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Complex and sometimes controversial information must be conveyed during the consent process for participation in biorepositories, and studies suggest that consent documents in general are growing in length and complexity. As a first step toward creating a simplified biorepository consent form, we gathered data from multiple stakeholders about what information was most important for prospective participants to know when making a decision about taking part in a biorepository.
We recruited 52 research participants, 12 researchers, and 20 institutional review board representatives from Durham and Kannapolis, NC. These subjects were asked to read a model biorepository consent form and highlight sentences they deemed most important.
On average, IRB representatives identified 72.3% of the sentences as important; researchers selected 53.0%, and participants 40.4% (P = 0.0004). Participants most often selected sentences about the kinds of individual research results that might be offered, privacy risks, and large-scale data sharing. Researchers highlighted sentences about the biorepository's purpose, privacy protections, costs, and participant access to individual results. IRB representatives highlighted sentences about collection of basic personal information, medical record access, and duration of storage.
The differing mandates of these three groups can translate into widely divergent opinions about what information is important and appropriate to include a consent form. These differences could frustrate efforts to move simplified forms—for biobanking as well as for other kinds of research—into actual use, despite continued calls for such forms.
Biorepositories are a key resource for the large-scale genomic research needed to advance personalized medicine. However, the collection and storage of biospecimens and data for future research use raises pressing issues concerning informed consent. Although biobanking and related procedures are usually considered to involve minimal risk,1 the process of obtaining consent for such activities often requires that participants assimilate information that can be complicated or controversial. These challenges are intensified by the perception, substantiated in multiple studies,2-8 that consent documents in general are becoming both longer and harder to understand. As one observer noted, “[Consent forms] are growing in length and complexity, becoming ever more intimidating, and perhaps inhibiting rather than enhancing participants’ understanding. Participants may not even read them, much less understand them.”9
Awareness of these problems has led to calls for the simplification of consent documents,10,11 including those used for biorepositories. The National Cancer Institute's Office of Biorepositories and Biospecimen Research recently recommended that “...a 1-page informed consent document outlining important issues and risks in straightforward language should be developed and implemented.”12 One obstacle to developing such a form, however, is determining what is material information that a reasonable person would want to know in order to make an informed decision, as opposed to unnecessary detail that may confuse prospective participants and detract from information of more substantive importance.13 Studies have documented that what patients and research subjects deem essential may differ from information identified as important by “experts.”14-16
As a first step toward creating a simplified biorepository consent form, we gathered data from multiple stakeholders, including research participants, researchers, and institutional review board (IRB) representatives, about what information was most important for prospective participants to know when making a decision about taking part in a biorepository. Here we present their characterizations of the importance of individual items of information supplied in a model consent form, and discuss the implications of the differences observed among groups for creating usable simplified consent forms, for biobanking as well as for other kinds of research.
The foundation for our study was a model biorepository consent form17 that was developed based on relevant U.S. federal regulations18,19 and guidance,20 best practice guidelines,1,21-23 and ethics literature about biobanking. Because this form had been specifically created to be succinct, we reincorporated all of the details we thought prospective biorepository participants might plausibly wish to know (e.g., definitions of ‘genes’ and ‘DNA’; details concerning how applications to study stored materials would be reviewed; options that would be available to those who wish to discontinue participation). According to readability tools available in Microsoft Word 2007 (Redmond, WA), the level of education required to understand this longer form (Appendix) was U.S. grade 7.9.
We recruited subjects in Durham, NC (the home of the Duke University School of Medicine) and in Kannapolis, NC (the site of the MURDOCK Study, a population-based registry focused on reclassifying diseases by applying advanced genomic and bioinformatics capabilities24). At the time our study commenced, the MURDOCK Study was in the planning stages for the creation of a repository of biospecimens and clinical data from 50,000 local residents. We enrolled subjects in three categories:
Study subjects were asked to read the biorepository consent form, first on paper and then for a second time on a tablet computer. Subjects were asked to use the tablet computer's electronic stylus to mark specific sentences they thought would be most important for persons who were considering taking part in a biorepository. Specifically, we instructed prospective biorepository participants:
As you go through the form this time, we would like you to highlight the sentences that—in your opinion—contain the most important information about taking part in a biorepository. In other words, highlight the sentences that have information that would matter most to you, if you were thinking about taking part in a biorepository.
Researchers and IRB representatives were instructed similarly to highlight the sentences they thought were most important for prospective participants to know in order to make a decision about taking part in a biorepository.
