Trends in the number and the quality of trial protocols involving children submitted to a French Institutional Review Board

Using off-label or unlicensed drug in children is common worldwide. It has been reported that more than 50% of the interventions used in children do not rely on data from randomized controlled trials unlike adults [1]. Consequently, up to 80% of the prescriptions for children are either off-label or unlicensed [2]. Despite the great need for pediatric clinical research, randomized controlled trials (RCTs) which enroll children represent only 14% of all RCTs [3]. Over the last twenty years, the number of published RCTs regarding the pediatric population, compared with adults, did not increase [4, 5].

In addition, the low quality RCTs in children is a major concern as the treatment benefit may be overestimated. For instance, Moher et al. have highlighted that poor quality studies exaggerated the treatment benefit by 34% compared to high quality studies (ROR 0.66, 95% CI [0.52–0.83]) [6]. Weaknesses in the design, conduct and analysis of clinical trials, may therefore lead to misleading results [7‐9].

Using online data banks to see the trends in terms of publication and number of pediatric clinical studies listed in the world on a given period may bring some insightful information. Thus, the quality of RCTs has been assessed in various fields of pediatrics [10‐22]. In 2002, a systematic review evaluating the quality of published RCTs in pediatrics in complementary and alternative medicine [16], found that 81.3% (204/251) reported unclear allocation concealment, with no significant change over time. Inadequate method of random allocation, inappropriate description of outcome measures, inclusion or exclusion criteria, and small sample sizes are the main pitfalls that have been reported [17, 23‐25]. Elsewhere, a review of the literature that analyzed the pediatric RCTs between 1948 and 2006 showed a global improvement in the quality of the methodology in 37.7% of all RCTs, but no description of the blinding and concealment methods were provided [19]. To overcome this issue, the EU has set a new Pediatric Regulation (No. 1901/2006) [26] that came into force in January 2007. It aims at “achieving high quality ethical pediatric clinical research, to increase availability of authorized medicines that are appropriate for children and to produce better information on medicines”. It resulted in the obligation for pharmaceutical companies to submit a Paediatric Investigation Plan for all drug development [1]. In addition, all pediatric labeling is rewarded with a 6-months patent extension. The expectations were to have safety and efficacy data for all pediatric age groups, robust data supporting new pediatric labeling and appropriate pediatric formulations. Although an increase in the quantity of RCTs has been observed, there are still large discrepancies between the trials conducted and the pediatric therapeutic needs [27].

The authorization to conduct a biomedical research (whether for a drug or not), intended to be used for application for market authorization, requires that both an Institutional Review Board (IRB) and drug regulation agency give their approval. In France, sponsors are required to submit their protocols to one of the 40 existing French IRBs. The protocol is usually submitted to the IRBs of the region where the principal investigator is registered. The main role of the board is to assess whether all scientific, ethical and legal requirements for conducting a research with human subjects are met.

The primary objective of our study was to assess the trends in the number and the quality of pediatric clinical trial protocols submitted to the French IRB00009118 before and after the implementation of the European Pediatric Regulation. The IRB00009118 reviews research protocols of the second biggest pediatric hospital in France.

Between 2003 and 2014, 622 protocols were submitted to the IRB00009118. Twenty-one percent (133/622) of them enrolled children. Among them, the number of protocols including adults was greater than that of protocols including only children (56 children versus 77 adults and children protocols). Based on the French law of 9 August 2004 on Public Health Policy, 73% (97/133) of pediatric studies were considered “interventional”, 4% (5/133) “observational”, and 23% (31/133) “research on routine clinical care” (Table 1). Forty-eight percent of all protocols (64/133) were sponsored by pharmaceutical companies and 52% (69/133) by academic institutions. The comparison of the characteristics of protocols submitted before and after the regulation is provided in Tables 1 and 2.

The time periods before and after the regulation and the respective number of protocols were the following: 2003–2008 (n = 47) and 2009–2014 (n = 86). The number of submitted pediatric protocols doubled between the two periods. We observed a statistically non-significant trend toward an increase in the number of academic protocols over time. RCTs accounted for 38% (50/133) of the studies submitted between 2003 and 2014. There was no significant change between the two periods except for the percentage of randomized studies that seem less substantial after the new regulation on pediatric medicines and for the intention to treat analysis (Table 1).

