatini, Tommaso, Vecera, Lubomir, Vercauteren, Marcel, Verdouw, Bas, Verheyen, Veerle, Verri, Marco, Vicari Sottosanti, Luigi Giancarlo, Vico, Manuel, Vidal Mitjans, Patricia, Vilardi, Anna, Vissicchio, Daniela, Vitale, Giovanni, Vitković, Bibiana, Vizcaychipi, Marcela Paola, Voicu, Alexandra, Voje, Minca, Volfová, Ivana, Volta, Carlo Alberto, Von Lutterotti, Theresa, von Tiesenhausen, Anna, Vrecic-Slabe, Simona, Vukcevic, Dejan, Vukovic, Rade, Vullo, P. Agostina, Wade, Andrew, Wallberg, Hanna, Wallden, Jakob, Wallner, Johann, Walther Sturesson, Louise, Watson, Davina, Weber, Stefan, Wegiel Leskiewiq, Anna, Weller, Debbie, Wensing, Carine, Werkmann, Markus, Westberg, Henrik, Wikström, Erik, Williams, Benedict, Wilson, Robin, Wirth, Steffen, Wittmann, Maria, Wood, Laura, Wright, Stella, Zachoval, Christian, Zambon, Massimo, Zampieri, Silvia, Zampone, Salvatore, Zangrillo, Alberto, Zani, Gianluca, Zavackiene, Asta, Zieglerder, Raphael, Zonneveldt, Harry, Zsisku, Lajos, Zucker, Tom-Philipp, Żukowski, Maciej, Zuleika, Mehrun, Zupanĕiĕ, Darja, Kirmeier, Eva, Eriksson, Lars I, Lewald, Heidrun, Jonsson Fagerlund, Malin, Hoeft, Andreas, Hollmann, Markus, Meistelman, Claude, Hunter, Jennifer M, Ulm, Kurt, and Blobner, Manfred

Published
2019
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39. Effect of genetic and non-genetic factors on the reproduction traits in Ukrainian Meat sows

Author

S. S. Kramarenko, S. I. Lugovoy, A. V. Lykhach, A. S. Kramarenko, V. Ya. Lykhach, and A. A. Slobodianyk

Subjects
parity, farrowing year and month, dam line, reproduction traits, ukrainian meat breed, sows., Veterinary medicine, SF600-1100
Abstract

Purebred Ukrainian Meat (UM) breed pigs, which came from Limited Liability Company “Tavriyskie Svin'I” herd located in Skadovsky district (Kherson region, Ukraine), were studied. The reproduction traits investigated were total number of piglets born (TNB), number of piglets born alive (NBA), frequency of stillborn piglets (FSB), number of weaned piglets (NW), total weaning weight of litter (TWWL) and average piglet weaning weight (APWW) for sows farrowing between 2006 and 2012. The analysis covered reproductive characteristics of 49 sows in the first nine parities (n = 457 litters). The sows originated from different the UM dam lines. Two month farrowing periods (January/February, March/April, May/June, July/August, September/October, and November/December) were constructed and used for reproduction traits. Data were analyzed by use of general linear model (GLM) procedure with the statistical package MINITAB v. 15. The estimates of reproduction traits for UM sows were 10.73 ± 0.43 ind. for TNB, 9.36 ± 0.39 ind. for NBA, 10.5 ± 2.2% for FSB, 9.07 ± 0.30 ind. for NW, 128.1 ± 5.7 kg for TWWL and 14.39 ± 0.49 kg for APWW. Litter size had a nonlinear effect on probability of stillbirth; piglets from small and large litters were more susceptible to die at farrowing with a minimum probability (near 5.0%) for intermediate litters of 8–10 piglets. Results here indicate that weak genetic variation exists in different the UM dam lines for the reproduction traits. Based on the obtained results it can be concluded that influence of parity on the observed traits of litter size was highly statistically significant (P < 0.05–0.001). The TNB, NBA and NW decreased in the first-second parities and thereafter increased with the number of parities, reaching a maximum in parities 5 and 6. FSB was lowest in parities 2, 3 and 5. Farrowing month significantly influenced some reproduction traits also. Sows farrowing in May/June had the highest NW, TWWL and APWW.

