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NIHPA Author Manuscripts logoLink to NIHPA Author Manuscripts
. Author manuscript; available in PMC: 2015 Mar 13.
Published in final edited form as: Public Health Genomics. 2014 Mar 13;17(2):105–114. doi: 10.1159/000358539

Parents’ Preferences for Return of Results in Pediatric Genomic Research

Sonja Ziniel 1,2, Sarah K Savage 3, Noelle Huntington 2,4, Jonathan Amatruda 5, Robert C Green 6,7, Elissa R Weitzman 2,8, Patrick Taylor 2,8, Ingrid A Holm 2,3,9
PMCID: PMC4073487  NIHMSID: NIHMS561746  PMID: 24642506

Abstract

Purpose

To ascertain parental preferences for the return of genetic research results on themselves and their children and their choices for genetic research results to receive.

Methods

A mail survey was sent to 6,874 families seen at Boston Children’s Hospital. The survey included questions assessing the respondents’ preferences regarding the types of result they wanted to receive on themselves and their children.

Results

Most of the 1,060 respondents “probably” or “definitely” wanted to receive genetic research results about themselves (84.6%) and their children (88.0%). Among those who wanted to receive results, 83.4% wanted to receive all research results for themselves and 87.8% for their children. When questions about specific types of research results were combined into a composite measure, fewer respondents chose to receive all results for themselves (53.5%) and for their children (56.9%).

Conclusion

Although most parents report a desire to receive all research results on a general question, almost half only chose to receive a subset of research results when presented with specific types of research results. Our findings suggest that participants might not understand the implications of their choice of individual research results to receive unless faced with specific types of results.

Keywords: research results, DNA research bank, pediatric genomic research, survey, preferences

INTRODUCTION

A debate has emerged over whether or not participant preferences should play a role in the return of individual research results (IRR). Approaches to returning results have been proposed based on a “duty to rescue” the participant who is unaware of research findings significant to his/her health[1], or an ethical duty based on donors’ altruism[2], without regard to participant preferences. On the clinical side, the debate has focused on return of incidental findings in the course of clinical whole genome/exome sequencing. The recommendation of the American College of Medical Genetics (ACMG)[3] is that patients be told of highly actionable “incidental” results because of the potential benefit, again without regard to patient preferences[35].

The alternative approach proposes that returning research results ought to depend on participant preferences[6], acknowledging the personal utility and meaning of information to participants[612], and the participants’ right to know, or not, information that may affect their health[6]. A key assumption of any preference approach is that preference options can be clearly defined and communicated to participants. Previous research in data sharing[13,14] suggests that participants’ “hypothetical” and “actual” preferences are discordant and that hypothetical choices are therefore unreliable. However, that work did not take into account whether preference statements were communicable, whether participants’ answers reflected evolving views, or whether participants were simply making the best selection from imprecise or imperfect options. In order to respect participant autonomy, and, as a corollary, for consent to be informed, the preference setting model has to be clear, easily communicated, and have meaning to the participant. In addition, it is unclear if the way in which we formulate options for participants to reflect their preferences makes a practical and/or ethical difference.

In 2007, our group proposed the “Informed Cohort” model[15] as a method through which participants could receive IRR in accordance with their preferences. We subsequently suggested the “multidimensional results reporting” model[11] for communicating results that depended on preferences, severity of the disease, and communicability of the results. We have since implemented this preference-based approach at Boston Children’s Hospital (BCH) by initiating a large pediatric genetic repository, the Gene Partnership, in which IRR will be returned in accordance with participant preferences.

In the context of Gene Partnership, it is critical that preferences be clear. This requires that preferences are represented in a way that matches the concerns of parents and children, an area about which little is known[11]. In order to understand parent’s views towards their own and their children’s participation in a hypothetical DNA research bank, and their choices with regard to receiving genetic research results for themselves and their children, we conducted a mail/online survey of parents of BCH patients. We hypothesized that although most parents would initially report a desire to receive all IRR on their children instead of choosing which results to receive, when presented with specific types of IRR, many would choose only a subset of possible results.

MATERIALS AND METHODS

This research study was approved by the BCH Institutional Review Board (IRB).

Questionnaire Design and Key Measures

Survey development was guided by a literature review and refined by the team, including individuals knowledgeable in medical genetics, genomic research, public health, and survey methodology. Three focus groups and 14 cognitive interviews were conducted with English-speaking parents of pediatric patients at BCH to test and finalize the survey. The final questionnaire, written at a sixth grade reading level, contained eight sections exploring the participants’: (1) experience with genetic testing and medical research; (2) likelihood to provide and likelihood that they allow their child/children to provide different kinds of biological samples and to participate in a DNA research bank; (3) opinions with regard to the risks and benefits to receiving genetic research results for themselves and their child/children; (4) beliefs about the value and security of a DNA research bank; (5) opinions about receiving different kinds of research results for themselves and their child/children; (6) attitude towards uncertainty and knowledge about genetics; (7) familiarity with computers and the internet; and (8) demographic characteristics. The final questionnaire and the survey process were pretested with a sample of 400 respondents.

