Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-23T04:17:50.737Z Has data issue: false hasContentIssue false

Opportunities for improving data sharing and FAIR data practices to advance global mental health

Published online by Cambridge University Press:  03 March 2023

Yaara Sadeh*
Affiliation:
Center for Injury Research and Prevention, Children’s Hospital of Philadelphia, Philadelphia, PA, USA Trauma Data Institute, Lovingston, VA, USA
Anna Denejkina
Affiliation:
Graduate Research School, Western Sydney University, Penrith, NSW, Australia Translational Health Research Institute, Sydney, Australia Young and Resilient Research Centre, Sydney, Australia
Eirini Karyotaki
Affiliation:
Department of Clinical, Neuro- and Developmental Psychology, Vrije Universiteit Amsterdam, Amsterdam, Netherlands Amsterdam Public Health Institute, Amsterdam, Netherlands
Lonneke I. M. Lenferink
Affiliation:
Department of Psychology, Health & Technology, University of Twente, Enschede, Netherlands Department of Clinical Psychology, Utrecht University, Utrecht, Netherlands Department of Clinical Psychology and Experimental Psychopathology, University of Groningen, Groningen, Netherlands
Nancy Kassam-Adams
Affiliation:
Center for Injury Research and Prevention, Children’s Hospital of Philadelphia, Philadelphia, PA, USA Trauma Data Institute, Lovingston, VA, USA Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA
*
Author for correspondence: Yaara Sadeh, Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

It is crucial to optimize global mental health research to address the high burden of mental health challenges and mental illness for individuals and societies. Data sharing and reuse have demonstrated value for advancing science and accelerating knowledge development. The FAIR (Findable, Accessible, Interoperable, and Reusable) Guiding Principles for scientific data provide a framework to improve the transparency, efficiency, and impact of research. In this review, we describe ethical and equity considerations in data sharing and reuse, delineate the FAIR principles as they apply to mental health research, and consider the current state of FAIR data practices in global mental health research, identifying challenges and opportunities. We describe noteworthy examples of collaborative efforts, often across disciplinary and national boundaries, to improve Findability and Accessibility of global mental health data, as well as efforts to create integrated data resources and tools that improve Interoperability and Reusability. Based on this review, we suggest a vision for the future of FAIR global mental health research and suggest practical steps for researchers with regard to study planning, data preservation and indexing, machine-actionable metadata, data reuse to advance science and improve equity, metrics and recognition.

Type
Review
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press

Impact statement

Globally, there is a high burden of mental ill-health, with disproportionate burden in marginalized communities. There is an urgent need to better understand risk and protective factors for mental health and to develop effective strategies to address mental illness, in order to better support individuals, families, and communities. Sharing and reuse of global mental health research data can accelerate collaboration and knowledge development, helping to inform policy decisions, support evidence-based intervention strategies, and allocate resources in an effective and equitable manner to improve mental health outcomes. The value of data sharing and reuse for global mental health is demonstrated by examples of past projects in which data from multiple studies and countries were shared and combined to generate new insights. The FAIR (Findable, Accessible, Interoperable, and Reusable) Guiding Principles for scientific data provide a framework to improve the transparency, efficiency, and impact of research by making data more Findable, Accessible, Interoperable, and Reusable. This review delineates the FAIR principles as they apply to global mental health research, and describes the current state of FAIR data practices in the field, including ethical and social equity considerations in sharing and reusing mental health research data. We describe a number of notable collaborative efforts, often crossing disciplinary and national boundaries, that show the feasibility and promise of improving the Findability and Accessibility of global mental health data, and of building resources and tools that enhance the Interoperability and Reusability of these data. Based on this review we provide a vision for the future of FAIR global mental health research, and suggest practical steps that researchers and research communities can take to improve the FAIR-ness of their data and enhance the impact of their research.

Introduction

Mental health challenges and mental illness are associated with significant health burden for individuals and societies (Rehm and Shield, Reference Rehm and Shield2019; Yang et al., Reference Yang, Fang, Chen, Zhang, Yin, Man, Yang and Lu2021). For those in low- and middle-income countries (LMIC) and for members of marginalized groups, the burden may be even higher (Ademosu et al., Reference Ademosu, Ebuenyi, Hoekstra, Prince and Salisbury2021; World Health Organization, 2022). The impact of the global COVID-19 pandemic has exacerbated both overall population-level mental health burden as well as social and economic disparities in populations most affected (Kola et al., Reference Kola, Kohrt, Hanlon, Naslund, Sikander, Balaji, Benjet, Cheung, Eaton, Gonsalves, Hailemariam, Luitel, Machado, Misganaw, Omigbodun, Roberts, Salisbury, Shidhaye, Sunkel, Ugo, van Rensburg, Gureje, Pathare, Saxena, Thornicroft and Patel2021; World Health Organization, 2022). The high burden of mental ill-health provides a compelling rationale for optimizing the efficiency and inclusiveness of global mental health research. The WHO’s Mental Health Action Plan (World Health Organization, 2013) calls for an enhanced focus on mental health services as well as strengthening information systems, research, and evidence.

