Current state of the FAIR principles in global mental health research

Are mental health data resources findable? Unfortunately, there are few resources that help investigators find applicable and potentially reusable mental health data. As noted in Table 1, broad (national or institutional) repositories may include mental health data that are findable via searching within those systems, and a few specific indexes have been created.

Accessibility is better managed, at least with regard to mental health data within well-established repositories. Most repositories allow data contributors to specify how data should be disseminated, including registered or restricted access to mental health research datasets. And most have clear processes for data access, ranging from formal data request and approval processes to publicly accessible data that can be directly downloaded (see Table 1 for examples). On the other hand, when data are informally “available upon request” by authors or investigators, there are widely varying practices and often little information as to how the data may be accessed or conditions for use.

Interoperability is generally assured for mental health data maintained in well-established repositories, but when individual researchers hold their own datasets for informal sharing, they are unlikely to have the resources to maintain and update multiple (changing) data formats across time. Interoperability of metadata depends on common, machine-readable metadata standards. Metadata standards for the social sciences (e.g., Data Documentation Initiative, https://ddialliance.org/) exist but are not yet optimized for mental health research.

The reusability of mental health data is most severely impeded by the lack of clear documentation. Documentation (metadata) is often collected in codebooks or data dictionaries, but in current practice, these are generally unstandardized, not machine-readable, and lacking essential information to make sense of the data (Arslan, Reference Arslan2018; Towse et al., Reference Towse, Ellis and Towse2021). Across the FAIR principles, the absence of commonly agreed standards for mental health research metadata (about studies and about variables) hampers findability, interoperability, and (most notably) efficient and effective data reuse. A few efforts that bring together individual participant-level data across studies, for example, in traumatic stress (Kassam-Adams et al., Reference Kassam-Adams, Kenardy, Delahanty, Marsac, Meiser-Stedman, Nixon, Landolt and Palmieri2020) and in substance use disorders (Susukida et al., Reference Susukida, Amin-Esmaeili, Mayo-Wilson and Mojtabai2021), have begun to develop ways to describe common concepts with metadata, but there is still a lack of collectively agreed terminologies, guidelines, and protocols (Fortier et al., Reference Fortier, Raina, Van den Heuvel, Griffith, Craig, Saliba, Doiron, Stolk, Knoppers, Ferretti, Granda and Burton2017).

Awareness, support, and practice amongst mental health research stakeholders

The discipline of psychology has been a leading force in the movement toward data sharing, particularly with regard to replicability of scientific findings (Nosek et al., Reference Nosek, Hardwicke, Moshontz, Allard, Corker, Dreber, Fidler, Hilgard, Kline Struhl, Nuijten, Grave le, Rohrer, Romero, Scheel, Scherer, Schönbrodt and Vazire2022), and “open science” technologies closely related to FAIR practices (Christensen et al., Reference Christensen, Freese and Miguel2019). (A full description of open science initiatives in mental health is beyond the scope of this paper – for expanded information see: Kathawalla et al., Reference Kathawalla, Silverstein and Syed2021; Robson et al., Reference Robson, Baum, Beaudry, Beitner, Brohmer, Chin, Jasko, Kouros, Laukkonen, Moreau, Searston, Slagter, Steffens, Tangen and Thomas2021.) Yet perceptions and expectations regarding data sharing and reuse vary widely in mental health research communities. In a 2021 survey of psychology researchers from 31 countries, the majority indicated that they had archived, deposited, or published a dataset for others to access but noted a lack of standardization of practices within their research group (Borghi and Van Gulick, Reference Borghi and Van Gulick2021). Surveys have found barriers to data sharing including uncertainty about implementing new research practices to support sharing, beliefs that these practices are unnecessary or burdensome (Washburn et al., Reference Washburn, Hanson, Motyl, Skitka, Yantis, Wong, Sun, Prims, Mueller, Melton and Carsel2018), concerns about others stealing their ideas (Houtkoop et al., Reference Houtkoop, Chambers, Macleod, Bishop, Nichols and Wagenmakers2018), and ethical/legal concerns (Tedersoo et al., Reference Tedersoo, Küngas, Oras, Köster, Eenmaa, Leijen, Pedaste, Raju, Astapova, Lukner, Kogermann and Sepp2021). A study examining the quality of shared data in psychology found that 51% of datasets were incomplete and 68% had limited reusability, that is, proprietary software, nonmachine-readable data, metadata not sufficiently informative to understand the dataset (Towse et al., Reference Towse, Ellis and Towse2021).