The analyses presented here focus on variables measuring the preferences of respondents with regard to receiving their own and their children’s genetic research results. Respondents were initially asked if they would enroll themselves/their child in a hypothetical genetic DNA research bank. Those who agreed were asked on a 5-point Likert scale if they would “want to receive [their / their children’s] genetic research results from a genetic DNA research bank.” The respondents who answered other than “definitely no” (i.e. who answered “definitely yes”, “probably yes”, “I’m not sure” or “probably not”) were then asked the general preference question of the survey: if they “would want to know all of [their / their children’s] genetic research results” or if they “would want to choose which of [their / their children’s] genetic research results” they “would get back”. Later in the survey respondents were asked about their preferences with regard to receiving different types of genetic research results for themselves and their children (specific preference questions). The characteristics of the results that we asked about included results that were well-established and not well-established, and result that indicated a high degree of risk (a lot more likely) versus a low degree of risk (a little more likely) of contracting a disease. Disease characteristics that we asked about included results for diseases that were treatable or preventable and those that were neither treatable nor preventable, and results for diseases that were severe (fatal or disabling) and not severe. Respondents were also asked about their preferences for receiving genetic research results for their children with regard to age of onset of the disease (onset in childhood versus adulthood). Additional questions used in the analyses asked about attitudes towards and knowledge about genetic testing and the return and use of research results (Appendix 1).

Sample Design

The survey sample was drawn from the BCH medical records. Eligible respondents were parents or guardians of children who had received care at BCH in the 12 months preceding the sample selection date (July 2010) and were not enrolled in Gene Partnership, the BCH pediatric research repository that offers the return of research results. Inclusion criteria included living in the contiguous United States, English-speaking, age 18 years or older, and having at least one child <18 years of age at the time of participation. The vast majority of the sample members lived in the Greater Boston area. We expected a lower response rate from low-income families[16] and thus disproportionately offered enrollment to families in the Children’s Hospital Primary Care Clinic (CHPCC) as over 65% of the patient population in CHPPC qualifies for free care or has Medicaid coverage. Having a child seen at CHPCC was therefore used as a stratification criterion.

Dissemination of Questionnaires

Paper surveys with a unique identification code were mailed to the parent/guardian listed as the primary contact in the BCH medical record; a pre-addressed business-reply envelope was included. Respondents had the choice of filling out the paper survey or completing an online version of the survey using a URL provided in the invitation letter and the identification code. Each respondent who completed the survey was eligible to participate in a raffle of three $200 gift cards. After two weeks, non-respondents received another shorter survey (to reduce respondent burden).

Data Management and Analyses

All data were collected in or entered by study staff into REDCap[17] and analyzed using Stata 12.1[18]. Analyses, with the exception of the cluster analysis, accounted for the complex sample design[19]. The weights adjusted for disproportionate sampling probabilities (oversampling of patients in certain hospital facility in both survey phases as a proxy for Hispanic ethnicity, lower income, and African American populations), differences in nonresponse rates (by hospital facility), and differences in distributions of characteristics between the sample and the sampling frame (post-stratification by Hispanic ethnicity, gender, race, and the child’s age). The created weights were then re-based to reflect the sample size rather than the population estimate.

Due to the skewness of the responses, and for ease of interpretation, the 5-point Likert response scales were collapsed into binary variables by combining the two positive response categories (i.e. “definitely yes” and "probably yes”), and combining the middle category with the two negative response categories (i.e. “I’m not sure”, “probably no” and “definitely no”). We created a preference composite measure that indicated if the respondent chose a positive response for all specific preference questions, or chose the middle or one of the two negative responses for at least one of the specific preference questions. The level of agreement between the general preference variable and the composite preference variable for parents and children was assessed using Chi-square tests. Parental preferences for their own and their children’s results were very similar and thus some of the analyses are only reported for the respondents’ children. Bivariate relationships between demographic, attitudinal, and knowledge questions, and the composite preference variable for the return of the children’s results were also tested using Chi-square tests. In order to determine if there were sample subgroups with distinct preferences about the return of their children’s genetic research results we performed a k-means cluster analysis using all specific preference questions to partition the respondents into meaningful clusters.