Published
2019
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40. Kant’s Dissertation for the Master’s Degree On Fire and the Transformations of his Ideas of Ethereal Matter

Author

Lugovoy S.V

Subjects
kant, eighteenth-century natural philosophy, master’s dissertation, ether, matter, space, Philosophy (General), B1-5802
Abstract

Kant’s dissertation for the Master’s degree Succinct Exposition of Some Meditations on Fire was written in Latin in 1755 as a sample (specimen) preceding a Master’s exam, but its first printing did not appear until 1838. What is the relevance of this Master’s dissertation for historical and philosophical studies? To answer this question I analyse the structure and give a brief summary of the dissertation, look at the history of its writing and try to identify the place of this work among Kant’s other papers on natural philosophy. I then demonstrate that Kant’s concept of ether as an elastic matter of fire, heat and light containing the forces of attraction and repulsion originates in the dissertation On Fire. I identify the provisions in Kant’s early works which he later develops in the Master’s dissertation and establish continuity between the text of On Fire and the so-called Physical Monadology, draw parallels between the ideas enunciated by Kant in his first dissertation and the interpretation of ether in the printed works that followed. Finally, I put forward the hypothesis of the heuristic potential of the On Fire treatise for the analysis of Kant’s manuscript legacy. Perhaps this dissertation will enable researchers to clear up some tangled propositions in Kant’s Opus Postumum. However, a series of further studies is needed to verify the hypothesis.

Published
2019
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41. On Fire. Dissertation for the Master’s Degree

Author

Lugovoy S.V

Subjects
Philosophy (General), B1-5802
Abstract

The text of Kant’s first dissertation is a translation from Latin from an academic publication of a collection of Kant’s works: Kant, I. Meditationum quarundam de igne succincta delineatio... In: Königlich Preußischen Akademie der Wissenschaften, ed., 1910. Kants Gesammelte Schriften. 1. Abhandling: Werke. Band I: Vorkritische Schriften I, 1747- 1756. Berlin: Georg Reimer, 1910, pp. 369-384. The publication is available at https://korpora.zim.uni-duisburgessen.de/kant/aa01/ [Accessed 10 March 2019]. Pagination and illustrations are from the same publication, the page numbers are in square brackets at the beginning of the page. Page footnotes, if indicated, draw on the commentaries of Lewis White Beck, the translator of the dissertation into English from the following edition: Kant, I., 2012. Natural Science, edited by E. Watkins, translated by L.W. Beck, J. B. Edwards, O. Reinhardt, M. Schönfeld and E. Watkins. Cambridge: Cambridge University Press, pp. 713-714. It was important for the translator to follow the course of Kant’s thought and as far as possible preserve his style, including recurring words. Natural science terminology keeps as close as possible to the dissertation text, so instead of the term “gas”, which Kant does not use, the translator resorts to a loan-translation “elastic liquid,” harking back to the Russian term упругая жидкость (elastic liquid) which was proposed by Mikhail V. Lomonosov but did not catch on. For the same reason the translator uses the loan translation “moment” instead of the more common “motive force”. “Gradus”, however, is always translated as “degree” for the sake of uniformity. All the translator’s additions to the Kantian text are within square brackets. When the meaning of a word is translated in a form that departs from the original meaning due to context the Latin original is attached within round brackets in the grammatical form used by Kant. To facilitate understanding, long compound sentences of the Kantian text are sometimes broken up into several simple sentences. The structure of the text and title page format have been preserved. The translator would like to express sincere gratitude to Alexei N. Krouglov and Svyatopolk N. Yeschenko for their valuable advice, remarks and help and support in preparing this publication.

Published
2019
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42. Pyrolytical Processing of Flax Shive and It Derivatives

Author

Yury Lugovoy, Kirill Chalov, Antonina Stepacheva, Yury Kosivtsov, Alexander Sidorov, and Mikhail Sulman

Subjects
Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895
Abstract

The article presents the results on the thermal processing of the samples of flax production - flax shive and the cellulose residue of flax shive. Experimental data on the conversion of selected samples of flax production waste obtained on a laboratory installation of slow pyrolysis in a temperature range of 500-750 ? are presented. The composition of gaseous pyrolysis products has been studied in detail and the main content of methane, hydrogen, and carbon oxides in the course of the process have been determined. Data on the composition of liquid products of pyrolysis of selected samples of plant biomass using the method of gas chromatography-mass spectrometry are presented. As part of the work, elemental analysis of samples of solid carbon-containing residues for the studied samples of flax and cellulose residue was carried out, and an analysis was carried out by the method of low-temperature adsorption of nitrogen.

