Mavi Sanchez-Vives - Publications#

1. Sanchez-Vives, M. V., & Slater, M. (2005). From presence to consciousness through virtual reality. Nature reviews neuroscience, 6(4), 332-339. (2151 citations-google scholar)

2. Sanchez-Vives, M. V., & McCormick, D. A. (2000). Cellular and network mechanisms of rhythmic recurrent activity in neocortex. Nature neuroscience, 3(10), 1027-1034.

3. Sancristóbal, B., Rebollo, B., Boada, P., Sanchez-Vives, M.V. (CA) and Garcia-Ojalvo, J.(CA), 2016. Collective stochastic coherence in recurrent neuronal networks. Nature Physics, 12(9), pp.881-887.

4. Seinfeld, S., Arroyo-Palacios, J., Iruretagoyena, G., Hortensius, R., Zapata, L.E., Borland, D., de Gelder, B., Slater, M. and Sanchez-Vives, M.V. (CA), 2018. Offenders become the victim in virtual reality: impact of changing perspective in domestic violence. Scientific reports, 8(1), p.2692.

Selection from last 5 years

5. Cancino-Fuentes, N., Manasanch, A., Covelo, J., …. and Sanchez-Vives, M.V. (CA), 2024. Recording physiological and pathological cortical activity and exogenous electric fields using graphene microtransistor arrays in vitro. Nanoscale, 16(2), pp.664-677

6. Camassa, A., Galluzzi, A., Mattia, M. and Sanchez-Vives, M.V.,(CA) 2022. Deterministic and stochastic components of cortical Down states: dynamics and modulation. Journal of Neuroscience, 42(50), pp.9387-9400

7. Dasilva, M., Camassa, A., Navarro-Guzman, A., Pazienti, A., Perez-Mendez, L., Zamora-López, G., Mattia, M. and Sanchez-Vives, M.V. (CA), 2021. Modulation of cortical slow oscillations and complexity across anesthesia levels. Neuroimage, 224, p.117415

8. Barbero-Castillo, A., Mateos-Aparicio, P., Dalla Porta, L., Camassa, A., Perez-Mendez, L., & Sanchez-Vives, M. V. (CA) (2021). Impact of GABAA and GABAB inhibition on cortical dynamics and perturbational complexity during synchronous and desynchronized states. Journal of Neuroscience, 41(23), 5029-5044.

9. Masvidal-Codina, E., Illa, X., Dasilva, M., …Sanchez-Vives, Garrido and Guimerá-Brunet, 2019. High-resolution mapping of infraslow cortical brain activity enabled by graphene microtransistors. Nature Materials, 18(3), pp.280-288.

10. Capone, C., Rebollo, B., Muñoz, A., Illa, X., Del Giudice, P., Sanchez-Vives, M. V*., & Mattia, M*. (2019). Slow waves in cortical slices: how spontaneous activity is shaped by laminar structure. Cerebral Cortex, 29(1), 319-335.