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The ARRIVE guidelines 2.0: Updated guidelines for reporting animal research.

Nathalie Percie du Sert1, Viki Hurst2, Amrita Ahluwalia3,4

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Experimental Physiology
|July 16, 2020
PubMed
Summary
This summary is machine-generated.

This article introduces the updated ARRIVE 2.0 guidelines, designed to improve the transparency and reproducibility of animal research. By categorizing reporting requirements into essential and recommended sets, the authors provide a practical framework to help researchers, editors, and reviewers enhance the quality of scientific publications.

Keywords:
in vivo experimentsreporting standardsmethodological rigorscientific transparency

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Area of Science:

  • Research methodology and ARRIVE guidelines implementation within biomedical sciences
  • Scientific publishing and reproducibility standards

Background:

No consensus exists regarding the optimal strategy to ensure consistent reporting standards in animal research publications. Prior research has shown that the original 2010 guidelines failed to achieve widespread adherence despite significant support from journals. That uncertainty drove the need for a more practical approach to reporting in vivo experiments. Researchers often struggle to balance comprehensive documentation with the constraints of manuscript preparation. This gap motivated the development of a revised framework to address these persistent challenges. The scientific community continues to face difficulties in evaluating the methodological rigor of published animal studies. Previous efforts to mandate reporting standards have yielded inconsistent improvements in transparency across the literature. This evolution in reporting standards aims to better support the scientific community in achieving higher reproducibility.

Purpose Of The Study:

The primary aim is to introduce the updated ARRIVE 2.0 guidelines to enhance the transparency of animal research. This initiative seeks to address the persistent challenges associated with reporting in vivo experiments. The authors intend to facilitate the practical use of these standards by reorganizing the existing information. A major motivation is the observation that previous reporting efforts failed to achieve consistent quality improvements. The study addresses the need for a more effective framework to support researchers and journal editors. By providing a clearer structure, the authors hope to enable better scrutiny of published scientific work. The project also aims to clarify the rationale behind each reporting item to ensure widespread adoption. This effort ultimately strives to improve the overall reproducibility of the scientific process.

Main Methods:

The authors employed a Delphi exercise to refine and organize the reporting criteria. This systematic approach allowed for the prioritization of items based on expert consensus. They restructured the existing requirements into two distinct sets to simplify the implementation process. The team developed the Essential 10 to represent the absolute minimum information required for publication. They also created the Recommended Set to provide necessary context for the reported research. An accompanying document was drafted to explain the underlying rationale for every checklist item. This resource includes illustrative examples to clarify key concepts for users. The entire process focused on creating a practical framework for journal editors and reviewers.

Main Results:

The strongest finding is the successful reorganization of reporting items into a prioritized, two-tiered structure. This division into the Essential 10 and the Recommended Set facilitates a stepwise implementation for authors. The authors report that the original 2010 guidelines failed to achieve anticipated improvements in reporting quality. They identify that adherence to previous standards remained inconsistent despite high levels of endorsement. The new framework specifically targets these historical shortcomings in transparency. The accompanying Explanation and Elaboration document provides three distinct functions to support the guidelines. These include explaining the rationale, clarifying concepts, and offering examples. The results suggest that this structure better equips the scientific community to verify methodological rigor.

Conclusions:

The authors propose that the updated guidelines facilitate a more manageable implementation process for researchers. This synthesis suggests that prioritizing specific items helps editors verify the most critical information in manuscripts. The division into two sets allows for a stepwise adoption of reporting standards. These changes aim to equip the scientific community with better tools for enhancing transparency. The accompanying documentation clarifies the rationale behind each requirement to support consistent application. By providing illustrative examples, the authors intend to assist authors in meeting these reporting expectations. The revised framework serves to improve the overall rigor of the scientific process. These updates represent a strategic effort to address the limitations observed in previous reporting initiatives.

The researchers propose a two-tiered system: the Essential 10, representing the absolute minimum requirements, and the Recommended Set, which provides necessary research context. This structure contrasts with the original 2010 version, which lacked this prioritized categorization for implementation.

The Explanation and Elaboration document serves as a companion resource. It clarifies complex concepts, justifies the rationale for each checklist item, and offers concrete examples to guide users through the reporting process.

The authors utilized a Delphi exercise to systematically prioritize and categorize the guidelines. This consensus-based approach was necessary to distinguish between the most critical reporting elements and those that provide supplementary context.

This data type, specifically the Essential 10, functions as a mandatory baseline for manuscripts. It ensures that reviewers can verify the most vital methodological information, whereas the Recommended Set offers broader context.

The researchers measure success by the ability of the scientific community to scrutinize work and evaluate methodological rigor. This phenomenon of improved transparency is intended to facilitate the reproduction of methods and results across different laboratories.

The authors claim that these changes will better equip researchers, reviewers, and editors to improve scientific rigor. They propose that this stepwise implementation will address the inconsistent adherence observed with previous reporting standards.