Published
2021
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46. A pathway design framework for national low greenhouse gas emission development strategies

Author

Waisman, Henri, Bataille, Chris, Winkler, Harald, Jotzo, Frank, Shukla, Priyadarshi, Colombier, Michel, Buira, Daniel, Criqui, Patrick, Fischedick, Manfred, Kainuma, Mikiko, La Rovere, Emilio, Pye, Steve, Safonov, George, Siagian, Ucok, Teng, Fei, Virdis, Maria-Rosa, Williams, Jim, Young, Soogil, Anandarajah, Gabrial, Boer, Rizaldi, Cho, Yongsun, Denis-Ryan, Amandine, Dhar, Subash, Gaeta, Maria, Gesteira, Claudio, Haley, Ben, Hourcade, Jean-Charles, Liu, Qiang, Lugovoy, Oleg, Masui, Toshihiko, Mathy, Sandrine, Oshiro, Ken, Parrado, Ramiro, Pathak, Minal, Potashnikov, Vladimir, Samadi, Sascha, Sawyer, David, Spencer, Thomas, Tovilla, Jordi, and Trollip, Hilton

Published
2019
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47. Synthetic Analogue of Leu-Enkephalin Prevents Endothelial Dysfunction in vitro

Author

O. A. Grebenchikov, A. M. Ovezov, Yu. V. Skripkin, T. S. Zabelina, O. N. Ulitkina, A. V. Lugovoy, A. S. Prikhodko, A. Yu. Ryzhkov, and R. A. Zinovkin

Subjects
synthetic leu-enkephalin stabilized analogue, endothelial permeability, systemic inflammatory response syndrome, septic shock, dalargin, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9
Abstract

The purpose of the study was to determine the efficacy of a synthetic leu-enkephalin stabilized analogue to prevent damage of endothelial cells monolayer in vitro caused by serum samples from septic shock patients.Materials and methods. The experiments were performed using the EaHy.926 endothelial cells monolayer. We studied the in vitro effect of synthetic leu-enkephalin analogue on the cell damage caused by serum samples from five septic shock patients. The status of endothelial intercellular junctions was estimated by immunofluorescence microscopy and western blot with antibodies against adherens junction protein, VE-cadherin, and against the tight junctions protein, claudin. Cell viability was determined by staining with propidium iodide.Results. Preconditioning with a synthetic leu-enkephalin analogue (10, 50 and 100 μg/ml) of endothelial cells in vitro prevented the destruction of both tight and adherens junction and partially prevented endothelial cell death.Conclusion. Preconditioning with a synthetic leu-enkephalin analogue partially prevents endothelial cell damage caused by exposure to septic patients’ sera in vitro. These data ensure the need for clinical trials on the effectiveness of a synthetic leu-enkephalin analogue for prevention of sepsis-associated endothelial dysfunction in clinics.

Published
2018
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48. Genetic diversity of Ukrainian local pig breeds based on microsatellite markers

Author

S. S. Kramarenko, S. I. Lugovoy, V. R. Kharzinova, V. Y. Lykhach, A. S. Kramarenko, and A. V. Lykhach

Subjects
str loci, genetic characterization, swine, ukraine, Science
Abstract

Preserving the current diversity of the living material on Earth is fundamental for the survival of future generations . A study was conducted to investigate the genetic diversity of Ukrainian local pig breeds. A total of 350 pigs representing five local pig breeds from Ukraine (Mirgorod – MIR, Poltava Meat – PM, Ukrainian Meat – UM, Ukrainian White Steppe – UWS and Ukrainian Spotted Steppe – USS) and one commercial breed (Duroc, DUR) were sampled. Twelve microsatellite loci (SW24, S0155, SW72, SW951, S0386, S0355, SW240, SW857, S0101, SW936, SW911 and S0228) were selected and belong to the list of microsatellite markers recommended by ISAG. The results indicate that there exists, in general, a high degree of genetic variability within the five Ukrainian local pig breeds. However, the genetic variability in the MIR and PM breeds was significantly lower (mean Na = 2.92–3.92; Ho = 0.382–0.411; FIS = 0.178–0.184) than in the other three Ukrainian local pig breeds – UM, UWS and USS (mean Na = 5.00–8.42; Ho = 0.549–0.668; FIS = 0.027–0.066). Thirty-four private alleles were identified among the six analyzed genetic groups which were distributed between 11 of the 12 loci. A high number of alleles typical for the breed (private alleles) was observed in Duroc pigs – 9 alleles did not occur in Ukrainian local pig breeds. The HWE test showed that all of the polymorphic loci deviated from HWE (P < 0.05) in at least one population. Loci S0355 (5), S0386 (4) and SW24 (4) presented a higher number of populations in imbalance. The mean FST showed that approximately 77.8% of the genetic variation was within-population and 12.2% was across the populations. The five Ukrainian local breeds were classified into two major groups, according to the phylogenetic tree, which was based on standard genetic distance. Overall, we found that 92.6% of the individual pigs were correctly assigned (324 out of 350) to the respective breed of origin, which is likely a consequence of the well-defined breed structure. Probabilities from the allocation test of individuals for the six pig genetic groups were estimated with Structure Harvester. In cluster 1 the highest grouping probabilities were found for the MIR (0.917) and PM (0.750) breeds. Local breeds UM (0.824) and USS (0.772) were grouped in cluster 2. Cluster 3 was related to the local pig breed USW (0.873). Cluster 4 presented high allocation probabilities for the commercial pig breed Duroc (0.924). The obtained results are important for the future conservation of Ukrainian local pig breeds.

