Studies on long term behavioural changes in group-housed rat models of brain and spinal cord injury using an automated home cage recording system

Studies on long term behavioural changes in group-housed rat models of brain and spinal cord injury using an automated home cage recording system

•Automated behaviour systems allow long-term assessment of complex CNS injury models.•Home cage grouped-housed animal are relevant for subtle spontaneous behaviour studies.•Spinal cord injury affects locomotion and the grooming /rearing ability of animals.•Group behaviour analysis facilitates the st...

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Veröffentlicht in:Journal of neuroscience methods 2019-06, Vol.321, p.49-63
Hauptverfasser: Yip, Ping K., Chapman, George E., Sillito, Rowland R., Ip, T.H. Richard, Akhigbe, Georgia, Becker, Stephanie C., Price, Anthony W., Michael-Titus, Adina T., Armstrong, J. Douglas, Tremoleda, Jordi L.
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3Rs
Animals
Behavior, Animal
Behaviour
Body Temperature
Brain Injuries, Traumatic - diagnosis
Brain Injuries, Traumatic - psychology
Disease Models, Animal
Female
Grooming
Locomotion
Male
Neurotrauma
Pattern Recognition, Automated
Rats, Sprague-Dawley
Spinal Cord Injuries - diagnosis
Spinal Cord Injuries - psychology
Spinal cord injury
Traumatic brain injury
Video Recording - methods
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container_end_page 63
container_issue
container_start_page 49
container_title Journal of neuroscience methods
container_volume 321
creator Yip, Ping K.
Chapman, George E.
Sillito, Rowland R.
Ip, T.H. Richard
Akhigbe, Georgia
Becker, Stephanie C.
Price, Anthony W.
Michael-Titus, Adina T.
Armstrong, J. Douglas
Tremoleda, Jordi L.
description •Automated behaviour systems allow long-term assessment of complex CNS injury models.•Home cage grouped-housed animal are relevant for subtle spontaneous behaviour studies.•Spinal cord injury affects locomotion and the grooming /rearing ability of animals.•Group behaviour analysis facilitates the study of aggression in brain injury models.•Home cage non-invasive behaviour systems provides a unique 3Rs advantage. Neurotrauma patients face major neurological sequelae. The failure in the preclinical-to-clinical translation of candidate therapies could be due to poor evaluation of rodent behaviours after neurotrauma. A home cage automated system was used to study the long term behaviour of individual rats with traumatic brain injury (TBI), spinal cord injury (SCI) and non-CNS injured controls, whilst group-housed in their home cages. Naïve rats were used as baseline controls. Automated locomotor activity and body temperature recordings were carried out 24 h /day for 3 days/week during 12 weeks post-injury. Behavioural patterns, including aggression, rearing, grooming, feeding and drinking were analysed from automated video recordings during week 1, 6 and 12. SCI animals showed a lower locomotor activity compared to TBI or control animals during light and dark phases. TBI animals showed a higher aggression during the dark phase in the first week post-injury compared to SCI or control animals. Individual grooming and rearing were reduced in SCI animals compared to TBI and control animals in the first week post-injury during the dark phase. No differences in drinking or feeding were detected between groups. Locomotor activity did not differ between naïve male and female rats, but body temperature differ between light and dark phases for both. Injury severity was compared to standard SCI and TBI behaviour scores (BBB and mNSS, respectively) and histological analysis. This study demonstrates the practical benefits of using a non-intrusive automated home cage recording system to observe long term individual behaviour of group-housed SCI and TBI rats.
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The failure in the preclinical-to-clinical translation of candidate therapies could be due to poor evaluation of rodent behaviours after neurotrauma. A home cage automated system was used to study the long term behaviour of individual rats with traumatic brain injury (TBI), spinal cord injury (SCI) and non-CNS injured controls, whilst group-housed in their home cages. Naïve rats were used as baseline controls. Automated locomotor activity and body temperature recordings were carried out 24 h /day for 3 days/week during 12 weeks post-injury. Behavioural patterns, including aggression, rearing, grooming, feeding and drinking were analysed from automated video recordings during week 1, 6 and 12. SCI animals showed a lower locomotor activity compared to TBI or control animals during light and dark phases. TBI animals showed a higher aggression during the dark phase in the first week post-injury compared to SCI or control animals. 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Douglas</creatorcontrib><creatorcontrib>Tremoleda, Jordi L.</creatorcontrib><title>Studies on long term behavioural changes in group-housed rat models of brain and spinal cord injury using an automated home cage recording system</title><title>Journal of neuroscience methods</title><addtitle>J Neurosci Methods</addtitle><description>•Automated behaviour systems allow long-term assessment of complex CNS injury models.•Home cage grouped-housed animal are relevant for subtle spontaneous behaviour studies.•Spinal cord injury affects locomotion and the grooming /rearing ability of animals.•Group behaviour analysis facilitates the study of aggression in brain injury models.