Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model

Behavioural assessment of experimental pain is an essential method for analysing and measuring pain levels. Rodent models, which are widely used in behavioural tests, are often subject to external forces and stressful manipulations that cause variability of the parameters measured during the experim...

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Main Author: Delina Beh Mei Yin
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Published: MDPI-Open Access Publishing 2013
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Online Access:http://www.mdpi.com/1424-8220/11/5/5058
http://ir.unikl.edu.my/jspui/handle/123456789/2127
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spelling my.unikl.ir-21272013-05-14T02:30:50Z Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model Delina Beh Mei Yin arthritis analgesimeter nociception stepping force load cells Behavioural assessment of experimental pain is an essential method for analysing and measuring pain levels. Rodent models, which are widely used in behavioural tests, are often subject to external forces and stressful manipulations that cause variability of the parameters measured during the experiment. Therefore, these parameters may be inappropriate as indicators of pain. In this article, a stepping-force analgesimeter was designed to investigate the variations in the stepping force of rats in response to pain induction. The proposed apparatus incorporates new features, namely an infrared charge-coupled device (CCD) camera and a data acquisition system. The camera was able to capture the locomotion of the rats and synchronise the stepping force concurrently so that each step could be identified. Inter-day and intra-day precision and accuracy of each channel (there were a total of eight channels in the analgesimeter and each channel was connected to one load cell and one amplifier) were studied using different standard load weights. The validation studies for each channel also showed convincing results whereby intra-day and inter-day precision were less than 1% and accuracy was 99.36–100.36%. Consequently, an in vivo test was carried out using 16 rats (eight females and eight males). The rats were allowed to randomly walk across the sensor tunnel (the area that contained eight channels) and the stepping force and locomotion were recorded. A non-expert, but from a related research domain, was asked to differentiate the peaks of the front and hind paw, respectively. The results showed that of the total movement generated by the rats, 50.27 ± 3.90% in the case of the male rats and 62.20 ± 6.12% in that of the female rats had more than two peaks, a finding which does not substantiate the assumptions made in previous studies. This study also showed that there was a need to use the video display frame to distinguish between the front and hind paws in the case of 48.80 ± 4.01% of the male rats and 66.76 ± 5.35% of the female rats. Evidently the assumption held by current researchers regarding stepping force measurement is not realistic in terms of application, and as this study has shown, the use of a video display frame is essential for the identification of the front and hind paws through the peak signals. 2013-05-14T02:30:50Z 2013-05-14T02:30:50Z 2011 Page : 5058-5070 http://www.mdpi.com/1424-8220/11/5/5058 http://ir.unikl.edu.my/jspui/handle/123456789/2127 Journal of Sensors 2011; MDPI-Open Access Publishing
institution Universiti Kuala Lumpur
building UniKL Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Kuala Lumpur
content_source UniKL Institutional Repository
url_provider http://ir.unikl.edu.my/
topic arthritis
analgesimeter
nociception
stepping force
load cells
spellingShingle arthritis
analgesimeter
nociception
stepping force
load cells
Delina Beh Mei Yin
Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model
description Behavioural assessment of experimental pain is an essential method for analysing and measuring pain levels. Rodent models, which are widely used in behavioural tests, are often subject to external forces and stressful manipulations that cause variability of the parameters measured during the experiment. Therefore, these parameters may be inappropriate as indicators of pain. In this article, a stepping-force analgesimeter was designed to investigate the variations in the stepping force of rats in response to pain induction. The proposed apparatus incorporates new features, namely an infrared charge-coupled device (CCD) camera and a data acquisition system. The camera was able to capture the locomotion of the rats and synchronise the stepping force concurrently so that each step could be identified. Inter-day and intra-day precision and accuracy of each channel (there were a total of eight channels in the analgesimeter and each channel was connected to one load cell and one amplifier) were studied using different standard load weights. The validation studies for each channel also showed convincing results whereby intra-day and inter-day precision were less than 1% and accuracy was 99.36–100.36%. Consequently, an in vivo test was carried out using 16 rats (eight females and eight males). The rats were allowed to randomly walk across the sensor tunnel (the area that contained eight channels) and the stepping force and locomotion were recorded. A non-expert, but from a related research domain, was asked to differentiate the peaks of the front and hind paw, respectively. The results showed that of the total movement generated by the rats, 50.27 ± 3.90% in the case of the male rats and 62.20 ± 6.12% in that of the female rats had more than two peaks, a finding which does not substantiate the assumptions made in previous studies. This study also showed that there was a need to use the video display frame to distinguish between the front and hind paws in the case of 48.80 ± 4.01% of the male rats and 66.76 ± 5.35% of the female rats. Evidently the assumption held by current researchers regarding stepping force measurement is not realistic in terms of application, and as this study has shown, the use of a video display frame is essential for the identification of the front and hind paws through the peak signals.
format
author Delina Beh Mei Yin
author_facet Delina Beh Mei Yin
author_sort Delina Beh Mei Yin
title Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model
title_short Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model
title_full Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model
title_fullStr Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model
title_full_unstemmed Development of a Stepping Force Analgesic Meter for a Rat Arthritic Model
title_sort development of a stepping force analgesic meter for a rat arthritic model
publisher MDPI-Open Access Publishing
publishDate 2013
url http://www.mdpi.com/1424-8220/11/5/5058
http://ir.unikl.edu.my/jspui/handle/123456789/2127
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score 13.222552