Published
2018
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50. Incidence of severe critical events in paediatric anaesthesia (APRICOT): a prospective multicentre observational study in 261 hospitals in Europe

Author

Klimscha, Walter, Konecny, Regina, Luntzer, Robert, Morawk-Wintersperger, Ulrike, Neiger, Franz, Rustemeyer, Lydia, Breschan, Christian, Frey, Denise, Platzer, Manuela, Germann, Reinhard, Oeding, Joachim, Stoegermüller, Birgit, Ziegler, Bernhard, Brotatsch, Philipp, Gutmann, Anton, Mausser, Gerlinde, Messerer, Brigitte, Toller, Wolfgang, Vittinghoff, Maria, Zangl, Gregor, Seidel-Ahyai, Natascha, Hochhold, Christoph, Kroess, Ruth, Paal, Peter, Cnudde, Steven, Coucke, Patricia, Loveniers, Birgit, Mitchell, John, Kahn, David, Pirotte, Thierry, Pregardien, Caroline, Veyckemans, Francis, Coppens, Marc, De Hert, Stefan, Heyse, Björn, Neckebroek, Martine, Parashchanka, Aliaksandra, Van Limmen, Jurgen, Van Den Eynde, Nancy, Vanpeteghem, Caroline, Wyffels, Piet, Lalot, Michaël, Lechat, Jean-Paul, Stevens, France, Casaer, Sari, De Groote, Françoise, De Pooter, Françoise, De Villé, Andrée, Gerin, Marc, Magasich, Natalia, Sanchez Torres, Cristel, Van Deenen, Denise, Berghmans, Johan, Himpe, Dirk, Roofthooft, Eva, Joukes, Ellen, Smitz, Carine, Van Reeth, Veronique, Huygens, Christel, Lauweryns, Julie, De Smet, Karen, Najafi, Nadia, Poelaert, Jan, Van de Velde, Anne, Van Mossevelde, Veerle, Bekavac, Ivan, Butkovic, Diana, Heli Litvic, Dubravka, Kerovec Soric, Ivana, Maretic, Hrvoje, Moscatello, Djurdjica, Popovic, Ljiljana, Micici, Slobodan, Stuck Tus, Ivana, Kalagac Fabris, Lada, Simurina, Tatjana, Sulen, Nina, Kesic-Valpotic, Gordana, Djapic, Dajana, Žurek, Jirí, Jureckova, Lucie, Mackova, Iveta, Skacel, Monika, Weinlichova, Stanislava, Divák, Jan, Frelich, Michal, Urbanec, René, Biskupova, Vera, Mixa, Vladimir, Pavlickova, Jana, Afshari, Arash, Bøttger, Morten, Ellekvist, Marguerite B., Johansen, Mathias, Ingeborg Madsen, Birgitte, Christian Nilsson, Jens, Schousboe, Birgitte MB, Clausen, Nicola G., Hansen, Tom G., Phaff Steen, Nick, Ilmoja, Mari-Liis, Tonise, Virge, Karjagin, Juri, Kikas, Reet, Isohanni, Mika, Lyly, Anniina, Takala, Annika, Happo, Johanna, Kiviluoma, Kai, Martikainen, Kati, Aantaa, Riku, Manner, Tuula, Vilo, Sanna, Amory, Catherine, Ludot, Hugues, Lambotte, Patricia, Busche, René, Jacqmarcq, Olivier, Lejus, Corinne, Corouge, Julien, Erb, Christian, Garrigue, Delphine, Gillet, Patricia, Laffargue, Anne, Lambelin, Veronique, Le