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@@ -169,9 +169,7 @@ Publications and Presentations
Lu H, Garg S, Lenz M, Vlachos A (2025) Repetitive magnetic stimulation with iTBS600 induces persistent structural and functional plasticity in mouse organotypic slice cultures. BioRxiv.
Lu H, Frase L, Normann C, Rotter S (2025) Resolving inconsistent effects of tDCS on learning using a homeostatic structural plasticity model. BioRxiv.
Cumming B, Yates S, Hater T, Lu H, Huisman B, Wouter K, Bösch F, Frasch S, de Schepper R, Luboeinski J (2024) Arbor v0.10.0 (v0.10.0). Zenodo.
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- Lu H, Diaz S, Lenz M, Vlachos A (2024) The interplay between homeostatic synaptic scaling and homeostatic structural plasticity maintains the robust firing rate of neural networks. elife.
+ Lu H, Diaz S, Lenz M, Vlachos A (2024) The interplay between homeostatic synaptic scaling and homeostatic structural plasticity maintains the robust firing rate of neural networks. eLife.
Anil S, Lu H, Rotter S, Vlachos A (2023) Repetitive transcranial magnetic stimulation (rTMS) triggers dose-dependent homeostatic rewiring in recurrent neuronal networks. PLOS Computational Biology.
Shaner S, Lu H, Lenz M, Garg S, Vlachos A, Asplund M (2023) Brain stimulation-on-a-chip: a neuromodulation platform for brain slices. Lab on a Chip.
Lenz M, Eichler A, Kruse P, Stöhr P, Kleidonas D, Galanis C, Lu H, Vlachos A. Denervated mouse CA1 pyramidal neurons express homeostatic synaptic plasticity following entorhinal cortex lesion. Frontiers in Molecular Neuroscience. 2023 Apr 12;16:1148219.