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RFID technology for continuous monitoring of physiological signals in small animals

Telemetry systems enable researchers to continuously monitor physiological signals in unrestrained, freely moving small rodents. Drawbacks of common systems are limited operation time, the need to house the animals separately, and the necessity of a stable communication link. Furthermore, the costs...

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Bibliographic Details
Main Authors: Volk, Tobias (Author) , Gorbey, Stefan (Author) , Lemmer, Björn (Author)
Format: Article (Journal)
Language:English
Published: 2015
In: IEEE transactions on biomedical engineering
Year: 2015, Volume: 62, Issue: 2, Pages: 618-626
ISSN:1558-2531
DOI:10.1109/TBME.2014.2361856
Online Access:Verlag, Volltext: http://dx.doi.org/10.1109/TBME.2014.2361856
Verlag, Volltext: https://ieeexplore.ieee.org/document/6920019
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Author Notes:Tobias Volk; Stefan Gorbey; Mayukh Bhattacharyya; Waldemar Gruenwald; Björn Lemmer; Leonhard M. Reindl, Member, IEEE; Thomas Stieglitz, Senior Member, IEEE; and Dirk Jansen, Member, IEEE

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245 1 0 |a RFID technology for continuous monitoring of physiological signals in small animals  |c Tobias Volk; Stefan Gorbey; Mayukh Bhattacharyya; Waldemar Gruenwald; Björn Lemmer; Leonhard M. Reindl, Member, IEEE; Thomas Stieglitz, Senior Member, IEEE; and Dirk Jansen, Member, IEEE 
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520 |a Telemetry systems enable researchers to continuously monitor physiological signals in unrestrained, freely moving small rodents. Drawbacks of common systems are limited operation time, the need to house the animals separately, and the necessity of a stable communication link. Furthermore, the costs of the typically proprietary telemetry systems reduce the acceptance. The aim of this paper is to introduce a low-cost telemetry system based on common radio frequency identification technology optimized for battery-independent operational time, good reusability, and flexibility. The presented implant is equipped with sensors to measure electrocardiogram, arterial blood pressure, and body temperature. The biological signals are transmitted as digital data streams. The device is able of monitoring several freely moving animals housed in groups with a single reader station. The modular concept of the system significantly reduces the costs to monitor multiple physiological functions and refining procedures in preclinical research. 
650 4 |a Biotelemetry 
650 4 |a Animals 
650 4 |a arterial blood pressure measurement 
650 4 |a battery-independent operational time 
650 4 |a biological signals 
650 4 |a biomedical telemetry 
650 4 |a biotelemetry 
650 4 |a blood pressure measurement 
650 4 |a body temperature measurement 
650 4 |a Computer Communication Networks 
650 4 |a Computer Systems 
650 4 |a continuous physiological signal monitoring 
650 4 |a digital data streams 
650 4 |a Electric Power Supplies 
650 4 |a electrocardiogram 
650 4 |a electrocardiography 
650 4 |a Equipment Design 
650 4 |a Equipment Failure Analysis 
650 4 |a freely moving animals 
650 4 |a implant 
650 4 |a Implants 
650 4 |a in-vivo monitoring 
650 4 |a medical signal processing 
650 4 |a Monitoring, Ambulatory 
650 4 |a Prostheses and Implants 
650 4 |a radio frequency identification (RFID) 
650 4 |a Radio Frequency Identification Device 
650 4 |a radio frequency identification technology 
650 4 |a radiofrequency identification 
650 4 |a Rats 
650 4 |a Reproducibility of Results 
650 4 |a RFID technology 
650 4 |a Sensitivity and Specificity 
650 4 |a sensor system 
650 4 |a Signal Processing, Computer-Assisted 
650 4 |a single reader station 
650 4 |a small animals 
650 4 |a Systems Integration 
650 4 |a Telemetry 
650 4 |a telemetry system 
650 4 |a temperature measurement 
650 4 |a Temperature sensors 
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