Gliovascular alterations in sporadic and familial Alzheimer’s disease: APOE3 Christchurch homozygote glioprotection

Henao‐Restrepo, J., López‐Murillo, C., Valderrama‐Carmona, P., Orozco‐Santa, N., Gomez, J., Gutiérrez‐Vargas, J., … & Posada‐Duque, R. (2022). Gliovascular alterations in sporadic and familial Alzheimer’s disease: APOE3 Christchurch homozygote glioprotection. Brain Pathology, e13119.

The Dendritic Ergic: Microtubule And Actin Cytoskeletons Participate In Stop‐And‐Go Movement Of Mobile Carriers Between Stable Structures

de los Ángeles Juricic Urzúa, M., Rojas, J. G., Correa, A. C., Cerda, M., Gründler, S. H., & González‐Silva, C. (2022). The dendritic ERGIC: Microtubule and actin cytoskeletons participate in stop‐and‐go movement of mobile carriers between stable structures. Traffic, 23(3), 174-187.

Mesa técnica “Fondo de Salud Extraordinario: Propuestas de Universidades, Sociedades Científicas y Colegios Profesionales”

Álvarez Román, F.; Araya Saldivar, L.; Varas Rocco, M.; Arribada Maldonado, A.,….Lampert Grassi, MP. (2021). Mesa técnica “Fondo de salud extraordinario : Propuestas de Universidades, Sociedades Científicas y Colegios Profesionales”. Biblioteca del Congreso Nacional de Chile, pp. 245-263.

Apical contacts stemming from incomplete delamination guide progenitor cell allocation through a dragging mechanism

Pulgar E., Schwayer C., Guerrero N., López L., Márquez S, Härtel S., Soto R., Heisenberg CP. And ML Concha (2021) Apical contacts stemming from incomplete delamination guide progenitor cell allocation through a dragging mechanism. eLife 10:e66483

Content‐Based Medical Image Retrieval and Intelligent Interactive Visual Browser for Medical Education, Research and Care

Sotomayor C., Mendoza M., Castañeda V., Farías H., Molina G., Pereira G., Härtel S., Solar M., Araya M. (2021). Content‐Based Medical Image Retrieval and Intelligent Interactive Visual Browser for Medical Education, Research and Care. Diagnostics 2021, 11, 1470.

Ryanodine receptor-mediated Ca2+ release and atlastin-2 GTPase activity contribute to IP3-induced dendritic Ca2+ signals in primary hippocampal neurons

Ramírez, O. A., Córdova, A., Cerda, M., Lobos, P., Härtel, S., Couve, A., & Hidalgo, C. (2021). Ryanodine receptor-mediated Ca2+ release and atlastin-2 GTPase activity contribute to IP3-induced dendritic Ca2+ signals in primary hippocampal neurons. Cell Calcium, 96, 102399.