Freche, Hélène, Peresbota, Daliana, Richart, Pierre, Berton, Jerome, Chapotte, Catherine, Colbus, Laurent, Lehousse, Thierry, Monrigal, Jean, Baujard, Catherine, Roulleau, Philippe, Staiti, Giuseppe, Batoz, Hélène, Bordes, Maryline, Didier, Anne, Hamonic, Yann, Lagarde, Sylvaine, Nouette-Gaulain, Karine, Semjen, François, Zaghet, Brigitte, Dekens, Jacky, Delcuze, Axelle, Dupont, Hervé, Legrand, Aurélien, Raffoflandreur, Celine, Audren, Noémie, Camus, Blandine, Cartal, Marielle, Chazelet, Chantal, Davin, Isabelle, Guillier, Marion, Desjeux, Luc, Larcher, Claire, Grein, Elodie, Leclercq, Mickeal, Levitchi, Roxana, Rosu, Lilica, Simon, Dominique, Zang, Aurélien, Migeon, Anne, Gagey, Anne-Charlotte, Bourdaud, Nathalie, Carre, Anne-Charlotte, Duflo, Frédéric, Riche, Jean-Claude, Robert, Philippe, Druot, Emilie, Maupain, Olivier, Orliaguet, Gilles, Sabau, Lucie, Taright, Hanna, Uhrig, Lynn, Verchere-Montmayeur, Juliette, Debrabant, Lise, Pilla, Clotaire, Podvin, Alexandre, Roth, Benjamin, Dahmani, Souhayl, Julien-Marsollier, Florence, Sabourdin, Nada, Alexandri, Bogdan, Brezac, Gilles, de la Brière, Francois, Hayem, Catherine, Lhubat, Elizabeth, Paul Mission, Jean, Rémond, Charlotte, Dadure, Christophe, Maniora, Maud, Marie, Anais, Pirat, Philippe, Saour, Anne-Charlotte, Sola, Chrystelle, Ecoffey, Claude, Wodey, Eric, Adam, Christian, Standl, Thomas, Schindler, Ehrenfried, Yamamoto, Tomohiro, Brackhahn, Michael, Eich, Christoph Bernhard, Guericke, Holger, Kindermann, Petra, Laschat, Michael, Schink, Cornel, Wappler, Frank, Hoehne, Claudia, Skordou, Natalia, Ulrici, Johanna, Jetzek-Zader, Martin, Kienbaum, Peter, Meyer-Treschan, Tanja, Picker, Olaf, Schaefer, Maximilian S., Mielke, Golo, Baethge, Sabine, Ramminger, Axel, Bauer, Martin, Bollinger, Matthias, Hinz, José, Quintel, Michael, Russo, Sebastian G., Bauer, Michael, Geil, Dfominik, Kortgen, Andreas, Preussler, Niels-Peter, Hofmann, Ulrich, Raber, Manfred, Reindl, Doris, Becke, Karin, Oppenrieder, Karin, Schierlinger, Bettina, Roth, Jens, Funk, Wolfgang, Fischer, Thomas, Gernoth, Christian, Wiefelspütz, Christina, Volger, Hauke, Zederer, Nicole, Diers, Anja, Huber, Matthias, Schorer, Clemens, Weyland, Andreas, Schwarzkopf, Konrad, Grau, Catharina, Roth, Winfried, Holy, Rolf, Mader, Thomas, Peter, Laura, Supthut, Hauke, Kuehhirt, Thomas, Milde, Alexander, Fiedler, Fritz, Isselhorst, Carsten, Grundmann, Ulrich, Pattar, Alexander, Reinert, Jennifer, Ehm, Birgit, Fritzsche, Katrin, Gaebler, Ralf, Meybohm, Patrick, Hein, Maximilian, Guzman, Ines, Jokinen, Johanna, Kranke, Peter, Goebel, Ulrich, Harris, Sarah, Eisner, Christoph, Ochsenreiter, Miriam, Schoeler, Michael, Thil, Elke, Ellerkmann, Richard, Hoeft, Andreas, Neumann, Claudia, Weber, Stefan, Keilhauer, Julia, Kloessing, Jan, Schramm, Michael, Trieschmann, Uwe, Knauss, Kristina, Sinner, Barbara, Steinmann, Johannes, Koessler, Herbert, Kalliardou, Evagelia, Malisiova, Anna, Tsiotou, Adelais, Chloropoulou, Pelagia, Chrysi, Mpratzou, Iordanidou, Despoina, Ntavlis, Merkourios, Boda, Krisztina