RESULTS

Response Rate and Sample Characteristics

Of the 6,874 surveys sent, 409 were undeliverable or completed by ineligible respondents and 1,060 (16.4%) were answered by eligible respondents. Most (74.8%) of the questionnaires were completed on paper and the remainder was completed online. The demographics of the respondents are reported in Table 1. Respondents tended to be highly educated, disproportionately female and living in high-income household.

Table 1.

Demographic characteristics of respondents.

Characteristic N Percentage/Mean

Respondent Characteristics

Mean Age (standard error) 997 41.8 (0.268)

Female 1,005 86.9%

Race (multiple selections possible) 990
  Caucasian 85.4%
  African American 7.1%
  Asian 4.5%
  Native American or Alaska Native 0.3%
  Native Hawaiian or Other Pacific Islander 0.4%
  Other 3.9%

Ethnicity 1,007
  Hispanic 6.6%

Marital Status 1, 001
  Never Married 7.2%
  Married or Living with a Partner 83.1%
  Divorced, Separated, Widowed 9.7%

Relationship to Children in Household (multiple selections possible) 1,005
  Biological Mother or Father 95.7%
  Non-Biological Mother or Father 6.2%
  Other Relative 1.6%

Mean Number of People in Household (standard error) 1,003 4.1 (0.037)

Mean Number of Children of All Ages (standard error) 1,030 2.3 (0.036)

Education 1,015
  Less than High School Graduate 2.1%
  High School Graduate or GED 7.4%
  Some College or 2-year Degree 22.0%
  4-year College Graduate 29.5%
  More than 4-year College Degree 39.0%

Yearly Total Household Income 1,013
  Less than $25,000 7.4%
  $25,000 – $49,999 8.9%
  $50,000 – $99,999 24.9%
  More or equal to $100,000 44.5%
  Prefer not to answer 14.3%

Insurance 1,037
  Private 70.8%
  Public 15.2%
  No insurance/Missing value to insurance specification question 14.0%

Routine Access to Computer with Internet 1,007 97.3%

Preferences in Returning Genetic Research Results

The majority of respondents answered they “probably” or “definitely” want to receive genetic research results about themselves (n=858; 84.6%) and their children (n=864; 88.0%). A small subgroup, however, was unsure (n=101; 10.0%; children: n=78; 8.0%), and a minority indicated that they “probably” or “definitely” did not want to receive research results (n=55; 5.4%; children: n=39; 4.0%). When these two first groups were then asked the general preference question (i.e. if they wanted to know all of their genetic research results or choose which results to get back), 83.4% (716/859) indicated that they wanted to receive all of their results, and the percentage was even higher for wanting to receive all of their child’s genetic results vs. choosing which results (87.8%; 762/868).

However, after combining the specific preference questions (questions about receiving results that were well-established or not well-established, indicated a high or low degree of risk, were for diseases that were treatable/preventable or neither treatable nor preventable, and were for diseases that were severe and not severe) into the preference composite measure, a smaller percentage of respondents wanted results in all of these categories (Table 2). Among those respondents who indicated that they wanted to receive all results on the general preference question, only about half answered that they would like to receive genetic research results for all of the specific preference questions (i.e. answered “definitely” or “probably” yes to all of the categories) on themselves (53.5%) and on their child (56.9%). Conversely a smaller percentage of respondents who indicated on the general preference question that they wanted to “choose” which results should be returned actually chose to receive results for all specific preference questions (11.8% for themselves and 11.3% for their child). Overall, the answer patterns were very similar whether the parent was answering about results on themselves or results on their child. Compared to those who indicated on the general preference question that they wanted to choose which results to receive, those who indicated that they wanted to receive all results were significantly more likely to indicate that they wanted results for every specific preference question (with the exception of results for disease that are treatable or preventable). This difference between the two groups (wanting all vs. wanting to choose) was 15.3% for established results, 19.3% for results for a childhood onset disease, 23.8% for results indicating a higher likelihood to get a disease, 29.8% for results indicating a disease with adulthood onset, 30% for results indicating a non-severe disease, 41.2% for not-well established results, 44.1% for results indicating a severe disease, 46.2% for results indicating a disease that is neither treatable nor preventable, to 47.8% for results indicating a small likelihood to get a disease. The only category for which the two groups were not significantly different was results for a disease which was treatable or preventable, as nearly all respondents want to receive their children’s results if they indicate a treatable or preventable disease (97.4%).

Table 2.

Percentage of respondents wanting to receive different types of genetic research results for themselves or their children by answer to previous general preference question (wanting to receive is the combined percentage of answer categories “probably yes” and “definitely yes” to 5-point Likert scale specific preference questions).

