Barriers to access to clinical trial data: Obstruction of a RIAT reanalysis of the treatment for adolescents with depression study
Abstract
BACKGROUND:
Public access to data has been a major step in attempting to reduce bias in scientific literature. Data to verify efficacy outcomes are now more accessible; however, little has been done to ensure public access to harms data from RCTs, which are equally important in ascertaining possible misreporting and protecting safety.
OBJECTIVE:
The treatment for adolescents with depression study (TADS) has influenced most international practice guidelines for treating children and adolescents with depression, supporting first-line prescription of fluoxetine in combination with cognitive behavioural therapy (CBT). However, after over 30 publications by the TADS team, reporting on harms remains highly deficient and we aimed to redress this lack.
METHODS:
In undertaking a restoring invisible and abandoned trials (RIAT) reanalysis of TADS’ effectiveness and safety outcomes, we sought access to de-identified serious adverse events (SAE) data.
RESULTS:
This paper describes our unsuccessful efforts to obtain more detailed SAE data from TADS’ data custodians, highlighting several problematic blocks to comprehensive safety reporting.
CONCLUSION:
Comprehensive access to clinical trial data is necessary to ensure safe and fully informed guidelines for treating children and adolescents with depression.
1.Introduction
Public access to data is a key tenet of transparency in randomised clinical trials [1,2]. In order to establish confidence in an investigator’s conclusions, trial data should be open to scrutiny by the scientific community. Unfortunately, this is rarely the case, leading to biased reporting in journal articles [3,4]. The larger research community should have access to raw datasets, particularly with respect to harms, in efforts to increase confidence in the scientific method.
The restoring invisible and abandoned trials (RIAT) initiative was established by Dr Peter Doshi and others to address misreporting of randomised clinical trials (https://restoringtrials.org/). Our team is currently sponsored and guided by the RIAT Center in re-analysing the original treatment for adolescents with depression study (TADS) dataset, to clarify how safe and effective fluoxetine and cognitive behavioural therapy (CBT) are in treating adolescent depression [5].
In preparation for our RIAT reanalysis, we obtained data archive data use certification from the US National Institute of Mental Health (NIMH) in 2018. We currently have access to effectiveness and harms summary data via the US National Institutes of Health (NIH) National Database for Autism Research (NDAR). However, that dataset does not contain patient level information, which severely compromises the analysis of adverse effects which have never been adequately reported (see below). We therefore sought individual patient adverse events data for use in our reanalysis of TADS, and we wish to update the research community on significant roadblocks we have experienced in obtaining access to these data.
TADS was a multi-center parallel four-arm randomized controlled trial conducted in the early 2000s by the Department of Psychiatry and the Duke Clinical Research Institute at Duke University Medical Center, and sponsored by the NIMH [6]. Adolescents with depression (n = 439) were randomized to four treatment groups: fluoxetine alone (n = 109), CBT alone (n = 111), fluoxetine with CBT (n = 107) or pill placebo (n = 112) during TADS’ acute 12-week phase. The original investigators reported combination treatment with fluoxetine and CBT ‘offered the most favourable tradeoff between benefit and risk for adolescents with major depressive disorder’ [6, p. 807]. Such reporting has been widely criticised, encompassing issues with study design [7], statistical reporting and interpretation [7–9], discrepancies between article abstracts and their content [10], and misreporting of harms [11–13]. In fact, a recent meta-analysis criticised 19 international clinical practice guidelines for their reliance on TADS findings without taking into account the failure of TADS authors adequately to report adverse events [14].
Despite taking place over 20 years ago, TADS continues to be a highly influential RCT. Key TADS papers such as [6] have been cited many hundreds of times (at least 1351 citations, which are generally uncritical). Consequently, TADS’ findings have influenced clinical treatment guidelines in many countries, establishing the combination of fluoxetine and CBT as gold standard treatment for adolescent depression [15–17]. Furthermore, there is widespread acceptance that fluoxetine is a first-line treatment for adolescent depression, even by some who have expressed reservations about the safety and efficacy of antidepressants [18].
