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2. Understanding rare earth elements as critical raw materials

Author

Leal, W, Kotter, R, Özuyar, PG, Abubakar, IR, Eustachio, JHPP, Matandirotya, NR, Leal, W, Kotter, R, Özuyar, PG, Abubakar, IR, Eustachio, JHPP, and Matandirotya, NR

Abstract

The boom in technological advances in recent decades has led to increased demand for rare earth elements (REEs) (also known as rare earth metals) across various industries with wide-ranging industrial applications, including in the clean energy sector, but with some environmental, economic, and social footprint concerns. This paper reviews the complexities of the production, consumption, and reuse or recovery of REEs, presenting current trends in terms of potentials and challenges associated with this. This paper in particular focuses on the supply, demand, and (environmental and economic) sustainability of REEs, as a subset of critical raw materials. It does so via a critical stocktaking of key discussions and debates in the field over the past 15 years up until now, through a thematic analysis of the published and gray (policy) literature with a grounded theory approach. The paper finds that carefully balanced lifecycle sustainability assessments are needed for assessing the respective dimensions of the extraction, processing, and reuse or recovery methods for different types of REE sources and supplies to meet current and future demands. It furthermore diagnoses the need for taking into account some shifts and substitutions among REEs also for reasons of cost and locational supplies for the security of supply. Finally, the paper provides some overall policy recommendations for addressing current problems, with a conceptual framing of the UN Sustainable Development Goals.

Published
2023

3. SDGs in the European Region

Author

Leal Filho, W, Dinis, MAP, Moggi, S, Price, E, Hope, A, Azul, AA, Diaz-Sarachaga JM, Doni, F, Gordon, NA, Kotter, R, Kush-Brandt, S, Manolas, E, Marìn, JL, Mifsud, MC, Pace, PJ, Saari, UA, Tsani, S, Williams, S, Dinis, M, Azul, A, Diaz-Sarachaga, J, Gordon, N, Marìn, J, Mifsud, M, Pace, P, Saari, U, Leal Filho, W, Dinis, MAP, Moggi, S, Price, E, Hope, A, Azul, AA, Diaz-Sarachaga JM, Doni, F, Gordon, NA, Kotter, R, Kush-Brandt, S, Manolas, E, Marìn, JL, Mifsud, MC, Pace, PJ, Saari, UA, Tsani, S, Williams, S, Dinis, M, Azul, A, Diaz-Sarachaga, J, Gordon, N, Marìn, J, Mifsud, M, Pace, P, and Saari, U

Abstract

This volume describes the thinking on sustainable development and a variety of initiatives across Europe, illustrating regional efforts to foster sustainable communities and ecological and social innovation. It contains various contributions which showcase examples of thinking, economic and social structures and in consumption and production patterns needed, to implement the SDGs. This book is part of the "100 papers to accelerate the implementation of the UN Sustainable Development Goals initiative".