Answer
General
Preference
Question
Specific Preference Questions about Different Research Results Characteristics
Established
N yes
(% yes)
Not-Well
Established
N yes
(% yes)
A Lot
More
Likely
To Get
Disease
N yes
(% yes)
A Little
More
Likely To Get
Disease
N yes
(% yes)
Treatable
or
Preventable
N yes
(% yes)
Not
Treatable or
Not
Preventable
N yes
(% yes)
Severe
(Fatal or
Disabling)
N yes
(% yes)
Not
Severe
(Fatal or
Disabling)
N yes
(% yes)
Childhood
Onset
N yes
(% yes)
Adulthood
Onset
N yes
(% yes)
Composite
Preference
Measure
(Wants All
Specific
Results)
N yes
(% yes)
Subject of Genetic Research Results Parent Want to Receive All Results 722 (96.5) 492 (65.8) 689 (92.6) 587 (78.8) 727 (98.5) 636 (86.5) 650 (87.2) 692 (93.1) N/A N/A 389 (53.5)
Want to Choose Results 181 (77.8) 66 (28.5) 165 (71.1) 96 (41.4) 222 (96.5) 96 (41.5) 99 (42.6) 158 (68.0) N/A N/A 27 (11.8)
Child Want to Receive All Results 767 (97.2) 539 (68.3) 740 (94.1) 636 (81.0) 775 (99.1) 663 (85.0) 671 (85.3) 731 (93.1) 761 (96.8) 744 (94.9) 439 (56.9)
Want to Choose Results 142 (81.9) 47 (27.1) 122 (70.3) 58 (33.2) 168 (97.4) 67 (38.8) 72 (41.2) 110 (63.1) 135 (77.5) 113 (65.1) 19 (11.3)

Note: The total number of respondents might be different across the cells of this table. They are based on the number of respondents who answered both questions and not every respondent answered every question. The composite preference measure is only calculated for those respondents who answered all of the specific preference questions. All Chi-square tests (general preference question by each specific preference question) were statistically significant with p<0.001, except for the category “Treatable or Preventable” (p=0.08).

Factors Associated with Preference to Receive Research Results on Children

A number of demographic, knowledge, and attitudinal variables showed significant bivariate relationships with the composite preference variable (Table 3). Respondents who were significantly more likely to not want to receive results on their children in all categories on the specific preference questions (i.e. said “no” to one or more category) had at least some college (or higher) education, a higher household income or preferred not to provide their income, were married or living with a partner, privately insured, not of Hispanic ethnicity, and Caucasian. These respondents also did not believe that genes make some people more likely to benefit from medicines than others. Finally these respondents were significantly more likely to report that receiving their child’s genetic research results might worry them or their family, might make it hard to get/keep insurance, and might lead to discrimination.

Table 3.

Respondent characteristics, knowledge and attitudes associated with the composite preference measure with regard to genetic research results of the respondent’s children.

Respondent Characteristics, Knowledge or
Attitudes
Returning Genetic Research Results
(Composite Preference Measure)

All Genetic
Research Results
n=470 (47.3%)
Only Selected
Genetic Research
Results
n=525 (52.7%)

N (%) N (%) p-value

Respondent Characteristics

Gender (n=984) 0.858
  Male 63 (48.0) 68 (52.0)
  Female 402 (47.1) 451 (52.9)

Age (n=977) 0.865
  24 years or younger 8 (50.7) 8 (49.3)
  25 years to 34 years 77 (48.8) 81 (51.2)
  35 years to 44 years 208 (47.6) 228 (52.4)
  45 years to 54 years 148 (45.2) 180 (54.8)
  55 years or older 21 (53.9) 18 (46.1)

Education (n=990) 0.019
  High School Graduate or Less 56 (59.5) 38 (40.5)
  Some College or More 413 (46.1) 483 (53.9)

Income (n=987) 0.010
  < $25,000 46 (63.0) 27 (37.0)
  $25,000 – $49,999 48 (57.4) 35 (42.6)
  $50,000 – $74,999 64 (53.9) 55 (46.1)
  $75,000 – $100,000 53 (40.3) 78 (59.7)
  > $100,000 194 (43.8) 249 (56.2)
  Prefer not to say 62 (45.0) 76 (55.0)

Marital Status (n=981) 0.040
  Married or living with a partner 368 (45.1) 448 (54.9)
  Never married 42 (58.4) 30 (41.6)
  Divorced, separated, or widowed 51 (55.2) 42 (44.8)

Private Insurance (n=988) 0.034
  No 74 (56.3) 57 (43.7)
  Not sure 73 (52.9) 65 (47.1)
  Yes 322 (44.8) 397 (55.2)

