Correction of a transcranial acoustic field using a transient ultrasound field visualization technique

Author:

Cheng ZhongwenORCID,Deng Lijun1,Lin Yiqin,Zeng Lvming1,Ji Xuanrong

Affiliation:

1. Jiangxi Science and Technology Normal University

Abstract

Ultrasound, due to its noninvasive nature, has the potential to enhance or suppress neural activity, making it highly promising for regulating intractable brain disorders. Precise ultrasound stimulation is crucial for improving the efficiency of neural modulation and studying its mechanisms. However, the presence of the skull can cause distortion in the ultrasound field, thereby affecting the accuracy of stimulation. Existing correction methods primarily rely on magnetic resonance guidance and numerical simulation. Due to the large size and high cost, the MR-guided transcranial ultrasound is difficult to be widely applied in small animals. The numerical simulation usually requires further validation and optimization before application, and the most effective method is to visualize the excited ultrasound field. However, the ultrasound field correction methods based on acoustic field visualization are still lacking. Therefore, a shadowgraph-based transient ultrasonic field visualization system is developed, and an ex vivo transcranial ultrasound field correction is performed. By visualizing the ultrasound field with or without a rat skull and then calculating the time difference of each element’s ultrasound wavefront, the parameters for ultrasound field correction can be achieved. The experimental results show that this method can improve both the shape and the size of the focal spot, as well as enhance the acoustic pressure at the focus. Overall, the results demonstrate that the ultrasonic field visualization technology can effectively improve the transcranial ultrasound focusing effect and provide a new tool for achieving precise ultrasonic neural modulation.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Guangdong Province

China Postdoctoral Science Foundation

Science and Technology General Project of Jiangxi Provincial Department of Education

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

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