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21/08/2025
Regional associations between cerebrovascular disease and cholinergic white matter pathways in the Lewy body continuum
Rennie, A, Nemy, M, Jerele, C, Rodríguez-Baz, I, Montal, V, Bejanin, A, Kramberger, MG, Aarsland, D, Fortea, J, Lleó, A, Westman, E, Alcolea, D, Ferreira, D. Regional associations between cerebrovascular disease and cholinergic white matter pathways in the Lewy body continuum. npj Parkinsons Disease. 2025; 11(1)DOI:10.1038/s41531-025-01118-5. PMID:40841717. IF:8.200(Q1/1D).
01/08/2025
Cerebrospinal fluid lipoprotein-mediated cholesterol delivery to neurons is impaired in Alzheimer's disease and involves APOE4
Borràs, C, Canyelles, M, Santos, D, Rotllan, N, Núñez, E, Vàzquez, J, Maspoch, D, Cano-Sarabia, M, Zhao, Q, Carmona-Iragui, M, Sirisi, S, Lleó, A, Fortea, J, Alcolea, D, Blanco-Vaca, F, Escolà-Gil, JC, Tondo, M. Cerebrospinal fluid lipoprotein-mediated cholesterol delivery to neurons is impaired in Alzheimer's disease and involves APOE4. JOURNAL OF LIPID RESEARCH. 2025; 66(8)DOI:10.1016/j.jlr.2025.100865. PMID:40701521. IF:4.100(Q2/4D).
01/08/2025
Genetic architecture of FTLD-TDP pathological subtypes
Dols-Icardo, O, Reus, LM, Ramirez, A. Genetic architecture of FTLD-TDP pathological subtypes. TRENDS IN NEUROSCIENCES. 2025; 48(8)DOI:10.1016/j.tins.2025.06.005. PMID:40610249. IF:15.100(Q1/1D).
22/07/2025
Machine learning in Alzheimer's disease genetics
Bracher-Smith, M, Melograna, F, Ulm, B, Bellenguez, C, Grenier-Boley, B, Duroux, D, Nevado, AJ, Holmans, P, Tijms, BM, Hulsman, M, de Rojas, I, Campos-Martin, R, van der Lee, S, Castillo, A, Küçükali, F, Peters, O, Schneider, A, Dichgans, M, Rujescu, D, Scherbaum, N, Deckert, J, Riedel-Heller, S, Hausner, L, Molina-Porcel, L, Düzel, E, Grimmer, T, Wiltfang, J, Heilmann-Heimbach, S, Moebus, S, Tegos, T, Scarmeas, N, Dols-Icardo, O, Moreno, F, Pérez-Tur, J, Bullido, MJ, Pastor, P, Sánchez-Valle, R, Alvarez, V, Boada, M, García-González, P, Puerta, R, Mir, P, Real, LM, Piñol-Ripoll, G, García-Alberca, JM, Rodriguez-Rodriguez, E, Soininen, H, Heikkinen, S, de Mendonça, A, Mehrabian, S, Traykov, L, Hort, J, Vyhnalek, M, Sandau, N, Thomassen, JQ, Pijnenburg, YAL, Holstege, H, van Swieten, J, Ramakers, I, Verhey, F, Scheltens, P, Graff, C, Papenberg, G, Giedraitis, V, Williams, J, Amouyel, P, Boland, A, Deleuze, JF, Nicolas, G, Dufouil, C, Pasquier, F, Hanon, O, Debette, S, Grünblatt, E, Popp, J, Ghidoni, R, Galimberti, D, Arosio, B, Mecocci, P, Solfrizzi, V, Parnetti, L, Squassina, A, Tremolizzo, L, Borroni, B, Wagner, M, Nacmias, B, Spallazzi, M, Seripa, D, Rainero, I, Daniele, A, Piras, F, Masullo, C, Rossi, G, Jessen, F, Kehoe, P, Magda, T, Sánchez-Juan, P, Sleegers, K, Ingelsson, M, Hiltunen, M, Sims, R, van der Flier, W, Andreassen, OA, Ruiz, A, Ramirez, A, Frikke-Schmidt, R, Amin, N, Roshchupkin, G, Lambert, JC, Van Steen, K, van Duijn, C, Escott-Price, V. Machine learning in Alzheimer's disease genetics. Nature Communications. 2025; 16(1)DOI:10.1038/s41467-025-61650-z. PMID:40691194. IF:15.700(Q1/1D).