Beyond the practices of individual researchers, a variety of national policies impact mental health data sharing and reuse (Packer, Reference Packer2010; Fernando et al., Reference Fernando, King and Sumathipala2019), including regulations on research ethics, human subjects protection, and data privacy (e.g., GDPR in the EU, HIPAA for health data in the US). The WHO’s (2022) policy and implementation guidance states that data sharing is an obligation for WHO staff and researchers funded by WHO. Other large nongovernmental stakeholders have promoted data sharing; for example, the Scientific Electronic Library Online (SCIELO; Packer, Reference Packer2010) initiative in 17 countries (primarily Latin America) now supports a data repository. Some national and nongovernmental research funders require data sharing or formal data management plans as a condition of funding, for example, North America – National Science Foundation, 2011; National Institute of Health, 2022; South America – The United Nations Economic Commission for Latin America and the Caribbean, 2022; Africa – see review by Obiora et al., Reference Obiora, Olivier, Shead and Withers2021; Europe: European Research Council, 2022; Australia – National Health and Medical Research Council, 2019. Even when not mandated, investigators who systematically archive and share data may become better candidates for funding (Bosma and Granger, Reference Bosma and Granger2022).

A growing number of journals relevant to mental health research have data archiving policies (Cooper and VandenBos, Reference Cooper and VandenBos2013; Nuijten et al., Reference Nuijten, Borghuis, Veldkamp, Dominguez-Alvarez, Van Assen and Wicherts2017; Hardwicke et al., Reference Hardwicke, Mathur, MacDonald, Nilsonne, Banks, Kidwell, Mohr, Clayton, Yoon, Tessler, Lenne, Altman, Long and Frank2018). International scientific societies are also active in promoting open and collaborative science and data sharing, for example, initiatives by the Society for the Improvement of Psychological Science (SIPS: https://improvingpsych.org), and the Global Collaboration on Traumatic Stress (https://www.global-psychotrauma.net/fair).

Current notable efforts that advance FAIR data practices in mental health research

Despite the challenges described above, there are notable efforts to create resources that preserve, describe, share, and/or support reuse of mental health data. To demonstrate the feasibility and promise of this work, we highlight some noteworthy and relevant examples here (This is not an exhaustive list.) Most of these efforts involve substantial collaboration across disciplines and national borders; they vary in their scope of coverage, ease of access, and cost. While many are not explicitly defined as “FAIR” initiatives, each of the efforts described here provides tools or data resources that put the FAIR principles into practice.

Findable and Accessible

Findability is a crucial first step (Tenenbaum et al., Reference Tenenbaum, Bhuvaneshwar, Gagliardi, Fultz Hollis, Jia, Ma, Nagarajan, Rakesh, Subbian, Visweswaran, Zhao and Rozenblit2017) and global mental health data can be made more findable and accessible in a variety of ways. We focus here on efforts that have mapped specific mental health topic areas, generally by indexing and linking to data sources, allowing researchers to discover, request, or reuse data.

• • The Programme for Improving Mental Health Care (PRIME) is an LMIC-led partnership that provides research evidence regarding mental healthcare in Ethiopia, India, Nepal, South Africa, and Uganda. The PRIME partnership proactively addressed the issue of data ownership with a clear policy (http://bit.ly/2BwiZu2) on data sharing and publication. For non-PRIME parties, data from PRIME is available for future use upon request (Breuer et al., Reference Breuer, Hanlon, Bhana, Chisholm, De Silva, Fekadu, Honikman, Jordans, Kathree, Kigozi, Luitel, Marx, Medhin, Murhar, Ndyanabangi, Patel, Petersen, Prince, Raja, Rathod, Shidhaye, Ssebunnya, Thornicroft, Tomlinson, Wolde-Giorgis and Lund2019).

