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All Outputs (10)

Dynamical and individualised approach of transcranial ultrasound neuromodulation effects in non-human primates (2024)
Journal Article
Atkinson-Clement, C., Alkhawashki, M., Ross, J., Gatica, M., Zhang, C., Sallet, J., & Kaiser, M. (2024). Dynamical and individualised approach of transcranial ultrasound neuromodulation effects in non-human primates. Scientific Reports, 14, Article 11916. https://doi.org/10.1038/s41598-024-62562-6

Low-frequency transcranial ultrasound stimulation (TUS) allows to alter brain functioning with a high spatial resolution and to reach deep targets. However, the time-course of TUS effects remains largely unknown. We applied TUS on three brain targets... Read More about Dynamical and individualised approach of transcranial ultrasound neuromodulation effects in non-human primates.

Predictability of intelligence and age from structural connectomes (2024)
Journal Article
Kopetzky, S. J., Li, Y., Kaiser, M., & Butz-Ostendorf, M. (2024). Predictability of intelligence and age from structural connectomes. PLoS ONE, 19(4), Article e0301599. https://doi.org/10.1371/journal.pone.0301599

In this study, structural images of 1048 healthy subjects from the Human Connectome Project Young Adult study and 94 from ADNI-3 study were processed by an in-house tractography pipeline and analyzed together with pre-processed data of the same subje... Read More about Predictability of intelligence and age from structural connectomes.

Spatial organisation of the mesoscale connectome: A feature influencing synchrony and metastability of network dynamics (2023)
Journal Article
Mackay, M., Huo, S., & Kaiser, M. (2023). Spatial organisation of the mesoscale connectome: A feature influencing synchrony and metastability of network dynamics. PLoS Computational Biology, 19(8), Article e1011349. https://doi.org/10.1371/journal.pcbi.1011349

Significant research has investigated synchronisation in brain networks, but the bulk of this work has explored the contribution of brain networks at the macroscale. Here we explore the effects of changing network topology on functional dynamics in s... Read More about Spatial organisation of the mesoscale connectome: A feature influencing synchrony and metastability of network dynamics.

Connectomes: from a sparsity of networks to large-scale databases (2023)
Journal Article
Kaiser, M. (2023). Connectomes: from a sparsity of networks to large-scale databases. Frontiers in Neuroinformatics, 17, Article 1170337. https://doi.org/10.3389/fninf.2023.1170337

The analysis of whole brain networks started in the 1980s when only a handful of connectomes were available. In these early days, information about the human connectome was absent and one could only dream about having information about connectivity i... Read More about Connectomes: from a sparsity of networks to large-scale databases.

Computational modeling of neurostimulation in brain diseases (2015)
Book Chapter
Wang, Y., Hutchings, F., & Kaiser, M. (2015). Computational modeling of neurostimulation in brain diseases. In Computational Neurostimulation (191-228). Elsevier. https://doi.org/10.1016/bs.pbr.2015.06.012

Neurostimulation as a therapeutic tool has been developed and used for a range of different diseases such as Parkinson's disease, epilepsy, and migraine. However, it is not known why the efficacy of the stimulation varies dramatically across patients... Read More about Computational modeling of neurostimulation in brain diseases.

Multiple-Scale Hierarchical Connectivity of Cortical Networks Limits the Spread of Activity (2008)
Book Chapter
Kaiser, M. (2008). Multiple-Scale Hierarchical Connectivity of Cortical Networks Limits the Spread of Activity. In Computational Neuroscience in Epilepsy (132-140). https://doi.org/10.1016/B978-012373649-9.50012-0

The anatomy of the brain that cortical architecture and connections are organized in a hierarchical and modular way, from cellular microcircuits in cortical columns at the lowest level, via cortical areas at the intermediate level, to clusters of hig... Read More about Multiple-Scale Hierarchical Connectivity of Cortical Networks Limits the Spread of Activity.