The original TADS investigators have published over 30 papers, without any containing adequate information on SAEs that occurred during the acute or follow-up phases. The most highly cited TADS paper [6] reports only that 23 of 33 events of self-harm and two of 51 psychiatric adverse events were classified as SAEs, without stating participants’ treatment allocations or indicating whether these cases are mutually exclusive. In response to concerns about antidepressants causing paediatric suicidality, the paper states that the number of suicide attempts in TADS ‘was too small to analyse statistically, and their lethality was low to moderate’ [6, p. 818]. It also states that, although the rate of suicide attempts in depressed adolescents is unknown, the rate of ‘harm-related adverse events’ in TADS’ 12 week phase was ‘below what might be expected in an untreated sample of depressed youth’ [6, p. 817]. Our review of the TADS dataset reposited on NDAR indicates that, of the 30 SAEs recorded during the study’s acute phase, 12 were suicide attempts among participants taking SSRIs, compared with only two attempts for participants not taking SSRIs [19].
As noted, TADS data available from NDAR do not include the data collection forms/case record forms (CRFs) completed by the Independent Evaluator at each clinic assessment visit, nor any adverse event narratives or other individual patient level data, which have been demonstrated to be essential for rigorous reanalysis [20]. In fact, the NDAR’s TADS dataset contains no information about SAEs beyond MedDRA terms and severity ratings. Our previous experience with reanalysing antidepressant trials [20,21] demonstrated there is much useful information contained in SAE narratives that is not captured in the various TADS spreadsheets. Specifically, the profile of adverse events changed significantly when we were able to correct errors made by the original authors of Study 329’s clinical study report. As with the Study 329 reanalysis, our proposed method of examining SAE narratives from TADS was to blind our MedDRA expert and have them code any adverse events described by the narratives. In addition, qualitative analysis would be carried out to discern any patterns that did not emerge in the MedDRA process.
2.Duke University
We approached Duke University, where the coordinating center team for TADS was based, regarding our reanalysis. Appendix A documents the extensive chronology of our attempts to obtain the SAE data, with hyperlinks to each of the emails or letters (see Table 1). The TADS website (https://tads.dcri.org/ organization) lists Dr John March as the Principal Investigator (PI) for the study, and notes that study enrolment closed in July 2003. We therefore initially wrote to Dr March, requesting access to the de-identified clinical record forms.
Table 1
Appendices charting the chronology of efforts to obtain patient-level TADS data, listed by data custodian
| Appendix | Contents |
| Appendix A | Correspondence regarding obtaining individual patient level data from Duke University for RIAT reanalysis |
| Appendix B | Correspondence with Eli Lilly |
| Appendix C | Correspondence with the US Food and Drug Administration (FDA) and its affiliates |
After several emails to Dr March received no reply, the Duke Clinical Research Institute informed us that Dr March had retired and that Dr John Curry was the current PI. Dr Curry reported that Duke was unable to provide us with any clinical report forms, because they were destroyed in 2017, in accordance with Duke’s document retention policies. He provided a spreadsheet supporting the document destruction dates (Supplementary Appendix A, item 22).
Dr Curry then advised that he had personally reviewed every archived study box still available from the TADS study to determine what, if any, patient level data might be available. He informed us that ‘the only patient-level data in the boxes are the serious adverse event (SAE) forms’ (Supplementary Appendix A, item 33). We therefore requested the provision of the remaining SAE forms following de-identification, and we executed a data use agreement with Duke (Supplementary Appendix A, item 62) after negotiations to reduce what we thought to be an excessive price for the provision of de-identified forms.
Subsequent correspondence with Duke’s Data Solutions Program Manager established that there were a total of 68 ‘patient SAE folders’ (Supplementary Appendix A, item 55), rather than the 66 SAEs recorded by the NDAR database (although, without seeing the folders, we cannot be sure that some were not duplicate patients).
Nearly two months after signing off on the data use agreement, Duke, in consultation with Dr Curry and its Institutional Review Board, withdrew its agreement to release the SAE forms, stating that the narratives the forms contained were too idiographic to be sufficiently de-identified. Dr Curry wrote:
Original TADS consent forms did not anticipate or specify disclosure of such idiographic narrative material. A further consideration is that the TADS project was conducted under a federal Certificate of Confidentiality which provides an additional protection against disclosure of information (Supplementary Appendix A, item 70).
However, providing the SAE forms to us would not breach the Federal Certificate of Confidentiality [22]. Firstly, names and sensitive information would be redacted prior to provision of data. Secondly, our team has NIMH approval to access TADS data through the NDAR, with appropriate measures taken to assure participant confidentiality. NIH policy asserts that:
Disclosure is permitted when “made for the purposes of other scientific research that is in compliance with applicable Federal regulations governing the protection of human subjects in the research” [22].
