Noninvasive Ultrasonic Neuromodulation in Freely Moving Mice

Neuromodulation is a fundamental method for obtaining basic information about neuronal circuits for use in treatments for neurological and psychiatric disorders. Ultrasound stimulation has become a promising approach for noninvasively inducing neuromodulation in animals and humans. However, the prev...

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Bibliographic Details
Published in:IEEE transactions on biomedical engineering 2019-01, Vol.66 (1), p.217-224
Main Authors: Li, Guofeng, Xu, Di, Zhang, Huailing, Zheng, Hairong, Qiu, Weibao, Zhang, Zhiqiang, Jiang, Qiuju, Su, Min, Cai, Ruilin, Li, Yongchuan, Cai, Feiyan, Deng, Zhiting
Format: Article
Language:English
Subjects:
Acoustics
Animal models
Animals
Behavior, Animal - radiation effects
Ceramics
Cortex (somatosensory)
Electrical stimuli
Equipment Design
freely moving animal
head-mounted device
Housing
Lenses
Male
Mental disorders
Mice
Mice, Inbred C57BL
Nervous system
Neurological diseases
Neuromodulation
Physical Stimulation - instrumentation
Piezoelectricity
Stimulators
Transcutaneous Electric Nerve Stimulation
Ultrasonic imaging
Ultrasonics - instrumentation
Ultrasound
ultrasound stimulator
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Summary:Neuromodulation is a fundamental method for obtaining basic information about neuronal circuits for use in treatments for neurological and psychiatric disorders. Ultrasound stimulation has become a promising approach for noninvasively inducing neuromodulation in animals and humans. However, the previous investigations were subject to substantial limitations, due to most of them involving anesthetized and fixed small-animal models. Studies of awake and freely moving animals are needed, but the currently used ultrasound devices are too bulky to be applied to a freely moving animal. This study is the first time to design and fabricate a miniature and lightweight head-mounted ultrasound stimulator for inducing neuromodulation in freely moving mice. The main components of the stimulator include a miniature piezoelectric ceramic, a concave epoxy acoustic lens, and housing and connection components. The device was able to induce action potentials recorded in situ and evoke head-turning behaviors by stimulating the primary somatosensory cortex barrel field of the mouse. These findings indicate that the proposed method can be used to induce noninvasive neuromodulation in freely moving mice. This novel method could potentially lead to the application of ultrasonic neuromodulation in more-extensive neuroscience investigations.
ISSN:0018-9294
1558-2531
DOI:10.1109/TBME.2018.2821201