Published
2023

5. Acknowledgement to reviewers of social sciences in 2019

Author

Abbas, A., Abel, G., Abreu, A., Adam, A., Adamek, M., Adiletta, G., Adusei-asante, K.A., Romeo, M.D.M., Alderson, A., Alfaro, E., Aliverti, A., Almeida, Fernando, Álvarez-gonzález, L.I., Amelina, A., Anand, C., Anderson, G., Andreasson, J., Ang, I., Aragon, J., Arcidiacono, C., Arcuri, S., Assante, D., Atukeren, E., Avery, H., Ayeb-karlsson, S., Azadi, H., Bachman, R., Bader, M., Badulescu, A., Bahmanteymouri, E., Baines, S., Baker, T., Baker‐beall, C., Bañón, L., Bar‐am, N., Barbier‐greenland, K., Barnett, R., Barragán‐escandón, A., Barreto, A.M., Barrett, E., Bartkowski, J., Bartram, R., Bartzas, G., Bates, D., Baviera‐puig, A., Bayley, A., Beazley, H., Beer, C., Behr, H., Beier, G., Belford, N., Bencivenga, R., Benli, A.E., Benton‐short, L., Berei, J.M., Berbel‐pineda, E., Bernstein, Berntzen, E.R., Bertella, L., Birney, G., Bittle, M., Black, S., Rivero, L.B., Blattner, J.J., Blok, C., Blount, A., Boas, Y., Bockarie, I., Bockerman, A., Bodén, P., Bönisch‐brednich, L., Bontje, B., Bontje, M., Borsellino, V., Bostan, I., Bowl, M., Bowman, B., Bracci, E., Bracken, C.M., Bradley, H., Brereton, P., Brewer, J., Bridge, D., Brooks, S., Brown, Andrijana, Brzoska, M., Brzozowski, W., Buckley, G., Buente, W., Bullaro, G.R., Burke, M.D., Burlacu, S., Busu, M., Butler, S., Byrne, J., Cabral, L., Cai, Y., Cajias, M., Calin, A.C., Callegari, C., Camarero, M., Campbell-figuerola, H., Campbell, J.R., Cannito, M., Canonico, E., Canosa, A., Carabelli, G., Carlbom, A., Carlone, T., Caron, R., Carpenter, A., Caruso, G., Casais, B., Castro, M.P., Cava, M.-J., Čeněk, J., Cerchione, R., Certomà, C., Chan, E., Charles, D., Charlwood, A., Chatzifotiou, S., Chell, K., Chen, L., Chen, Q., Chen, W.-J., Ching, L., Christensen, J., Ciasullo, M.V., Cimermanová, I., Činčera, J., Cipollina, M., Clutterbuck, R., Cochrane, B., Collin, K., Conley, R., Connell, H., Connelly, J., Connelly, L., Connelly, R., Conti, D., Conversi, D., Conway, G., Cooper, S., Cope, M., Corsini, F., Cristian, P., Crohn, H.M., Croog, R.C., Salazar, T., Csiszár, C., D’auria, I., D’souza, A., D’souza, N., Dabija, D.-C., Dagg, J., Dalby, S., DaleDalsgård, B., Dʹamato, A.L., Daniel, D., Dant, L., Dantas, C., Darwin, H., Dashper, K., David, M.E., De Flippo, D., De, A., Edi, M., Velázquez, E.D.C., Velázquez, F., Del Vecchio, P., Delatolla, A., Delgado, P., Delgado‐romero, E., Delrosso, J., Desimone, J., Detlefsen, L., Devaney, C., Díaz, L.M., Didham, R., Diogo, E., Dirakis, A., Doberneck, D., Doidge, M.D., Molero, G., Dombrowski, P.J., Doñate, C., Đorđević, Martín, Reis, P.G.R., Doucek, P., Dundes, L., Dvouletý, O., Dybo, T., Eastman, J., Eckhardt, J., Economou, A., Edler, D., Edu, U., Ekblom, P.E., Khaled, D., Ellis, C., Elsabry, E., Erceg, A., Erokhin, V., Ertz, M., Everitt, J., Evers, A., Falcone, P.M.F., Cabana, P., Fawcett, B., Fearnley, B., Featherstone, M., Ferreira, M., Ferreira, P., Fetner, T., Fisher, J., Fisher, R., Fitzpatrick, T., Flanagan, C., Fogarty, E.A., Fonchingong, C.C., Fontana, M., Fook, J., Foreman, A.M., Foster‐mcgregor, N., Fox, S., Franco, J.A., Franklin, A.L., Friedrich, T., Fromm, I., Fu, N., Fucà, R., Fukuda, Y., Fusco, G., Gabriela, D., Galan, D., Gamo, A., Galiano, J., Garcia, A., García, M.E.A., García‐germán, S., García‐machado, J.J., García‐ruiz, C.R., Gavini, M., Gazzano, A., Gebhardt, M., Gerson, S., Gherghina, Ş.C., Gibbs, P., Gilhooly, D., Gill, F., Gill, N., Gil‐lopez, A.J., Ginès Fabrellas, A., Giuffrida, N., Giuliani, G., Goddard, J., Godderis, R., Goh, C.S., Gomes, O., Goncharuk, A.G., Canche, M.G., Pérez, I.G., Valero, G., González, R.C.L., Gonzalez‐benson, O., Gonzalez‐feliu, J., González‐lópez, M., Gozdziak, E., Granx, B., Gran, R., Gray, S.L., Grbes, A., Grondys, K., Grugan, S., Guenther, J., Guijarro, F., Gurko, T., Haas, L.L., Hagellx, A., Hagell, H., Hallgrímsdóttir, H., Hamada, T., Hanf, J., Hannouf, M., Hao, F., Harman, G., Harris, K.L., Harris, R., Harrison, N.H., Healy, G., Healy, K., Heikkilä, E., Hellmich, C., Henig, J., Henninger, C.E., Heo, W., Herman, C., Herrero‐diz, P., Heyman, J., Hibbert, N., Hillman, A.L., Hillman, B., Hine, B., Hino, K., Hinten, M., Hipp, L., Hoang, D., Holleran, D., Hollin, I., Holm, M., Holmes, C., Hook, G., Hoornweg, D., Hopper, L., Hossain, M., Hoxhaj, R., Hu, B., Huang, Y., Huarita, E., Hudec, O., Humbert, A.L., Hung, M.-C., Hunt, A., Husu, L., IanoleIbáñez‐gonzález, R., Ibáñez‐gonzález, M.J., Ide, T., Ijaz, Muhammad Fazal, Impicciatore, R., Ingwersen, M., Ioannides, D., Iseppi, L., Islam, M.M., Jaakkola, M., Jagger, S., Jagosh, J., Jenkin, G., Joelsson, T., Johansen, R.E.B., Johnsen, H.C., Garmann Jona, G., Jones, T., Judit, O., Kalalahti, M., Kang, M., Kantamaneni, K., Kaplan, L., Kapsalis, V., Karbowski, A., Katsoni, V., Kavish, D.R., Kawamura, H., Keilman, N.W., Kelly, J., Kenneth, H., Kepaptsoglou, K., Kevin, D., Kewley, S., Kim, J.-C., Kim, K.-Y., Kim, S., Kimengsi, J.N., Klein, J., Kleine, M., Klemes, J.I.R.I., Klepp, S., Klinkenberg, L.E.F., Knight, L., Knowles, J., Koerner, S., Konsolakis, K., Konstantinov, V., Kopkin, N.K., Kordova, S., Kosinski, E., Kostelka, F., Kot, S., Kotter, R., Kramers, A., Krienert, J.L., Kubon, M., Kuffer, M., Kungolos, A., Kuttner, P., Kużelewska, E., Ladd, A.E., Lammi, M., Landrum, J., Lange, B., Languilaire, T.D., Lantz, J.-C., Laudal, B., Laurentsyeva, T., Lavizzari, N., Lavoie, A., Feuvre, J.L., Leakey, N., Lee, R., Lee, A., Lee, E., Lee, J., Lentner, J.-H., Lenz‐taguchi, C., Leong, H., Levac, W.S., Lewin, L., Lewinson, E., Li, T., Li, F., Li, G., Li, M., Liczmańska‐kopcewicz, Y., Lillard, K., Linková, C., Links, M., Lipinski, P., Storto, J.L., Lochtman, C., Lockwood, K., Loh, A., Lomonaco‐benzing, V., Łopaciuk‐gonczaryk, R., López, B., lópez, D., Lorenzini, J., Löther, A., Loughnan, C., Love, T., Lucas, M.L., Ubago, J., Lukić, J., Lumley‐sapanski, A., Macedo, I., Macfarlane, S., Machimbarrena, J.M., Magda, R., Magrane, D., Maier, D., Majić, S., Majumdar, S., Makarovič, M., Malekigorji, M., Mallick, B., Malone, D., Mandić, D., Maniou, T., Mannell, J.M., Barbutiu, S., Marczak, M., Markvica, K.M., Aragón, M.D.M., Martín, J.S.M., Pereira, A., Marzal‐felici, J., Mason, F., Mather, J., Matijosaitiene, I., MatthewsMattisson, R., Mattisson, C., Matuszak, Ł., Matuzeviciute, K., Mauerer, G., Mayer, A., McCaig, C., McClearn, D., McKee, S.C., McKendry, S., McMahon, M., McReynolds, P., Medina‐vicent, M., Medyna, G., Mees, H., Meil, G., Meringolo, P., Miciuła, I., Milczarek‐andrzejewska, D., Miles, P., Milivojević, S., Miller, G., Minello, A., Miron, D., Mironeasa, S., Misra, J., Mitchell, T., Moldovan, O., Molero, P.P., Møllersen, S., Momsen, J.H., Moniz, A.B., Morea, D., Moreau, M.