Refinement Database

Database on Refinement of Housing, Husbandry, Care, and Use of Animals in Research

This database, created in 2000, is updated every four months with newly published scientific articles, books, and other publications related to improving or safeguarding the welfare of animals used in research.

Tips for using the database:

  • This landing page displays all of the publications in the database.
  • Use the drop-down menus to filter these publications by Animal Type, Setting, and/or Topic.
  • Clicking on a parent category (e.g., Rodent) will include publications relating to all the items in that category (e.g., Chinchilla, Gerbil, Guinea Pig, etc.).
  • You may also add a keyword to further narrow your search.
  • Please note that at this time, only publications dated 2010 or later (with some exceptions) can be filtered by Animal Type and Topic, and only publications dated 2020 or later (with some exceptions) can be filtered by Setting. Most publications older than 2010 can only be searched by keyword. 
Attokaren, M. K., Jeong, N., Blanpain, L. et al. 2023. BrainWAVE: A flexible method for noninvasive stimulation of brain rhythms across species. ENeuro 10(2) ENEURO.0257-22.2022.

Rhythmic neural activity, which coordinates brain regions and neurons to achieve multiple brain functions, is impaired in many diseases. Despite the therapeutic potential of driving brain rhythms, methods to noninvasively target deep brain regions are...

Klabukov, I., Shestakova, V., Krasilnikova, O. et al. 2023. Refinement of animal experiments: Replacing traumatic methods of laboratory animal marking with non-invasive alternatives. Animals 13(22), 3452.

Reliable methods for identifying rodents play an important role in ensuring the success of preclinical studies. However, animal identification remains a trivial laboratory routine that is not often discussed, despite the fact that more than...

Chen, D. D., Molk, D. M., Palley, L. S. et al. 2023. Pinna edge biopsy of 7 and 21 day old C57BL/6 mice as a method for identification and genotyping. JAALAS 62(5), 438–448.

Identifying and genotyping mice prior to weaning can be useful for mouse colony management. Mice of an undesired genotype can be identified prior to weaning and removed from further study, resulting in a reduction of...

Jang, J. Y., Liang, T., Kim, M.-K. et al. 2022. A rapid and noninvasive method that extracts polymerase chain reaction-ready genomic DNA from adult zebrafish. Zebrafish 19(4), 160-164.

Genotyping usually entails analysis of the products of polymerase chain reaction (PCR) carried out with genomic DNA (gDNA) as template, and is employed for validation of mutant or transgenic organisms. For genotyping of adult zebrafish...

Chen, J., Xu, X., Dalhaimer, P. et al. 2022. Tetra-primer amplification-refractory mutationsystem (ARMS)—PCR for genotyping mouse leptin gene mutation. Animals 12(19), 2680.

Due to spontaneous deficiency in leptin, ob/ob mice are one of the most commonly used experimental animal models in diabetes research. In this study, we reported a quick and easy-to-conduct genotyping method using tetra-primer amplification...

Nuber, M., Gonzalez-Uarquin, F., Neufurth, M. et al. 2022. Development of a 3D simulator for training the mouse in utero electroporation. PLOS ONE 17(12), e0279004.

In utero electroporation (IUE) requires high-level training in microinjection through the mouse uterine wall into the lateral ventricle of the mouse brain. Training for IUE is currently being performed in live mice as no artificial...

Brough, D. W., Murkin, J. T., Amos, H. E. et al. 2022. Comparing variability in measurement of subcutaneous tumors in mice using 3D thermal imaging and calipers. Comparative Medicine 72(6), 364–375.

Repeatable tumor measurements are key to accurately assessing tumor growth and treatment efficacy. A preliminary study that we conducted showed that a novel 3D and thermal imaging system (3D-TI) for measuring subcutaneous tumors in rodents...

Zeng, Y., Jin, H., Wang, J. et al. 2022. An optimized method for intratracheal instillation in mice. Journal of Pharmacological and Toxicological Methods 118, 107230.

Non-invasive intratracheal instillation is an important method for direct exposure of the respiratory tract which is commonly used in toxicology, environmental science, and other research fields. However, there is no standard operating process for non-invasive...

Rácz, A., Allan, B., Dwyer, T. et al. 2021. Identification of individual zebrafish (Danio rerio): A refined protocol for VIE tagging whilst considering animal welfare and the principles of the 3Rs. Animals 11(3), 616.

In aquatic ecology, studies have commonly employed a tagging technique known as visible implant elastomer (VIE). This method has not been widely adopted by the zebrafish research community and also lacks refinement with regard to...

Burn, C. C., Mazlan, N. H. B., Chancellor, N. et al. 2021. The pen is milder than the blade: Identification marking mice using ink on the tail appears more humane than ear-punching even with local anaesthetic. Animals 11(6), 1664.

Identification marking mice commonly involves ear-punching with or without anaesthetic, or tail-marking with ink. To identify which is most humane, we marked weanling male BALB/c mice using ear-punching (EP), ear-punching with anaesthetic EMLATM cream (EP+A)...

Young, T., Whiteside, T., Locklear, J. 2020. What is your tattoo ink telling you? Laboratory Animal Science Professional 8(2) (March/April), 62-65.

Tattooing traumatizes the skin, which can result in microbial infections with the severity ranging from minor to life-threating septicemia. Additionally, the metals in colored tattoo ink are known to cause dermal inflammation in some people...