Hispanic (n=985) 0.020
  No 425 (46.2) 495 (53.8)
  Yes 40 (61.6) 25 (38.4)

Caucasian (n=978) 0.010
  No 81 (57.3) 60 (42.7)
  Yes 378 (45.2) 459 (54.8)

Do you believe you have a medical condition that is at least partly genetic? (n=988) 0.234
  No 214 (44.6) 266 (55.4)
  Not sure 66 (46.4) 77 (53.6)
  Yes 186 (51.0) 179 (49.0)

Knowledge

Genes make some people more likely to get certain diseases. (n=987) 0.234
  No1 24 (40.0) 37 (60.0)
  Yes2 442 (47.7) 484 (52.3

Genes make some people more likely to benefit from medicines than others. n=893) 0.023
  No1 111 (42.0) 153 (58.0)
  Yes2 322 (51.1) 307 (48.9)

Attitudes

Receiving my child’s genetic research results might worry me. (n=963) 0.001
  No 147 (69.3) 65 (30.7)
  Yes 305 (40.6) 446 (59.4)

Receiving my child’s genetic research results might worry my family. (n=949) 0.001
  No 158 (65.6) 83 (34.4)
  Yes 286 (40.4) 422 (59.6)

Receiving my child’s genetic research results might make it hard to get/keep a job. (n=907) 0.066
No 330 (49.6) 336 (50.4)
Yes 101 (41.9) 140 (58.1)

Receiving my child’s genetic research results might make it hard to get/keep insurance. (n=929) 0.001
No 224 (54.5) 187 (45.5)
Yes 213 (41.1) 305 (58.9)

Receiving my child’s genetic research results might lead to discrimination. (n=911) 0.014
  No 283 (50.8) 274 (49.2)
  Yes 147 (41.6) 207 (58.4)

I trust medical researchers to use samples only for the purposes to which I consented. (n=995) 0.080
  No1 62 (40.2) 93 (59.8)
  Yes2 408 (48.6) 432 (51.4)

I trust medical researchers to keep samples and medical information confidential or private. (n=994) 0.224
  No1 74 (42.7) 99 (57.3)
  Yes2 396 (48.2) 425 (51.8)

I believe that genetic research will benefit persons of all races and ethnicities. (n=990) 0.360
  No1 28 (41.7) 39 (58.3)
  Yes2 442 (47.9) 481 (52.1)

I believe that genetic research will benefit persons of all economic status. (n=900) 0.118
  No1 45 (40.7) 65 (59.3)
  Yes2 390 (49.4) 351 (50.6)

I believe that genetic findings will be used to discriminate again minority communities. (n=900) 0.105
  No1 144 (52.9) 129 (47.1)
  Yes2 291 (46.4) 336 (53.6)
1

“No” represents the combined response categories “Not sure”, “Probably no”, and “Definitely no”

2

“Yes” represents the combined response categories “Probably yes” and “Definitely yes” Note: The total number of respondents might be different for the rows of this table. They are based on the number of respondents who answered both questions and not every respondent answered every question. The composite preference measure is only calculated for those respondents who answered all of the specific preference questions.

Distinctive Subgroups Wanting to Receive Different Research Results

A k-means cluster analysis was performed of respondents who, on the specific preference questions, indicated that they did not want to receive all specific types of research results concerning their children (composite preference measure). Four distinct subgroups of respondents were identified, each with a specific combination of types of research results they would like to receive back. Figure 1 shows the average response along the 5-point Likert scale response categories for each of the specific preference questions for each cluster, not including questions regarding childhood vs. adult onset diseases. Individuals who fit Cluster 1 (white bars; n=83, 8.3%) generally did not want to receive specific types of research results. Exceptions were results that indicate a treatable or preventable disease or are well-established (although the members of this cluster do not seem sure that they want these types of results). Members of Cluster 2 (striped bars; n=190, 19.1%) wanted results that are well-established or for diseases that are treatable or preventable. They also appeared to “probably” want to receive research results for disease that are severe or not severe, or those results associated with a high likelihood of occurrence. Cluster 2 members were uncertain about receiving results for diseases that are neither treatable nor preventable and answered that they probably do not want to receive not well-established results or those that are about a disease with a low likelihood of occurrence. Cluster 3 members (black bars; n=287, 28.8%) definitely wanted research results that indicate a treatable or preventable disease and results that are well-established. They also answered that they probably want to receive results associated with either a high or low likelihood of disease occurrence or those associated with conditions that are not severe. Uncertainty, however, was voiced for not well-established results and results that indicate a severe disease or one that is neither treatable nor preventable. Members of Cluster 4 (checkered bars; n=435, 43.7%) definitely wanted to receive the majority of the results: those that are established, and those that point to disease regardless of their treatability or preventability, severity, and likelihood of occurrence. The only type of research results members of Cluster 4 were unsure about wanting to receive are those that are not well-established.