B, Guerin, Christilynn, Irwin, Janice, Magner, Claire, Nakhjavani, Solmaz, O'Hare, Brendan, Galvin, Deborah, Jamil, Yosry, Lesmes, Carlos, Barak, Yuri, Fisher, Haran, Kachko, Ludmyla, Katz, Jacob, Kirilov, Dmitry, Levinzon, Michael, Manevich, Yair, Nekrasov, Konstantin, Peled, Elia, Sanko, Elena, Schmain, Dmitri, Sheinkin, Olga, Simhi, Eliahu, Tarabikin, Alex, Trabkin, Evelina, Yagudaev, Irena, Zeitlin, Yelena, Zunser, Igor, Cerutti, Elisabetta, Maddalena Schellino, Maria, Valzan, Silvia, Lucia Pinciroli, Rosa, Bortone, Luciano, Cerati, Giorgia, Salici, Fabiana, Bussolin, Leonardo, Rizzo, Giuliana, Rossetti, Francesca, Marchesini, Laura, Tesoro, Simonetta, De 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Khotcholava, Magda, Guido Locatelli, Bruno, Sonzogni, Valter, Starita, Giusi, Almenrader, Nicole, Aurilio, Caterina, Sansone, Pasquale, Albarello, Raffaella, Bracci, Paolo, Cecini, Mariateresa, Cristina Mondardini, Maria, Pasini, Lorena, Vason, Milo, Zani, Gianluca, Zoppellari, Roberto, Pistidda, Laura, Cortegiani, Andrea, Maurizio Raineri, Santi, Hasani, Antigona, Hashimi, Medita, Ancupans, Agris, Barzdina, Arta, Straume, Zane, Zundane, Anda, Chlopin, Mikhail, Gestautaite, Dalia, Lukosiene, Laura, Paliokaite, Evelina, Razlevice, Ilona, Armoniene, Inesa, Bernotiene, Aurelija, Daugelavicius, Vidunas, Dockiene, Ilona, Gaidelyte, Lina, Saviciene, Nijole, Krikstaponiene, Jolita, Sidlovskaite-Baltake, Dominika, Stasevski, Vladyslav, Vaitoskaite, Agne, Gatt, David, Mifsud, Stephanie, Zammit, Simone, Allison, Celia, Aslami, Hamid, Eberl, Susanne, van Stijn, Mireille F M, Stevens, Markus F, Punt, Kees, van Osch, Rob, Bauwman, Arthur, Scholten, Harm, Svircevic, Vesna, Adriaens, Veronique, Dirckx, Maaike, Dogger, Jaap, Dons-Sinke, Ilse, Machotta, Andreas, Moors, Xavier, Rad, Mandana, Staals, Lonneke, van der Knijff - van Dortmont, Anouk, van der Marel, Caroline, Sieben, Anne, van der Zwan, Tim, Veldhuizen, Marianne, Alders, David, Buhre, Wolfgang, Vermeulen, Petronella M, Engel, Nicole, Vossen, Carine, Mahadewsing, Ravin, Meijer, Patrick, Gerling, Volker, van der Schatte Olivier, Roelof, van Doorn, Thea, Vons Mark Hendriks, Kristy, Lako, Sandra, jan Scheffer, Gert, Tielens, Luc, Voet, Marieke, Absalom, Anthony, Bergsma, Margot, Spanjer, Vera, Spanjersberg, Rob, van de Riet, Yvette, Volkers, Martin, de Graaff, Jurgen C., Hopman, Geranne A.J., Kappen, Teus H., Hannie, J., Megens, A.M., Numan, Sandra C., Schouten, Anton N.J., Turner, Nigel M., Van Der Werff, Désirée B.M., Wensing, Renee T.M., Ephraim, Erik, Nolte, Claire, Reikvam, Tore, Fredrik Lund, Ole, Skaaden, Lene, Marthe Ballovarre, Kari, Bakken Boerke, Wenche, Grindheim, Guro, Lindenskov, Pal H H, Beate Solas, Anne, 