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Journal of Medical Engineering & Technology Volume 37, 2013 - Issue 4
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Research Article

Electromagnetic assessment of embedded micro antenna for a novel sphincter in the human body

Peng ZanDepartment of Automation, College of Mechatronics Engineering and Automation, Shanghai University ShanghaiPR China;Shanghai Key Laboratory of Power Station Automation Technology ShanghaiPR ChinaCorrespondence[email protected]
,
Jinding LiuDepartment of Automation, College of Mechatronics Engineering and Automation, Shanghai University ShanghaiPR China;Shanghai Key Laboratory of Power Station Automation Technology ShanghaiPR China
,
Yutao AiDepartment of Automation, College of Mechatronics Engineering and Automation, Shanghai University ShanghaiPR China;Shanghai Key Laboratory of Power Station Automation Technology ShanghaiPR China
&
Enyu JiangDepartment of Automation, College of Mechatronics Engineering and Automation, Shanghai University ShanghaiPR China;Shanghai Key Laboratory of Power Station Automation Technology ShanghaiPR China
Pages 307-312 | Received 30 Oct 2012, Accepted 10 Apr 2013, Published online: 24 May 2013
 
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Abstract

This paper presents a wireless, miniaturized, bi-directional telemetric artificial anal sphincter system that can be used for controlling patients' anal incontinence. The artificial anal sphincter system is mainly composed of an executive mechanism, a wireless power supply system and a wireless communication system. The wireless communication system consists of an internal RF transceiver, an internal RF antenna, a data transmission pathway, an external RF antenna and an external RF control transceiver. A micro NMHA (Normal Mode Helical Antenna) has been used for the transceiver of the internal wireless communication system and a quarter wave-length whip antenna of 7.75 cm has been used for the external wireless communication system. The RF carrier frequency of wireless communication is located in a license-free 433.1 MHz ISM (Industry, Science, and Medical) band. The radiation characteristics and SAR (Specific Absorption Rate) are evaluated using the finite difference time-domain method and 3D human body model. Results show that the SAR values of the antenna satisfy the ICNIRP (International Commission on Nonionizing Radiation Protection) limitations.

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