Figure 1.

Figure 1

Average response on 5-Point Likert scale to specific preference questions with regard to return of children’s genetic research results by cluster; cluster sizes: cluster 1: n=83, cluster 2: n=190, cluster 3: n=287, cluster 4: n=435.

DISCUSSION

The majority of parents expressed strong interest in receiving IRRs for themselves and for their children, and among these parents most indicated that they would want to receive all results. A smaller subset wanted to choose which results to receive, demonstrating a desire to have more control over the types of results they would receive. These parents’ interest in choosing may simply represent a general desire for autonomy in the result return experience, or it may reflect specific concerns about receiving certain types of results, such as potential medical, social, or emotional harms.

Among parents who expressed interest in receiving all results for themselves and their children, less than half actually elected to receive all specific result types that were presented in subsequent questions. This result is not surprising, as it confirms the value of education in refining choices, including binary broad choices where a third “neither, but…” answer is not an offered option. When presented with specific examples of the potential variety of results, these parents were able to express precise choices, reflecting both their education away from overly broad categories and the constraints in which researchers’ methods have placed them.

In contrast, within the small subset of parents who initially wanted to choose which results they would receive, most remained consistent in their desire to be selective about their results. Only a small portion of these parents elected to receive all of the specific result types presented in subsequent questions. This group may represent the more insightful research participant, who is aware of the wide range of variation inherent in open-ended genetic research, and more likely to consider the nuances of receiving IRRs, with or without specific examples. Consistent with this, our data showed that parents who wanted to choose were, on average, much less interested in each of the specific result types, compared to people who said they wanted to receive all results. The one exception was the “treatable or preventable” category, for which there was no difference between those who initially did and those who did not want to choose which results they would receive.

We gained further insight into the characteristics of parents who want to choose specific results, compared to those who elect to receive all results, by correlating variables with the preference composite measure. Parents who chose to receive specific result types and declined others were more likely to report higher income, Caucasian race, non-Hispanic ethnicity, at least some college education, and private insurance. Higher education in particular could explain why these parents, who are more discerning about the specific types of results they prefer to receive, were more likely to express beliefs about the possible value and risks of receiving IRRs. Parents with more education may be more “informed consumers” and have had more exposure to science and health information[20,21]. They may be more likely to be critical thinkers and be skeptical about scientific information, and thus more aware of the relevant risks and benefits of genetic research and IRRs. Additionally, since these parents were also more likely to have private health insurance they are more at risk of losing coverage should the insurance gain knowledge of a higher risk of developing a serious health condition. In contrast, personal experience with a genetic condition, trust in medical researchers, or expectations of discrimination (based on race, ethnicity, or socioeconomic status) did not significantly influence individuals’ decision-making and preferences for result return.

There was no significant difference between parents’ reported general or specific preferences for receiving results about themselves compared to their preferences for receiving results about their children. This is notable, in light of existing policy documents around clinical genetic testing and genetic research result disclosure which make recommendations that distinguish between result return to children versus adults. More research is required to explore the potential contrast between parents’ expectations and current policy.

The cluster analysis demonstrated that respondents fell into four clusters of similar preference patterns. This indicates that, although decisions about receiving IRRs may be very personal, respondents share paradigms when thinking about results. Further, we speculate that these shared preference patterns are based on certain common characteristics, beliefs, vulnerabilities, and concerns of the individual respondents. Understanding these motivations and preference patterns can help to organize result return (and preference-setting) in ways that are more aligned with participants’ needs.

Cluster 1 respondents were the least interested in receiving IRR, although they expressed some interest in results of high clinical validity (established) and high clinical utility (treatable or preventable). In contrast, Cluster 4 respondents were the most interested in receiving IRRs, with the exception of results that are not well-established (low clinical validity). Respondents in Clusters 2 or 3 were more discerning than those in Clusters 1 and 4. Like respondents in Cluster 1, respondents in Clusters 2 and 3 were interested in results of high clinical validity, high clinical utility, and for conditions that are not severe. Both Clusters 2 and 3 were “unsure” about receiving results for diseases that were not treatable or preventable (low clinical utility), whereas those in Cluster 4 wanted these results and those in Cluster 1 did not want them. Cluster 3 was the only group that discriminated based on the severity of the disease; they were less interested in receiving results associated with severe conditions, compared to results associated with not severe conditions. Although this may seem counterintuitive, people who are hesitant about receiving health risk information may be the most anxious about potentially frightening information, such as the risk of a severe disease; the anecdotal clinical experiences of our genetic counselors suggest that indeed this is the case. Cluster 2 was the only group that discriminated based on risk of developing a disease; they were less interested in results associated with a low degree of risk, compared to results associated with a high degree of risk. Both groups were hesitant to results of uncertain clinical validity (not well established).