Greater sharing of mental health research data can help promote global mental health partnerships and accelerate knowledge development. Preserving and sharing research data and tools makes it easier to assure replicability of findings and to answer key research questions through novel reuse of data. Better understanding of the mechanisms underlying mental health and mental illness allows us to improve diagnosis, interventions, and outcomes (Tenenbaum et al., Reference Tenenbaum, Bhuvaneshwar, Gagliardi, Fultz Hollis, Jia, Ma, Nagarajan, Rakesh, Subbian, Visweswaran, Zhao and Rozenblit2017). Indeed, the value of data reuse to advance mental health research can be seen in prior (usually one-off) efforts that integrated existing individual participant-level data (IPD) across studies and countries to enable new analyses that were not otherwise possible; see Figure 1 for selected examples.

Figure 1. Value of data reuse in global mental health research. **Includes data from low- to middle-income countries.

This review focuses on data sharing, preservation, and reuse as a crucial component of optimizing the impact of mental health research globally. We focus on the FAIR Guiding Principles (Wilkinson et al., Reference Wilkinson, Dumontier, Aalbersberg, Appleton, Axton, Baak, Blomberg, Boiten, da Silva Santos, Bourne, Bouwman, Brookes, Clark, Crosas, Dillo, Dumon, Edmunds, Evelo, Finkers, Gonzalez-Beltran, Gray, Groth, Goble, Grethe, Heringa, ’t Hoen, Hooft, Kuhn, Kok, Kok, Lusher, Martone, Mons, Packer, Persson, Rocca-Serra, Roos, van Schaik, Sansone, Schultes, Sengstag, Slater, Strawn, Swertz, Thompson, van der Lei, van Mulligen, Velterop, Waagmeester, Wittenburg, Wolstencroft, Zhao and Mons2016) for data stewardship because promoting more transparent science by making data more Findable, Accessible, Interoperable, and Reusable (FAIR) can accelerate scientific understanding across mental health research areas. Despite this promise, systematic approaches to data stewardship in mental health research have been sparse to date (Kim and Yoon, Reference Kim and Yoon2017). And while funders and journals increasingly call for research data to be shared or archived, this has little value unless accompanied by contextual information (metadata) and tools that make those data interoperable and reusable (Pasquetto et al., Reference Pasquetto, Randles and Borgman2017).

Ethical, equity, and social justice considerations

Most mental health research is conducted with human participants who consent to share sensitive information about their lives. Data reuse can be seen as honoring research participants’ contributions by maximizing the scientific value of the data they have provided, rather than treating data as an asset “owned” by the researchers who happened to collect it, from which they alone can extract value (Wilbanks and Friend, Reference Wilbanks and Friend2016; Sim et al., Reference Sim, Stebbins, Bierer, Butte, Drazen, Dzau, Hernandez, Krumholz, Lo, Munos, Perakslis, Rockhold, Ross, Terry, Yamamoto, Zarin and Li2020). Making data available for reuse can present technical and ethical challenges, such as the extent to which informed consent includes permission for data sharing and reuse (Van den Eynden, Reference Van den Eynden2017) and issues related to data anonymity and deidentification (Curty et al., Reference Curty, Yoon, Jeng and Qin2016; Mondschein and Monda, Reference Mondschein, Monda, Kubben, Dumontier and Dekker2019). There are important national and regional differences in legal and regulatory policies in terms of expectations for sharing data as well as restrictions regarding data sharing or reuse. In general, at the time of initial consent, participants should be informed about expectations for sharing or reuse of their data, including measures for anonymizing/deidentifying data (National Health and Medical Research Council, 2018; Rothstein, Reference Rothstein2021). Even with consent, researchers must still exercise judgment regarding which data are shared and in what circumstances, to preserve the interests and safety of participants (National Statement on Ethical Conduct in Human Research, 2007).

Data sharing and reuse also require consideration of equity and social justice impact. In terms of equity, LMIC, which currently have the fewest mental health treatment and research options, should be at the forefront of this work and of global partnerships that harness complementary skills and experience of LMIC and high-income country (HIC) partners (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). In data collection, sharing, and reuse, LMIC partners likely bring greater expertise than HIC partners regarding contextual influences (i.e., to understand symptoms and expressions of mental illness) and successful provision of high-quality care in scarce-resource settings (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).

