Privacy for research participants

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Privacy for research participants is a concept in research ethics which states that a person in human subject research has a right to privacy when participating in research. Some typical scenarios this would apply to include, or example, a surveyor doing social research conducts an interview with a participant, or a medical researcher in a clinical trial asks for a blood sample from a participant to see if there is a relationship between something which can be measured in blood and a person's health. In both cases, the ideal outcome is that any participant can join the study and neither the researcher nor the study design nor the publication of the study results would ever identify any participant in the study. Thus, the privacy rights of these individuals can be preserved.

Privacy for medical research participants is protected by several procedures such as informed consent, compliance with medical privacy laws, and transparency in how patient data is accumulated and analyzed.[1]

People decide to participate in research for any number of different reasons, such as a personal interest, a desire to promote research which benefits their community, or for other reasons. Various guidelines for human subject research protect study participants who choose to participate in research, and the international consensus is that the rights of people who participate in studies are best protected when the study participant can trust that researchers will not connect the identities of study participants with their input into the study.

Many study participants have experienced problems when their privacy was not upheld after participating in research. Sometimes privacy is not kept because of insufficient study protection, but also sometimes it is because of unanticipated problems with the study design which inadvertently compromise privacy. The privacy of research participants is typically protected by the research organizer, but the institutional review board is a designated overseer which monitors the organizer to provide protection to study participants.

Information privacy[edit]

Researchers publish data that they get from participants. To preserve participants' privacy, the data goes through a process to de-identify it. The goal of such a process would be to remove protected health information which could be used to connect a study participant to their contribution to a research project so that the participants will not suffer from data re-identification.[citation needed]

Privacy attacks[edit]

A privacy attack is the exploitation of an opportunity for someone to identify a study participant based on public research data.[2] The way that this might work is that researchers collect data, including confidential identifying data, from study participants. This produces an identified dataset.[2] Before the data is sent for research processing, it is "de-identified", which means that personally identifying data is removed from the dataset. Ideally, this means that the dataset alone could not be used to identify a participant.[2]

In some cases, the researchers simply misjudge the information in a de-identified dataset and actually it is identifying, or perhaps the advent of new technology makes the data identifying.[2] In other cases, the published de-identified data can be cross-referenced with other data sets, and by finding matches between an identified dataset and the de-identified data set, participants in the de-identified set may be revealed.[2] This is particularly the case with medical research data because traditional data anonymization techniques designed for numerical data are not as effective for the nonnumerical data contained in medical data, such as rare diagnoses and personalized treatments. Thus, in cases like medical research data that contain unique nonnumerical data, only removing identifying numerical features, such as age and social security number, may not be enough to mitigate privacy attacks. [3]

Risk mitigation[edit]

The ideal situation from the research perspective is the free sharing of data.[2] Since privacy for research participants is a priority, though, various proposals for protecting participants have been made for different purposes.[2] Replacing the real data with synthetic data allows the researchers to show data which gives a conclusion equivalent to the one drawn by the researchers, but the data may have problems such as being unfit for repurposing for other research.[2] Other strategies include "noise addition" by making random value changes or "data swapping" by exchanging values across entries.[2][4] Still another approach is to separate the identifiable variables in the data from the rest, aggregate the identifiable variables and reattach them with the rest of the data. This principle has been used successfully in creating maps of diabetes in Australia [5] and the United Kingdom [6] using confidential General Practice clinic data.

Biobank privacy[edit]

A biobank is a place where human biological specimens are kept for research, and often where genomics data is paired with phenotype data and personally-identifying data. For many reasons, biobank research has created new controversies, perspectives, and challenges for satisfying the rights of student participants and the needs of the researchers to access resources for their work.[2]

One problem is that if even a small percentage of genetic information is available, that information can be used to uniquely identify the individual from which it came. Studies have shown that a determination of whether an individual participated in a study can be made even from reporting of aggregate data.[7]

Negative consequences[edit]

When research participants have their identities revealed they may face various problems. Concerns include facing genetic discrimination from an insurance company or employer.[8] Respondents in the United States have expressed a desire to have their research data to be restricted from access by law enforcement agencies and would want to prevent a connection between study participation and legal consequences of the same.[9] Another fear study participants have is about the research revealing private personal practices which a person may not want to discuss, such as a medical history which includes a sexually transmitted disease, substance abuse, psychiatric treatment, or an elective abortion.[10] In the case of genomic studies on families, genetic screening may reveal that paternity is different from what had been supposed.[10] For no particular reason, some people may find that if their private information becomes disclosed because of research participation, they may feel invaded and find the entire system distasteful.[10] An Australian study investigating the violence, bullying, and harassment towards LGBTIQ people revealed that some of the participants, who were all members of the LGBTIQ community, had been subjected to levels of violence that would constitute a crime. However, the participants were reluctant to report their victimization to the police. This meant that the researchers were placed in a position where they could report a crime to the police. However, ethical practices meant that they were obliged to respect the privacy and wishes of the participants and so they could not do so.[11]