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Basov, Mikhail, Kochkin, Vladimir, Lazarev, Vladimir, Chizhov, Dmitri, Ostreikov, Ivan, Tolasov, Konstantin, Budic, Ivana, Marjanovic, Vesna, Draskovic, Biljana, Pandurov, Marina, Simin, Jovana, Dolinaj, Vladimir, Janjevic, Dusanka, Mandras, Ana, Mircetic, Maja, Petrovic, Sladjana, Rebac, Vlatka, Slavkovic, Bojana, Stevanovic, Vesna, Velcev, Ana, Knezevic, Mirjana, Milojevic, Irina, Puric, Selena, Simic, Irena, Stevic, Marija, Stranjanac, Vladimir, Simic, Dusica, Cabanova, Barbora, Hanula, Miloslav, Grynyuk, Andry, Berger, Jelena, Cerne, Uros, Nastran, Andraz, Pirc, Dejan, Popic, Rok, Stupnik, Spela, Rubio, Paloma, del Río, Cristina, Benito, Pilar, Pino, Gema, Gutierrez, Ignacio, Gutierrez Valcarcel, Andrea, León Carsi, Irene, Perez Garcia, Anibal, López Galera, Sílvia, Marco Valls, Joan, Ricol Lainez, Laura, Vallejo Tarrat, Andrea, Artes, David, Banus, Ester, Chirichiello, Luca, De Abreu, Leidy, De Josemaria, Belen, Helena Gaitan, M, Garces, Antonio, Lazaro, Juan J, Manen Berga, 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Thomas, Jöhr, Martin, Mauch, Jacqueline, Anselmi, Luciano, Anselmi, Irene, Jacomet, Alfred, Oberhauser, Markus, Wossner, Stephanie, Zettl, Angelika, Erb, Thomas, Mackiewicz, Tomasz, Simitzes, Helena, Ozer, Yetkin, Takil, Arzu, Alanoglu, Zekeriyya, Bermede, Onat, Cakar Turhan, K.Sanem, Alkis, Neslihan, Yildirim Guclu, Cigdem, Ceyda Meco, Basak, Hatipoglu, Zehra, Ozcengiz, Dilek, Begec, Zekine, Ilksen Toprak, Huseyin, Kendigelen, Pinar, Cigdem Tütüncü, Ayse, Karadeniz, Meltem Savran, Seyhan Ozkan, Tulay, Sivrikoz, Nuket, Kemal Arslantas, Mustafa, Hizal, Ayse, Tore Altun, Gülbin, Umuroglu, Tumay, Baris, Sibel, Kazak Bengisun, Zuleyha, Goncharenko, Galyna, Khrapak, Maksym, Klymenko, Tetyana, Pavlenko, Vitaliy, Prysiazhniuk, Dmytro, Rudio, Olga, Varyvoda, Mykhailo, Vodianytskyi, Sergii, Boryshkevych, Ivanna, Kyselova, Iryna, Trikash, Nikolay, Albokrinov, Andrew, Perova-Sharonova, Valentina, Sklyar, Vitaliy, Surkov, Denis, Abdelaal, Amr, Barber, Nicola, Checuti, Sarah, Godsiff, Leisha, Johanne, Lynch, Simpson, Joanna, Underhill, Helen, Diwan, Rishi, Kelgeri, Nivedita, Masip, Nuria, Ravi, Radha, Roberts, Steve, Cillis, Annagrazia, Marcus, Ritchie, Merella, Federica, Love, David, Baraggia, Paolo, Bird, Victoria, Hussey, Joseph, Alderson, Peter, Bartholomew, Karen, Moncreiff, Michael, Davidson, Sarah, Hare, Alison, Kotecha, Ami, Lee, Corina, Liyanage, Ganga, Patel, Shivali, Samani, Amee, Abou-Samra, Mark, Boyd, Matthew, Hullatt, Laurence, Levy, David, Pauling, Mark, Sharman, Sarah-Jane, Smith, Natalie, Rutherford, John, Cavalier, Alison, Locke, Christie, Sage, Frederic, Bapat, Smita, Hammerschlag, Jacinda, Ioannou, Ioannis, King, Stephanie, Pegg, Rachel, Salota, Vishal, Sketcher, Jonathan, Thadsad, Muthu, Zeitlin, Deborah, Jack, Ewan, Lang, Colin, Ahmed, Samira, Ayyash, Reema, Bari, Francoise, Bell, Sarah J, Elizabeth Biercamp, Claire, Briggs, Sandra, Gabriella Elena Clement, Maria, Dalton, Mark, Ali Eissa Eid, Mohamed, Gandhi, Monica, Harmen Herrema, Idse, Khaffaf, Ranj, Jeng Min Law, Savio, McClintock, Joanna, Ireland, Nicholas, Majid