The consent documents tested in Durham and Kannapolis were identical, with the exception that those used with prospective biorepository participants in Durham referred to a “Duke Biorepository;” all others referred to a “MURDOCK Biorepository.”
Study visits were conducted from October of 2008 through March of 2009. During these visits, study staff instructed subjects in operating the tablet computer and demonstrated how to highlight sentences using the stylus. Staff were available throughout the visit (which lasted approximately 45 minutes) to answer questions and address any difficulties with the technology. Prospective biorepository participants were compensated with a $25 gift card; researchers and IRB representatives were not compensated.
The DUHS and CMC-NE IRBs approved the component of this study involving prospective biorepository participants and these subjects provided informed consent. Both IRBs deemed the components of this study involving researchers and IRB representatives to be exempt, and these subjects were informed that responding to the invitation letter by participating in the research activity would be taken as consent.
Participants’ data were downloaded directly from the tablet computer application for analysis in SAS version 9.1 (SAS Corporation, Cary, NC). Differences in demographic characteristics were examined using exact Pearson χ2 tests. We compared the number of sentences that each group highlighted using the Tukey-Kramer multiple-comparison test (“honestly significant difference test” for unequal sample sizes). For each group, we then created a separate rank-ordered list of all the sentences in the consent form based on the proportion that endorsed each item. We assigned topic areas to each sentence based on the section of the consent form in which it was located in order to compare the general subject matter of the sentences each group most often selected as important. Finally, we compiled a list containing the 10 sentences most frequently selected by each group, and assessed differences in the proportion of each group that endorsed each one using exact Pearson χ2 tests. A P value of < .05 was considered significant for all assessments.
Study subjects were similar across the three groups in terms of sex, race, and ethnicity (Table 1). There were, however, significant differences by age: significantly more prospective biorepository participants were over 55 years of age as compared with researchers (P < 0.01) and IRB representatives (P < 0.01).
Of the 207 sentences in the form, IRB representatives on average identified 149.7 (72.3%) as important; researchers selected 109.8 (53.0%); and participants selected 83.7 (40.4%). The difference in the mean number of sentences IRB representatives highlighted as compared with participants was significant (Tukey-Kramer multiple comparison adjusted P = 0.0002). The difference between IRB representatives and researchers (Tukey-Kramer multiple comparison adjusted P = 0.17) and between researchers and participants (Tukey-Kramer multiple comparison adjusted P = 0.37) was not statistically significant.
Sentence-by-sentence results (Figure 1) demonstrate the overall tendency of IRB representatives to select more sentences as important. Thus, for any given sentence, there was a high likelihood that a greater proportion of IRB representatives would have selected it relative to the other groups. This finding points to the importance of examining two other outcomes: 1) the topics of the sentences each group most often identified as important; and 2) whether the proportions of each group that identified these top-ranked sentences as important differed significantly.
The sentences most often selected as important by participants conveyed information about the kinds of individual research results that might be offered if they took part in the biorepository, as well as privacy risks and the fact that identifying information would not be released as part of large-scale data sharing (Table 2). In comparison, researchers most often highlighted sentences related to the purpose of the biorepository, privacy protections, costs, and participant access to individual results, whereas IRB representatives highlighted sentences about collection of basic personal information, medical record access, and duration of storage. The only sentence that ranked among the top 10 for all three groups dealt with privacy protections: “We will not give researchers your name or any other information that could identify you without your permission.”
Several sentences were top-ranked among only one or two of the three groups; however, the proportions of each group that selected those sentences as important did not differ significantly (Table 2). These included sentences about large-scale data sharing, privacy risks, the privacy protection afforded by not placing research data in medical records, and the narrow circumstances in which individual research results would be offered to biorepository participants.
For many of the sentences that were top-ranked in at least one group, however, there were significant differences in the proportions of each group that selected it (Table 2). Sentences that IRB representatives selected significantly more often than did participants and researchers concerned the collection of demographic information and family health history, the unlimited length of time that specimens and data would be stored, a summary of which aspects of biorepository participation were optional, and the options that would be available to participants who wanted to discontinue participation.
Sentences that both IRB representatives and researchers selected significantly more often than did participants were related to the purpose of the biorepository, the collection of basic personal information, re-contact about additional research, and the fact that participants would not be offered individual results as a matter of routine.
