Improved Infrared-Sensing Running Wheel Systems with an Effective Exercise Activity Indicator

This paper describes an infrared-sensing running wheel (ISRW) system for the quantitative measurement of effective exercise activity in rats. The ISRW system provides superior exercise training compared with commercially available traditional animal running platforms. Four infrared (IR) light-emitti...

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Published inPloS one Vol. 10; no. 4; p. e0122394
Main Authors Chen, Chi-Chun, Chang, Ming-Wen, Chang, Ching-Ping, Chang, Wen-Ying, Chang, Shin-Chieh, Lin, Mao-Tsun, Yang, Chin-Lung
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 13.04.2015
Public Library of Science (PLoS)
Subjects
Animals
Calibration
Cerebral blood flow
D C motors
Equipment Design
Exercise Test - instrumentation
Indicators
Infarction, Middle Cerebral Artery - pathology
Infrared detectors
Infrared Rays
Infrared sensing
Ischemia
Learning
Light emitting diodes
Male
Muscles - physiology
Neuroprotection
Occlusion
Physical Conditioning, Animal - instrumentation
Physical training
Rats
Rats, Wistar
Reproducibility of Results
Rubber
Running
Software
Stroke
System effectiveness
Wheel running
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ISSN1932-6203
1932-6203
DOI10.1371/journal.pone.0122394

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Summary:This paper describes an infrared-sensing running wheel (ISRW) system for the quantitative measurement of effective exercise activity in rats. The ISRW system provides superior exercise training compared with commercially available traditional animal running platforms. Four infrared (IR) light-emitting diode/detector pairs embedded around the rim of the wheel detect the rat's real-time position; the acrylic wheel has a diameter of 55 cm and a thickness of 15 cm, that is, it is larger and thicker than traditional exercise wheels, and it is equipped with a rubber track. The acrylic wheel hangs virtually frictionless, and a DC motor with an axially mounted rubber wheel, which has a diameter of 10 cm, drives the acrylic wheel from the outer edge. The system can automatically train rats to run persistently. The proposed system can determine effective exercise activity (EEA), with the IR sensors (which are connected to a conventional PC) recording the rat exercise behavior. A prototype of the system was verified by a hospital research group performing ischemic stroke experiments on rats by considering middle cerebral artery occlusion. The experimental data demonstrated that the proposed system provides greater neuroprotection in an animal stroke model compared with a conventional treadmill and a motorized running wheel for a given exercise intensity. The quantitative exercise effectiveness indicator showed a 92% correlation between an increase in the EEA and a decrease in the infarct volume. This indicator can be used as a noninvasive and objective reference in clinical animal exercise experiments.
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Conceived and designed the experiments: C-CC C-PC M-TL C-LY. Performed the experiments: C-CC S-CC. Analyzed the data: C-CC C-PC S-CC. Contributed reagents/materials/analysis tools: C-CC C-PC C-LY. Wrote the paper: C-CC M-WC M-TL C-LY. Established the whole running wheel systems and planned the experiments: C-CC. Assisted the embedded system of the ISRW system and the test of the inclined plane device: M-WC. (Medical expertise for more than 20 years) designed the animal experiments and statistical analysis: C-PC. Assisted with the hardware and the embedded systems: W-YC. Performed the experiments, trained the animals, and collected MCAo data: S-CC. (Medical expertise for more than 40 years) advised the framework of the innovative platform and the neuro-protection in an animal stroke model: M-TL. Is the corresponding author who initiates the ideas, supervises this whole work, and revises the manuscript: C-LY.
Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0122394