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ISSN: 2957-5478
Indexed in: Europub, CNKI, Crossref, Dimensions, Google Scholar
Editor-in-Chief: Haipo Cui
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Volume 1, Issue 1
Electromagnetic induction detection techniques for craniocerebral injury: A review

Ruoyu Song1, Tao Xu2, Tingting Shi1, Xinrui Gui1, Rongguo Yan1


1School of Health Science and Engineering, University of Shanghai for Science and Technology, Shanghai 200093, P. R. China; 2Department of Neurosurgery, Changzheng Hospital, Naval Medical University, Shanghai 200003, P. R. China. 


Address correspondence to: Rongguo Yan, Department of Biomedical Engineering, School of Health Science and Engineering, University of Shanghai for Science and Technology, No. 516 Jungong Road, Yangpu, Shanghai 200093, P. R. China. Tel: 13370260817. E-mail: yanrongguo@usst.edu.cn.


Received January 5, 2022; Accepted May 7, 2023; Published June 30, 2023


DOI: https://doi.org/10.61189/729316upqdwc


Highlights

An induced current occurs in a conductor as a result of electromagnetic induction. 

The use of a magnetic field to generate induced current is known as electromagnetic induction, which can be used to detect craniocerebral injury. 

Induced current electrical impedance tomography, magneto-acoustic tomography, and eddy current damping sensors for imaging and detection are reviewed in the paper.

Review Article |Published on: 30 June 2023

[Progress in Medical Devices] 2023; 1 (1): 19-26.

DOI: https://doi.org/10.61189/729316upqdwc
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Progress on Kirschner wire insertion techniques for patellar fractures

Yan Zhang, Xudong Guo, Rui Yang, Jun Wang, Haipo Cui 


School of Health Science and Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China.


Address correspondence to: Haipo Cui, School of Heath Science and Engineering, Yangpu District, Shanghai 200093, China. Tel: +86-21-55271290. E-mail: h_b_cui@163.com.


 Acknowledgments: This work was supported by the Shanghai Municipal Science and Technology Major Project (No. 2021SHZDZX), Shanghai Industrial Collaborative Innovation Project (No. 2021-cyxt1-kj07), Shanghai Science and Technology Innovation Action Plan (No. 22S31902200), and Cooperation Fund of the Eighth Research Institute of China Aerospace Science and Technology Corporation (No. SAST2022-094), PR China. 


Received February 18, 2023; Accepted April 13, 2023; Published June 30, 2023


DOI: https://doi.org/10.61189/550253gnnvtv


Highlights 

Distance and position of Kirschner wires influence the stability of tension band wiring. 

Kirschner wire guiding device can improve the accuracy of Kirschner wire placement. 

Designing an optimal guide device is the primary development direction to improve the accuracy of Kirschner wire placement.

Review Article |Published on: 30 June 2023

[Progress in Medical Devices] 2023; 1 (1): 27-32.

DOI: https://doi.org/10.61189/550253gnnvtv
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Optimizing electrode design to minimize thermal spread in radiofrequency-induced colonic anastomosis

Lin Mao1, Hanxiao Xue1, Zhongxin Hu1, Zhengyue Zhou1, Junxian Li1, Alfred Cuschieri2, Chengli Song1


1Shanghai Institute for Minimally Invasive Therapy, School of Health Science and Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China. 2Institute for Medical Science and Technology, University of Dundee, DD21FD, UK.


Acknowledgements: The authors would like to acknowledge the support from the National Natural Science Foundation of China (No. 51901137, No. 51735003) and Shanghai Science and Technology Committee (No. 18441900200).


Address correspondence to: Chengli Song, Shanghai Institute for Minimally Invasive Therapy, School of Health Science and Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China. Email: csong@usst.edu.cn.


Received March 17, 2023; Accepted May 18, 2023; Published June 30, 2023


DOI: https://doi.org/10.61189/716520irvmwh


Highlights

Three electrodes with the structure of oncave-convex, rail coupled concave-convex, and cross rail coupled concave-convex feature were designed for radiofrequency-induced colonic anastomoses.

The electrode with concave-convex design produced similar temperature between ‘gap’ and ‘compressed’ areas,whereas the rail coupled concave-convex exhibited the highest temperature at 'gap' and 'compressed' areas.

The cross rail coupled concave-convex electrode, by tightly occluding upper and lower electrodes, could create uniform compression and temperature variation.

Research Article |Published on: 30 June 2023

[Progress in Medical Devices] 2023; 1 (1): 42-54.

DOI: https://doi.org/10.61189/716520irvmwh
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