-P., Morgan, D.L., Morgan, H., Moscatelli, S., Mostowska, M., Mousavi, A., Mousavi, S., Mrugalska, B., Muinos, G., Mukungu, K., Mukuni, J., Murakami, D., Muresan, I.C., Murib, Z., Muro, A., Mustafa, G., Nackerud, L., Nalmpantis, D., Napal, M., Närvi, J., Naser, M., Nash, V., Navarre‐jackson, L., Navarro, R., Nazarczuk, D., Neale, J., Necula, J., Němec, S., Neven, D., Nevgi, A., Newbold, A., Newton, G., New, A., Niakšu, O., Niiniluoto, I., Nkogo, J.C., Nobre, S., Nunn, P., Oakes, R., Obrad, C., Oke, A., Okorie, O., Oncioiu, I., Ormsbee, F., Ortega‐sánchez, D., Osgood, J., Osorio, C., Oswald, J., Otis, M.D., Ouassini, A., Oxford, S., Page, T., Paixão, M.J., De Pajares, E.M., Palmesr, E., Palos‐sánchez, P., Pamučar, Dragan, Pan, H., Panek, J., Pankowska, M., Papadakis, S., Papafilippou, V.P., Medina, R., Park, C.S., Partalidou, M., Passantino, A., Passini, S., Paul, S., Pavliuk, R., Pearce, P., Pease, K., Pentaris, P., Perez, V.W., Pérez‐armendáriz, C., Perez‐vaisvidovsky, N., Perez‐y‐perez, M., Perry, N., Prtchu, D., Peterson, D.A.M., Alexandru‐ionut, Petrykowski, Petrykowski, P., Phillips, L., Pickard, S., Pickel, A., Pieke, F., Piekut, A., Pierce, S., Pierrakis, Y., Piguet, E., Pleace, N., Połom, M., Polsa, P., Ponticorvo, M., Pookulangara, S., Pope, J., Popoli, P., Postigo, J.C., Price‐Wolf, J., Prior, S., Privitera, D., Prud’homme, C., Prosser, J., Prus, P., Puiu, S., Purcell, R., Pyrialakou, D., Quam‐wickham, N., Quarmby, T., Quinlan, K.M., Quinn, A., Quinn, R., Raciti, M., Radicić, D., Rahimi, B., Ramlo, S., Randle, H., Ratajczak, M., Raymond, T., Recio‐menéndez, M., Reese, L.A., Regner, T., Reichman, J., WReim, iebke, R., Pastor, A.M., Rexhepi, G., Reyes‐menendez, A., Reynaud, C., Ribeiro‐soriano, D., Ricci, S., Ridaura, G., Rita, C., Roberts, M., Roberts, G., Roberts, K., Rockerbie, D., Rodger, J.A., Rodin, G., Rodrigues, D.R., Martín, J.A., Rodríguez, C.F., Rodriguez‐modroño, P., Romero‐rodríguez, L.M., Rončáková, T., Roper, I., Rorie, M.R., Marzán, C.F., Rose, G., Rose, M., Rosen, R., Roth, R., Roubík, H., Roumpos, C., Rowbottom, D., Roy, J., Ruban, D., Rubira‐garcía, R., Ruiperez‐valiente, J.A., Ruiz, R., Ruiz‐real, J.L., Russell, B., Russo, K., Sabol, W., Safonte, F., Salin, M., Salom‐carrasco, J.S., Sánchez, L.D., Sanghera, Santos, B.S., Silva, D., Sanz, F., Sanz‐altamira, B., Sarapura, S., Sari, D., Satybaldieva, E., Saura, J.R., Sayed, N., Scandurra, C., Schartner, A., Schellekens, J., Schenk‐hoppé, K.R., Scherer, L., Schewe, J.A., Schewe, R., Schiller, N.G., Schmidt, E.-M., Schneickert, C., Schneider, J., Scott, H., Scott, P., Seibel, K., Seidler, R., Seifert, S.S., Puyuelo, M.S., Azevedo, P.S., Lopez, A.E.S., Raamkumar, A.S., Blundo, D., Severo, M., Shakya, K.M., Shapiro, A., Shaw, I.F., Shaw, T.V., Shea, B., Shearer, H., Sheldon, S., Shell‐duncan, B., Shepherd, S., Sheridan, L., Siemienska, R., Sillup, G.P., Simeon, J.C., Simonelli, A., Skilodimou, H.D., Škrinjarić, T., Slater, G., Smardon, R., Smith, J., Smoląg, K., Snauwaert, D.T., Soanes‐white, T., Sobocińska, M., Sohaib, O., Soldatić, K., Sorainen, G.T., Soldatos, A., Sørensen, N.N., Spanu, S., Stadlober, E., Stafford, F., Ștefănescu‐mihăilă, R.O., Stefanini, A., Štefko, R., Steglich, E., Steirer, G., Stephenson, M.O., Stoecker, R., Stoffelen, A., Strang, A., Suppa, D., Sutton, J., Svobodová, L., Swigon, M., Synnott, J., Sytsma, V., Tabe, T., Tajeddini, K., Tang, S., Taylor, B., Taylor, C., Teignier, M., Teixeira, C., Tempelaar, D., Ter Avest, K.H., Ter Horst, E., Testa, M.R., Thakur, N., Thiamwong, L., Thijsen, A., Thomas, B.A., Thompson, C., Thompson, D., Tisdall, K., Toft, Mancini, Torell, A., Toscano‐hernández, G., Tregua, A.E., Triandafyllidou, M., Tseloni, A., Seloni, A., Tsikouras, P., Tsogas, G., Twamley, K., Tyler, D.U., Haque, A., Underwood, M., Urbański, M., Uribe‐toril, J., Vaezipour, A., Van Hove, L.V., Huylenbroeck, G., Van Nuland, S., Vanner, C., Vázquez‐cano, E., Veen, E., Veintimilla, S.G.-A., Veković, M., Velija, P., Venco, E.M., Verticelli, A., Vicente, P.V., Estiarte, C., Višnjić, A., Visvizi, A., Vlasblom, J.D., Volsche, S.V., Fintel, D., Von Keyserlingk, L., Vranješević, J., Walter, K.V., Wandosell, G., Wang, Y., Wasileski, G., Wastl‐walter, D., Weaving, C., Weenik, D., Wehr, K., Wei, X., Wharton, A., White, G., Whitehouse, H., Whitley, C.T., Whitman, L., Wiersma‐mosley, J.D., Wilcke, H., Wilkes, R., Williams, L., Williamson, R.D., Wimalasena, L., Wiseman, A., Wołek, M., Wright, E.Q., Wroblewski, A., Wyile, A.S., Wynn, C., Xu, X., Xue, B., Yang, J., Yoe, T.M., Young, M., Younus, M., Yu, T.-F., Yuan, Q., Zadra, C., Zaharijević, A., Zajda, J., Zander, K., Zbuchea, A., Zelin, A., Zhang, C., Zippel, K., Zitricky, V., Živanović, P., Zou, L., Zufferey, C., Zuhdi, M., Zumeta, W.M., Abbas, A., Abel, G., Abreu, A., Adam, A., Adamek, M., Adiletta, G., Adusei-asante, K.A., Romeo, M.D.M., Alderson, A., Alfaro, E., Aliverti, A., Almeida, Fernando, Álvarez-gonzález, L.I., Amelina, A., Anand, C., Anderson, G., Andreasson, J., Ang, I., Aragon, J., Arcidiacono, C., Arcuri, S., Assante, D., Atukeren, E., Avery, H., Ayeb-karlsson, S., Azadi, H., Bachman, R., Bader, M., Badulescu, A., Bahmanteymouri, E., Baines, S., Baker, T., Baker‐beall, C., Bañón, L., Bar‐am, N., Barbier‐greenland, K., Barnett, R., Barragán‐escandón, A., Barreto, A.M., Barrett, E., Bartkowski, J., Bartram, R., Bartzas, G., Bates, D., Baviera‐puig, A., Bayley, A., Beazley, H., Beer, C., Behr, H., Beier, G., Belford, N., Bencivenga, R., Benli, A.E., Benton‐short, L., Berei, J.M., Berbel‐pineda, E., Bernstein, Berntzen, E.R., Bertella, L., Birney, G., Bittle, M., Black, S., Rivero, L.B., Blattner, J.J., Blok, C., Blount, A., Boas, Y., Bockarie, I., Bockerman, A., Bodén, P., Bönisch‐brednich, L., Bontje, B., Bontje, M., Borsellino, V., Bostan, I., Bowl, M., Bowman, B., Bracci, E., Bracken, C.M., Bradley, H., Brereton, P., Brewer, J., Bridge, D., Brooks, S., Brown, Andrijana, Brzoska, M., Brzozowski, W., Buckley, G., Buente, W., Bullaro, G.R., Burke, M.D., Burlacu, S., Busu, M., Butler, S., Byrne, J., Cabral, L., Cai, Y., Cajias, M., Calin, A.C., Callegari, C., Camarero, M., Campbell-figuerola, H., Campbell, J.R., Cannito, M., Canonico, E., Canosa, A., Carabelli, G., Carlbom, A., Carlone, T., Caron, R., Carpenter, A., Caruso, G., Casais, B., Castro, M.P., Cava, M.-J., Čeněk, J., Cerchione, R., Certomà, C., Chan, E., Charles, D., Charlwood, A., Chatzifotiou, S., Chell, K., Chen, L., Chen, Q., Chen, W.-J., Ching, L., Christensen, J., Ciasullo, M.V., Cimermanová, I., Činčera, J., Cipollina, M., Clutterbuck, R., Cochrane, B., Collin, K., Conley, R., Connell, H., Connelly, J., Connelly, L., Connelly, R., Conti, D., Conversi, D., Conway, G., Cooper, S., Cope, M., Corsini, F., Cristian, P., Crohn, H.M., Croog, R.C., Salazar, T., Csiszár, C., D’auria, I., D’souza, A., D’souza, N., Dabija, D.-C., Dagg, J., Dalby, S., DaleDalsgård, B., Dʹamato, A.L., Daniel, D., Dant, L., Dantas, C., Darwin, H., Dashper, K., David, M.E., De Flippo, D., De, A., Edi, M., Velázquez, E.D.C., Velázquez, F., Del Vecchio, P., Delatolla, A., Delgado, P., Delgado‐romero, E., Delrosso, J., Desimone, J., Detlefsen, L., Devaney, C., Díaz, L.M., Didham, R., Diogo, E., Dirakis, A., Doberneck, D., Doidge, M.D., Molero, G., Dombrowski, P.J., Doñate, C., Đorđević, Martín, Reis, P.G.R., Doucek, P., Dundes, L., Dvouletý, O., Dybo, T., Eastman, J., Eckhardt, J., Economou, A., Edler, D., Edu, U., Ekblom, P.E., Khaled, D., Ellis, C., Elsabry, E., Erceg, A., Erokhin, V., Ertz, M., Everitt, J., Evers, A., Falcone, P.M.F., Cabana, P., Fawcett, B., Fearnley, B., Featherstone, M., Ferreira, M., Ferreira, P., Fetner, T., Fisher, J., Fisher, R., Fitzpatrick, T., Flanagan, C., Fogarty, E.A., Fonchingong, C.C., Fontana, M., Fook, J., Foreman, A.M., Foster‐mcgregor, N., Fox, S., Franco, J.A., Franklin, A.L., Friedrich, T., Fromm, I., Fu, N., Fucà, R., Fukuda, Y., Fusco, G., Gabriela, D., Galan, D., Gamo, A., Galiano, J., Garcia, A., García, M.E.A., García‐germán, S., García‐machado, J.J., García‐ruiz, C.R., Gavini, M., Gazzano, A., Gebhardt, M., Gerson, S., Gherghina, Ş.C., Gibbs, P., Gilhooly, D., Gill, F., Gill, N., Gil‐lopez, A.J., Ginès Fabrellas, A., Giuffrida, N., Giuliani, G., Goddard, J., Godderis, R., Goh, C.S., Gomes, O., Goncharuk, A.G., Canche, M.G., Pérez, I.G., Valero, G., González, R.C.L., Gonzalez‐benson, O., Gonzalez‐feliu, J., González‐lópez, M., Gozdziak, E., Granx, B., Gran, R., Gray, S.L., Grbes, A., Grondys, K., Grugan, S., Guenther, J., Guijarro, F., Gurko, T., Haas, L.L., Hagellx, A., Hagell, H., Hallgrímsdóttir, H., Hamada, T., Hanf, J., Hannouf, M., Hao, F., Harman, G., Harris, K.L., Harris, R., Harrison, N.H., Healy, G., Healy, K., Heikkilä, E., Hellmich, C., Henig, J., Henninger, C.E., Heo, W., Herman, C., Herrero‐diz, P., Heyman, J., Hibbert, N., Hillman, A.L., Hillman, B., Hine, B., Hino, K., Hinten, M., Hipp, L., Hoang, D., Holleran, D., Hollin, I., Holm, M., Holmes, C., Hook, G., Hoornweg, D., Hopper, L., Hossain, M., Hoxhaj, R., Hu, B., Huang, Y., Huarita, E., Hudec, O., Humbert, A.L., Hung, M.