To date, marginalized groups have not been well-represented as participants or as investigators in mental health research. An exemplary effort to take into consideration power differentials and historical context is the development of the CARE Principles for Indigenous Data Governance (Research Data Alliance International Indigenous Data Sovereignty Interest Group, 2019). The CARE principles highlight Collective benefit, Authority to control, Responsibility, and Ethics with regard to information and knowledge that impact Indigenous communities, nations, and individuals. These principles recognize the need to center the rights and interests of Indigenous Peoples in the use of indigenous knowledge and data, and to design data ecosystems that enable this collective benefit and self-determination. The CARE standards are beginning to be operationalized to guide data governance related to health and mental health, for example by tribal governments in the US (Carroll et al., Reference Carroll, Garba, Plevel, Small-Rodriguez, Hiratsuka, Hudson and Garrison2022), and participatory planning regarding mental health of Aboriginal and Torres Strait Islanders in Australia (Dudgeon et al., Reference Dudgeon, Alexi, Derry, Brideson, Calma, Darwin, Gray, Hirvonen, McPhee, Milroy, Milroy, Murray and Sutherland2021). CARE and FAIR principles are complementary and ideally should be aligned in practice (Carroll et al., Reference Carroll, Herczog, Hudson, Russell and Stall2021).

The FAIR guiding principles for scientific data

To help frame this review we briefly define key concepts (data and metadata) and then describe the FAIR principles. “Data” can be any representation of information in a formalized manner (Borgman, Reference Borgman2017). In mental health research, data may encompass information collected specifically for the purposes of research (e.g., questionnaire or interview responses, physiological measurements), as well as information gathered from existing sources (e.g., health or administrative records). Raw data are often processed to create new variables for analysis, and data may be captured at varying degrees of granularity (e.g., items vs. scale scores). Both study-level and individual participant-level data (IPD) are important and may be preserved for sharing or reuse (Towse et al., Reference Towse, Ellis and Towse2021). “Metadata” is data that describes data. Metadata elements describe data’s provenance by capturing study-level characteristics (i.e., information about study design or social context), as well as specific variables (measures, items) and how these were collected or derived. Metadata should provide rich descriptive information that helps researchers find, understand, and reuse the data. Ideally, metadata are machine-readable and also able to be adapted/displayed for meaningful human use (Arslan, Reference Arslan2018).

The FAIR Guiding Principles (Wilkinson et al., Reference Wilkinson, Dumontier, Aalbersberg, Appleton, Axton, Baak, Blomberg, Boiten, da Silva Santos, Bourne, Bouwman, Brookes, Clark, Crosas, Dillo, Dumon, Edmunds, Evelo, Finkers, Gonzalez-Beltran, Gray, Groth, Goble, Grethe, Heringa, ’t Hoen, Hooft, Kuhn, Kok, Kok, Lusher, Martone, Mons, Packer, Persson, Rocca-Serra, Roos, van Schaik, Sansone, Schultes, Sengstag, Slater, Strawn, Swertz, Thompson, van der Lei, van Mulligen, Velterop, Waagmeester, Wittenburg, Wolstencroft, Zhao and Mons2016) were created by a diverse group of stakeholders (including researchers, publishers, and funders) to provide guidance for the management and stewardship of scientific data. Because they are intended to apply across scientific disciplines and across many types of data and research, Findability, Accessibility, Interoperability, and ReUsability (F, A, I, and R) represent foundational principles rather than specific, prescriptive rules. The FAIR principles put particular emphasis on using automated, machine-actionable processes that allow researchers to preserve, find, and use existing data resources (Wilkinson et al., Reference Wilkinson, Dumontier, Aalbersberg, Appleton, Axton, Baak, Blomberg, Boiten, da Silva Santos, Bourne, Bouwman, Brookes, Clark, Crosas, Dillo, Dumon, Edmunds, Evelo, Finkers, Gonzalez-Beltran, Gray, Groth, Goble, Grethe, Heringa, ’t Hoen, Hooft, Kuhn, Kok, Kok, Lusher, Martone, Mons, Packer, Persson, Rocca-Serra, Roos, van Schaik, Sansone, Schultes, Sengstag, Slater, Strawn, Swertz, Thompson, van der Lei, van Mulligen, Velterop, Waagmeester, Wittenburg, Wolstencroft, Zhao and Mons2016). Table 1 presents each principle with a brief definition and examples illustrating its application in mental health research. For a comprehensive description of the FAIR principles, see Wilkinson et al. (Reference Wilkinson, Dumontier, Aalbersberg, Appleton, Axton, Baak, Blomberg, Boiten, da Silva Santos, Bourne, Bouwman, Brookes, Clark, Crosas, Dillo, Dumon, Edmunds, Evelo, Finkers, Gonzalez-Beltran, Gray, Groth, Goble, Grethe, Heringa, ’t Hoen, Hooft, Kuhn, Kok, Kok, Lusher, Martone, Mons, Packer, Persson, Rocca-Serra, Roos, van Schaik, Sansone, Schultes, Sengstag, Slater, Strawn, Swertz, Thompson, van der Lei, van Mulligen, Velterop, Waagmeester, Wittenburg, Wolstencroft, Zhao and Mons2016) and the European Commission, Directorate-General for Research and Innovation report (2018). It is crucial to understand that FAIR is not the same as “open”; data can be FAIR but not open (and vice versa). While related to the broader movement for more open and transparent science, none of the principles require data to be openly or freely available. Rather, they emphasize the need for clarity and transparency regarding access and reuse conditions. Many mental health data resources cannot be fully open, but nearly all can be made accessible. Transparent but controlled access to data may allow participation from a wide range of sectors in society (Mons et al., Reference Mons, Neylon, Velterop, Dumontier, Da Silva Santos and Wilkinson2017).

