Browse > Article
http://dx.doi.org/10.5713/ajas.2011.11227

Body Weight Changes of Laboratory Animals during Transportation  

Lee, Sung-Hak (Preclinical Research Lab, Drug Discovery Center, SK biopharmaceuticals)
Nam, Hyun-Sik (Preclinical Research Lab, Drug Discovery Center, SK biopharmaceuticals)
Kim, Jin-Sung (Preclinical Research Lab, Drug Discovery Center, SK biopharmaceuticals)
Cho, Hye-Jung (Preclinical Research Lab, Drug Discovery Center, SK biopharmaceuticals)
Jang, Yu-Mi (Preclinical Research Lab, Drug Discovery Center, SK biopharmaceuticals)
Lee, Eun-Jung (AstaIBS)
Choi, Eun-Sung (AstaIBS)
Jin, Dong-Il (Department of Animal Science and Biotechnology, Chungnam National University)
Moon, Hong-Sik (Preclinical Research Lab, Drug Discovery Center, SK biopharmaceuticals)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.25, no.2, 2012 , pp. 286-290 More about this Journal
Abstract
The majority of laboratory animals were transported from commercial breeders to a research facility by ground transportation. During the transportation, many biological functions and systems can be affected by stress. In this experiment, the change of body weight during the transportation was measured and the recovery periods from the transportation stress established based on the body weight changes. Total 676 laboratory animals which were aged between 3 to 9 wk old were studied. The transportation time taken from container packing to unpacking the container was approximately 24 h. The temperature of animal container was constantly maintained by air-conditioning and heating equipment. Rats were found to be more sensitive than mice. The body weight of rats was significantly decreased 3.71% (p<0.05) compared to the body weight of mice which decreased 0.9% There was no significant difference between the strains in the same species. When the changes of body weights were compared between delivery days, C57BL/6 mice showed the most variable changes compared to other species and strains. Consequently, C57BL/6 was more sensitive to stress than the other strains and the transportation process needs to be standardized to reduce between day variability. To establish the recovery periods from transportation stress, the body weight changes were measured during the acclimation period. Although the body weight of animals decreased during transportation, animals recovered their weight loss after the next day.
Keywords
Transportation; Mice; Rats; Stress; Body Weight; Acclimation Period;
Citations & Related Records
 (Related Records In Web of Science)
연도 인용수 순위
  • Reference
1 Conour, L. A., K. A. Murray and M. J. Brown. 2006. Preparation of animals for research-issues to consider for rodents and rabbits. ILAR J. 47(4):283-293.   DOI   ScienceOn
2 Moberg, G. P. and J. A. Mench. 2000. The Biology of animal stress: basic principles and implications for animal welfare. CABI publishing, NY. pp. 1-22.
3 NRC (National Research Council). 2006. Guidelines for the humane transportation of research animals. National Academies Press, Washington DC. USA.
4 Obernier, J. A. and R. L. Baldwin. 2006. Establishing an apropriate period of acclimatization following transportation of laboratory animals. ILAR J. 47(4):364-369.   DOI   ScienceOn
5 Reilly, J. 1998. Variables in animal based research: Part 2. Variability associated with experimental conditions and techniques. ANZCCART News 11(1), Insert 1-12 http://www.adelaide.edu.au/ ANZCCART/
6 Shim, S., S. Lee, C. Kim, B. Kim, S. Jee, S. Lee, J. Sin, C. Bae, J-M. Woo, J. Cho, E. Lee, H. Choi, H. Kim, J. Lee, Y. Jung, B. Cho, K. Chae and D. Hwang. 2009. Effects of air transportation cause physiological and biochemical changes indicative of stress leading to regulation of chaperone expression levels and corticosterone concentration. Exp. Anim. 58(1): 11-17.   DOI   ScienceOn
7 Swallow, J., D. Anderson, A. C. Buckwell, T. Harris, P. Hawkins, J. Kirkwood, M. Lomas, M. Meacham, A. Peters, M. Prescott, S. Owen, R. Quest, R. Sutcliffe and K. Thompson. 2005. Guidance on the transport of laboratory animals: Report of the Transport Working Group established by the Laboratory Animal Science Association (LASA). Lab. Anim. 39:1-39.   DOI   ScienceOn
8 van Ruiven, R., G. W. Meijer, A. Wiersman, V. Baumans, L. F. van Zutphen and J. Ritskes-Hoitinga. 1998. The influence of transportation stress on selected nutritional parameters to establish the necessary minimum period for adaptation in rat feeding studies. Lab. Anim. 32:446-456.   DOI
9 Wallace, M. E. 1976. Effects of stress due to deprivation and transport in different genotypes of house mouse. Lab. Anim. 10:335-347.   DOI
10 AATA. 2000. AATA Manual for the Transportation of Live Animals, 2 ed. Surrey, England: Harris Associates Limited.
11 Aguila, H. N., S. P. Pakes, W. C. Lai and Y. S. Lu. 1988. The effect of transportation stress on splenic natural killer cell activity in C57bl/6j mice. Lab. Anim. Sci. 38:148-151.
12 International Air Transport Association (IATA). 2005. Live Animals Regulations, 32 ed. IATA.
13 Landi, M. S., J. W. Kreider, C. M. Lang and L. P. Bullock. 1982. Effects of shipping on the immune function in mice. Am. J. Vet. Res. 43(9):1654-1657.
14 Claassen, V. 1994. Neglected factors in pharmacology and neuroscience research. In: Techniques in the Behavioral and Neural Sciences, Vol. 12 (J. P. Huston). Amsterdam: Elsevier Science, pp. 422-459.