-C., Hunt, A., Husu, L., IanoleIbáñez‐gonzález, R., Ibáñez‐gonzález, M.J., Ide, T., Ijaz, Muhammad Fazal, Impicciatore, R., Ingwersen, M., Ioannides, D., Iseppi, L., Islam, M.M., Jaakkola, M., Jagger, S., Jagosh, J., Jenkin, G., Joelsson, T., Johansen, R.E.B., Johnsen, H.C., Garmann Jona, G., Jones, T., Judit, O., Kalalahti, M., Kang, M., Kantamaneni, K., Kaplan, L., Kapsalis, V., Karbowski, A., Katsoni, V., Kavish, D.R., Kawamura, H., Keilman, N.W., Kelly, J., Kenneth, H., Kepaptsoglou, K., Kevin, D., Kewley, S., Kim, J.-C., Kim, K.-Y., Kim, S., Kimengsi, J.N., Klein, J., Kleine, M., Klemes, J.I.R.I., Klepp, S., Klinkenberg, L.E.F., Knight, L., Knowles, J., Koerner, S., Konsolakis, K., Konstantinov, V., Kopkin, N.K., Kordova, S., Kosinski, E., Kostelka, F., Kot, S., Kotter, R., Kramers, A., Krienert, J.L., Kubon, M., Kuffer, M., Kungolos, A., Kuttner, P., Kużelewska, E., Ladd, A.E., Lammi, M., Landrum, J., Lange, B., Languilaire, T.D., Lantz, J.-C., Laudal, B., Laurentsyeva, T., Lavizzari, N., Lavoie, A., Feuvre, J.L., Leakey, N., Lee, R., Lee, A., Lee, E., Lee, J., Lentner, J.-H., Lenz‐taguchi, C., Leong, H., Levac, W.S., Lewin, L., Lewinson, E., Li, T., Li, F., Li, G., Li, M., Liczmańska‐kopcewicz, Y., Lillard, K., Linková, C., Links, M., Lipinski, P., Storto, J.L., Lochtman, C., Lockwood, K., Loh, A., Lomonaco‐benzing, V., Łopaciuk‐gonczaryk, R., López, B., lópez, D., Lorenzini, J., Löther, A., Loughnan, C., Love, T., Lucas, M.L., Ubago, J., Lukić, J., Lumley‐sapanski, A., Macedo, I., Macfarlane, S., Machimbarrena, J.M., Magda, R., Magrane, D., Maier, D., Majić, S., Majumdar, S., Makarovič, M., Malekigorji, M., Mallick, B., Malone, D., Mandić, D., Maniou, T., Mannell, J.M., Barbutiu, S., Marczak, M., Markvica, K.M., Aragón, M.D.M., Martín, J.S.M., Pereira, A., Marzal‐felici, J., Mason, F., Mather, J., Matijosaitiene, I., MatthewsMattisson, R., Mattisson, C., Matuszak, Ł., Matuzeviciute, K., Mauerer, G., Mayer, A., McCaig, C., McClearn, D., McKee, S.C., McKendry, S., McMahon, M., McReynolds, P., Medina‐vicent, M., Medyna, G., Mees, H., Meil, G., Meringolo, P., Miciuła, I., Milczarek‐andrzejewska, D., Miles, P., Milivojević, S., Miller, G., Minello, A., Miron, D., Mironeasa, S., Misra, J., Mitchell, T., Moldovan, O., Molero, P.P., Møllersen, S., Momsen, J.H., Moniz, A.B., Morea, D., Moreau, M.-P., Morgan, D.L., Morgan, H., Moscatelli, S., Mostowska, M., Mousavi, A., Mousavi, S., Mrugalska, B., Muinos, G., Mukungu, K., Mukuni, J., Murakami, D., Muresan, I.C., Murib, Z., Muro, A., Mustafa, G., Nackerud, L., Nalmpantis, D., Napal, M., Närvi, J., Naser, M., Nash, V., Navarre‐jackson, L., Navarro, R., Nazarczuk, D., Neale, J., Necula, J., Němec, S., Neven, D., Nevgi, A., Newbold, A., Newton, G., New, A., Niakšu, O., Niiniluoto, I., Nkogo, J.C., Nobre, S., Nunn, P., Oakes, R., Obrad, C., Oke, A., Okorie, O., Oncioiu, I., Ormsbee, F., Ortega‐sánchez, D., Osgood, J., Osorio, C., Oswald, J., Otis, M.D., Ouassini, A., Oxford, S., Page, T., Paixão, M.J., De Pajares, E.M., Palmesr, E., Palos‐sánchez, P., Pamučar, Dragan, Pan, H., Panek, J., Pankowska, M., Papadakis, S., Papafilippou, V.P., Medina, R., Park, C.S., Partalidou, M., Passantino, A., Passini, S., Paul, S., Pavliuk, R., Pearce, P., Pease, K., Pentaris, P., Perez, V.W., Pérez‐armendáriz, C., Perez‐vaisvidovsky, N., Perez‐y‐perez, M., Perry, N., Prtchu, D., Peterson, D.A.M., Alexandru‐ionut, Petrykowski, Petrykowski, P., Phillips, L., Pickard, S., Pickel, A., Pieke, F., Piekut, A., Pierce, S., Pierrakis, Y., Piguet, E., Pleace, N., Połom, M., Polsa, P., Ponticorvo, M., Pookulangara, S., Pope, J., Popoli, P., Postigo, J.C., Price‐Wolf, J., Prior, S., Privitera, D., Prud’homme, C., Prosser, J., Prus, P., Puiu, S., Purcell, R., Pyrialakou, D., Quam‐wickham, N., Quarmby, T., Quinlan, K.M., Quinn, A., Quinn, R., Raciti, M., Radicić, D., Rahimi, B., Ramlo, S., Randle, H., Ratajczak, M., Raymond, T., Recio‐menéndez, M., Reese, L.A., Regner, T., Reichman, J., WReim, iebke, R., Pastor, A.M., Rexhepi, G., Reyes‐menendez, A., Reynaud, C., Ribeiro‐soriano, D., Ricci, S., Ridaura, G., Rita, C., Roberts, M., Roberts, G., Roberts, K., Rockerbie, D., Rodger, J.A., Rodin, G., Rodrigues, D.R., Martín, J.A., Rodríguez, C.F., Rodriguez‐modroño, P., Romero‐rodríguez, L.M., Rončáková, T., Roper, I., Rorie, M.R., Marzán, C.F., Rose, G., Rose, M., Rosen, R., Roth, R., Roubík, H., Roumpos, C., Rowbottom, D., Roy, J., Ruban, D., Rubira‐garcía, R., Ruiperez‐valiente, J.A., Ruiz, R., Ruiz‐real, J.L., Russell, B., Russo, K., Sabol, W., Safonte, F., Salin, M., Salom‐carrasco, J.S., Sánchez, L.D., Sanghera, Santos, B.S., Silva, D., Sanz, F., Sanz‐altamira, B., Sarapura, S., Sari, D., Satybaldieva, E., Saura, J.R., Sayed, N., Scandurra, C., Schartner, A., Schellekens, J., Schenk‐hoppé, K.R., Scherer, L., Schewe, J.A., Schewe, R., Schiller, N.G., Schmidt, E.-M., Schneickert, C., Schneider, J., Scott, H., Scott, P., Seibel, K., Seidler, R., Seifert, S.S., Puyuelo, M.S., Azevedo, P.S., Lopez, A.E.S., Raamkumar, A.S., Blundo, D., Severo, M., Shakya, K.M., Shapiro, A., Shaw, I.F., Shaw, T.V., Shea, B., Shearer, H., Sheldon, S., Shell‐duncan, B., Shepherd, S., Sheridan, L., Siemienska, R., Sillup, G.P., Simeon, J.C., Simonelli, A., Skilodimou, H.D., Škrinjarić, T., Slater, G., Smardon, R., Smith, J., Smoląg, K., Snauwaert, D.T., Soanes‐white, T., Sobocińska, M., Sohaib, O., Soldatić, K., Sorainen, G.T., Soldatos, A., Sørensen, N.N., Spanu, S., Stadlober, E., Stafford, F., Ștefănescu‐mihăilă, R.O., Stefanini, A., Štefko, R., Steglich, E., Steirer, G., Stephenson, M.O., Stoecker, R., Stoffelen, A., Strang, A., Suppa, D., Sutton, J., Svobodová, L., Swigon, M., Synnott, J., Sytsma, V., Tabe, T., Tajeddini, K., Tang, S., Taylor, B., Taylor, C., Teignier, M., Teixeira, C., Tempelaar, D., Ter Avest, K.H., Ter Horst, E., Testa, M.R., Thakur, N., Thiamwong, L., Thijsen, A., Thomas, B.A., Thompson, C., Thompson, D., Tisdall, K., Toft, Mancini, Torell, A., Toscano‐hernández, G., Tregua, A.E., Triandafyllidou, M., Tseloni, A., Seloni, A., Tsikouras, P., Tsogas, G., Twamley, K., Tyler, D.U., Haque, A., Underwood, M., Urbański, M., Uribe‐toril, J., Vaezipour, A., Van Hove, L.V., Huylenbroeck, G., Van Nuland, S., Vanner, C., Vázquez‐cano, E., Veen, E., Veintimilla, S.G.-A., Veković, M., Velija, P., Venco, E.M., Verticelli, A., Vicente, P.V., Estiarte, C., Višnjić, A., Visvizi, A., Vlasblom, J.D., Volsche, S.V., Fintel, D., Von Keyserlingk, L., Vranješević, J., Walter, K.V., Wandosell, G., Wang, Y., Wasileski, G., Wastl‐walter, D., Weaving, C., Weenik, D., Wehr, K., Wei, X., Wharton, A., White, G., Whitehouse, H., Whitley, C.T., Whitman, L., Wiersma‐mosley, J.D., Wilcke, H., Wilkes, R., Williams, L., Williamson, R.D., Wimalasena, L., Wiseman, A., Wołek, M., Wright, E.Q., Wroblewski, A., Wyile, A.S., Wynn, C., Xu, X., Xue, B., Yang, J., Yoe, T.M., Young, M., Younus, M., Yu, T.-F., Yuan, Q., Zadra, C., Zaharijević, A., Zajda, J., Zander, K., Zbuchea, A., Zelin, A., Zhang, C., Zippel, K., Zitricky, V., Živanović, P., Zou, L., Zufferey, C., Zuhdi, M., and Zumeta, W.M.

