Autor: |
Hou, Xuandi, Jing, Jianing, Jiang, Yizhou, Huang, Xiaohui, Xian, Quanxiang, Lei, Ting, Zhu, Jiejun, Wong, Kin Fung, Zhao, Xinyi, Su, Min, Li, Danni, Liu, Langzhou, Qiu, Zhihai, Sun, Lei |
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Zdroj: |
Nature Communications; 3/13/2024, Vol. 15 Issue 1, p1-18, 18p |
Abstrakt: |
Ultrasound is an acoustic wave which can noninvasively penetrate the skull to deep brain regions, enabling neuromodulation. However, conventional ultrasound's spatial resolution is diffraction-limited and low-precision. Here, we report acoustic nanobubble-mediated ultrasound stimulation capable of localizing ultrasound's effects to only the desired brain region in male mice. By varying the delivery site of nanobubbles, ultrasound could activate specific regions of the mouse motor cortex, evoking EMG signaling and limb movement, and could also, separately, activate one of two nearby deep brain regions to elicit distinct behaviors (freezing or rotation). Sonicated neurons displayed reversible, low-latency calcium responses and increased c-Fos expression in the sub-millimeter-scale region with nanobubbles present. Ultrasound stimulation of the relevant region also modified depression-like behavior in a mouse model. We also provide evidence of a role for mechanosensitive ion channels. Altogether, our treatment scheme allows spatially-targetable, repeatable and temporally-precise activation of deep brain circuits for neuromodulation without needing genetic modification. Ultrasound may be used to non-invasively modulate the brain. Here the authors describe acoustic nanobubble-mediated ultrasound stimulation of specific brain region in male mice. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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