Publications
Publications
Explore scientific publications featuring Corticale’s technology. These studies demonstrate how SiNAPS high density probes enable the deciphering of neural circuits by providing both high spatial and temporal resolution.
Explore scientific publications featuring Corticale’s technology. These studies demonstrate how SiNAPS high density probes enable the deciphering of neural circuits by providing both high spatial and temporal resolution.
bioRxiv
bioRxiv
bioRxiv
Subspace communication in the hippocampal-retrosplenial axis.
Subspace communication in the hippocampal-retrosplenial axis.
Gonzalez, J., Vöröslakos, M., Aykan, D., Soto, N., Nitzan, N., Swanson, R., Chen, Z. S., & Buzsáki, G. (2026)
Gonzalez, J., Vöröslakos, M., Aykan, D., Soto, N., Nitzan, N., Swanson, R., Chen, Z. S., & Buzsáki, G. (2026)
bioRxiv
bioRxiv
bioRxiv
Experience reorganizes coordinated population dynamics across hippocampal circuits.
Experience reorganizes coordinated population dynamics across hippocampal circuits.
Khanzada, S., Hu, X., Klütsch, D., Kempermann, G., Boi, F., & Amin, H. (2026)
Khanzada, S., Hu, X., Klütsch, D., Kempermann, G., Boi, F., & Amin, H. (2026)
GNB 2025, Palermo
GNB 2025, Palermo
GNB 2025, Palermo
High-density probe enables precise mapping of functional connectivity across cortical and subcortical brain regions in vivo.
High-density probe enables precise mapping of functional connectivity across cortical and subcortical brain regions in vivo.
Negri, F., Vecchia, D., Carè, M., Barban, F., & Chiappalone, M. (2025)
Negri, F., Vecchia, D., Carè, M., Barban, F., & Chiappalone, M. (2025)
bioRxiv
bioRxiv
bioRxiv
High-density, identified cell recordings from motor cortex of awake behaving macaques using 1024-channel SiNAPS-NHP probes.
High-density, identified cell recordings from motor cortex of awake behaving macaques using 1024-channel SiNAPS-NHP probes.
Angotzi, G. N., Baker, A. M. E., Vincenzi, M., Orban, G., Ribeiro, J. F., Tenorio, V., Berdondini, L., & Baker, S. N. (2025)
Angotzi, G. N., Baker, A. M. E., Vincenzi, M., Orban, G., Ribeiro, J. F., Tenorio, V., Berdondini, L., & Baker, S. N. (2025)
bioRxiv
bioRxiv
bioRxiv
Spatiotemporal patterns differentiate hippocampal sharp-wave ripples from interictal epileptiform discharges in mice and humans.
Spatiotemporal patterns differentiate hippocampal sharp-wave ripples from interictal epileptiform discharges in mice and humans.
Maslarova, A., Shin, J. N., Navas-Olive, A., Vöröslakos, M., Hamer, H., Doerfler, A., Henin, S., Buzsáki, G., & Liu, A. (2025)
Maslarova, A., Shin, J. N., Navas-Olive, A., Vöröslakos, M., Hamer, H., Doerfler, A., Henin, S., Buzsáki, G., & Liu, A. (2025)
Frontiers in Behavioral Neuroscience, 19, Article 1685846
Frontiers in Behavioral Neuroscience, 19, Article 1685846
Frontiers in Behavioral Neuroscience, 19, Article 1685846
Electroanatomy of hippocampal activity patterns: Theta, gamma waves, sharp wave-ripples, and dentate spikes.
Electroanatomy of hippocampal activity patterns: Theta, gamma waves, sharp wave-ripples, and dentate spikes.
Paleologos, N., Vöröslakos, M., Gonzalez, J., Maslarova, A., Aykan, D., Liu, A. A., & Buzsáki, G. (2025)
Paleologos, N., Vöröslakos, M., Gonzalez, J., Maslarova, A., Aykan, D., Liu, A. A., & Buzsáki, G. (2025)
Advanced Science. Advance online publication
Advanced Science. Advance online publication
Advanced Science. Advance online publication
Multi-shank 1024 channels active SiNAPS probe for large multi-regional topographical electrophysiological mapping of neural dynamics.
Multi-shank 1024 channels active SiNAPS probe for large multi-regional topographical electrophysiological mapping of neural dynamics.
Angotzi, G. N., Vöröslakos, M., Perentos, N., Ribeiro, J. F., Vincenzi, M., Boi, F., Lecomte, A., Orban, G., Genewsky, A., Schwesig, G., Aykan, D., Buzsáki, G., Sirota, A., & Berdondini, L. (2025)
Angotzi, G. N., Vöröslakos, M., Perentos, N., Ribeiro, J. F., Vincenzi, M., Boi, F., Lecomte, A., Orban, G., Genewsky, A., Schwesig, G., Aykan, D., Buzsáki, G., Sirota, A., & Berdondini, L. (2025)
2024 46th Annual International Conference of the IEEE Engineering in Medicine
and Biology Society (EMBC)
2024 46th Annual International Conference of the IEEE Engineering in Medicine
and Biology Society (EMBC)
2024 46th Annual International Conference of the IEEE Engineering in Medicine
and Biology Society (EMBC)
Simultaneous high-density 512-channel SiNAPS electrical recordings and optogenetics.
Simultaneous high-density 512-channel SiNAPS electrical recordings and optogenetics.