Published
2020

11. Sleepy or tired?

Author

Kotter, R.

Subjects
Cognitive neurosciences [UMCN 3.2], Membrane transport and intracellular motility [NCMLS 5], Neuroinformatics [DCN 3], GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)
Abstract

Contains fulltext : 70999.pdf (Publisher’s version ) (Open Access)

Published
2008

12. Open source software development for neuroinformatics: Commentary

Author

Kotter, R. and Cannon, R.C.

Subjects
Cognitive neurosciences [UMCN 3.2], Membrane transport and intracellular motility [NCMLS 5], Neuroinformatics [DCN 3], GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)
Abstract

Contains fulltext : 71401.pdf (Publisher’s version ) (Open Access) 2 p.

Published
2008

13. Cortical thickness is associated with gait disturbances in cerebral small vessel disease.

Author

Laat, K.F. de, Reid, A.T., Grim, D.C., Evans, A.C., Kotter, R., Norden, A.G.W. van, Leeuw, F.E. de, Laat, K.F. de, Reid, A.T., Grim, D.C., Evans, A.C., Kotter, R., Norden, A.G.W. van, and Leeuw, F.E. de

Abstract

Contains fulltext : 110720.pdf (Publisher’s version ) (Closed access), Although gait disturbances are present in a substantial portion of patients with cerebral small vessel disease (SVD), their pathogenesis has not been clarified as they are not entirely explained by the white matter lesions (WMLs) and lacunar infarcts. The role of cortical thickness in these patients remains largely unknown. We aimed to assess the regions of cortical thickness associated with distinct gait parameters in patients with SVD, and whether these associations were dependent on WMLs and lacunar infarcts. MRI data were obtained from 415 subjects with SVD, aged between 50 and 85 years. We assessed cortical thickness using surface-based cortical thickness analysis, and gait performance using the GAITRite system. Cortical thickness of predominantly the orbitofrontal and ventrolateral prefrontal cortex, the inferior parietal lobe, cingulate areas and visual association cortices was positively related to stride length. Thickness of the primary and supplementary motor cortices and the cingulate cortex was positively related to cadence, while thickness of the orbitofrontal and ventrolateral prefrontal cortex, anterior cingulate cortex and especially the inferior parietal lobe and superior temporal gyrus was negatively related to stride width. The associations with stride length and width were partially explained by the subcortical WMLs and lacunar infarcts. Cortical thickness may therefore be important in gait disturbances in individuals with SVD, with different cortical patterns for specific gait parameters. We suggest that cortical atrophy is part of the disease processes in patients with SVD.

Published
2012

14. Towards a model-based integration of co-registered electroencephalography/functional magnetic resonance imaging data with realistic neural population meshes

Author

Bojak, I., Oostendorp, T.F., Reid, A.T., Kotter, R., Bojak, I., Oostendorp, T.F., Reid, A.T., and Kotter, R.

Abstract

Contains fulltext : 96474.pdf (publisher's version ) (Closed access), Brain activity can be measured with several non-invasive neuroimaging modalities, but each modality has inherent limitations with respect to resolution, contrast and interpretability. It is hoped that multimodal integration will address these limitations by using the complementary features of already available data. However, purely statistical integration can prove problematic owing to the disparate signal sources. As an alternative, we propose here an advanced neural population model implemented on an anatomically sound cortical mesh with freely adjustable connectivity, which features proper signal expression through a realistic head model for the electroencephalogram (EEG), as well as a haemodynamic model for functional magnetic resonance imaging based on blood oxygen level dependent contrast (fMRI BOLD). It hence allows simultaneous and realistic predictions of EEG and fMRI BOLD from the same underlying model of neural activity. As proof of principle, we investigate here the influence on simulated brain activity of strengthening visual connectivity. In the future we plan to fit multimodal data with this neural population model. This promises novel, model-based insights into the brain's activity in sleep, rest and task conditions.

Published
2011

15. Toward discovery science of human brain function.

Author

Biswal, B.B., Mennes, M.J.J., Zuo, X.N., Gohel, S., Kelly, C., Smith, S.M., Beckmann, C.F., Adelstein, J.S., Buckner, R.L., Colcombe, S., Dogonowski, A.M., Ernst, M., Fair, D., Hampson, M., Hoptman, M.J., Hyde, J.S., Kiviniemi, V.J., Kotter, R., Li, S.J., Lin, C.P., Lowe, M.J., Mackay, C., Madden, D.J., Madsen, K.H., Margulies, D.S., Mayberg, H.S., McMahon, K., Monk, C.S., Mostofsky, S.H., Nagel, B.J., Pekar, J.J., Peltier, S.J., Petersen, S.E., Riedl, V., Rombouts, S.A.R.B., Rypma, B., Schlaggar, B.L., Schmidt, S., Seidler, R.D., Siegle, G.J., Sorg, C., Teng, G.J., Veijola, J., Villringer, A., Walter, M., Wang, L., Weng, X.C., Whitfield-Gabrieli, S., Williamson, P., Windischberger, C., Zang, Y.F., Zhang, H.Y., Castellanos, F.X., Milham, M.P., Biswal, B.B., Mennes, M.J.J., Zuo, X.N., Gohel, S., Kelly, C., Smith, S.M., Beckmann, C.F., Adelstein, J.S., Buckner, R.L., Colcombe, S., Dogonowski, A.M., Ernst, M., Fair, D., Hampson, M., Hoptman, M.J., Hyde, J.S., Kiviniemi, V.J., Kotter, R., Li, S.J., Lin, C.P., Lowe, M.J., Mackay, C., Madden, D.J., Madsen, K.H., Margulies, D.S., Mayberg, H.S., McMahon, K., Monk, C.S., Mostofsky, S.H., Nagel, B.J., Pekar, J.J., Peltier, S.J., Petersen, S.E., Riedl, V., Rombouts, S.A.R.B., Rypma, B., Schlaggar, B.L., Schmidt, S., Seidler, R.D., Siegle, G.J., Sorg, C., Teng, G.J., Veijola, J., Villringer, A., Walter, M., Wang, L., Weng, X.C., Whitfield-Gabrieli, S., Williamson, P., Windischberger, C., Zang, Y.F., Zhang, H.Y., Castellanos, F.X., and Milham, M.P.