Saleem, Mohammed, Smith, Fiona, Cohen, Marc, Lee, Clover-Ann, O'Donahue, Lizanne, Powell, Alex, Rawlinson, Ellen, Snoek, Aarjan, Weiss, Katja, Wellesley, Hugo, Crawford, Michael, Abdel-Hafiz, Mostafa, Day, Alexandra, Rajamani, Balaji, Saha, Rita, Wright, Dave, Chee, Lew-Chin, Bew, Stephanie, Homer, Rachel, Malarkkan, Nalini, Wolfe Barry, Juliet, Angadi, Pradeep, Cagney, Brid, De Melo, Eric, Dekker, Elsa, Helm, Emma, Jones, Gareth, Peiris, Kawshala, Russell, William, Slater, Patricia, Sodhi, Puja, Browning, Mike, Phillips, Trudie, Van Hecke, Rachel, Muir, Vimty, Singh, Piyush, Soskova, Tereza, Cumming, Craig, Farquharson, Pamela, Pearson, Karen, Shaw, Neil, Whiteside, Jonathan, Whyte, Emma, Byers, Gordon, Davies, Kay, Engelhardt, Thomas, Faliszewski, Isabella, Johnston, Graham, Kaufmann, Nils, Kusnirikova, Zuzana, Wilson, Graham, Carachi, Peter, Makin, Andrew, Foster, Brian, Lipczynski, Dariusz, Mawer, Rebecca, Rutherford, William, Rogerson, David, Rushman, Sarah, Taylor, Christopher, Tomlinson, William, Dix, Philippa, Woodward, Tom, Bell, Graham, Boyle, David, Cloherty, Marianne, Cullen, Julia, Cullen, Pauline, Fairgrieve, Ross, Ghent, Robert, Glasgow, Russell, Gordeeva, Elena, Harden, Alison, Hivey, Sarah, Jerome, Kevin, McKee, Lesley, Morton, Neil, Pribul, Vicky, Sinclair, John, Steiner, Maria, Steward, Heather, Sweeney, Lorraine, Thomson, Wendy, Whiteside, Jeanette, Dalton, Andrew, Ross, Mark, Smith, Carolyn, Allen, Claire, Anders, Nicola, Barlow, Victoria, Bassett, Mike, Darwin, Leanne, Davison, Rachel, Diacono, Jacques, Hobbs, Amy, Hutchinson, Adel, Lomas, Bernadette, Lonsdale, Hannah, Nasser, Leila, Oshan, Vimmi, Patel, Pradip, Raistrick, Christopher, Scott-Warren, Victoria, Talbot, Laura, Wai, Carolynn, Childs, Sophie, Dickinson, Matthew, Bloomfield, Tom, Garrioch, Sweyn, Watson, Karen, Gaynor, James, Harrison, Richard, Lee, Juliette, Blythe, Elizabeth, Dorman, Teresa, Eissa, Ayman, Ellwood, James, Gooch, Ingrid, Hearn, Robert, Hodgetts, Vanessa, John, Robert, Kirton, Christine, Ladak, Nadia, Morgan, Judith, Plant, Nina, Shepherd, Elizabeth, Short, Judith, Stack, Charles, Steel, Simon, Taylor, Matthew, Thomas, Deborah, Wilson, Catharine, Wilson-Smith, Elaine, Bradbury, Carol L., Hussain, Nageena, Mayell, Antonia, Mesbah, Ahmed, Qureshi, Arif, Vaidyanath, Chandra, Geary, Tim, Hawksworth, Chris, Parasuraman, Tamaraichelvi, Perry, Nicole, Banerjee, Indrani, Barr, Katharine, Butler, Patrick, Davies, Jack, Flewin, Lisa, Gande, Richard, Montague, James, Plumb, James, Pratt, Thomas, Sutherland, Paul, Vail, Hannah, Wilkins, Andrew, Hunter, Catherine, Russell, Susan, Thomas, Alun, Mifsud, Mark, Strachan, Dominic, Leva, Brigitte, Plichon, Benoit, Harlet, Pierre, Virag, Katalin, Hansen, Tom G, Morton, Neil S, and Boda, Krisztina

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2017
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