•Home cage non-invasive behaviour systems provides a unique 3Rs advantage. Neurotrauma patients face major neurological sequelae. The failure in the preclinical-to-clinical translation of candidate therapies could be due to poor evaluation of rodent behaviours after neurotrauma. A home cage automated system was used to study the long term behaviour of individual rats with traumatic brain injury (TBI), spinal cord injury (SCI) and non-CNS injured controls, whilst group-housed in their home cages. Naïve rats were used as baseline controls. Automated locomotor activity and body temperature recordings were carried out 24 h /day for 3 days/week during 12 weeks post-injury. Behavioural patterns, including aggression, rearing, grooming, feeding and drinking were analysed from automated video recordings during week 1, 6 and 12. SCI animals showed a lower locomotor activity compared to TBI or control animals during light and dark phases. TBI animals showed a higher aggression during the dark phase in the first week post-injury compared to SCI or control animals. Individual grooming and rearing were reduced in SCI animals compared to TBI and control animals in the first week post-injury during the dark phase. No differences in drinking or feeding were detected between groups. Locomotor activity did not differ between naïve male and female rats, but body temperature differ between light and dark phases for both. Injury severity was compared to standard SCI and TBI behaviour scores (BBB and mNSS, respectively) and histological analysis. This study demonstrates the practical benefits of using a non-intrusive automated home cage recording system to observe long term individual behaviour of group-housed SCI and TBI rats.</description><subject>3Rs</subject><subject>Animals</subject><subject>Behavior, Animal</subject><subject>Behaviour</subject><subject>Body Temperature</subject><subject>Brain Injuries, Traumatic - diagnosis</subject><subject>Brain Injuries, Traumatic - psychology</subject><subject>Disease Models, Animal</subject><subject>Female</subject><subject>Grooming</subject><subject>Locomotion</subject><subject>Male</subject><subject>Neurotrauma</subject><subject>Pattern Recognition, Automated</subject><subject>Rats, Sprague-Dawley</subject><subject>Spinal Cord Injuries - diagnosis</subject><subject>Spinal Cord Injuries - psychology</subject><subject>Spinal cord injury</subject><subject>Traumatic brain injury</subject><subject>Video Recording - methods</subject><issn>0165-0270</issn><issn>1872-678X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkc2O1DAQhC0EYoeFV1j5yCWhnR87voFWLCCtxAGQuFmO05k4SuLBPyvNY_DGOMwuV0596K-61FWE3DAoGTD-bi7nDdOKcSorYLKEpgRon5ED60RVcNH9fE4OGWwLqARckVchzADQSOAvyVUNUjKo4UB-f4tpsBio2-jitiON6Ffa46QfrEteL9RMejtmwG706F06FZNLAQfqdaSrG3DJ2pH2XmdAbwMNJ7vtMueHrJmTP9MUbL6s8z5Ft-qY1ZNbkRp9ROpxR3cgnEPE9TV5Meol4JvHeU1-3H38fvu5uP_66cvth_vCNIzHAoem4W0rAAUTY1sjl0Z2VWWqAfObjUBTj-2YV0I3suNd30tZGxS15I2Btr4mby93T979ShiiWm0wuCx6w_yhqioGsmWSi4zyC2q8C8HjqE7ertqfFQO116Fm9VSH2utQ0Cj463Hz6JH6FYd_sqf8M_D-AuQY8cGiV8FY3AwONucS1eDs_zz-AKcpobw</recordid><startdate>20190601</startdate><enddate>20190601</enddate><creator>Yip, Ping K.</creator><creator>Chapman, George E.</creator><creator>Sillito, Rowland R.</creator><creator>Ip, T.H. 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Neurotrauma patients face major neurological sequelae. The failure in the preclinical-to-clinical translation of candidate therapies could be due to poor evaluation of rodent behaviours after neurotrauma. A home cage automated system was used to study the long term behaviour of individual rats with traumatic brain injury (TBI), spinal cord injury (SCI) and non-CNS injured controls, whilst group-housed in their home cages. Naïve rats were used as baseline controls. Automated locomotor activity and body temperature recordings were carried out 24 h /day for 3 days/week during 12 weeks post-injury. Behavioural patterns, including aggression, rearing, grooming, feeding and drinking were analysed from automated video recordings during week 1, 6 and 12. SCI animals showed a lower locomotor activity compared to TBI or control animals during light and dark phases. TBI animals showed a higher aggression during the dark phase in the first week post-injury compared to SCI or control animals. Individual grooming and rearing were reduced in SCI animals compared to TBI and control animals in the first week post-injury during the dark phase. No differences in drinking or feeding were detected between groups. Locomotor activity did not differ between naïve male and female rats, but body temperature differ between light and dark phases for both. Injury severity was compared to standard SCI and TBI behaviour scores (BBB and mNSS, respectively) and histological analysis. This study demonstrates the practical benefits of using a non-intrusive automated home cage recording system to observe long term individual behaviour of group-housed SCI and TBI rats.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>30991030</pmid><doi>10.1016/j.jneumeth.2019.04.005</doi><tpages>15</tpages><orcidid>https://orcid.org/0000-0002-8846-9043</orcidid><oa>free_for_read</oa></addata></record>
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subjects 3Rs
Animals
Behavior, Animal
Behaviour
Body Temperature
Brain Injuries, Traumatic - diagnosis
Brain Injuries, Traumatic - psychology
Disease Models, Animal
Female
Grooming
Locomotion
Male
Neurotrauma
Pattern Recognition, Automated
Rats, Sprague-Dawley
Spinal Cord Injuries - diagnosis
Spinal Cord Injuries - psychology
Spinal cord injury
Traumatic brain injury
Video Recording - methods
title Studies on long term behavioural changes in group-housed rat models of brain and spinal cord injury using an automated home cage recording system
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