Table 1. FAIR data principles with definitions and application to mental health research

This review provides an overview of the current state of the FAIR principles as applied in global mental health research. We explore current practices amongst mental health researchers and research communities and provide examples of notable efforts to create FAIR data resources. Finally, we outline a vision for next steps to make mental health research practices more FAIR.

How “FAIR” is global mental health research?

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.

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:

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

Conclusions and next steps: Moving toward more FAIR (and equitable) data practices in global mental health

Embracing FAIR principles by preserving, sharing, and reusing mental health data is essential to the short- and long-term impact of our scientific work. We have numerous examples demonstrating the value of integrating existing research data for novel analyses that enhance our understanding of etiology, risk, and protective factors for mental health, and that advance clinical practice. Growing calls from key research funders for data sharing and accessibility highlight the need for every research team to incorporate more FAIR data practices.

This review points to both challenges and opportunities for implementing FAIR data practices in global mental health research. Our field has not yet developed a common expectation and culture of FAIR data practices, nor the widely available tools and resources that would allow every mental health researcher to easily engage in FAIR practices. Specific challenges and gaps include varying support for data sharing and reuse, not planning for preservation or reuse when designing or conducting research, lack of standard practices for data management and preservation even amongst research teams and communities, poor findability of global mental health data resources due to a lack of common standards for describing our studies and our data points, and varying regulatory standards for sharing mental health research data. Yet there are a range of (often topic-specific) projects that are already providing useful resources, and that constitute a strong proof-of-concept for both the feasibility and the value of broader adoption and use of FAIR data practices across the field of global mental health. Many of these international projects and data resources are led by institutions and researchers within HICs. The field would be strengthened by having more global mental health research partnerships that are led by, and harness the unique expertise and knowledge of, researchers within LMICs and other marginalized communities.

Based on this review we have identified opportunities for researchers to move toward more FAIR data practices. Table 2 presents a vision for FAIR global mental health data with suggestions for practical next steps by researchers. The vision is adapted from a framework for FAIR traumatic stress research (Kassam-Adams and Olff, Reference Kassam-Adams and Olff2020), broadened to address the field of mental health, with expanded information and links to support specific actions. The framework addresses five key themes: Study planning, data preservation and indexing, machine-actionable metadata, data reuse of advance science and improve equity, and metrics and recognition within academia. Across these themes, Table 2 lists feasible next steps that focus on educating oneself and one’s research team; building collaborative projects that capitalize on expertise within specialty areas in global mental health; considering data sharing, reuse, and equity in planning for research and collaboration across the data lifecycle; and individual actions (in our roles as investigators, mentors, peer reviewers, editors) that can help shift the culture and practice of our field.

Table 2. FAIR global mental health data: Vision for the future and practical next steps

Source: Adapted and expanded from Kassam-Adams and Olff (Reference Kassam-Adams and Olff2020).

In conclusion, building the FAIR principles into the way we create collaborations, design and conduct studies, manage data, disseminate findings, and measure the academic and societal impact of global mental health research will require a continuing culture shift as well as systemic changes by larger stakeholders (academia, journals, funders). It will also require collective and collaborative action by researchers, research teams, and scientific societies. The choices we make are important, as they will impact the pace of future research advances that allow us to effectively address the huge mental health burden borne by so many in our society. In this review, we have provided examples of promising collaborative efforts upon which we can build, and exemplars within subfields of global mental health research that can inspire work in other topic areas and research communities. FAIR-ness is a continuum (i.e., not “all-or-nothing”); thus our goal should be to increase the FAIR-ness of our practices, considering the larger context and specific challenges. We hope that readers will be inspired to join the efforts described here and to adapt these approaches to address gaps in FAIR data practices in their own area of mental health research.

Open peer review

To view the open peer review materials for this article, please visit http://doi.org/10.1017/gmh.2023.7.

Acknowledgements

We gratefully acknowledge the ongoing efforts of the Global Collaboration on Traumatic Stress FAIR Data Theme Workgroup which have informed the views and analysis reported here.

Author contributions

All authors contributed substantially to the conception or design of the work. Y.S. and N.K.-A. drafted the work. A.D., E.K., and L.I.M.L. revised it critically for important intellectual content. All authors had final approval of the version to be published and agreed to be accountable for all aspects of the work.