Additionally, Duke’s response to us is inconsistent with its provision of patient-level data to the Columbia Suicidality Classification Group (currently known as the Columbia Lighthouse Project) for ‘reclassification of all possibly suicidal events’ [23, p. 1443]. Columbia University participated in TADS as a trial site, but the reclassification of suicide events was undertaken as a separate exercise, with FDA-commissioned suicidology specialists [23] reviewing suicide-related adverse event reports. We therefore assume that the reports must have been sufficiently de-identified for use outside the TADS project, which undermines Duke’s justification for refusing our request. We contacted the Columbia Lighthouse Project staff (led by Dr Kelly Posner Gerstenhaber), but they have not responded to our repeated requests to clarify whether they received any de-identified adverse event forms (Supplementary Appendix A, items 103, 104 and 107).
We believed Duke’s response placed them in breach of our data use agreement, and we therefore sought legal support from our institution (the University of Adelaide) to challenge the decision. However, this support was declined.
We sought independent legal advice from a US law firm (Baum Hedlund Aristei & Goldman). Their lawyers advised us that Duke’s stance was invalid because:
Duke’s suggestion that SAE forms are not able to be de-identified is disingenuous;
TADS SAE forms are similar to those previously provided to our group during the reanalysis of GlaxoSmithKline’s Study 329 [20], such that nothing on the provided TADS SAE forms [24] suggests that de-identification is impossible or impracticable;
We are not prohibited by the original assent/consent forms from receiving the SAE forms, as Duke suggests, because the assent/consent forms amount to contracts that should be interpreted as they are written; and they include a provision that patient medical records may be provided to third parties: ‘representatives of Duke University Medical Center, and those assigned by them, and the federal agency sponsoring this trial may need to review your medical records’ [italics added; 25, p. 98];
Narratives contained in SAE reports do not enable patient identification in the absence of additional data (which is not available, nor would be published by our team if made available); and
As noted above, our team has NIMH approval to access TADS data and we would not be in breach of the Federal Certificate of Confidentiality (Supplementary Appendix A, item 105).
We offered to execute an additional data use agreement with Duke to reassure confidentiality and address any perceived risks (Supplementary Appendix A, item 71), but Duke has maintained its refusal to provide any de-identified SAE narratives (Supplementary Appendix A, items 73 through 106). We passed on to our University’s legal department the offer from Baum Hedlund to pursue the data on our behalf. We have not been given permission to publish the University’s response, on the grounds that it might compromise legal professional privilege.
RIAT principal investigator, Dr Peter Doshi, also advocated for our access to SAE data from Duke (Supplementary Appendix A, items 74–102) and Lilly (see below, Supplementary Appendix B, item 13), to no avail. Based on considerable experience reanalysing trials, Dr Doshi tried to negotiate alternate avenues for facilitating reanalysis of the SAEs and suggested legal considerations around confidentiality to Duke. Duke declined permission for us to publish their responses to Dr Doshi.
More recently, Duke provided us with a brief summary of SAEs that was not contained in their NIMH repository. This summary provided some minor elaboration of terms to describe each SAE (e.g. ‘suicide attempt (drug overdose)’, as opposed to ‘suicide attempt’ in the NDAR database). However, the newly provided summary could not be linked to existing NDAR databases to contextualise our reanalysis (Supplementary Appendix A, item 135). We therefore made two further requests that were both declined by Duke: clarification of why one SAE was excluded from reporting due to an ‘IRB violation’; and data on the timing of concomitant medication administration with respect to occurrence of SAEs (Supplementary Appendix A, items 135, 137 and 139). Concomitant medications were sometimes taken by participants allocated to placebo and CBT groups, despite their adverse events still reported by TADS authors under an intention-to-treat analysis rather than actual treatment [6,23,26] (also see Supplementary Appendix A, items 131–139 for a summary of our arguments to Duke). Discrepancies in the number of SAEs recorded are critical; because numbers are small, misattribution of suicidal events to different treatment groups can mask important harms [13].
Absent the availability of data from Duke, we have pursued other sources of information about SAEs, as outlined below.
