ObjectiveTo develop a transparency evaluation tool 2.0 of clinical practice guidelines (CPGs) oriented by public trust. MethodsThe Delphi method was employed to score and select the importance and operability of evaluation indicators. The analytic hierarchy process was used to determine the weights of the indicators. And the final evaluation indicator system was determined through expert consensus meeting. ResultsIt constructed two first-level indicators including conflict of interest and formulation process, and six second-level indicators, including guideline developers, reviewers, protocol and registration, evidence production, recommendation formation, and external review. Based on the second-level indicators, a total of 21 third-level indicators were constructed from the perspectives of disclosure and management. The logical structure of the tool is rigorous and harmonious. ConclusionThe CPGs transparency assessment tool 2.0 developed in this study provides measurement standards and an evaluation framework for assessing transparency in CPGs.
The Standards for reporting diagnostic accuracy studies (STARD) 2015 is a revision of the STARD 2003 on the checklist and flow chart, on the basis of the new evidences of potential bias and applicability, to better guide the application of diagnostic test in clinical practices. Currently, the interpretation and application in China is still based on STARD 2003. This review will describe the application status of the original version and introduce the updated standards for reporting diagnostic accuracy studies.
ObjectiveTo develop a transparent evaluation tool for the transparency of clinical practice guidelines.MethodsLiterature, books and policy documents related to the transparency of guidelines were retrieved from PubMed, EMbase, Web of Science, WanFang Data and CNKI databases to form a pool of items. After two rounds of Delphi expert consultation, the items were modified and scored to determine whether to be included in the final evaluation system. Expert consensus would determine the organization and evaluation method of the final tool.ResultsA total of 77 references were included, and 399 items related to transparency of guidelines were extracted. The items pool containing 53 items was formed after normalization and de-duplication. After two rounds of Delphi consultation, the evaluation tool for transparency of clinical practice guidelines covering 32 items in 6 areas was formed. The established tool consisted of planning (5 items), personnel selection (6 items), conflict of interest management (6 items), recommendation formation process (8 items), external review process (3 items), and guide reporting process (4 items).ConclusionsThe developed evaluation tool for transparency of clinical practice guidelines can provide a standard for the formulation, evaluation and utilization of guidelines from the perspective of transparency.
