Improving Bioscience Research Reporting: The ARRIVEGuidelines for Reporting Animal Research
Carol Kilkenny1*, William J. Browne2, Innes C. Cuthill3, Michael Emerson4, Douglas G. Altman5
1 The National Centre for the Replacement, Refinement and Reduction of Animals in Research, London, United Kingdom, 2 School of Veterinary Science, University of
Bristol, Bristol, United Kingdom, 3 School of Biological Sciences, University of Bristol, Bristol, United Kingdom, 4 National Heart and Lung Institute, Imperial College
London, United Kingdom, 5 Centre for Statistics in Medicine, University of Oxford, Oxford, United Kingdom
animals used (i.e., species/strain, sex, and
the study and the reliability and validity of
the findings. There should also be enough
mously, with many filling specialised niches
information to allow the experiment to be
reflecting new disciplines and technologies.
or blinding (86%) to reduce bias in animal
The emergence of open-access journals has
how to ensure that all relevant information
70% of the publications that used statisti-
is included in research publications.
shows that across many areas, the reporting
precision or variability [5]. These findings
of biomedical research is often inadequate,
are a cause for concern and are consistent
leading to the view that even if the science is
themselves are not ‘‘fit for purpose,’’
searchers and peer reviewers would benefit
should be provided in a research article.
and scientific practice [1–21]. A recent
mised controlled clinical trials was one of
the first guidelines developed in response
there is considerable cumulative waste of
been the mainstay of ‘‘quality control’’ for
to this need [24,25]. Since publication, an
research process, including as a result of
experiments are reported, in terms of the
publications that are unusable due to poor
level of detail of methods and the presen-
their instructions to authors [26,27]. As a
reporting [22]. It is unlikely that this issue is
tation of key results, is crucial to the peer
confined to clinical research [2–14,16–20].
quent utility and validity of the knowledge
transparency of reports of clinical trials
and to report results appropriately there-
base that is used to inform future research.
fore has potential scientific, ethical, and
search process and the reputation of those
articles include all relevant information to
involved in it. This is particularly true for
duplicating studies and performing redun-
search, most of which have been published
versial areas of science. The largest and
dant experiments. Ideally scientific publi-
in the last ten years (see http://www.
cations should present sufficient informa-
animal research undertaken to date, to our
[30,31]). Guidelines have also been devel-
sions in the way research using animals is
and to assess the biological relevance of
specific bioscience research areas includ-
reported [5]. The survey, commissionedby the National Centre for the Replace-
Citation: Kilkenny C, Browne WJ, Cuthill IC, Emerson M, Altman DG (2010) Improving Bioscience Research
Reporting: The ARRIVE Guidelines for Reporting Animal Research. PLoS Biol 8(6): e1000412. doi:10.1371/
Copyright: ß 2010 Kilkenny et al. This is an open-access article distributed under the terms of the Creative
Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium,
the hypothesis or objective of the study,
provided the original author and source are credited.
and the number and characteristics of the
Funding: This project was initiated, funded, and led by the National Centre for the Replacement, Refinementand Reduction of Animals in Research (NC3Rs).
Competing Interests: The authors have declared that no competing interests exist.
The Perspective section provides experts with aforum to comment on topical or controversial issues
Abbreviations: ARRIVE, Animals in Research: Reporting In Vivo Experiments; NC3Rs, National Centre for the
Replacement, Refinement and Reduction of Animals in Research
June 2010 | Volume 8 | Issue 6 | e1000412
from Nature Cell Biology, Science, Laboratory
Animals, and the British Journal of Pharmacol-
animal research that have been carried out
to assess the efficacy of various drugs and
interventions in animal models [8,9,13,52–
draft set of guidelines that were then used as
the basis for a wider consultation with the
studies are the essential building blocks
scientific community, involving research-
the Nuffield Council for Bioethics [38–41].
ers, and grant holders and representatives
constructed. The reviews have found that,
addition to the limitations of the animal
The Royal Society (see Table 1). Feedback
reaching any useful conclusion about theefficacy of the drugs and interventions
was incorporated into the final version of
content utility of the guidelines is encour-
found that 4% of the 271 journal articles
collective efforts of authors, journal edi-
tors, peer reviewers, and funding bodies.
