Gas killing of rats: the effect of supplemental oxygen on aversion to carbon dioxide

High concentrations of carbon dioxide (CO2), used for killing laboratory rodents, are known to be more strongly aversive to rats than sweet food items are attractive. This study investigated whether the maintenance of a high oxygen (O2) concentration, using a gas mixture of 70% CO2 and 30% O2, would reduce aversion to CO2 during a gradual-fill procedure. Eight male Wistar rats, aged 10 months, were housed individually in an apparatus consisting of two cages, one higher than the other and joined by a tube. In a series of trials, subjects entered the lower cage for a reward of 20 sweet food items. The gas was turned on at the moment the rat started eating the reward items and flowed into the lower cage at a fixed rate. There were four treatments: 1) 100% CO2 at 14.5% cage volume min–1; 2) gas mixture at 14.5% min–1; 3) gas mixture at 21.0% min–1, which delivered CO2 at approximately 14.5% min–1 and 4) air, with each subject tested with each treatment four times. Measures of willingness to stay and eat in the lower cage (latency to stop eating, latency to leave and the number of reward items eaten) were much lower in all three gas treatments than in air, indicating that the CO2 and the CO2 + O2 mixture were both more strongly aversive than sweet food items were attractive. Comparing the gas mixture with 100% CO2, the latency to leave and the number of reward items eaten were slightly higher in the CO2 + O2 mixture at 21% min–1 than in CO2 at 14.5% min–1, indicating that the addition of O2 slightly reduced the aversiveness of CO2 in the gradual-fill procedure. This reduction is not enough to warrant recommending the use of CO2 + O2 mixtures for killing rats.

[1]  D. Weary,et al.  Effect of flow rate on aversion to gradual-fill carbon dioxide exposure in rats , 2008 .

[2]  D. Weary,et al.  Rats avoid exposure to carbon dioxide and argon , 2007 .

[3]  D. Weary,et al.  Behavioural responses of rats to gradual-fill carbon dioxide euthanasia and reduced oxygen concentrations , 2006 .

[4]  D. Morton,et al.  Measurement of aversion to determine humane methods of anaesthesia and euthanasia , 2004, Animal Welfare.

[5]  A. K. Hansen,et al.  The impact of low levels of carbon dioxide on rats , 2003, Laboratory animals.

[6]  Michael G. Kenward,et al.  Design and Analysis of Cross-Over Trials, Second Edition , 2003 .

[7]  D. Morton,et al.  Degrees of aversion shown by rats and mice to different concentrations of inhalational anaesthetics , 2002, Veterinary Record.

[8]  David B Morton,et al.  Aversion to gaseous euthanasia agents in rats and mice. , 2002, Comparative medicine.

[9]  Robert H. Schmidt,et al.  2000 Report of the AVMA Panel on Euthanasia. , 2001, Journal of the American Veterinary Medical Association.

[10]  H. Hackbarth,et al.  Euthanasia of rats with carbon dioxide-animal welfare aspects , 2000, Laboratory animals.

[11]  A. Busato,et al.  Is carbon dioxide (CO2) a useful short acting anaesthetic for small laboratory animals? , 1999, Laboratory animals.

[12]  S. Harrap,et al.  Behavioural and cardiovascular responses of rats to euthanasia using carbon dioxide gas , 1997, Laboratory animals.

[13]  P J Danneman,et al.  Humane and practical implications of using carbon dioxide mixed with oxygen for anesthesia or euthanasia of rats. , 1997, Laboratory animal science.

[14]  E. van Luijtelaar,et al.  Carbon dioxide euthanasia in rats: oxygen supplementation minimizes signs of agitation and asphyxia , 1995, Laboratory animals.

[15]  T. A. Hewett,et al.  A comparison of euthanasia methods in rats, using carbon dioxide in prefilled and fixed flow rate filled chambers. , 1993, Laboratory animal science.

[16]  J. Degoede,et al.  The influence of oxygen on the ventilatory response to carbon dioxide in man. , 1990, The Journal of physiology.

[17]  D. Allan,et al.  The behaviour of chickens, mice and rats during euthanasia with chloroform, carbon dioxide and ether , 1988, Laboratory animals.

[18]  B. Leonard,et al.  Changes in brain monoamine metabolism and carbon dioxide induced amnesia in the rat , 1975, Pharmacology Biochemistry and Behavior.

[19]  N. Miller,et al.  Different temporal gradients of retrograde amnesia produced by carbon dioxide anesthesia and electroconvulsive shock. , 1966, Journal of comparative and physiological psychology.