Those in Cluster 2 seemed to have discriminated based on risk of getting the disease, how well-established the findings were, and on the treatability/preventability of the disease. Those in Cluster 3 seemed to have discriminated based primarily on the treatability/preventability of the disease, although they also seemed to consider the severity (preferring not to receive results for severe diseases) and how well-established the findings were.

Our study has some limitations. Parents were presented with hypothetical situations, and when faced with enrolling in an actual DNA research bank their responses may be different. Another limitation is that no result falls into only one category but is a combination of result dimensions. An additional complication is that concepts such as severity and treatability mean different things to different people. The combination of result dimensions and the individual variation in interpretation are difficult to capture abstractly, and only by presenting actual results can we begin to understand the various dimensions and their interdependency. For this study we did not provide examples of results as we were concerned that this might introduce bias if a participant had experience with a particular disease used as an example, and we decided instead to focus on abstract result and disease dimensions. Future studies should explore combinations of dimensions and participant preferences. Finally, potential nonresponse bias is always a limitation of survey studies. Nonresponse weights were included in the analyses to ameliorate the potential influence of self-selection.

In summary, we demonstrated that although most parents initially report a desire to receive all IRR on their children, once presented with specific types of IRR, many choose only a subset of results. This may simply reflect the refinement of choices that naturally occurs when dichotomous decisions give way to more refined preferences. Another interpretation of these findings is that, as has been suggested by others[13,14], participants do not understand the implications of their choice of IRR to receive unless faced with specific types of results. Our findings suggest that by determining what preference formulations lead to durable choice, we can develop models for participants to designate their preferences for IRRs to receive. This is an area ripe for empiric work to assess how options for preferences should be communicated to research participants and to resolve an otherwise abstract debate about how to return incidental findings in research. The issue of how autonomy should be weighed runs across both clinical care and research; establishing a way of representing preferences and choices is essential to sound policy decisions in both arenas.

ACKNOWLEDGEMENTS

This work was supported by the National Human Genome Research Institute/National Institutes of Health Grants HG005491 and HG006615 (Holm, PI), and HG006500 and HD077671 (Green, PI). The authors would like to thank Erin D. Harris, BA for her contribution to this study.

Footnotes

Conflict of Interests: The authors have no conflicts of interest to disclose.