Orban, G., Perna, A., Vincenzi, M., Caltabiano, A., Nava, L., Tonini, R., Angotzi, G. N., Ribeiro, J. F.,
& Berdondini, L. (2024)
Orban, G., Perna, A., Vincenzi, M., Caltabiano, A., Nava, L., Tonini, R., Angotzi, G. N., Ribeiro, J. F.,
& Berdondini, L. (2024)
2023 IEEE International Conference on Neural Engineering (NER)
2023 IEEE International Conference on Neural Engineering (NER)
2023 IEEE International Conference on Neural Engineering (NER)
Impact of tip size and shape on the insertion force of implantable CMOS neural probes.
Impact of tip size and shape on the insertion force of implantable CMOS neural probes.
Perna, A., Ribeiro, J. F., Orban, G., Vincenzi, M., Boi, F., Angotzi, G. N., & Berdondini, L. (2023)
Perna, A., Ribeiro, J. F., Orban, G., Vincenzi, M., Boi, F., Angotzi, G. N., & Berdondini, L. (2023)
2022 IEEE International Electron Devices Meeting (IEDM)
2022 IEEE International Electron Devices Meeting (IEDM)
2022 IEEE International Electron Devices Meeting (IEDM)
Channels, layout and size scalability of implantable CMOS-based multielectrode array probes.
Channels, layout and size scalability of implantable CMOS-based multielectrode array probes.
Ribeiro, J. F., Angotzi, G. N., Perna, A., Vincenzi, M., Orban, G., Boi, F., & Berdondini, L. (2022)
Ribeiro, J. F., Angotzi, G. N., Perna, A., Vincenzi, M., Orban, G., Boi, F., & Berdondini, L. (2022)
2021 IEEE 10th International IEEE/EMBS Conference on Neural Engineering (NER)
2021 IEEE 10th International IEEE/EMBS Conference on Neural Engineering (NER)
Bioelectrodes for high-channel count and small form factor CMOS neural probes.
Bioelectrodes for high-channel count and small form factor CMOS neural probes.
Ribeiro, J. F., Boi, F., Lecomte, A., Angotzi, G. N., & Berdondini, L. (2021)
Ribeiro, J. F., Boi, F., Lecomte, A., Angotzi, G. N., & Berdondini, L. (2021)
2021 IEEE Biomedical Circuits and Systems Conference (BioCAS)
2021 IEEE Biomedical Circuits and Systems Conference (BioCAS)
2021 IEEE Biomedical Circuits and Systems Conference (BioCAS)
Coupling SiNAPS high-density neural recording CMOS-probes with optogenetic light stimulation.
Coupling SiNAPS high-density neural recording CMOS-probes with optogenetic light stimulation.
Boi, F., Locarno, A., Ribeiro, J. F., Tonini, R., Angotzi, G. N., & Berdondini, L. (2021)
Boi, F., Locarno, A., Ribeiro, J. F., Tonini, R., Angotzi, G. N., & Berdondini, L. (2021)
bioRxiv
bioRxiv
bioRxiv
Multi-shanks SiNAPS Active Pixel Sensor CMOS probe: 1024 simultaneously recording channels for high-density intracortical brain mapping.
Multi-shanks SiNAPS Active Pixel Sensor CMOS probe: 1024 simultaneously recording channels for high-density intracortical brain mapping.
Boi, F., Perentos, N., Lecomte, A., Schwesig, G., Zordan, S., Sirota, A., Berdondini, L., & Angotzi, G. N. (2020)
Boi, F., Perentos, N., Lecomte, A., Schwesig, G., Zordan, S., Sirota, A., Berdondini, L., & Angotzi, G. N. (2020)
Biosensors and Bioelectronics, 126, 355–364
Biosensors and Bioelectronics, 126, 355–364
Biosensors and Bioelectronics, 126, 355–364
SiNAPS: An implantable active pixel sensor CMOS-probe for simultaneous large-scale neural recordings.
SiNAPS: An implantable active pixel sensor CMOS-probe for simultaneous large-scale neural recordings.
Angotzi, G. N., Boi, F., Lecomte, A., Miele, E., Malerba, M., Zucca, S., Casile, A., & Berdondini, L. (2019)
Angotzi, G. N., Boi, F., Lecomte, A., Miele, E., Malerba, M., Zucca, S., Casile, A., & Berdondini, L. (2019)
Progetto cofinanziato con risorse del PR FESR Liguria 2021/2027
Programma Regionale PR FESR Liguria 2021/2027 – Obiettivo Specifico 1.2. “Permettere ai cittadini, alle impese, alle organizzazioni di ricerca e alle autorità pubbliche di cogliere i vantaggi della digitalizzazione” – Azione 1.2.3 “Sostenere l’introduzione di pratiche e tecnologie digitali nelle imprese” – Bando “Supporto allo sviluppo di progetti di digitalizzazione nelle micro, piccole e medie imprese” – Anno 2024.
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Progetto cofinanziato con risorse del PR FESR Liguria 2021/2027
Programma Regionale PR FESR Liguria 2021/2027 – Obiettivo Specifico 1.2. “Permettere ai cittadini, alle impese, alle organizzazioni di ricerca e alle autorità pubbliche di cogliere i vantaggi della digitalizzazione” – Azione 1.2.3 “Sostenere l’introduzione di pratiche e tecnologie digitali nelle imprese” – Bando “Supporto allo sviluppo di progetti di digitalizzazione nelle micro, piccole e medie imprese” – Anno 2024.
Via Pietro Chiesa 9
16149 Genova, Italy
Phone: +39 010 8595211
Email: info@corticale.com
Privacy Policy
Cookie Policy
Grants & Incentives
Quality Policy
Registered Office: Via Pietro Chiesa 9 - 16149 Genova (GE) Branch: Via Porta Tenaglia 1 Milano (MI)