The newly discovered functional integration of glioma cells into brain networks in mouse models provides groundbreaking insight into glioma aggressiveness and resistance to treatments, also suggesting novel potential therapeutic avenues and targets. In the context of such neuron-to-glioma communication, noninvasive brain modulation techniques traditionally applied to modulate neuronal function in neurological and psychiatric diseases (eg, increase/decrease cortical excitability and plasticity) could now be tested in patients with brain tumors to suppress glioma's activity and its pathological crosstalk with healthy brain tissue.
Newly discovered neuron-to-glioma communication: New noninvasive therapeutic opportunities on the horizon? / Sprugnoli G.; Golby A.J.; Santarnecchi E.. - In: NEURO-ONCOLOGY ADVANCES. - ISSN 2632-2498. - ELETTRONICO. - 3:(2021), pp. 0-0. [10.1093/noajnl/vdab018]
Newly discovered neuron-to-glioma communication: New noninvasive therapeutic opportunities on the horizon?
Sprugnoli G.Conceptualization
;
2021
Abstract
The newly discovered functional integration of glioma cells into brain networks in mouse models provides groundbreaking insight into glioma aggressiveness and resistance to treatments, also suggesting novel potential therapeutic avenues and targets. In the context of such neuron-to-glioma communication, noninvasive brain modulation techniques traditionally applied to modulate neuronal function in neurological and psychiatric diseases (eg, increase/decrease cortical excitability and plasticity) could now be tested in patients with brain tumors to suppress glioma's activity and its pathological crosstalk with healthy brain tissue.
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