Abstract

Contains fulltext : 87640.pdf (publisher's version ) (Closed access), Although it is being successfully implemented for exploration of the genome, discovery science has eluded the functional neuroimaging community. The core challenge remains the development of common paradigms for interrogating the myriad functional systems in the brain without the constraints of a priori hypotheses. Resting-state functional MRI (R-fMRI) constitutes a candidate approach capable of addressing this challenge. Imaging the brain during rest reveals large-amplitude spontaneous low-frequency (<0.1 Hz) fluctuations in the fMRI signal that are temporally correlated across functionally related areas. Referred to as functional connectivity, these correlations yield detailed maps of complex neural systems, collectively constituting an individual's "functional connectome." Reproducibility across datasets and individuals suggests the functional connectome has a common architecture, yet each individual's functional connectome exhibits unique features, with stable, meaningful interindividual differences in connectivity patterns and strengths. Comprehensive mapping of the functional connectome, and its subsequent exploitation to discern genetic influences and brain-behavior relationships, will require multicenter collaborative datasets. Here we initiate this endeavor by gathering R-fMRI data from 1,414 volunteers collected independently at 35 international centers. We demonstrate a universal architecture of positive and negative functional connections, as well as consistent loci of inter-individual variability. Age and sex emerged as significant determinants. These results demonstrate that independent R-fMRI datasets can be aggregated and shared. High-throughput R-fMRI can provide quantitative phenotypes for molecular genetic studies and biomarkers of developmental and pathological processes in the brain. To initiate discovery science of brain function, the 1000 Functional Connectomes Project dataset is freely accessible at www.nitrc.org/projects/fcon_1000/.

Published
2010

16. Patterns of cortical degeneration in an elderly cohort with cerebral small vessel disease.

Author

Reid, A.T., Norden, A.G.W. van, Laat, K.F. de, Oudheusden, L.J.B. van, Zwiers, M.P., Evans, A.C., Leeuw, F.E. de, Kotter, R., Reid, A.T., Norden, A.G.W. van, Laat, K.F. de, Oudheusden, L.J.B. van, Zwiers, M.P., Evans, A.C., Leeuw, F.E. de, and Kotter, R.

Abstract

1 december 2010, Contains fulltext : 89824.pdf (publisher's version ) (Closed access), Emerging noninvasive neuroimaging techniques allow for the morphometric analysis of patterns of gray and white matter degeneration in vivo, which may help explain and predict the occurrence of cognitive impairment and Alzheimer's disease. A single center prospective follow-up study (Radboud University Nijmegen Diffusion tensor and Magnetic resonance imaging Cohort study (RUN DMC)) was performed involving 503 nondemented elderly individuals (50-85 years) with a history of symptomatic cerebral small vessel disease (SVD). Age was associated with a global reduction in cortical thickness, and this relationship was strongest for ventrolateral prefrontal cortex, auditory cortex, Wernicke's area, superior temporal lobe, and primary visual cortex. Right and left hemispheres differed in the thickness of language-related areas. White matter (WM) lesions were generally negatively correlated with cortical thickness, primarily in individuals over the age of 60, with the notable exception of Brodmann areas 4 and 5, which were positively correlated in age groups 50-60 and 60-70, respectively. The observed pattern of age-related decline may explain problems in memory and executive functions, which are already well documented in individuals with SVD. The additional gray matter loss affecting visual and auditory cortex, and specifically the head region of primary motor cortex, may indicate morphological correlates of impaired sensory and motor functions. The paradoxical positive relationship between WM lesion volume and cortical thickness in some areas may reflect early compensatory hypertrophy. This study raises a further interest in the mechanisms underlying cerebral gray and white matter degeneration in association with SVD, which will require further investigation with diffusion weighted and longitudinal MR studies.

Published
2010

17. Hierarchy and dynamics of neural networks.

Author

Kaiser, M., Hilgetag, C.C., Kotter, R., Kaiser, M., Hilgetag, C.C., and Kotter, R.

Abstract

Contains fulltext : 88364.pdf (publisher's version ) (Open Access)

Published
2010

18. Criteria for optimizing cortical hierarchies with continuous ranges.

Author

Krumnack, A., Reid, A.T., Wanke, E., Bezgin, G., Kotter, R., Krumnack, A., Reid, A.T., Wanke, E., Bezgin, G., and Kotter, R.

Abstract

Contains fulltext : 87841.pdf (publisher's version ) (Open Access), In a recent paper (Reid et al., 2009) we introduced a method to calculate optimal hierarchies in the visual network that utilizes continuous, rather than discrete, hierarchical levels, and permits a range of acceptable values rather than attempting to fit fixed hierarchical distances. There, to obtain a hierarchy, the sum of deviations from the constraints that define the hierarchy was minimized using linear optimization. In the short time since publication of that paper we noticed that many colleagues misinterpreted the meaning of the term "optimal hierarchy". In particular, a majority of them were under the impression that there was perhaps only one optimal hierarchy, but a substantial difficulty in finding that one. However, there is not only more than one optimal hierarchy but also more than one option for defining optimality. Continuing the line of this work we look at additional options for optimizing the visual hierarchy: minimizing the number of violated constraints and minimizing the maximal size of a constraint violation using linear optimization and mixed integer programming. The implementation of both optimization criteria is explained in detail. In addition, using constraint sets based on the data from Felleman and Van Essen (1991), optimal hierarchies for the visual network are calculated for both optimization methods.

Published
2010

19. Connecting mean field models of neural activity to EEG and fMRI data.

Author

Bojak, I., Oostendorp, T.F., Reid, A.T., Kotter, R., Bojak, I., Oostendorp, T.F., Reid, A.T., and Kotter, R.

Abstract

01 juni 2010, Contains fulltext : 89286reid.pdf (publisher's version ) (Closed access), Progress in functional neuroimaging of the brain increasingly relies on the integration of data from complementary imaging modalities in order to improve spatiotemporal resolution and interpretability. However, the usefulness of merely statistical combinations is limited, since neural signal sources differ between modalities and are related non-trivially. We demonstrate here that a mean field model of brain activity can simultaneously predict EEG and fMRI BOLD with proper signal generation and expression. Simulations are shown using a realistic head model based on structural MRI, which includes both dense short-range background connectivity and long-range specific connectivity between brain regions. The distribution of modeled neural masses is comparable to the spatial resolution of fMRI BOLD, and the temporal resolution of the modeled dynamics, importantly including activity conduction, matches the fastest known EEG phenomena. The creation of a cortical mean field model with anatomically sound geometry, extensive connectivity, and proper signal expression is an important first step towards the model-based integration of multimodal neuroimages.

Published
2010

20. Classification of cortical microcircuits based on micro-electrode-array data from slices of rat barrel cortex.

Author

Bakker, R., Schubert, D., Levels, K., Bezgin, G., Bojak, I., Kotter, R., Bakker, R., Schubert, D., Levels, K., Bezgin, G., Bojak, I., and Kotter, R.

Abstract

Contains fulltext : 75307.pdf (publisher's version ) (Closed access), The bewildering complexity of cortical microcircuits at the single cell level gives rise to surprisingly robust emergent activity patterns at the level of laminar and columnar local field potentials (LFPs) in response to targeted local stimuli. Here we report the results of our multivariate data-analytic approach based on simultaneous multi-site recordings using micro-electrode-array chips for investigation of the microcircuitry of rat somatosensory (barrel) cortex. We find high repeatability of stimulus-induced responses, and typical spatial distributions of LFP responses to stimuli in supragranular, granular, and infragranular layers, where the last form a particularly distinct class. Population spikes appear to travel with about 33 cm/s from granular to infragranular layers. Responses within barrel related columns have different profiles than those in neighbouring columns to the left or interchangeably to the right. Variations between slices occur, but can be minimized by strictly obeying controlled experimental protocols. Cluster analysis on normalized recordings indicates specific spatial distributions of time series reflecting the location of sources and sinks independent of the stimulus layer. Although the precise correspondences between single cell activity and LFPs are still far from clear, a sophisticated neuroinformatics approach in combination with multi-site LFP recordings in the standardized slice preparation is suitable for comparing normal conditions to genetically or pharmacologically altered situations based on real cortical microcircuitry.

Published
2009

21. Key role of coupling, delay, and noise in resting brain fluctuations.

Author

Deco, G., Jirsa, V.K., McIntosh, A.R., Sporns, O., Kotter, R., Deco, G., Jirsa, V.K., McIntosh, A.R., Sporns, O., and Kotter, R.

