- Open Access
- Open Peer Review
Opening clinical trial data: are the voluntary data-sharing portals enough?
© Geifman et al. 2015
- Received: 30 September 2015
- Accepted: 3 November 2015
- Published: 11 November 2015
Data generated by the numerous clinical trials conducted annually worldwide have the potential to be extremely beneficial to the scientific and patient communities. This potential is well recognized and efforts are being made to encourage the release of raw patient-level data from these trials to the public. The issue of sharing clinical trial data has recently gained attention, with many agreeing that this type of data should be made available for research in a timely manner. The availability of clinical trial data is most important for study reproducibility, meta-analyses, and improvement of study design. There is much discussion in the community over key data sharing issues, including the risks this practice holds. However, one aspect that remains to be adequately addressed is that of the accessibility, quality, and usability of the data being shared. Herein, experiences with the two current major platforms used to store and disseminate clinical trial data are described, discussing the issues encountered and suggesting possible solutions.
- Clinical data
- Clinical trials
- Open access
Approximately 30,000 clinical trials are conducted annually worldwide, producing a large volume of raw patient-level data. Sharing of such data would allow the scientific community to independently verify published results and evaluate new hypotheses, either by extending the analysis of data from a clinical trial or by combining data from different trials. The unavailability of original research data is a known and significant barrier to reproducibility. Further, the enormous quantity of raw, individual-level clinical and high-throughput mechanistic assay data available should function as a springboard for scientific advances and development of new techniques in clinical informatics. With this in mind, recent market and regulatory forces have been driving initiatives to release such data to the public. Nevertheless, for this potential to be realized, the data have to be accessible and usable.
Many government agencies, research groups, and pharmaceutical companies have begun implementing mechanisms for data sharing . While there is ongoing discussion in the community over the key issues and risks of sharing data , most sharing of clinical trial data by pharmaceutical companies is currently performed on a voluntary basis through web-based portals where access is carefully controlled. Whether this voluntary, controlled sharing will be sufficient to meet the goals of transparency and reanalysis is yet to be assessed. One aspect that has not been thoroughly addressed is that of the accessibility, quality, and usability of the data being shared. From our experiences in seeking access to patient-level clinical trial data through the two current major platforms used to store and disseminate these data, the process is still very cumbersome and lengthy and, when data are provided, they are not readily useable.
One of the largest of such platforms is ClinicalStudyDataRequest.com, which, to date, allows users to browse over 2,100 clinical trials sponsored by 12 different pharmaceutical entities, select those of interest and, following the platform’s protocol, request access to the data . However, the process of gaining access to the data is time consuming and demotivating. A detailed research proposal providing a lay summary, study design, primary and secondary endpoints, statistical analysis plan, and publication plan needs to be provided. The submitted proposal is reviewed by an independent research panel which decides whether to approve the request for data. This requirement for review prior to allowing data access is considered necessary to ensure that data are released only to responsible and qualified parties, thus avoiding misinterpretation of the data and publication of misleading, erroneous results. Once approved, a data-sharing agreement is sent to all trial sponsors and returned to the requesting researcher for signature. Following sign-off, trial sponsors prepare, anonymize, and make the data available via an analysis platform. Thus, the original data are never actually shared with the researcher and analysis is limited to that which can be conducted via the platform.
Faster data acquisition, within days, was achieved via the Project Data Sphere database (projectdatasphere.org) which stores, shares, and allows analysis of patient level phase III cancer trial data . The database currently holds information from over 50 cancer clinical trials and, after registration and submission of a simple research proposal, which was swiftly approved, all data on the site were made available for either download or analysis on an online SAS platform. Nevertheless, whilst obtaining the data was fast and relatively straightforward, other than when using the restrictive online tools, the data were not readily usable. For the studies available on the site, data schemas were not uniform, making integration and comparison of data from different studies, such as meta-analyses, difficult. Further, table and variable names were uninformative. Long annotation files had to be manually read to assess what data were available and, for at least five studies, no annotation files were provided. Of even greater concern was the fact that only data pertaining to the control, placebo, or comparator arms were made available, making the possibility of reanalysis of studies, such as those which failed, impossible.
While this is merely the dawn of a new age of open clinical trial data and, understandably, hurdles toward implementation of safe and efficient clinical trial data-sharing platforms are expected, examples of effective platforms already exist. One initiative, led by the National Institute of Allergy and Infectious Diseases, is the Immunology Database and Analysis Portal (ImmPort; www.immport.org) data-sharing platform . In the short time since its implementation, over 140 datasets (including 36 clinical trials, as of October 2015) from various research consortia were made publicly available in an easily accessible and readily useable way. Access to the data stored in ImmPort, most of which is parsed, annotated and structured, is made available immediately after registration to the site. With hundreds of downloads per month, ImmPort is an important source of raw data and protocols from clinical trials, mechanistic studies, and novel methods for cellular and molecular measurements.
Our experiences, albeit based on a small sample, have led us to the conclusion that, although the pharmaceutical industry is making some effort, it is not yet highly motivated to share clinical trial data in a timely manner. Clinical trial data are complex and comprise multiple aspects; a widespread adoption of standards for publishing and sharing such data would prevent many of the issues we encountered. The recently published Institute of Medicine’s report  provides guidelines for clinical trial data sharing. Adoption of these guidelines, along with standards for data representation, such as standard data table templates and standard vocabularies, would greatly assist in making open clinical trial data useful to the community. An agreed-upon protocol for the approval of data requests and reasonable time frames for the process would also shorten the path from resource to research. Naturally, newer and acceptable standards should be developed in collaboration with the industry providers. We recommend that action be taken to establish community-wide standards and guidelines and a platform for communication between researchers and providers regarding data safety, access, and usability concerns. Additionally, a scheme to increase the industry’s motivation for data sharing, rewarding companies that make data readily accessible (e.g. by extension of the duration of patent exclusivity for the tested drug  or by participation in publications related to re-use of the data) and covering the costs of this process, should also be considered.
Better sharing of clinical trial data holds great potential for the scientific and patient communities. Collaborative establishment of data standards and processes for data sharing and acquisition would greatly accelerate the progress of research based on this rich data source.
This work was supported by the National Institute of Allergy and Infectious Diseases of the National Institutes of Health grant number: HHSN272201200028C. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute of Allergy and Infectious Diseases or the National Institutes of Health.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
- Institute of Medicine. Sharing clinical trial data: maximizing benefits, minimizing risk. Washington, DC: The National Academies Press; 2015.Google Scholar
- Rosenblatt M, Jain SH, Cahill M. Sharing of clinical trial data: benefits, risks, and uniform principles. Ann Intern Med. 2015;162(4):306–7.View ArticlePubMedGoogle Scholar
- Nisen P, Rockhold F. Access to patient-level data from GlaxoSmithKline clinical trials. N Engl J Med. 2013;369(5):475–8.View ArticlePubMedGoogle Scholar
- Hede K. Project data sphere to make cancer clinical trial data publicly available. J Natl Cancer Inst. 2013;105(16):1159–60.View ArticlePubMedGoogle Scholar
- Bhattacharya S, Andorf S, Gomes L, Dunn P, Schaefer H, Pontius J, et al. ImmPort: disseminating data to the public for the future of immunology. Immunol Res. 2014;58(2–3):234–9.View ArticlePubMedGoogle Scholar
- Milne CP, Bruss JB. The economics of pediatric formulation development for off-patent drugs. Clin Ther. 2008;30(11):2133–45.View ArticlePubMedGoogle Scholar