Privacy controversies[edit]

  • Netflix Prize – researchers release a database with approximate years of birth, zip codes, and movie-watching preferences. Other researchers say that based even on this limited information, many people can be identified and their movie preferences could be discovered. People objected to having their movie-watching habits become publicly known.[12]
  • Tearoom Trade – a university researcher published information revealing persons who engaged in illicit sex, and research participants did not consent to be identified.[13]

See also[edit]

References[edit]

  1. ^ "Privacy and Information Security Issues in Clinical Research". ACRP. 2018-03-13. Retrieved 2020-11-08.
  2. ^ a b c d e f g h i j Malin, B.; Loukides, G.; Benitez, K.; Clayton, E. W. (2011). "Identifiability in biobanks: Models, measures, and mitigation strategies". Human Genetics. 130 (3): 383–392. doi:10.1007/s00439-011-1042-5. PMC 3621020. PMID 21739176.
  3. ^ Nurmi, Sanna-Maria; Kangasniemi, Mari; Halkoaho, Arja; Pietilä, Anna-Maija (2018-10-24). "Privacy of Clinical Research Subjects: An Integrative Literature Review". Journal of Empirical Research on Human Research Ethics. 14 (1): 33–48. doi:10.1177/1556264618805643. PMID 30353779.
  4. ^ Adam, Nabil R.; Worthmann, John C. (1989). "Security-control methods for statistical databases: a comparative study". ACM Computing Surveys. 21 (4): 515–556. CiteSeerX 10.1.1.115.3011. doi:10.1145/76894.76895. S2CID 3060114.
  5. ^ Mazumdar S, Konings P, Hewett M, et al. (2014). "Protecting the privacy of individual general practice patient electronic records for geospatial epidemiology research". Australian and New Zealand Journal of Public Health. 38 (6): 548–552. doi:10.1111/1753-6405.12262. hdl:1885/76167. PMID 25308525. S2CID 41505067. http://onlinelibrary.wiley.com/doi/10.1111/1753-6405.12262/full
  6. ^ Nobel, D; Smith, D; Mathur, R; Robson, J; Greenhalgh, T (15 February 2012). "Feasibility study of geospatial mapping of chronic disease risk to inform public health commissioning". BMJ Open. 2 (1): e000711. doi:10.1136/bmjopen-2011-000711. PMC 3282296. PMID 22337817. Open access icon
  7. ^ Clayton, D. (2010). "On inferring presence of an individual in a mixture: A Bayesian approach". Biostatistics. 11 (4): 661–673. doi:10.1093/biostatistics/kxq035. PMC 2950790. PMID 20522729.
  8. ^ Lemke, A. A.; Wolf, W. A.; Hebert-Beirne, J.; Smith, M. E. (2010). "Public and Biobank Participant Attitudes toward Genetic Research Participation and Data Sharing". Public Health Genomics. 13 (6): 368–377. doi:10.1159/000276767. PMC 2951726. PMID 20805700.
  9. ^ Kaufman, D. J.; Murphy-Bollinger, J.; Scott, J.; Hudson, K. L. (2009). "Public Opinion about the Importance of Privacy in Biobank Research". The American Journal of Human Genetics. 85 (5): 643–654. doi:10.1016/j.ajhg.2009.10.002. PMC 2775831. PMID 19878915.
  10. ^ a b c Greely, H. T. (2007). "The Uneasy Ethical and Legal Underpinnings of Large-Scale Genomic Biobanks". Annual Review of Genomics and Human Genetics. 8: 343–364. doi:10.1146/annurev.genom.7.080505.115721. PMID 17550341.
  11. ^ "James Roffee & Andrea Waling Resolving ethical challenges when researching with minority and vulnerable populations: LGBTIQ victims of violence, harassment and bullying".
  12. ^ "Netflix Spilled Your Brokeback Mountain Secret, Lawsuit Claims". Wired. ISSN 1059-1028. Retrieved 2020-10-31.
  13. ^ Donald, Laura M. Mac (2007-09-02). "Opinion | America's Toe-Tapping Menace (Published 2007)". The New York Times. ISSN 0362-4331. Retrieved 2020-10-31.

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