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Technical Brief

Implantation and Carrier Mechanism for Long-Term Biosensing in the Small Intestine1

[+] Author and Article Information
Alfred T. Tsubaki

Department of Mechanical and Materials Engineering,
University of Nebraska-Lincoln,
Lincoln, NE 68508
e-mail: alfredtsubaki@gmail.com

Weston M. Lewis

Department of Mechanical and Materials Engineering,
University of Nebraska-Lincoln,
Lincoln, NE 68508
e-mail: westonmlewis@gmail.com

Benjamin S. Terry

Department of Mechanical and Materials Engineering,
University of Nebraska-Lincoln,
Lincoln, NE 68508
e-mail: bterry2@unl.edu

Accepted and presented at the Design of Medical Devices Conference (DMD2014), Minneapolis, MN, April 7–10, 2014.

Manuscript received February 21, 2014; final manuscript received March 3, 2014; published online July 21, 2014. Editor: Arthur G. Erdman.

J. Med. Devices 8(3), 030956 (Jul 21, 2014) (2 pages) Paper No: MED-14-1130; doi: 10.1115/1.4027124 History: Received February 21, 2014; Revised March 03, 2014

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References

Figures

Grahic Jump Location
Fig. 1

Schematic of the carrier and sensor

Grahic Jump Location
Fig. 3

Tethered carrier and sensor for in vitro testing

Grahic Jump Location
Fig. 4

In vitro testing: (a) tissue before aspiration, (b) tissue aspiration, (c) sensor ejection, and (d) capsule removal via simulated peristalsis

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