3.Lilly Australia/Eli Lilly
We contacted Lilly, who provided TADS investigators with an educational grant to supply study medication [6], requesting all data they received on adverse events that occurred during TADS. We assert that Lilly should have access to TADS SAE data, because:
• the TADS protocol states:
Any serious adverse event or death must be reported immediately to Lilly (if taking medication) and to Duke irrespective of treatment conditionregardless of the circumstances or suspected causeif it occurs or comes to the attention of the investigator at any time during the study [underlining in original; 25, p. 58];
• the TADS AE/ASAP manual states that Lilly must be notified about SAEs in participants taking medication:
Any serious adverse event or death, regardless of the circumstances or suspected cause, must be reported immediately to Duke (for all subjects) and to Lilly Pharmaceuticals (subjects in pills conditions only) if it occurs or comes to the attention of the investigator at any time during the study [27, pp. 8–9];
• TADS SAE data collection forms state that Lilly must be notified about SAEs:
‘A serious adverse event or death must be reported IMMEDIATELY to both DCRI and Lilly’ [24, p. 1];
• TADS SAE data collection forms from TADS refer to Lilly as ‘the Sponsor’ [24, p. 1] and require submission to the ‘Lilly PhV Triage Center’ [24, p. 5]; and
• TADS assessment forms include a separate ‘Trial Serious Adverse Event Data Collection Form’ or ‘Lilly SAE’ form specifically purposed for submission to Lilly [24,28].
Lilly did not provide us with any data, and refused to have any of their correspondence published (see Supplementary Appendix C).
4.US Food and Drug Administration (FDA)
SAE data from TADS were also submitted to the FDA, as discussed extensively during the joint meeting of the Center for Drug Evaluation and Research and FDA Pediatric Advisory Committee in September 2004 (see [29] for full transcript), which led to the implementation of a black box warning for SSRIs. At that meeting, Dr John March (TADS’ PI) presented preliminary TADS findings, and Drs Tarek Hammad and Andrew Mosholder (Center for Drug Evaluation and Research medical reviewers) presented critical analyses of SSRI safety data. Because these medical reviewers subsequently published a reanalysis of suicide data collected during TADS [30], we contacted them to ascertain whether they also received de-identified SAE data from TADS (see Supplementary Appendix C). Dr Hammad confirmed that the meta-analysis required ‘detailed de-identified patient level data’ and it:
used a standardized database structure with predetermined variable names to ensure compatibility across studies/drugs. The Columbia University group was responsible for the blinded adjudication of all cases of suicidality and SAEs. I do not recall if the TADS was one of the studies that provided narratives to be adjudicated as we received its information at the last minutes [sic] before the Advisory Committee meeting. If it was included in the adjudication, the Columbia group might still have the detailed narratives.
The 2004 Advisory Committee meeting transcript confirms that TADS SAE data were indeed included in the adjudication [29, pp. 35–37, 44, 153, 155].
Since May 2019, we have made two Freedom of Information Act applications to the FDA for patient-level narratives of SAEs (see Supplementary Appendix C). Firstly, we requested all data pertaining to TADS; we were not granted expedited processing of the applications, on the grounds that our request did not meet a ‘compelling need’ for urgent processing (Supplementary Appendix C, item 1). We subsequently amended our request to TADS SAE data only, in an attempt to reduce the request’s complexity and hasten processing time (Supplementary Appendix C, item 16). However, the FOIA office reaffirmed that our application was categorised as complex and would take ‘at least 2 years … before … (coming up) in the queue’ (Supplementary Appendix C, item 27).
In the interim, we searched the FDA Adverse Event Reporting System for adverse events related to ‘fluoxetine’ or ‘fluoxetine hydrochloride’ for children 12–17 years of age that occurred during 2000–2003, the period TADS was conducted [31]. The system reported 142 adverse events that met these search requirements, plus 857 undated events that were received by the FDA after the year 2000. These data did not yield any useful information, apart from indicating that three TADS cases with SAEs were not reported until 2007.
Although our initial FOIA request was submitted in early 2019, we acknowledge that the FDA would have been inundated with work in 2020, due to COVID-19. In general, the FDA has made some efforts to support collaborative, transparent drug approval processes, including recommending a harmonised system for disclosing clinical study reports [32]. In 2018, it piloted a voluntary program of public access to CSRs related to drug approvals [33] in order to address ambiguity in medical reviewers’ summaries that ‘are packaged in a format that can sometimes make it difficult for external audiences to extract and understand the detailed clinical evidence that supported the FDA’s approval decisions’ [32]. However, the only CSR volunteered was Janssen Biotech’s Erleada® (the prostate cancer drug, apalutamide) that redacted patient-level harm narratives [34], thus limiting external safety review and the FDA’s intention to clarify their drug approval process.