Financial support

This research received no specific grant from any funding agency, commercial, or not-for-profit sectors.

Competing interest

The authors declare none.

References

Ademosu, T, Ebuenyi, I, Hoekstra, RA, Prince, M and Salisbury, T (2021) Burden, impact, and needs of caregivers of children living with mental health or neurodevelopmental conditions in low-income and middle-income countries: A scoping review. The Lancet Psychiatry 8(10), 919928. https://doi.org/10.1016/S2215-0366(21)00207-8.CrossRefGoogle ScholarPubMed
Arslan, RC (2018) How to automatically document data with the codebook package to facilitate data re-use. Advances in Methods and Practices in Psychological Science 2(2), 169187. https://doi.org/10.1177/2515245919838783.CrossRefGoogle Scholar
Bergeron, J, Doiron, D, Marcon, Y, Ferretti, V and Fortier, I (2018) Fostering population-based cohort data discovery: The maelstrom research cataloguing toolkit. PLoS One 13(7), 113. https://doi.org/10.1371/journal.pone.0200926.CrossRefGoogle ScholarPubMed
Borghi, JA and Van Gulick, AE (2021) Data management and sharing: Practices and perceptions of psychology researchers. PLoS One 16(5), 114. https://doi.org/10.1371/journal.pone.0252047.CrossRefGoogle ScholarPubMed
Borgman, CL (2017) Big Data, Little Data, no Data: Scholarship in the Networked World. Cambridge, MA: MIT Press.Google Scholar
Bosma, CM and Granger, AM (2022) Sharing is caring: Ethical implications of transparent research in psychology. American Psychologist 77(4), 565575. https://doi.org/10.1037/amp0001002.CrossRefGoogle ScholarPubMed
Breuer, E, Hanlon, C, Bhana, A, Chisholm, D, De Silva, M, Fekadu, A, Honikman, S, Jordans, M, Kathree, T, Kigozi, F, Luitel, NP, Marx, M, Medhin, G, Murhar, V, Ndyanabangi, S, Patel, V, Petersen, I, Prince, M, Raja, S, Rathod, SD, Shidhaye, R, Ssebunnya, J, Thornicroft, G, Tomlinson, M, Wolde-Giorgis, T and Lund, C (2019) Partnerships in a global mental health research programme—The example of PRIME. Global Social Welfare 6(3), 159175. https://doi.org/10.1007/s40609-018-0128-6.CrossRefGoogle Scholar
Broman, KW and Woo, KH (2018) Data organization in spreadsheets. American Statistician 72(1), 210. https://doi.org/10.1080/00031305.2017.1375989.CrossRefGoogle Scholar
Carroll, SR, Garba, I, Plevel, R, Small-Rodriguez, D, Hiratsuka, VY, Hudson, M and Garrison, NA (2022) Using indigenous standards to implement the CARE principles: Setting expectations through tribal research codes. Frontiers in Genetics 13, 823309. https://doi.org/10.3389/fgene.2022.823309.CrossRefGoogle ScholarPubMed
Carroll, SR, Herczog, E, Hudson, M, Russell, K and Stall, S (2021) Operationalizing the CARE and FAIR principles for indigenous data futures. Scientific Data 8(1), 813. https://doi.org/10.1038/s41597-021-00892-0.CrossRefGoogle ScholarPubMed
Christensen, H, Calear, AL, Van Spijker, B, Gosling, J, Petrie, K, Donker, T and Fenton, K (2014) Psychosocial interventions for suicidal ideation, plans, and attempts: A database of randomised controlled trials. BMC Psychiatry 14(1), 86. https://doi.org/10.1186/1471-244X-14-86.CrossRefGoogle ScholarPubMed
Christensen, G, Freese, J and Miguel, E (2019) Transparent and Reproducible Social Science Research: How to Do Open Science, 1st Edn. Oakland, CA: University of California Press.Google Scholar
Cooper, H and VandenBos, GR (2013) Archives of scientific psychology: A new journal for a new era. Archives of Scientific Psychology 1(1), 16. https://doi.org/10.1037/arc0000001.CrossRefGoogle Scholar
Cuijpers, P (2017) Four decades of outcome research on psychotherapies for adult depression: An overview of a series of meta-analyses. Canadian Psychology 58(1), 719. https://doi.org/10.1037/cap0000096.CrossRefGoogle Scholar
Cuijpers, P, Karyotaki, E, Ciharova, M, Quero, S, Pineda, B, Munoz, R, Struijs, SY, Llamas, J and Figueroa, C (2020) A meta-analytic database of randomised trials on psychotherapies for depression. Open Science Framework. Available at https://osf.io/825c6/ (accessed 20 July 2022).Google Scholar