There is no single simple or rapid solution,
the results sections [5]. Reporting animal
research using laboratory animals, and the
numbers is essential so that the biological
and statistical significance of the experi-
ments. The guidelines will be published in
mental results can be assessed or the data
several leading bioscience research jour-
nals simultaneously [56–60], and publish-
experimental methods are to be repeated.
by including them in their journal Instruc-
details will maximise the availability and
tions to Authors subsequent to publication.
to be mandatory or absolutely prescriptive,
nor to standardise or formalise the struc-
journals adopting the guidelines, and with
future. To address this, we led an initiative
checklist that can be used to guide authors
to produce guidelines for reporting animal
quality assurance, to ensure completeness
The NC3Rs gratefully acknowledges the exper-
tise and advice that all the contributors have
given to developing the guidelines. We would
particularly like to acknowledge the contribu-
tion of the other members of NC3Rs Reporting
publications reporting research using ani-
contributed to these guidelines were advising
and specific characteristics of animals used
animals by optimising the information that
in their personal capacity and their input does
(including species, strain, sex, and genetic
is provided in publications on the design,
not necessarily represent the policy of the
conduct, and analysis of the experiments.
organisations with which they are associated):
bandry; and the experimental, statistical,
Professor David Balding, Department of Epide-
and analytical methods (including details
miology & Public Health, Imperial College,
London UK; Dr Colin Dunn Editor Laboratory
randomisation and blinding). All the items
Animals (Royal Society of Medicine press); Dr.
Stella Hurtley, Senior Editor Science; ProfessorIan McGrath Editor-in-Chief British Journal of
Pharmacology (Wiley Blackwell publishers); and
porting to allow an accurate critical review
Dr. Clare Stanford, Department of Psychophar-
of what was done and what was found.
macology, University College, London UK. We
Biotechnology and Biological Sciences Research
would also like to thank NC3Rs grant holders,
corner-stones of the guideline development
the Medical Research Council, Biotechnology
process [51]. To maximise their utility, the
and Biological Sciences Research Council,
Wellcome Trust, Parkinson’s Disease Society,British Heart Foundation and their grant
consultation with scientists, statisticians,
Association of Medical Research Charities
holders and funding committee members who
journal editors, and research funders. We
prising researchers and statisticians from a
range of disciplines, and journal editors
June 2010 | Volume 8 | Issue 6 | e1000412
Table 2. Animal Research: Reporting In Vivo experiments: The ARRIVE guidelines.
Provide as accurate and concise a description of the content of the article as possible.
Provide an accurate summary of the background, research objectives (including details of the species orstrain of animal used), key methods, principal findings, and conclusions of the study.
Include sufficient scientific background (including relevant references to previous work) to understand
the motivation and context for the study, and explain the experimental approach and rationale. b.
Explain how and why the animal species and model being used can address the scientific objectives
and, where appropriate, the study’s relevance to human biology.
Clearly describe the primary and any secondary objectives of the study, or specific hypotheses beingtested.
Indicate the nature of the ethical review permissions, relevant licences (e.g. Animal [Scientific Procedures]Act 1986), and national or institutional guidelines for the care and use of animals, that cover the research.
For each experiment, give brief details of the study design, including:a.
The number of experimental and control groups.
Any steps taken to minimise the effects of subjective bias when allocating animals to treatment (e.g.,
randomisation procedure) and when assessing results (e.g., if done, describe who was blinded and when). c.
The experimental unit (e.g. a single animal, group, or cage of animals).
A time-line diagram or flow chart can be useful to illustrate how complex study designs were carried out.
For each experiment and each experimental group, including controls, provide precise details of allprocedures carried out. For example:a.
How (e.g., drug formulation and dose, site and route of administration, anaesthesia and analgesia
used [including monitoring], surgical procedure, method of euthanasia). Provide details of any specialistequipment used, including supplier(s). b.
Where (e.g., home cage, laboratory, water maze).
Why (e.g., rationale for choice of specific anaesthetic, route of administration, drug dose used).
Provide details of the animals used, including species, strain, sex, developmental stage (e.g., mean or
median age plus age range), and weight (e.g., mean or median weight plus weight range). b.
Provide further relevant information such as the source of animals, international strain nomenclature,
genetic modification status (e.g. knock-out or transgenic), genotype, health/immune status, drug- or test-naı¨ve, previous procedures, etc.
Housing (e.g., type of facility, e.g., specific pathogen free (SPF); type of cage or housing; bedding
material; number of cage companions; tank shape and material etc. for fish). b.
