The development of modern micro-processing technology has led to the design and production of sub-millimeter-sized coils. A novel type of micro-magnetic stimulation (μMS) regulatory technology has widely been researched in recent years. This technology has several advantages, including small size, no contact between tissues and the metal coil, and high spatial resolution. Considering some problems with the μMS control technology in practical applications, different kinds of μMS devices have been developed, including an in vitro single-point μMS device, an in vivo implantable single-point μMs device, a discrete-array μMS device, and an in vivo implantable-array μMs device. Given the problems that currently exist in the design and implementation of this device, such as the key problems of structural design, implantation method, experimental safety, and reliability of the device, we review the development process in detail. We also discuss the precise targeting advantage of this device, which is likely to be of great significance for wide-ranging applications of magnetic stimulation technology.

现代微加工技术的发展导致了亚毫米级线圈的设计和生产。近年来，一种新型的微磁刺激（μMS ）调节技术得到了广泛的研究。该技术具有几个优点，包括体积小、组织与金属线圈之间不接触以及空间分辨率高。考虑到μMS控制技术在实际应用中存在的一些问题，开发了不同种类的μMS装置，包括体外单点μMS装置、体内植入式单点μMS装置、离散阵列μMS装置。MS 装置和体内可植入阵列μ Ms 装置。鉴于目前该装置设计和实现中存在的结构设计、植入方法、实验安全性和装置可靠性等关键问题，我们详细回顾了开发过程。我们还讨论了该设备的精确靶向优势，这可能对磁刺激技术的广泛应用具有重要意义。