Cuijpers, P, Karyotaki, E, Harrer, M and Ebert, D (2019) Meta-psy. Available at https://evidencebasedpsychotherapies.shinyapps.io/metapsy/ (accessed 20 July 2022).Google Scholar
Curty, R, Yoon, A, Jeng, W and Qin, J (2016) Untangling data sharing and reuse in social sciences. Proceedings of the Association for Information Science and Technology Banner 53(1), 15. https://doi.org/10.1002/pra2.2016.14505301025.CrossRefGoogle Scholar
Desmet, M, Meganck, R, Seybert, C, Willemsen, J, Geerardyn, F, Declercq, F, Inslegers, R, Trenson, E, Vanheule, S, Kirschner, L, Schindler, I and Kächele, H (2013) Psychoanalytic single cases published in ISI-ranked journals: The construction of an online archive. Psychotherapy and Psychosomatics 82(2), 120121. https://doi.org/10.1159/000342019.CrossRefGoogle ScholarPubMed
Dudgeon, P, Alexi, J, Derry, K, Brideson, T, Calma, T, Darwin, L, Gray, P, Hirvonen, T, McPhee, R, Milroy, H, Milroy, J, Murray, D and Sutherland, S (2021) Mental health and well‐being of Aboriginal and Torres Strait Islander peoples in Australia during COVID‐19. Australian Journal of Social Issues 56(4), 485502. https://doi.org/10.1002/ajs4.185.CrossRefGoogle ScholarPubMed
European Commission, Directorate-General for Research and Innovation (2018) Turning FAIR into reality: final report and action plan from the European Commission expert group on FAIR data, Publications Office. https://data.europa.eu/doi/10.2777/1524.Google Scholar
European Research Council (2022) Open Research Data and Data Management Plans. Available at https://erc.europa.eu/manage-your-project/open-science.Google Scholar
Fernández-Álvarez, J, Rozental, A, Carlbring, P, Colombo, D, Riva, G, Anderson, PL, Baños, RM, Benbow, AA, Bouchard, S, Bretón-López, JM, Cárdenas, G, Difede, JA, Emmelkamp, P, García-Palacios, A, Guillén, V, Hoffman, H, Kampann, I, Moldovan, R, Mühlberger, A, North, M, Pauli, P, Peñate Castro, W, Quero, S, Tortella-Feliu, M, Wyka, K and Botella, C (2019) Deterioration rates in virtual reality therapy: An individual patient data level meta-analysis. Journal of Anxiety Disorders, 61, 317. https://doi.org/10.1016/j.janxdis.2018.06.005.CrossRefGoogle ScholarPubMed
Fernando, B, King, M and Sumathipala, A (2019) Advancing good governance in data sharing and biobanking – International aspects. Wellcome Open Research 4, 111. https://doi.org/10.12688/wellcomeopenres.15540.1.CrossRefGoogle ScholarPubMed
Fortier, I, Raina, P, Van den Heuvel, ER, Griffith, LE, Craig, C, Saliba, M, Doiron, D, Stolk, RP, Knoppers, BM, Ferretti, V, Granda, P and Burton, P (2017) Maelstrom research guidelines for rigorous retrospective data harmonization. International Journal of Epidemiology 46(1), 103115. https://doi.org/10.1093/ije/dyw075.Google ScholarPubMed
Gardner, F, Leijten, P, Harris, V, Mann, J, Hutchings, J, Beecham, J, Bonin, EM, Berry, V, McGilloway, S, Gaspar, M, Seabra-Santos, MJ, Orobio de Castro, B, Menting, A, Williams, M, Axberg, U, Morch, WT, Scott, S and Landau, S (2019) Equity effects of parenting interventions for child conduct problems: A pan-European individual participant data meta-analysis. The Lancet Psychiatry 6(6), 518527. https://doi.org/10.1016/S2215-0366(19)30162-2.CrossRefGoogle ScholarPubMed
Hardwicke, TE, Mathur, MB, MacDonald, K, Nilsonne, G, Banks, GC, Kidwell, MC, Mohr, AH, Clayton, E, Yoon, EJ, Tessler, MH, Lenne, RL, Altman, S, Long, B and Frank, MC (2018) Data availability, reusability, and analytic reproducibility: Evaluating the impact of a mandatory open data policy at the journal cognition. Royal Society Open Science 5(8), 180448. https://doi.org/10.1098/rsos.180448.CrossRefGoogle ScholarPubMed
Hien, DA, Morgan-López, AA, Saavedra, LM, Ruglass, LM, Ye, A, López-Castro, T, Fitzpatrick, S, Killeen, TK, Norman, SB, Ebrahimi, CT and Back, S. E. (2022). Project harmony: A meta-analysis with individual patient data on behavioral and pharmacologic trials for comorbid posttraumatic stress and alcohol or other drug use disorders. American Journal of Psychiatry 180, 155166. https://doi.org/10.1176/appi.ajp.22010071.CrossRefGoogle ScholarPubMed