Abstract

Contains fulltext : 80031.pdf (publisher's version ) (Closed access), A growing body of neuroimaging research has documented that, in the absence of an explicit task, the brain shows temporally coherent activity. This so-called "resting state" activity or, more explicitly, the default-mode network, has been associated with daydreaming, free association, stream of consciousness, or inner rehearsal in humans, but similar patterns have also been found under anesthesia and in monkeys. Spatiotemporal activity patterns in the default-mode network are both complex and consistent, which raises the question whether they are the expression of an interesting cognitive architecture or the consequence of intrinsic network constraints. In numerical simulation, we studied the dynamics of a simplified cortical network using 38 noise-driven (Wilson-Cowan) oscillators, which in isolation remain just below their oscillatory threshold. Time delay coupling based on lengths and strengths of primate corticocortical pathways leads to the emergence of 2 sets of 40-Hz oscillators. The sets showed synchronization that was anticorrelated at <0.1 Hz across the sets in line with a wide range of recent experimental observations. Systematic variation of conduction velocity, coupling strength, and noise level indicate a high sensitivity of emerging synchrony as well as simulated blood flow blood oxygen level-dependent (BOLD) on the underlying parameter values. Optimal sensitivity was observed around conduction velocities of 1-2 m/s, with very weak coupling between oscillators. An additional finding was that the optimal noise level had a characteristic scale, indicating the presence of stochastic resonance, which allows the network dynamics to respond with high sensitivity to changes in diffuse feedback activity.

Published
2009

22. A proposal for a coordinated effort for the determination of brainwide neuroanatomical connectivity in model organisms at a mesoscopic scale.

Author

Bohland, J.W., Wu, C., Barbas, H., Bokil, H., Bota, M., Breiter, H.C., Cline, H.T., Doyle, J.C., Freed, P.J., Greenspan, R.J., Haber, S.N., Hawrylycz, M., Herrera, D.G., Hilgetag, C.C., Huang, Z.J., Jones, A., Jones, E.G., Karten, H.J., Kleinfeld, D., Kotter, R., Lester, H.A., Lin, J.M., Mensh, B.D., Mikula, S., Panksepp, J., Price, J.L., Safdieh, J., Saper, C.B., Schiff, N.D., Schmahmann, J.D., Stillman, B.W., Svoboda, K., Swanson, L.W., Toga, A.W., Essen, D.C. van, Watson, J.D., Mitra, P.P., Bohland, J.W., Wu, C., Barbas, H., Bokil, H., Bota, M., Breiter, H.C., Cline, H.T., Doyle, J.C., Freed, P.J., Greenspan, R.J., Haber, S.N., Hawrylycz, M., Herrera, D.G., Hilgetag, C.C., Huang, Z.J., Jones, A., Jones, E.G., Karten, H.J., Kleinfeld, D., Kotter, R., Lester, H.A., Lin, J.M., Mensh, B.D., Mikula, S., Panksepp, J., Price, J.L., Safdieh, J., Saper, C.B., Schiff, N.D., Schmahmann, J.D., Stillman, B.W., Svoboda, K., Swanson, L.W., Toga, A.W., Essen, D.C. van, Watson, J.D., and Mitra, P.P.

Abstract

Contains fulltext : 80923.pdf (publisher's version ) (Open Access), In this era of complete genomes, our knowledge of neuroanatomical circuitry remains surprisingly sparse. Such knowledge is critical, however, for both basic and clinical research into brain function. Here we advocate for a concerted effort to fill this gap, through systematic, experimental mapping of neural circuits at a mesoscopic scale of resolution suitable for comprehensive, brainwide coverage, using injections of tracers or viral vectors. We detail the scientific and medical rationale and briefly review existing knowledge and experimental techniques. We define a set of desiderata, including brainwide coverage; validated and extensible experimental techniques suitable for standardization and automation; centralized, open-access data repository; compatibility with existing resources; and tractability with current informatics technology. We discuss a hypothetical but tractable plan for mouse, additional efforts for the macaque, and technique development for human. We estimate that the mouse connectivity project could be completed within five years with a comparatively modest budget.

Published
2009

23. Matching spatial with ontological brain regions using Java tools for visualization, database access, and integrated data analysis.

Author

Bezgin, G., Reid, A.T., Schubert, D., Kotter, R., Bezgin, G., Reid, A.T., Schubert, D., and Kotter, R.

Abstract

Contains fulltext : 75177reid.pdf (publisher's version ) (Closed access), Brain atlases are widely used in experimental neuroscience as tools for locating and targeting specific brain structures. Delineated structures in a given atlas, however, are often difficult to interpret and to interface with database systems that supply additional information using hierarchically organized vocabularies (ontologies). Here we discuss the concept of volume-to-ontology mapping in the context of macroscopical brain structures. We present Java tools with which we have implemented this concept for retrieval of mapping and connectivity data on the macaque brain from the CoCoMac database in connection with an electronic version of "The Rhesus Monkey Brain in Stereotaxic Coordinates" authored by George Paxinos and colleagues. The software, including our manually drawn monkey brain template, can be downloaded freely under the GNU General Public License. It adds value to the printed atlas and has a wider (neuro-)informatics application since it can read appropriately annotated data from delineated sections of other species and organs, and turn them into 3D registered stacks. The tools provide additional features, including visualization and analysis of connectivity data, volume and centre-of-mass estimates, and graphical manipulation of entire structures, which are potentially useful for a range of research and teaching applications.

Published
2009

24. The effects of physiologically plausible connectivity structure on local and global dynamics in large scale brain models.

Author

Knock, S.A., McIntosh, A.R., Sporns, O., Kotter, R., Hagmann, P., Jirsa, V.K., Knock, S.A., McIntosh, A.R., Sporns, O., Kotter, R., Hagmann, P., and Jirsa, V.K.

Abstract

Item does not contain fulltext, Functionally relevant large scale brain dynamics operates within the framework imposed by anatomical connectivity and time delays due to finite transmission speeds. To gain insight on the reliability and comparability of large scale brain network simulations, we investigate the effects of variations in the anatomical connectivity. Two different sets of detailed global connectivity structures are explored, the first extracted from the CoCoMac database and rescaled to the spatial extent of the human brain, the second derived from white-matter tractography applied to diffusion spectrum imaging (DSI) for a human subject. We use the combination of graph theoretical measures of the connection matrices and numerical simulations to explicate the importance of both connectivity strength and delays in shaping dynamic behaviour. Our results demonstrate that the brain dynamics derived from the CoCoMac database are more complex and biologically more realistic than the one based on the DSI database. We propose that the reason for this difference is the absence of directed weights in the DSI connectivity matrix.

Published
2009

26. Optimization of cortical hierarchies with continuous scales and ranges.

Author

Reid, A.T., Krumnack, A., Wanke, E., Kotter, R., Reid, A.T., Krumnack, A., Wanke, E., and Kotter, R.

Abstract

Contains fulltext : 81553.pdf (Publisher’s version ) (Closed access), Although information flow in the neocortex has an apparent hierarchical organization, there is much ambiguity with respect to the definition of such a hierarchy, particularly in higher cortical regions. This ambiguity has been addressed by utilizing observable anatomical criteria, based upon tract tracing experiments, to constrain the definition of hierarchy [Felleman D.J. and van Essen D.C., 1991. Distributed hierarchical processing in the primate. Cereb. Cortex. 1(1), 1-47.]. There are, however, a high number of equally optimal hierarchies that fit these constraints [Hilgetag C.C., O'Neill M.A., Young M.P., 1996. Indeterminate organization of the visual system. Science. 271(5250), 776-777.]. Here, we propose a refined constraint set for optimization which utilizes continuous, rather than discrete, hierarchical levels, and permits a range of acceptable values rather than attempting to fit fixed hierarchical distances. Using linear programming to obtain hierarchies across a number of range sizes, we find a clear hierarchical pattern for both the original and refined versions of the Felleman and Van Essen [Felleman D.J. and van Essen D.C., 1991. Distributed hierarchical processing in the primate. Cereb. Cortex. 1(1), 1-47.] visual network. We also obtain an optimal hierarchy from a refined set of anatomical criteria which allows for the direct specification of hierarchical distance from the laminar distribution of labelled cells (Barone P., Batardiere A., Knoblauch K., Kennedy H., 2000. Laminar distribution of neurons in extrastriate areas projecting to visual areas V1 and V4 correlates with the hierarchical rank and indicates the operation of a distance rule. J. Neurosci. 20(9), 3263-3281.), and discuss the limitations and further possible refinements of such an approach.

Published
2009

27. Cortical network dynamics with time delays reveals functional connectivity in the resting brain.

Author

Ghosh, A.K., Rho, Y., McIntosh, A.R., Kotter, R., Jirsa, V.K., Ghosh, A.K., Rho, Y., McIntosh, A.R., Kotter, R., and Jirsa, V.K.