Husbandry conditions (e.g., breeding programme, light/dark cycle, temperature, quality of water etc.
for fish, type of food, access to food and water, environmental enrichment). c.
Welfare-related assessments and interventions that were carried out before, during, or after the
Specify the total number of animals used in each experiment and the number of animals in each
Explain how the number of animals was decided. Provide details of any sample size calculation used.
Indicate the number of independent replications of each experiment, if relevant.
Give full details of how animals were allocated to experimental groups, including randomisation or
Describe the order in which the animals in the different experimental groups were treated and
Clearly define the primary and secondary experimental outcomes assessed (e.g., cell death, molecularmarkers, behavioural changes).
Provide details of the statistical methods used for each analysis.
Specify the unit of analysis for each dataset (e.g. single animal, group of animals, single neuron).
Describe any methods used to assess whether the data met the assumptions of the statistical
For each experimental group, report relevant characteristics and health status of animals (e.g., weight,microbiological status, and drug- or test-naı¨ve) before treatment or testing (this information can often betabulated).
Report the number of animals in each group included in each analysis. Report absolute numbers (e.g.
If any animals or data were not included in the analysis, explain why.
Report the results for each analysis carried out, with a measure of precision (e.g., standard error orconfidence interval).
Give details of all important adverse events in each experimental group.
Describe any modifications to the experimental protocols made to reduce adverse events.
June 2010 | Volume 8 | Issue 6 | e1000412
Interpret the results, taking into account the study objectives and hypotheses, current theory, and
other relevant studies in the literature. b.
Comment on the study limitations including any potential sources of bias, any limitations of the
animal model, and the imprecision associated with the resultsa. c.
Describe any implications of your experimental methods or findings for the replacement, refinement,
or reduction (the 3Rs) of the use of animals in research.
Comment on whether, and how, the findings of this study are likely to translate to other species orsystems, including any relevance to human biology.
List all funding sources (including grant number) and the role of the funder(s) in the study.
aSchulz, et al. (2010) [24]. doi:10.1371/journal.pbio.1000412.t002
1. Simera I, Altman DG (2009) Writing a research
systematic review. BMJ 334: 197. doi:10.1136/
28. Plint AC, Moher D, Morrison A, Schulz K,
article that is ‘‘fit for purpose’’: EQUATOR
Altman DG, et al. (2006) Does the CONSORT
Network and reporting guidelines. Evid Based
14. Macleod M (2005) What can systematic review
checklist improve the quality of reports of
and meta-analysis tell us about the experimental
randomised controlled trials? A systematic review.
Porritt MJ, Rewell S, et al. (2010) Can Animal
Int J Neuroprot Neuroregener 1: 201.
29. Kane RL, Wang J, Garrard J (2007) Reporting in
15. Tooth L, Ware R, Bain C, Purdie DM, Dobson A
randomized clinical trials improved after adop-
Studies? PLoS Med 7: e1000245. doi:10.1371/
(2005) Quality of reporting of observational
tion of the CONSORT statement. J Clin Epide-
longitudinal research. Am J Epidemiol 161:
30. Altman DG, Simera I, Hoey J, Moher D,
Howells DW, Macleod MR (2010) Publication
16. Pound P, Ebrahim S, Sandercock P, Bracken MB,
Schulz K (2008) EQUATOR: reporting guide-
Bias in Reports of Animal Stroke Studies Leads to
Roberts I (2004) Where is the evidence that
lines for health research. Lancet 371: 1149–1150.
Major Overstatement of Efficacy. PLoS Biol 8:
animal research benefits humans? BMJ 328:
e1000344. doi:10.1371/journal.pbio.1000344.
Altman DG (2010) A catalogue of reporting
4. Sargeant JM, Thompson A, Valcour J, Elgie R,
17. Bennett LT, Adams M A (2004) Assessment of
guidelines for health research. Eur J Clin Invest
Saint-Onge J, et al. (2010) Quality of reporting of
ecological effects due to forest harvesting: ap-
clinical trials of dogs and cats and associations
proaches and statistical issues. J Appl Ecol 41:
32. Wager E, Field EA, Grossman L (2003) Good
with treatment effects. J Vet Intern Med 24:
publication practice for pharmaceutical compa-
18. Morris CE, Bardin M, Berge O, Frey-Klett P,
nies. Curr Med Res Opin 19: 149–154.