• • The Human Heredity and Health in Africa (H3Africa) Initiative (https://catalog.h3africa.org/) is facilitating the study of genomics and environmental determinants of common diseases with the goal of improving the health of African populations. Data and biospecimens from H3Africa projects, including several related to mental health, are available for further use, with access controlled by a Data and Biospecimen Access Committee.

• • The Catalog of Mental Health Measures (https://www.cataloguementalhealth.ac.uk/) describes mental health and well-being measures in British cohort and longitudinal studies. It presents detailed information about these measures and the studies in which they were used, how to access or request data from each study, plus training and resources on conducting longitudinal mental health research.

• • The Global Collaboration on Traumatic Stress FAIR Data Theme provides a growing index of data resources (single studies and collections of datasets) that may be useful for secondary analysis (https://www.global-psychotrauma.net/fair-data-sets). The index describes each data resource and how it can be accessed.

• • Kievit et al. (Reference Kievit, McCormick, Fuhrmann, Deserno and Orben2022) provide an index of large developmental data sets that include adolescents and can be used for secondary analysis, with information on data access.

• • The Single Case Archive (www.singlecasearchive.com) assembles published psychotherapy case studies. Researchers can use systematized, searchable case-descriptive information to aggregate findings across sets of cases (Desmet et al., Reference Desmet, Meganck, Seybert, Willemsen, Geerardyn, Declercq, Inslegers, Trenson, Vanheule, Kirschner, Schindler and Kächele2013).

Interoperable and ReUsable

We highlight efforts to create integrated data resources with the explicit intention of supporting ongoing access, reuse, and interoperability. This includes resources that pull together existing study- or participant-level data for reuse, as well as projects that explicitly aim to generate data to be shared with the field.

1. (a) Resources that collect study-level aggregate findings for reuse:

   • • The PTSD Trials Standardized Data Repository (PTSD-Repository: https://ptsd-va.data.socrata.com/) includes study-level data from almost 400 randomized controlled trials (RCTs) of interventions for PTSD in adults. Users can view, download, and manipulate repository data for a variety of purposes, including practitioners designing treatment plans for patients and investigators conducting exploratory analyses to identify common variables and inform future trial design (O’Neil et al., Reference O’Neil, Harik, McDonagh, Cheney, Hsu, Cameron, Carlson, Norman and Hamblen2020).

   • • The Maelstrom Research catalog (www.maelstrom-research.org) indexes epidemiological data from population-based cohort studies, including several relevant to mental health. It facilitates the exploration of harmonization potential across cohorts, subpopulations, and data collection events, and offers open-source software for researchers to develop their own catalogs and metadata fields (Bergeron et al., Reference Bergeron, Doiron, Marcon, Ferretti and Fortier2018).

2. (b) Resources that bring together individual participant data (IPD) to support harmonization and novel analyses:

   • • The Psychiatric Genomics Consortium (PGC; https://www.med.unc.edu/pgc/pgc-workgroups/) is the largest consortium in the history of psychiatry, with >800 investigators from 38 countries. PGC members share raw genotype data processed using a uniform quality control and analysis pipeline (Sullivan et al., Reference Sullivan, Agrawal, Bulik, Andreassen, Børglum, Breen, Cichon, Edenberg, Faraone, Gelernter, Mathews, Nievergelt, Smoller and O’Donovan2018). The PGC supports meta- and mega-analyses of genomic data, with workgroups for specific disorders including autism, attention-deficit hyperactivity disorder, bipolar disorder, major depressive disorder, PTSD, and schizophrenia (Logue et al., Reference Logue, Amstadter, Baker, Duncan, Koenen, Liberzon, Miller, Morey, Nievergelt, Ressler, Smith, Smoller, Stein, Sumner and Uddin2015; Sullivan et al., Reference Sullivan, Agrawal, Bulik, Andreassen, Børglum, Breen, Cichon, Edenberg, Faraone, Gelernter, Mathews, Nievergelt, Smoller and O’Donovan2018).

