TY - JOUR
T1 - Biomechanics of landing in injured and uninjured chickens and the role of meloxicam
AU - van Staaveren, Nienke
AU - Tobalske, Bret W.
AU - Brost, Jacob
AU - Sharma, Rahul
AU - Beaufrère, Hugues
AU - Elias, Audrey
AU - Harlander-Matauschek, Alexandra
N1 - Funding Information:
This research was supported by the Natural Sciences and Engineering Research Council of Canada (NSERC DG Grant No. 0531194 ), by Agriculture and Agri-Food Canada, under the Growing Forward 2 policy framework, Food from Thought, and by the Ontario Ministry of Agriculture and Rural Affairs (OMAFRA). We also would like to thank Misha Ross, Cristian Mastrangelo, Jacob Maxwell and Isabelle Kwon for their help during the study.
Publisher Copyright:
© 2023 The Authors
PY - 2023/8
Y1 - 2023/8
N2 - Birds use their legs and wings when transitioning from aerial to ground locomotion during landing. To improve our understanding of the effects of footpad dermatitis (FPD) and keel bone fracture (KBF) upon landing biomechanics in laying hens, we measured ground-reaction forces generated by hens (n = 37) as they landed on force plates (Bertec Corporation, Columbus, OH) from a 30 cm drop or 170 cm jump in a single-blinded placebo-controlled trial using a cross-over design where birds received an anti-inflammatory (meloxicam, 5 mg/kg body mass) or placebo treatment beforehand. We used generalized linear mixed models to test for effects of health status, treatment and their interaction on landing velocity (m/s), maximum resultant force (N), and impulse (force integrated with respect to time [N s]). Birds with FPD and KBF tended to show divergent alterations to their landing biomechanics when landing from a 30 cm drop, with a higher landing velocity and maximum force in KBF compared to FPD birds, potentially indicative of efforts to either reduce the use of their wings or impacts on inflamed footpads. In contrast, at 170 cm jumps fewer differences between birds of different health statuses were observed likely due to laying hens being poor flyers already at their maximum power output. Our results indicate that orthopedic injuries, apart from being welfare issues on their own, may have subtle influences on bird mobility through altered landing biomechanics that should be considered.
AB - Birds use their legs and wings when transitioning from aerial to ground locomotion during landing. To improve our understanding of the effects of footpad dermatitis (FPD) and keel bone fracture (KBF) upon landing biomechanics in laying hens, we measured ground-reaction forces generated by hens (n = 37) as they landed on force plates (Bertec Corporation, Columbus, OH) from a 30 cm drop or 170 cm jump in a single-blinded placebo-controlled trial using a cross-over design where birds received an anti-inflammatory (meloxicam, 5 mg/kg body mass) or placebo treatment beforehand. We used generalized linear mixed models to test for effects of health status, treatment and their interaction on landing velocity (m/s), maximum resultant force (N), and impulse (force integrated with respect to time [N s]). Birds with FPD and KBF tended to show divergent alterations to their landing biomechanics when landing from a 30 cm drop, with a higher landing velocity and maximum force in KBF compared to FPD birds, potentially indicative of efforts to either reduce the use of their wings or impacts on inflamed footpads. In contrast, at 170 cm jumps fewer differences between birds of different health statuses were observed likely due to laying hens being poor flyers already at their maximum power output. Our results indicate that orthopedic injuries, apart from being welfare issues on their own, may have subtle influences on bird mobility through altered landing biomechanics that should be considered.
KW - footpad dermatitis
KW - keel bone fracture
KW - landing velocity
KW - ground-reaction force
KW - NSAID
UR - http://www.scopus.com/inward/record.url?scp=85163135886&partnerID=8YFLogxK
U2 - 10.1016/j.psj.2023.102794
DO - 10.1016/j.psj.2023.102794
M3 - Article
C2 - 37307632
SN - 0032-5791
VL - 102
SP - 1
EP - 13
JO - Poultry Science
JF - Poultry Science
IS - 8
M1 - 102794
ER -