At a time when COVID-19 has accelerated regulatory actions with the attendant risks, it is all the more important to ensure transparency. Yet, the FDA closed its pilot program in March 2020, concluding that inconsistencies in international laws and regulations create oppressive costs to facilitating public access to drug approval data [32]. Its recommendation was for the establishment of a standardised, independently-managed international library system that operates on requests and voluntary provision of data by sponsors [32]. However, these recommendations seem unrealistic, given that the discontinued program clearly demonstrated sponsors’ lack of interest in sharing data.
5.Other regulatory agencies
Other international regulators are unlikely to have had access to TADS SAE data in their approval processes concerning paediatric use of fluoxetine, since it was not conducted by a pharmaceutical company and post-dated the studies used by Lilly to apply for licensing [35]. Regulators typically receive clinical study reports from companies. While it is routine practice for such reports to be created in clinical trials, so far as we can ascertain, none were generated for TADS. Nevertheless, we have made applications to the European Medicines Agency, Health Canada and Australia’s Therapeutic Goods Administration (TGA). The European Medicines Agency and Health Canada only accept Freedom of Information requests from their citizens and we are pursuing these options with assistance from our collaborators.
6.Conclusions
In the interests of patient safety, we have energetically pursued SAE reports from TADS to redress the lack of reporting of harms that might have a significant impact on clinical decision making. Despite the fact that we had executed appropriate data use agreements, both Duke and Lilly have withheld SAE data, and the FDA is not facilitating the timely provision of data. Our own University declined to provide legal support to challenge Duke’s decision to deny us access to the SAE forms. This experience exposes potentially fatal flaws in a regulatory system whereby independent analysis of the harms of drugs is denied, primarily under the guise of purportedly protecting participants’ rights.
There is an imperative, particularly with increasing rates of psychotropic prescribing to children and adolescents [36–40], to ensure access to all information that might bear on the safety of their medication. Duke’s arguments around participant confidentiality do not stand up against this ethical responsibility when it is TADS patients and their peers who have the greatest investment in the outcome from such scrutiny. Given that placebo-controlled trials in children are sometimes considered unethical [41], it is unlikely that similar studies will be able to test the safety of fluoxetine, underscoring the importance of maximising the use of existing scientific data.
Data must be available in a form that facilitates meaningful reanalysis, else public data access is merely tokenistic. The 2010 CONSORT statement emphasises that ‘readers need information about the harms as well as the benefits of interventions to make rational and balanced decisions’ [42, p. e25]. Government organisations must therefore regulate for safety over protecting patents and profits. The availability of regulators’ drug approval data to the broader scientific community is essential for safe and effective medical practice. Patients and their families have a right to full information on the potential harms of fluoxetine.
Acknowledgements
Data and/or research tools used in the preparation of this manuscript were obtained from the NIH supported National Database for Autism Research (NDAR). NDAR is a collaborative informatics system created by the National Institutes of Health to provide a national resource to support and accelerate research in autism. Dataset identifier DOI: 10.15154/1504156. This manuscript reflects the views of the authors and may not reflect the opinions or views of the NIH or of the Submitters submitting original data to NDAR. These data are not available for dissemination through our organisation.
The authors would like to thank Melissa Raven for critically reviewing the manuscript and suggesting important changes, and Elia Abi-Jaoude for critically reviewing and editing the manuscript.
Conflict of interest
Both authors are supported by a grant from the Laura & John Arnold Foundation administered by the RIAT Support Center, University of Maryland. JJ has acted as a paid consultant to Baum Hedlund Aristei Goldman in relation to studies of citalopram and paroxetine in children and adolescents, but not in the last three years.
Informed consent
This article was prepared using information from TADS publications, the TADS public database on NDAR, the FDA’s FAERS and correspondence with described parties. This article was not commissioned.
There was no patient or public involvement in the preparation of this manuscript. Data reported in this manuscript form part of a secondary analysis of TADS and did not require human ethics approval.
The authors’ funders were not involved in study design and the collection, analysis, and interpretation of data and the writing of the article. Dr Peter Doshi (RIAT Support Center) was consulted in the authors’ decision to submit the manuscript for publication.
All correspondence provided in Supplementary Appendices A–C has been reproduced with permission from the sender. If permission has not been provided, material has been redacted (as is indicated by the appendices’ indices). The wording of several paragraphs was modified according to requests from Duke University’s legal counsel after we invited them to review relevant sections of our manuscript. Duke’s legal counsel, Ann Bradley, acted as a liaison to our team and provided scientific data and legal arguments in response to many of our queries. Unfortunately, she recently rescinded permission for her emails to be published.
Supplementary materials
The appendices are available from https://dx.doi.org/10.3233/JRS-210022.
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