Houtkoop, BL, Chambers, C, Macleod, M, Bishop, DVM, Nichols, TE and Wagenmakers, EJ (2018) Data sharing in psychology: A survey on barriers and preconditions. Advances in Methods and Practices in Psychological Science 1(1), 7085. https://doi.org/10.1177/2515245917751886.CrossRefGoogle Scholar
Kassam-Adams, N, Kenardy, JA, Delahanty, DL, Marsac, MLM, Meiser-Stedman, R, Nixon, RDV, Landolt, MA and Palmieri, PA (2020) Development of an international data repository and research resource: The prospective studies of acute child trauma and Recovery (PACT/R) data archive. European Journal of Psychotraumatology 11(1), 1729025. https://doi.org/10.1080/20008198.2020.1729025.CrossRefGoogle ScholarPubMed
Kassam-Adams, N and Olff, M (2020) Embracing data preservation, sharing, and re-use in traumatic stress research. European Journal of Psychotraumatology 11(1), 1739885. https://doi.org/10.1080/20008198.2020.1739885.CrossRefGoogle ScholarPubMed
Kathawalla, UK, Silverstein, P and Syed, M (2021) Easing into open science: A guide for graduate students and their advisors. Collabra: Psychology 7(1), 18684. https://doi.org/10.1525/collabra.18684.Google Scholar
Kern, ML, Benson, L, Larson, E, Forrest, CB, Bevans, KB and Steinberg, L (2016) The anatomy of developmental predictors of healthy lives study (TADPOHLS). Applied Developmental Science 20(2), 135145. https://doi.org/10.1080/10888691.2015.1095642.CrossRefGoogle Scholar
Kievit, RA, McCormick, EM, Fuhrmann, D, Deserno, MK and Orben, A (2022) Using large, publicly available data sets to study adolescent development: Opportunities and challenges. Current Opinion in Psychology 44, 303308. https://doi.org/10.1016/j.copsyc.2021.10.003.CrossRefGoogle Scholar
Kim, Y and Yoon, A (2017) Scientists’ data reuse behaviors: A multilevel analysis. Journal of the Association for Information Science and Technology 68(12), 27092719. https://doi.org/10.1002/asi.23892.CrossRefGoogle Scholar
Kola, L, Kohrt, BA, Hanlon, C, Naslund, JA, Sikander, S, Balaji, M, Benjet, C, Cheung, EYL, Eaton, J, Gonsalves, P, Hailemariam, M, Luitel, NP, Machado, DB, Misganaw, E, Omigbodun, O, Roberts, T, Salisbury, TT, Shidhaye, R, Sunkel, C, Ugo, V, van Rensburg, AJ, Gureje, O, Pathare, S, Saxena, S, Thornicroft, G and Patel, V (2021) COVID-19 mental health impact and responses in low-income and middle-income countries: Reimagining global mental health. The Lancet Psychiatry 8(6), 535550. https://doi.org/10.1016/S2215-0366(21)00025-0.CrossRefGoogle ScholarPubMed
Kumar, M, Atwoli, L, Burgess, RA, Gaddour, N, Huang, KY, Kola, L, Mendenhall, E, Mugo, C, Mutamba, BB, Nakasujja, N, Njuguna, I, Obasi, A, Petersen, I and Shidhaye, R (2022) What should equity in global health research look like? The Lancet 400(10347), 145147. https://doi.org/10.1016/S0140-6736(22)00888-1.CrossRefGoogle Scholar
Logue, MW, Amstadter, AB, Baker, DG, Duncan, L, Koenen, KC, Liberzon, I, Miller, MW, Morey, RA, Nievergelt, CM, Ressler, KJ, Smith, AK, Smoller, JW, Stein, MB, Sumner, JA and Uddin, M (2015) The psychiatric genomics consortium posttraumatic stress disorder workgroup: Posttraumatic stress disorder enters the age of large-scale genomic collaboration. Neuropsychopharmacology 40(10), 22872297. https://doi.org/10.1038/npp.2015.118.CrossRefGoogle Scholar
McLean, SA, Ressler, K, Koenen, KC, Neylan, T, Germine, L, Jovanovic, T, Clifford, GD, Zeng, D, An, X, Linnstaedt, S, Beaudoin, F, House, S, Bollen, KA, Musey, P, Hendry, P, Jones, CW, Lewandowski, C, Swor, R, Datner, E, Mohiuddin, K, Stevens, JS, Storrow, A, Kurz, MC, McGrath, ME, Fermann, GJ, Hudak, LA, Gentile, N, Chang, AM, Peak, DA, Pascual, JL, Seamon, MJ, Sergot, P, Peacock, WF, Diercks, D, Sanchez, LD, Rathlev, N, Domeier, R, Haran, JP, Pearson, C, Murty, VP, Insel, TR, Dagum, P, Onnela, J-P, Bruce, SE, Gaynes, BN, Joormann, J, Miller, MW, Pietrzak, RH, Buysse, DJ, Pizzagalli, DA, Rauch, SL, Harte, SE, Young, LJ, Barch, DM, Lebois, LAM, van Rooij, SJH, Luna, B, Smoller, JW, Dougherty, RF, Pace, TWW, Binder, E, Sheridan, JF, Elliott, JM, Basu, A, Fromer, M, Parlikar, T, Zaslavsky, AM and Kessler, R (2020) The AURORA study: A longitudinal, multimodal library of brain biology and function after traumatic stress exposure. Molecular Psychiatry 25(2), 283296. https://doi.org/10.1038/s41380-019-0581-3.Google ScholarPubMed