REFERENCES

  • 1.Beskow LM, Burke W. Offering individual genetic research results: Context matters. Sci Transl Med. 2010;2:38cm20. doi: 10.1126/scitranslmed.3000952. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 2.Wolf SM, Crock BN, Van Ness B, Lawrenz F, Kahn JP, Beskow LM, Cho MK, Christman MF, Green RC, Hall R, Illes J, Keane M, Knoppers BM, Koenig BA, Kohane IS, Leroy B, Maschke KJ, McGeveran W, Ossorio P, Parker LS, Petersen GM, Richardson HS, Scott JA, Terry SF, Wilfond BS, Wolf WA. Managing incidental findings and research results in genomic research involving biobanks and archived data sets. Genet Med. 2012;14:361–384. doi: 10.1038/gim.2012.23. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 3.Green RC, Berg JS, Grody WW, Kalia SS, Korf BR, Martin CL, McGuire AL, Nussbaum RL, O'Daniel JM, Ormond KE, Rehm HL, Watson MS, Williams MS, Biesecker LG. Acmg recommendations for reporting of incidental findings in clinical exome and genome sequencing. Genet Med. 2013 doi: 10.1038/gim.2013.73. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 4.McGuire AL, Joffe S, Koenig BA, Biesecker BB, McCullough LB, Blumenthal-Barby JS, Caulfield T, Terry SF, Green RC. Point-counterpoint. Ethics and genomic incidental findings. Science. 2013;340:1047–1048. doi: 10.1126/science.1240156. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 5.Wolf SM, Annas GJ, Elias S. Point-counterpoint. Patient autonomy and incidental findings in clinical genomics. Science. 2013;340:1049–1050. doi: 10.1126/science.1239119. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 6.Ravitsky V, Wilfond BS. Disclosing individual genetic results to research participants. Am J Bioeth. 2006;6:8–17. doi: 10.1080/15265160600934772. [DOI] [PubMed] [Google Scholar]
  • 7.Foster MW, Mulvihill JJ, Sharp RR. Evaluating the utility of personal genomic information. Genet Med. 2009;11:570–574. doi: 10.1097/GIM.0b013e3181a2743e. [DOI] [PubMed] [Google Scholar]
  • 8.Grosse SD, Kalman L, Khoury MJ. Evaluation of the validity and utility of genetic testing for rare diseases. Adv Exp Med Biol. 2010;686:115–131. doi: 10.1007/978-90-481-9485-8_8. [DOI] [PubMed] [Google Scholar]
  • 9.Grosse SD, McBride CM, Evans JP, Khoury MJ. Personal utility and genomic information: Look before you leap. Genet Med. 2009;11:575–576. doi: 10.1097/GIM.0b013e3181af0a80. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 10.Khoury MJ, McBride CM, Schully SD, Ioannidis JP, Feero WG, Janssens AC, Gwinn M, Simons-Morton DG, Bernhardt JM, Cargill M, Chanock SJ, Church GM, Coates RJ, Collins FS, Croyle RT, Davis BR, Downing GJ, Duross A, Friedman S, Gail MH, Ginsburg GS, Green RC, Greene MH, Greenland P, Gulcher JR, Hsu A, Hudson KL, Kardia SL, Kimmel PL, Lauer MS, Miller AM, Offit K, Ransohoff DF, Roberts JS, Rasooly RS, Stefansson K, Terry SF, Teutsch SM, Trepanier A, Wanke KL, Witte JS, Xu J. The scientific foundation for personal genomics: Recommendations from a national institutes of health-centers for disease control and prevention multidisciplinary workshop. Genet Med. 2009;11:559–567. doi: 10.1097/GIM.0b013e3181b13a6c. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 11.Kohane IS, Taylor PL. Multidimensional results reporting to participants in genomic studies: Getting it right. Sci Transl Med. 2010;2:37cm19. doi: 10.1126/scitranslmed.3000809. [DOI] [PubMed] [Google Scholar]
  • 12.Rothstein MA. Tiered disclosure options promote the autonomy and well-being of research subjects. Am J Bioeth. 2006;6:20–21. doi: 10.1080/15265160600934871. author reply W10-22. [DOI] [PubMed] [Google Scholar]
  • 13.McGuire AL, Hamilton JA, Lunstroth R, McCullough LB, Goldman A. DNA data sharing: Research participants' perspectives. Genet Med. 2008;10:46–53. doi: 10.1097/GIM.0b013e31815f1e00. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 14.McGuire AL, Oliver JM, Slashinski MJ, Graves JL, Wang T, Kelly PA, Fisher W, Lau CC, Goss J, Okcu M, Treadwell-Deering D, Goldman AM, Noebels JL, Hilsenbeck SG. To share or not to share: A randomized trial of consent for data sharing in genome research. Genet Med. 2011;13:948–955. doi: 10.1097/GIM.0b013e3182227589. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 15.Kohane IS, Mandl KD, Taylor PL, Holm IA, Nigrin DJ, Kunkel LM. Medicine. Reestablishing the researcher-patient compact. Science. 2007;316:836–837. doi: 10.1126/science.1135489. [DOI] [PubMed] [Google Scholar]
  • 16.Galea S, Tracy M. Participation rates in epidemiologic studies. Ann Epidemiol. 2007;17:643–653. doi: 10.1016/j.annepidem.2007.03.013. [DOI] [PubMed] [Google Scholar]
  • 17.Harris PA, Taylor R, Thielke R, Payne J, Gonzalez N, Conde JG. Research electronic data capture (redcap)—a metadata-driven methodology and workflow process for providing translational research informatics support. Journal of Biomedical Informatics. 2009;42:377–381. doi: 10.1016/j.jbi.2008.08.010. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 18.StataCorp-LP. Stata 12.1. College Station, TX: 2012. [Google Scholar]
  • 19.Heeringa SG, West BT, Berglund PA. Applied survey data analysis. Chapman & Hall/CRC: 2010. [Google Scholar]
  • 20.Lustria M, Smith S, Hinnant C. Exploring digital divides: An examination of ehealth technology use in health information seeking, communication and personal heatlh information management in the USA. Heatlh Informatics Journal. 2011;17:224–243. doi: 10.1177/1460458211414843. [DOI] [PubMed] [Google Scholar]
  • 21.Langford A, Resnicow K, Roberts J, Zikmund-Fisher B. Racial and ethnic differences in direct-to-consumer genetic tests awareness in hints 2007: Sociodemographic and numeracy correlates. Journal of Genetic Counseling. 2012;21:440–447. doi: 10.1007/s10897-011-9478-2. [DOI] [PubMed] [Google Scholar]

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