Fromin N (2002) Microbial biodiversity: Ap-
Festing MFW, Cuthill IC, et al. (2009) Survey
proaches to experimental design and hypothesis
Sherlock G, Spellman P, et al. (2001) Minimum
of the Quality of Experimental Design, Statistical
testing in primary scientific literature from 1975
information about a microarray experiment
to 1999. Microbiol Mol Biol Rev 66: 592–616.
(MIAME) — toward standards for microarray
19. Smith JA, Birke L, Sadler D (1997) Reporting
animal use in scientific papers. Lab Anim 31:
6. Sargeant JM, Elgie R, Valcour J, Saint-Onge J,
Kristal BS, Baker DJ, et al. (2007) Proposed
20. McCance I (1995) Assessment of statistical
Thompson A, et al. (2009) Methodological quality
minimum reporting standards for data analysis in
procedures used in papers in the Australian
and completeness of reporting in clinical trials
metabolomics. Metabolomics 3: 231–241.
Veterinary Journal. Aust Vet J 72: 322–328.
conducted in livestock species. Prev Vet Med 91:
35. Stone SP, Cooper BS, Kibbler CC, Cookson BD,
21. Pocock SJ, Hughes MD, Lee RJ (1987) Statistical
problems in the reporting of clinical trials. A
7. Macleod MR, Fisher M, O’Collins V, Sena ES,
guidelines for transparent reporting of outbreak
survey of three medical journals. New Engl J Med
Dirnagl U, et al. (2009) Good laboratory practice.
reports and intervention studies of nosocomial
Preventing introduction of bias at the bench.
infection. J Antimicrob Chemother 59: 833–840.
22. Chalmers I, Glasziou P (2009) Avoidable waste in
the production and reporting of research evi-
36. Peters JL, Sutton AJ, Jones DR, Rushton L,
8. Hainsworth AH, Markus HS (2008) Do in vivo
experimental models reflect human cerebral small
23. Festing MF, Altman DG (2002) Guidelines for the
systematic reviews and meta-analyses of animal
vessel disease? A systematic review. J Cereb Blood
design and statistical analysis of experiments using
experiments with guidelines for reporting.
laboratory animals. ILAR J 43: 244–258.
J Environ Sci Health B 41: 1245–1258.
9. Rice ASC, Cimino-Brown D, Eisenach JC,
24. Schulz KF, Altman DG, Moher D, the CON-
37. O’Connor AM, Sargeant JM, Gardner IA,
Kontinen VK, Lacroix-Fralish ML, et al. (2008)
Dickson JS, Torrence ME, et al. (2010) The
Animal models and the prediction of efficacy in
ment: updated guidelines for reporting parallel
REFLECT statement: Methods and processes of
clinical trials of analgesic drugs: a critical
group randomised trials. BMJ 340: c332.
creating reporting guidelines for randomised
appraisal and call for uniform reporting stan-
25. Moher D, Schulz KF, Altman DG for the
controlled trials for livestock and food safety.
10. Sherwin CM (2007) Animal welfare: reporting
statement: revised recommendations for improv-
38. International Committee of Medical Journal
details is good science. Nature 448: 251.
ing the quality of reports of parallel-group
Editors. Uniform Requirements for Manuscripts
11. Jafari P, Azuaje F (2006) An assessment of
randomised trials. Lancet 357: 1191–1194.
Submitted to Biomedical Journals. Available:
recently published gene expression analyses:
26. Altman DG (2005) Endorsement of the CON-
http://www.icmje.org/urm_full.pdf. Accessed
reporting experimental design and statistics.
SORT statement by high impact medical jour-
nals: survey of instructions for authors. BMJ 330:
39. Council of Science Editors – Editorial Policy
12. Hackam DG, Redelmeier DA (2006) Translation
Committee (2008–2009) CSE’s White Paper on
of research evidence from animals to humans.
27. Hopewell S, Altman DG, Moher D, Schulz KF
promoting integrity in scientific journal publica-
tions, 2009 Update. Available: http://www.
13. Perel P, Roberts I, Sena E, Wheble P, Briscoe C,
ment by high impact factor medical journals: a
councilscienceeditors.org/editorial_policies/
et al. (2006) Comparison of treatment effects
survey of journal editors and journal ‘instructions
whitepaper/entire_whitepaper.pdf. Accessed 22
between animal experiments and clinical trials:
June 2010 | Volume 8 | Issue 6 | e1000412
40. Committee on publication ethics (COPE). COPE
nuffieldbioethics.org/go/browseablepublica-
international animal experiments on fluid resus-
best practice guidelines for journal editors.
tions/ethicsofresearchanimals/report_490.html.