   • • The MetaPSY database (https://evidencebasedpsychotherapies.shinyapps.io/metapsy/) includes IPD from 411 RCTs of psychological treatment for depression and suicide prevention in adults (Cuijpers et al., Reference Cuijpers, Karyotaki, Ciharova, Quero, Pineda, Munoz, Struijs, Llamas and Figueroa2020), with plans to expand to other disorders (e.g., anxiety, PTSD, insomnia, grief). Its interactive website (Cuijpers et al., Reference Cuijpers, Karyotaki, Harrer and Ebert2019, Reference Cuijpers, Karyotaki, Ciharova, Quero, Pineda, Munoz, Struijs, Llamas and Figueroa2020) uses models that combine available predictors, moderators, and interactions to generate outcome predictions, and allows users to perform novel meta-analyses. The database has been used to answer a wide range of research questions regarding target groups, settings, depression subtypes, and therapy characteristics to help determine which psychotherapies are most effective for whom (Cuijpers, Reference Cuijpers2017).

   • • The database of RCTs of psychosocial interventions for suicidal thoughts and behavior provides an ongoing research resource that can be accessed via request to facilitate systematic reviews and meta-analyses and stimulate research in suicide prevention (Christensen et al., Reference Christensen, Calear, Van Spijker, Gosling, Petrie, Donker and Fenton2014).

   • • The Global Collaboration on Traumatic Stress supports a growing collection of integrative IPD data projects, currently in the areas of child trauma, traumatic grief, adult trauma interventions, and veteran mental health (https://www.global-psychotrauma.net/fair). The Child Trauma Data Archives project (https://childtraumadata.org/) includes IPD from >30 prospective studies in five countries plus a new archive of child trauma intervention studies. The Measurements Archive of Reactions to Bereavement from Longitudinal European Studies (MARBLES: https://www.uu.nl/en/research/the-marbles-project) is pooling data from observational studies on grief, and creating another archive pooling IPD from grief treatment studies (https://people.utwente.nl/l.i.m.lenferink?tab=projects). The global research consortium for Treating and Understanding Trauma Treatment Interventions (TUTTI: https://www.tuttirc.com/) brings together IPD from RCTs of adult trauma treatment (Wright et al., Reference Wright, Karyotaki, Bisson, Cuijpers, Papola, Witteveen, Seedat and Sijbrandij2022) to enable new analyses of clinically relevant moderators of treatment effects. The International Veteran Dataset Initiative (IVDI) is creating an international dataset to facilitate integrated analyses regarding military mental health.

3. (c) Projects that collect mental health data with sharing and reuse as an explicit project aim:

   • • The Global Psychotrauma Screen (GPS) was developed by the Global Collaboration on Traumatic Stress. Its adult version (https://www.global-psychotrauma.net/gps), available in more than 20 languages, is a simple, cross-culturally valid, easy-to-administer tool that screens for a wide range of potential outcomes of trauma (Olff et al., Reference Olff, Bakker, Frewen, Aakvaag, Ajdukovic, Brewer, Elmore Borbon, Cloitre, Hyland, Kassam-Adams, Knefel, Lanza, Lueger-Schuster, Nickerson, Oe, Pfaltz, Salgado, Seedat, Wagner and Schnyder2020). GPS datasets with more than 7,000 adult participants worldwide are openly available for reuse by investigators (https://osf.io/untsy/files/osfstorage).

   • • The Advancing Understanding of RecOvery afteR traumA (AURORA) project is a US emergency department-based study (target N = 5,000) collecting genomic, neuroimaging, psychophysical, physiological, neurocognitive, and self-report data over 1-year post-trauma. The multilayered AURORA dataset is designed for use by the scientific community to study posttraumatic neuropsychiatric sequelae (McLean et al., Reference McLean, Ressler, Koenen, Neylan, Germine, Jovanovic, Clifford, Zeng, An, Linnstaedt, Beaudoin, House, Bollen, Musey, Hendry, Jones, Lewandowski, Swor, Datner, Mohiuddin, Stevens, Storrow, Kurz, McGrath, Fermann, Hudak, Gentile, Chang, Peak, Pascual, Seamon, Sergot, Peacock, Diercks, Sanchez, Rathlev, Domeier, Haran, Pearson, Murty, Insel, Dagum, Onnela, Bruce, Gaynes, Joormann, Miller, Pietrzak, Buysse, Pizzagalli, Rauch, Harte, Young, Barch, Lebois, van Rooij, Luna, Smoller, Dougherty, Pace, Binder, Sheridan, Elliott, Basu, Fromer, Parlikar, Zaslavsky and Kessler2020).