Physiology & behavior
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Physiology & behavior · Jan 2015
Cortisol and pain-related behavior in disbudded goat kids with and without cornual nerve block.
Plasma cortisol and behavior were measured in disbudded goat kids with and without the use of cornual nerve block. A total of 45 kids were used in 5 experimental groups (n=9, males and females). Group LidoD was infiltrated with 1 mL of 2% lidocaine locally at the cornual branches of lacrimal and infratrochlear nerves, 15 min before thermal disbudding. ⋯ Struggles tended to be higher in SD (16.5 ± 2.5), CD (17.8 ± 2.5) and LidoD (15.6 ± 2.5) than Sim (10.6 ± 2.5; p=0.1). The total behavioral response was different between groups (CD, 59.6 ± 6.8; LidoD, 52 ± 6.8; SD, 62.6 ± 6.8; Sim, 36.8 ± 6.8; p=0.05), and disbudded animals showed the strongest reactions (disbudded, 58.1 ± 3.9 vs non-disbudded, 36.8 ± 6.8; p=0.01). It was concluded that cornual nerve block (lacrimal and infratrochlear) using 2% lidocaine did not prevent pain during thermal disbudding of goat kids.
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Physiology & behavior · Jan 2015
Comparative StudyBehavioral study of non-evoked orofacial pain following different types of infraorbital nerve injury in rats.
Directed isolated face grooming following unilateral chronic constriction injury to the infraorbital nerve (IoN-CCI) is a unique measure of spontaneous neuropathic pain. Variability between rats and the limited duration of the increased face grooming behavior has hampered its usefulness. We studied three possible sources of variability: variations in surgery, pre-existing differences in nocifensive behavior between the rats and variation in time. ⋯ It is therefore unclear if pre-existing behavioral differences between animals are a major cause of variability in the IoN-CCI model. Finally, repeated testing showed significant variability in time. It is concluded that tight ligation of the IoN nerve has long-lasting effects on face grooming behavior and that part of the variability in face grooming behavior may be reduced by performing repeated testing.
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Physiology & behavior · Jan 2015
A mouse model for binge-like sucrose overconsumption: Contribution of enhanced motivation for sweetener consumption.
Behavioral and neural features of binge-like sugar overconsumption have been studied using rat models. However, few mouse models are available to examine the interaction between neural and genetic underpinnings of bingeing. In the present study, we first aim to establish a simple mouse model of binge-like sucrose overconsumption using daytime limited access training in food-restricted male mice. ⋯ Our results suggest that even when caloric consumption is not necessarily required, limited access training shapes and triggers binge-like overconsumption of sweetened solution in trained mice. The binge-like behavior in trained mice may be mainly due to enhanced hedonic motivation for the sweetener's taste. The present study suggests that our mouse model for binge-like sugar overconsumption may mimic some human features of binge eating and can be used to investigate the roles of neural and genetic mechanisms in binge-like overconsumption of sweetened substances in the absence of physical hunger.