Abstract

Contains fulltext : 70646.pdf (publisher's version ) (Closed access), In absence of all goal-directed behavior, a characteristic network of cortical regions involving prefrontal and cingulate cortices consistently shows temporally coherent fluctuations. The origin of these fluctuations is unknown, but has been hypothesized to be of stochastic nature. In the present paper we test the hypothesis that time delays in the network dynamics play a crucial role in the generation of these fluctuations. By tuning the propagation velocity in a network based on primate connectivity, we scale the time delays and demonstrate the emergence of the resting state networks for biophysically realistic parameters.

Published
2008

28. Noise during rest enables the exploration of the brain's dynamic repertoire.

Author

Ghosh, A.K., Rho, Y., McIntosh, A.R., Kotter, R., Jirsa, V.K., Ghosh, A.K., Rho, Y., McIntosh, A.R., Kotter, R., and Jirsa, V.K.

Abstract

Contains fulltext : 71144.pdf (publisher's version ) (Open Access), Traditionally brain function is studied through measuring physiological responses in controlled sensory, motor, and cognitive paradigms. However, even at rest, in the absence of overt goal-directed behavior, collections of cortical regions consistently show temporally coherent activity. In humans, these resting state networks have been shown to greatly overlap with functional architectures present during consciously directed activity, which motivates the interpretation of rest activity as day dreaming, free association, stream of consciousness, and inner rehearsal. In monkeys, it has been shown though that similar coherent fluctuations are present during deep anesthesia when there is no consciousness. Here, we show that comparable resting state networks emerge from a stability analysis of the network dynamics using biologically realistic primate brain connectivity, although anatomical information alone does not identify the network. We specifically demonstrate that noise and time delays via propagation along connecting fibres are essential for the emergence of the coherent fluctuations of the default network. The spatiotemporal network dynamics evolves on multiple temporal scales and displays the intermittent neuroelectric oscillations in the fast frequency regimes, 1-100 Hz, commonly observed in electroencephalographic and magnetoencephalographic recordings, as well as the hemodynamic oscillations in the ultraslow regimes, <0.1 Hz, observed in functional magnetic resonance imaging. The combination of anatomical structure and time delays creates a space-time structure in which the neural noise enables the brain to explore various functional configurations representing its dynamic repertoire.

Published
2008

29. Deducing logical relationships between spatially registered cortical parcellations under conditions of uncertainty.

Author

Bezgin, G., Wanke, E., Krumnack, A., Kotter, R., Bezgin, G., Wanke, E., Krumnack, A., and Kotter, R.

Abstract

Contains fulltext : 69620.pdf (publisher's version ) (Closed access), We propose a new technique, called Spatial Objective Relational Transformation (SORT), as an automated approach for derivation of logical relationships between cortical areas in different brain maps registered in the same Euclidean space. Recently, there have been large amounts of voxel-based three-dimensional structural and functional imaging data that provide us with coordinate-based information about the location of differently defined areas in the brain, whereas coordinate-independent, parcellation-based mapping is still commonly used in the majority of animal tracing and mapping studies. Because of the impact of voxel-based imaging methods and the need to attribute their features to coordinate-independent brain entities, this mapping becomes increasingly important. Our motivation here is not to make vague statements where more precise spatial statements would be better, but to find criteria for the identity (or other logical relationships) between areas that were delineated by different methods, in different individuals, or mapped to three-dimensional space using different deformation algorithms. The relevance of this problem becomes immediately obvious as one superimposes and compares different datasets in multimodal databases (e.g. CARET, http://brainmap.wustl.edu/caret), where voxel-based data are registered to surface nodes exploited by the procedure presented here. We describe the SORT algorithm and its implementation in the Java 2 programming language (http://java.sun.com/, which we make available for download. We give an example of practical use of our approach, and validate the SORT approach against a database of the coordinate-independent statements and inferences that have been deduced using alternative techniques.

Published
2008

30. Network structure of cerebral cortex shapes functional connectivity on multiple time scales.

Author

Honey, C.J., Kotter, R., Breakspear, M., Sporns, O., Honey, C.J., Kotter, R., Breakspear, M., and Sporns, O.

Abstract

Contains fulltext : 52613.pdf (publisher's version ) (Closed access), Neuronal dynamics unfolding within the cerebral cortex exhibit complex spatial and temporal patterns even in the absence of external input. Here we use a computational approach in an attempt to relate these features of spontaneous cortical dynamics to the underlying anatomical connectivity. Simulating nonlinear neuronal dynamics on a network that captures the large-scale interregional connections of macaque neocortex, and applying information theoretic measures to identify functional networks, we find structure-function relations at multiple temporal scales. Functional networks recovered from long windows of neural activity (minutes) largely overlap with the underlying structural network. As a result, hubs in these long-run functional networks correspond to structural hubs. In contrast, significant fluctuations in functional topology are observed across the sequence of networks recovered from consecutive shorter (seconds) time windows. The functional centrality of individual nodes varies across time as interregional couplings shift. Furthermore, the transient couplings between brain regions are coordinated in a manner that reveals the existence of two anticorrelated clusters. These clusters are linked by prefrontal and parietal regions that are hub nodes in the underlying structural network. At an even faster time scale (hundreds of milliseconds) we detect individual episodes of interregional phase-locking and find that slow variations in the statistics of these transient episodes, contingent on the underlying anatomical structure, produce the transfer entropy functional connectivity and simulated blood oxygenation level-dependent correlation patterns observed on slower time scales.

Published
2007

31. Mapping functional connectivity in barrel-related columns reveals layer- and cell type-specific microcircuits.

Author

Schubert, D., Kotter, R., Staiger, J.F., Schubert, D., Kotter, R., and Staiger, J.F.

Abstract

Contains fulltext : 34492.pdf (publisher's version ) (Closed access), Synaptic circuits bind together functional modules of the neocortex. We aim to clarify in a rodent model how intra- and transcolumnar microcircuits in the barrel cortex are laid out to segregate and also integrate sensory information. The primary somatosensory (barrel) cortex of rodents is the ideal model system to study these issues because there, the tactile information derived from the large facial whiskers on the snout is mapped onto so called barrel-related columns which altogether form an isomorphic map of the sensory periphery. This allows to functionally interpret the synaptic microcircuits we have been analyzing in barrel-related columns by means of whole-cell recordings, biocytin filling and mapping of intracortical functional connectivity with sublaminar specificity by computer-controlled flash-release of glutamate. We find that excitatory spiny neurons (spiny stellate, star pyramidal, and pyramidal cells) show a layer-specific connectivity pattern on top of which further cell type-specific circuits can be distinguished. The main features are: (a) strong intralaminar, intracolumnar connections are established by all types of excitatory neurons with both, excitatory and (except for layer Vb- intrinsically burst-spiking-pyramidal cells) inhibitory cells; (b) effective translaminar, intracolumnar connections become more abundant along the three main layer compartments of the canonical microcircuit, and (c) extensive transcolumnar connectivity is preferentially found in specific cell types in each of the layer compartments of a barrel-related column. These multiple sequential and parallel circuits are likely to be suitable for specific cortical processing of "what" "where" and "when" aspects of tactile information acquired by the whiskers on the snout.

Published
2007

32. Identification and classification of hubs in brain networks

Author

Sporns, O., Honey, C.J., Kotter, R., Sporns, O., Honey, C.J., and Kotter, R.

Abstract

Contains fulltext : 52805.pdf (publisher's version ) (Open Access), Brain regions in the mammalian cerebral cortex are linked by a complex network of fiber bundles. These inter-regional networks have previously been analyzed in terms of their node degree, structural motif, path length and clustering coefficient distributions. In this paper we focus on the identification and classification of hub regions, which are thought to play pivotal roles in the coordination of information flow. We identify hubs and characterize their network contributions by examining motif fingerprints and centrality indices for all regions within the cerebral cortices of both the cat and the macaque. Motif fingerprints capture the statistics of local connection patterns, while measures of centrality identify regions that lie on many of the shortest paths between parts of the network. Within both cat and macaque networks, we find that a combination of degree, motif participation, betweenness centrality and closeness centrality allows for reliable identification of hub regions, many of which have previously been functionally classified as polysensory or multimodal. We then classify hubs as either provincial (intra-cluster) hubs or connector (inter-cluster) hubs, and proceed to show that lesioning hubs of each type from the network produces opposite effects on the small-world index. Our study presents an approach to the identification and classification of putative hub regions in brain networks on the basis of multiple network attributes and charts potential links between the structural embedding of such regions and their functional roles.

Published
2007

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