Available: http://publicationethics.org/files/u2/
55. Horn J, de Haan RJ, Vermeulen M, Limburg M
Best_Practice.pdf. Accessed 22 January 2010.
¨ brink KJ, Rehbinder C (2000) Animal defini-
(2001) Nimodipine in animal model experiments
41. Nuffield Council on Bioethics: The Ethics of Re-
tion: a necessity for the validity of animal
of focal cerebral ischemia: a systematic review.
search involving Animals (2005) Chapter 15: Discu-
experiments? Lab Anim 34:: 1 21–130.
ssion and Recommendations; pp 313, paragraph
49. Boisvert DPJ (1997) Editorial policies and animal
56. Kilkenny C, Brown WJ, Cuthill IC, Emerson M,
15.58. Available: http://www.nuffieldbioethics.
welfare. In Animal Alternatives, Welfare and
Altman DG (2010) Animal Research: Reporting
org/fileLibrary/pdf/RIA_Report_FINAL-opt.pdf.
Ethics Zutphen LFM, Balls M, eds. Elsevier. pp
In Vivo Experiments: The ARRIVE guidelines.
42. Drummond GB (2009) Reporting ethical matters
50. Working Committee for the Biological character-
57. Kilkenny C, Brown WJ, Cuthill IC, Emerson M,
in The Journal of Physiology: standards and
isation of laboratory animals/GV-Solas (1985)
Altman DG (2010) Animal Research: Reporting In
Guidelines for specification of animals and
Vivo Experiments: The ARRIVE guidelines. Exp
43. Osborne NJ, Payne D, Newman ML (2009)
husbandry methods when reporting the results
Physiol. doi: 10.1113/expphysiol.2010.053793.
Journal editorial policies, animal welfare, and the
of animal experiments. Lab Anim 19: 106–108.
58. Kilkenny C, Brown WJ, Cuthill IC, Emerson M,
51. Moher D, Schulz K, Simera I, Altman DG (2010)
Altman DG (2010) Animal Research: Reporting
44. Hooijmans C, Leenars M, Ritskes-Hoitinga M
Guidance for developers of health research
In Vivo Experiments: The ARRIVE guidelines.
(2009) Improving the quality of publications on
reporting guidelines. PLoS Med 7: e1000217.
J Physiol. doi: 10.1113/jphysiol.2010.192278.
animal experiments to make systematic reviews
52. Mignini LE, Khan KS (2006) Methodological
59. Kilkenny C, Brown WJ, Cuthill IC, Emerson M,
45. Wurbel H (2007) Publications should include an
quality of systematic reviews of animal studies: a
Altman DG (2010) Animal Research: Reporting
animal welfare section. Nature 446: 257.
survey of reviews of basic research. Biomed
In Vivo Experiments: The ARRIVE guidelines.
46. Alfaro V (2005) Specification of laboratory animal
Central Medical Research Methodology 6: 10.
Br J Pharmacol. doi:10.1111/j.1476-5381.
use in scientific articles: Current low detail in the
journal’s instructions for authors and some
Donnan GA (2004) Pooling of animal experi-
60. Kilkenny C, Brown WJ, Cuthill IC, Emerson M,
proposals. Methods Find Exp Clin Pharmacol
mental data reveals influence of study design and
Altman DG (2010) Animal Research: Reporting In
publication bias. Stroke 35: 1203–1208.
Vivo Experiments: The ARRIVE guidelines. Lab-
47. Nuffield Council on Bioethics (2005) The ethics of
54. Roberts I, Kwan I, Evans P, Haig S (2002) Does
oratory Animals. doi:10.1258/la.2010.0010021.
research involving animals. London: Ed Nuffield
animal experimentation inform human health-
Council on Bioethics, Available: http://www.
care? Observations from a systematic review of
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Regional technology policy Summary of advisory report 23 The three questions that the Minister of Economic Affairs submitted to the Advisory Council for Science and Technology Policy (AWT) can be summarised as follows: 1. To what extent do the regions differ in terms of 'innovation intensity' and are these differences amenable to influence by policy? 2. What can the regions do
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