Design and Study of a Small Implantable Antenna Design for Blood Glucose Monitoring

作者

  • Ayesha Ahmed School of Computer Science and Technology University of Bedfordshire, Luton, UK
  • Tahera Kalsoom School of Engineering and Computing University of West of Scotland, Paisley, UK
  • Masood Ur-Rehman School of Computer Science and Electronic Engineering University of Essex, Colchester, UK
  • Naeem Ramzan School of Engineering and Computing University of West of Scotland, Paisley, UK
  • Sajjad Karim Department of Electrical Engineering Foundation University Islamabad, Pakistan
  • Qammer H. Abbasi School of Engineering University of Glasgow, Glasgow, UK

关键词:

Implantable, glucose monitoring, small antennas, tele-health systems

摘要

In this paper, a miniaturized implantable antenna with the dimensions of 8×8×1 mm3 has been studied for continuous monitoring of Blood Glucose Levels (BGL). The antenna performance is analyzed numerically for both the free space and implanted operation. The results show that the works excellently in both the scenarios. The antenna has the lowest resonant frequency of 3.58 GHz in free space with a gain 1.18 GHz while it operates at 2.58 GHz with a gain of 4.18 dBi. Good performance, small size and resilience to the human body effects make the antenna to have a good potential use in future implantable glucose monitoring devices.

##plugins.generic.usageStats.downloads##

##plugins.generic.usageStats.noStats##

参考

World Health Organization, Global report on diabetes, World Health Organization, 2016.

Horizon Scanning Research and Intelligence Centre, New and emerging non-invasive glucose monitoring, Horizon Scanning Research and Intelligence Centre, 2016.

P. S. Hall and Y. Hao, Antennas and Propagation for Body-Centric Wireless Communications. Artech House, 2012.

Q. H. Abbasi, M. Ur-Rehman, K. Qaraqe, and A. Alomainy, “Advances in body-centric wireless communication: Applications and state-of-the-art,” The IET, (UK), 2016.

Y Cho and H Yoo, “Miniaturised dual-band implantable antenna for wireless biotelemetry,” Electronics Letters, 52(12):1005-1007, 2016.

X. Y. Liu, Z. T. Wu, Y. Fan, and E. M. Tentzeris, “A miniaturized CSRR loaded wide-beamwidth circularly polarized implantable antenna for subcutaneous real-time glucose monitoring,” IEEE Antennas and Wireless Propagation Letters, 16:577-580, 2017.

T. Yilmaz, R. Foster, and Y. Hao, “Broadband tissue mimicking phantoms and a patch resonator for evaluating noninvasive monitoring of blood glucose levels,” IEEE Transactions on Antennas and Propagation, 62(6):3064-3075, 2014.

M. Ur-Rehman, N. A. Malik, X. Yang, Q. H. Abbasi, Z. Zhang, and N. Zhao, “A low profile antenna for millimeter-wave body-centric applications,” IEEE Transactions on Antennas and Propagation, 65(12):6329-6337, Dec. 2017.

H. Li, Y.-X. Guo, C. Liu, S. Xiao, and L. Li, “A miniature-implantable antenna for medradio-band biomedical telemetry,” IEEE Antennas and Wireless Propagation Letters, 14:1176-1179, 2015.

S. Gabriel, R. W. Lau, and C. Gabriel, “The dielectric properties of biological tissues: II. Measurements in the frequency range 10 Hz to 20 GHz,” Physics in Medicine and Biology, 41(11):2251-2269, 1996.

Dielectric properties. ITIS website. http://www.itis. ethz.ch/virtual-population/tissue-properties/database/ dielectric-properties)

##submission.downloads##

已出版

2021-07-22

##submission.howToCite##

[1]
Ayesha Ahmed, Tahera Kalsoom, Masood Ur-Rehman, Naeem Ramzan, Sajjad Karim, 和 Qammer H. Abbasi, 《Design and Study of a Small Implantable Antenna Design for Blood Glucose Monitoring》, ACES Journal, 卷 33, 期 10, 页 1146–1151, 7月 2021.

2018: Vol 33 Iss 10

栏目

General Submission