The overall median Jadad score of RCTs was high (period 2003–2008: 3 [1‐5]; period 2009–2014: 5 [2‐5]). Overall, 70% (35/50) of the protocols had a “high” quality score, and 30% (15/50) a “low” quality score (Table 2). The analysis of the evolution of Jadad scores over time showed a quality trend that was statistically non-significant (Fig. 1).

We assessed how the quantity ands quality of pediatric clinical trial protocols submitted to a French IRB, has changed over a decade that has seen the introduction of the EU Pediatric Regulation. We observed that the number of submitted pediatric protocols doubled the last six years. We also observed a trend toward an increase in the number of institutionally sponsored protocols. Yet, it is not clear whether the increase in the number of institutionally protocols has been influenced by the European regulation, as institutions did not receive any incentive for performing RCTs, and are not seeking marketing authorization as a result of their clinical trials. Altogether it seems that the introduction of the new regulation had no impact on the quality of the trials, at least in our region. No significant improvement of the Jadad score for pediatric RCTs protocols submitted to our committee was detected.

In order to assess the impact of open label studies on the Jadad score, we performed a sensitivity analysis by excluding protocols with justified open-label approach. Our results showed that the mean Jadad score increases significantly and seems to be influenced by the open-label studies. However, the quality trend remains unchanged after the sensitivity analysis. Hrobjartsson et al. [31] assessed the impact of unblind outcome assessment on estimated treatment effects in RCTs with binary outcomes. They found that on average, non-blinded assessors of subjective binary outcomes generated substantially biased effect estimates in RCTs, exaggerating odds ratios by 36%. In our study, only 2 open-label trials had a blind assessment of the primary outcome. Thirteen had objective outcomes, such as death and bleeding, for which the blinding of the assessor might have a limited influence on the estimation of the treatment effect, and 3 protocols had a subjective outcome.

At the European level in its 2015 annual report (published on May 3rd, 2016), the European Commission reported that there was 340 pediatric trials authorized in 2006 on a total of 4272 (adults and/or children) trials (8%), and 763 pediatric trials authorized in 2015 on a total of 4242 trials (18%). This data was extracted from the protocol-related information in EudraCT [32].

Besides, in its 5-year interim report on the implementation of the European pediatric medicine regulation, the European Commission noticed an increase in the number of medicines available for children and an increase in the information related to the medicines used in children [33]. Since the implementation of the pediatric regulation, 31 out of 152 new medicines have been authorized for pediatric use.

We observed in ClinicalTrials.​gov an increase in the number of pediatric studies currently registered over time. This result provide an accurate picture of the current pediatric trials. These findings are consistent with the increase of pediatric studies submitted to the Ethics Committee over the last decade.

There is evidence that the randomized trial literature reports favorable results leading to spins. A spin is defined as specific reporting that could distort the interpretation of the results and mislead the readers [34, 35]. Trial registration improved the transparency of clinical research but summary protocols do not encompass detailed information on the methods. Public access to trial protocols should not be limited to regulatory agency submissions that have led to positive decisions for market authorization, as many institutional non pharmacological trials are only assessed by IRBs. Confidentiality of protocol content is a common obstacle to the access to the protocols submitted to IRBs [36]. After authors signed a confidentiality agreement, our IRB gave them access to the protocols on site. After controlling the anonymization (withdrawal of the name of the drug and the sponsor) the IRB then authorized authors to hold an electronic database of the information gathered from the protocols. In the future, the access to IRB protocols could be facilitated by the global sharing of electronic databases for managing IRB protocols, as it is now the case in France, since 2016 [37, 38].

The number of reviews based on protocols remain, however, limited and difficult [39], suggesting that there is still a need for formal framework to facilitate access to protocols submitted to IRBs as underlined ten years ago [36]. It took more than twenty years before registration of protocol summary became the rule [40], under the impetus of the International Committee of Medical Journal Editors (ICMJE), and via a World Health Organization platform (International Clinical Trials Registry Platform) [40‐42]. Unfortunately, public access to full protocols submitted to IRB is seemingly following the same long path. The new EU regulation No 536/2014 on clinical trials, entered into force in the second semester of 2016 after it had been harmonized with the new French law on research involving humans (Jardé law), aims to create an environment that is favorable for conducting clinical trials, with the highest standards of patient safety, for all EU Member States. The Jardé law has modified the method of allocating files to the Committee for the protection of persons, which is now done by central electronic randomization [37].

Independently of the lack of impact on the quality, a progressive increase on the overall number of pediatric protocols submitted to the ethic committee is observed. However, it is difficult to find a clear link between this increase and the European Pediatric Regulation implementation.