A primary purpose of informed consent is to allow competent individuals to decide for themselves whether or not to participate in research. This process involves three elements: 1) disclosing information to potential participants; 2) ascertaining that they understand the information; and 3) ensuring that their agreement to take part is voluntary.25 Current regulatory and procedural frameworks, however, tend to emphasize disclosure requirements, which can lead to complicated consent documents that contain an overwhelming level of detail.26 Failure to attend to the importance of comprehension and voluntariness may undermine the basic ethical principle of respect for persons and the goals of informed consent.
In actuality, as Wendler and Grady27 point out, investigators do not need to disclose, nor do potential participants need to understand, all there is to know about research. Not only is there too much to know, but much of this information is not needed to give valid informed consent. Rather, the extent and nature of the information disclosed should focus on what a reasonable person needs to make an autonomous decision.26,28
In this study, we gathered data from multiple stakeholders to begin addressing calls to simplify and refocus consent forms—in this case, a biorepository consent form. Starting with a model form that was developed based on federal regulations and best practice guidelines, we sought input to ensure that a further simplified form would contain the information most important for prospective participants to know about taking part in a biobank. Between the different stakeholder groups, we found significant differences in both the number of sentences identified as containing important information, as well as in the topics of the sentences that were identified as being important. One explanation may be the diverse motivations that exist across the three groups.
A likely motivation among research participants is to understand efficiently the choice being presented to them. In other words, they want to spend as much time as necessary, but no more, obtaining information and making a decision about taking part in research. This might explain why in our study they selected fewer sentences on average when compared to the other groups. Participants are of course ideally situated to provide input on what they would like to know in order to make a knowledgeable and voluntary decision. The National Bioethics Advisory Commission recommended in multiple reports that prospective participants can provide valuable insights into the type of information other potential subjects might want to learn by involving them in the design of studies and the informed consent process.2,26,29,30
Researchers’ goals include maximizing enrollment of eligible participants within the constraints of ethically acceptable approaches to recruitment and consent. At the same time, they are likely motivated by a desire to minimize delays in the IRB review process and may see adherence to IRB template language with the fewest possible study-specific additions or deletions as the path of least resistance. Informally, one researcher in our study commented that she found it challenging to remain true to the instruction to highlight sentences containing information she considered most important for prospective participants to know because, as she went through the form, she instead found herself thinking, “The IRB expects to see this, the IRB wants to see that.” Therefore, although research teams have first-hand experience with obstacles to the informed consent process, such as those raised by lengthy, complex forms, they may perceive little incentive to bring these matters to the attention of the IRB.
IRB representatives in particular confront several potentially conflicting mandates:
A strength of our study was that our consent form was written below an 8th grade reading level, making it accessible to research participants as well as to the other stakeholders. Our sample size was relatively small, which limited our power to detect, for example, differences between IRB representatives and researchers in the number of sentences identified as important. However, we believe our data effectively demonstrate the widely divergent opinions of these three groups—potentially due to differing mandates—regarding the importance of various items of information in a consent form. These differences could frustrate efforts to move simplified forms into actual use, despite continued calls for such forms and ongoing projects aimed at developing them.34 This applies not just to biobanking consent forms, but to those used for other kinds of research that involve more risk and where the need for simpler forms that participants actually read and understand is arguably even greater.
Thus, reconciling these differences is a critical area for future endeavor. This resolution should be in the direction of ensuring that the focus of the informed consent process and form is on informing and protecting research participants. A simplified biobanking form should include the basic elements required by federal regulations for the protection of human research subjects, as well as additional topics recommended as best practice for biobanking (e.g., participant access to research results, development of commercial products). This information should be conveyed in clear, straight-forward language, with the level and types of detail guided by data such as those presented here concerning what participants most want to know. Research is needed to identify innovative ways of providing additional details for those participants who desire them, such as supplemental brochures and ‘Frequently Asked Questions.’ Finally, tools are needed that can be used during the consent process to ensure voluntariness and assess comprehension of the most important information.
The authors thank Jonathan McCall of the Duke Clinical Research Institute for editorial assistance and manuscript preparation. The authors also thank Ashley Dunham, Laveina Dash, Whitney McLeod, and Maria Fawzy for their assistance implementing this study. We worked with hesketh.com (Raleigh, NC) to develop the tablet PC application.
Research support: This study was supported by funding from the Measurement to Understand Re-Classification of Disease of Cabarrus and Kannapolis (MURDOCK) Study and by a grant from the National Institutes of Health Clinical and Translational Science Award 1UL1RR024128 to Duke University.