Zemanova, M. A. 2020. Towards more compassionate wildlife research through the 3Rs principles: Moving from invasive to noninvasive methods. Wildlife Biology 2020(1), no page numbers.

Research in ecology and wildlife biology remains crucial for increasing our knowledge and improving species management and conservation in the midst of the current biodiversity crisis. However, obtaining information on population status often involves invasive...

Huang, J., Kayne, P. S. 2020. Buccal swab based genotyping of genetically modified mice. Laboratory Animal Science Professional 8(5) (September/October), 64-66.

Routine sample collection for genotyping genetically modified animals (rodents) (GMAs) typically includes tail snip, toe clip, or ear biopsy. To decrease the potential pain and distress caused by tissue sample collection for genetic analysis, we...

Tilley, C. A., Carreño Gutierrez, H., Sebire, M. et al. 2020. Skin swabbing is a refined technique to collect DNA from model fish species. Scientific Reports 10(1), 18212.

Model fish species such as sticklebacks and zebrafish are frequently used in studies that require DNA to be collected from live animals. This is typically achieved by fin clipping, a procedure that is simple and...

McMurray, C., Allen, N., Hook, S. et al. 2018. I3S software as a refinement technique to identify individuals within a captive Scyliorhinus canula population. Animal Technology and Welfare 17(3), 204-205 (IAT Congress 2018 Poster Presentation).

Demarking individual animals within a group is often required in research. However, the process of invasive tagging induces stress and if a tag becomes detached it may wound the animal and/or prevent identification. Photo identification...

Roughan, J. V., Sevenoaks, T. 2019. Welfare and scientific considerations of tattooing and ear tagging for mouse identification. JAALAS 58(2), 142-153.

Ear tagging is perceived as less painful or stressful than tattooing and therefore is generally considered less harmful or costly to welfare. However, ear tags are more difficult to read than tattoos and can fall...

Taitt, K. T., Kendall, L. V. 2019. Physiologic stress of ear punch identification compared with restraint only in mice. JAALAS 58(4), 438-442.

Social housing of laboratory rodents is recommended whenever possible to encourage natural behavior and social dynamics. Several identification methods are used to distinguish rodents from one another. One of the most common means of identifying...

Lambert, C. J., Freshner, B. C., Chung, A. et al. 2018. An automated system for rapid cellular extraction from live zebrafish embryos and larvae: Development and application to genotyping. PLOS ONE 13(3), e0193180.

Zebrafish are a valuable model organism in biomedical research. Their rapid development, ability to model human diseases, utility for testing genetic variants identified from next-generation sequencing, amenity to CRISPR mutagenesis, and potential for therapeutic compound...

Ruberto, T., Clément, R. J. G., Spinello, C. et al. 2018. The tagging procedure of visible implant elastomers influences zebrafish individual and social behavior. Zebrafish 15(5), 433-444.

One commonly used method to preserve individual identity in the study of social behavior of zebrafish is through silicone-based visible implant elastomers (VIEs), which represent a safe and durable tagging procedure. While the effects of...

Breacker, C., Barber, I., Norton, W. H. J. et al. 2017. A low-cost method of skin swabbing for the collection of DNA samples from small laboratory fish. Zebrafish 14(1), 35-41.

Fin clipping of live fish under anesthesia is widely used to collect samples for DNA extraction. An alternative, potentially less invasive, approach involves obtaining samples by swabbing the skin of nonanesthetized fish. However, this method...

Wever, K. E., Geessink, f. J., Brouwer, M. A. E. et al. 2017. A systematic review of discomfort due to toe or ear clipping in laboratory rodents. Laboratory Animals 51(6), 583-600.

Toe clipping and ear clipping (also ear notching or ear punching) are frequently used methods for individual identification of laboratory rodents. These procedures potentially cause severe discomfort, which can reduce animal welfare and distort experimental...

Otano-Rivera, V., Boakye, A., Grobe, N. et al. 2017. A highly efficient strategy to determine genotypes of genetically-engineered mice using genomic DNA purified from hair roots. Laboratory Animals 51(2), 138-146.

Genotyping of genetically-engineered mice is necessary for the effective design of breeding strategies and identification of mutant mice. This process relies on the identification of DNA markers introduced into genomic sequences of mice, a task...

Okada, M., Miller, T. C., Roediger, J. et al. 2017. An efficient, simple, and noninvasive procedure for genotyping aquatic and nonaquatic laboratory animals. JAALAS 56(5), 570-573.

Various animal models are indispensible in biomedical research. Increasing awareness and regulations have prompted the adaptation of more humane approaches in the use of laboratory animals. With the development of easier and faster methodologies to...

Lawton, S. 2017. Do Buccal swabs from Zebrafish give enough of a sample of DNA to be used as a viable non-invasive method of genotyping? Animal Technology and Welfare 16(3), 155-164.

The zebrafish has become a valuable research model within the laboratory. Currently the proven method of genotyping involves taking a tail fin clip from the fish to gain the sample. This involves surgically removing a...

Breacker, C., Tilley, C. 2017. DNA sampling by skin swabbing for Zebrafish (Danio rerio) and sticklebacks (Gasterosteus aculeatus). Animal Technology and Welfare 16(3), 211-213.

Fin clipping of live fish under anaesthesia is widely used to collect tissues samples for DNA extraction. However, this technique raises a number of ethical concerns, since the use of anaesthetic and/or physical fin damage...