Mondschein, CF and Monda, C (2019) The EU’s general data protection regulation (GDPR) in a research context. In Kubben, P, Dumontier, M and Dekker, A (eds.), Fundamentals of Clinical Data Science, pp. 5571. Cham, Switzerland: Springer. https://doi.org/10.1007/978-3-319-99713-1_5 CrossRefGoogle Scholar
Mons, B, Neylon, C, Velterop, J, Dumontier, M, Da Silva Santos, LOB and Wilkinson, MD (2017) Cloudy, increasingly FAIR; revisiting the FAIR data guiding principles for the European Open Science cloud. Information Services and Use 37(1), 4956. https://doi.org/10.3233/ISU-170824.CrossRefGoogle Scholar
National Health and Medical Research Council, the Australian Research Council and Universities Australia (2007; Updated 2018). National Statement on Ethical Conduct in Human Research. Available at https://www.nhmrc.gov.au/about-us/publications/national-statement-ethical-conduct-human-research-2007-updated-2018 Google Scholar
National Health and Medical Research Council Australian Research Council and Universities Australia (2019) Management of Data and Information in Research:A guide supporting the Australian Code for the Responsible Conduct of Research. Available at https://www.nhmrc.gov.au/file/14359/download?token=L5GTBw96 (accessed 1 August 2022).Google Scholar
National Institute of Health (2022) Writing a Data Management & Sharing Plan. Available at https://sharing.nih.gov/data-management-and-sharing-policy/planning-and-budgeting-DMS/writing-a-data-management-and-sharing-plan#after (accessed 1 August 2022).Google Scholar
National Science Foundation (2011) Dissemination and Sharing of Research Results - NSF Data Management Plan Requirements. Available at https://www.nsf.gov/bfa/dias/policy/dmp.jsp (accessed 1 August 2022).Google Scholar
Nosek, BA, Hardwicke, TE, Moshontz, H, Allard, A, Corker, KS, Dreber, A, Fidler, F, Hilgard, J, Kline Struhl, M, Nuijten, M, Grave le, B, Rohrer, JM, Romero, F, Scheel, AM, Scherer, LD, Schönbrodt, FD and Vazire, S (2022) Replicability, robustness, and reproducibility in psychological science. Annual Review of Psychology 73, 719748. https://doi.org/10.1146/annurev-psych-020821-114157.CrossRefGoogle ScholarPubMed
Nuijten, MB, Borghuis, J, Veldkamp, CLS, Dominguez-Alvarez, L, Van Assen, MALM and Wicherts, JM (2017) Journal data sharing policies and statistical reporting inconsistencies in psychology. Collabra: Psychology 3(1), 122. https://doi.org/10.1525/collabra.102.Google Scholar
O’Neil, ME, Harik, JM, McDonagh, MS, Cheney, TP, Hsu, FC, Cameron, DC, Carlson, KF, Norman, SB and Hamblen, JL (2020) Development of the PTSD-repository: A publicly available repository of randomized controlled trials for posttraumatic stress disorder. Journal of Traumatic Stress 33(4), 410419. https://doi.org/10.1002/jts.22520.CrossRefGoogle ScholarPubMed
Obiora, OL, Olivier, B, Shead, DA and Withers, A (2021) Data sharing practices of health researchers in Africa: A scoping review protocol. JBI Evidence Synthesis 20(2), 681688. https://doi.org/10.11124/JBIES-20-00502.CrossRefGoogle Scholar
Olff, M, Bakker, A, Frewen, P, Aakvaag, H, Ajdukovic, D, Brewer, D, Elmore Borbon, DL, Cloitre, M, Hyland, P, Kassam-Adams, N, Knefel, M, Lanza, JA, Lueger-Schuster, B, Nickerson, A, Oe, M, Pfaltz, MC, Salgado, C, Seedat, S, Wagner, A and Schnyder, U (2020) Screening for consequences of trauma–An update on the global collaboration on traumatic stress. European Journal of Psychotraumatology 11(1), 18. https://doi.org/10.1080/20008198.2020.1752504.Google Scholar
Packer, AL (2010) The SciELO open access: A gold way from the south. Canadian Journal of Higher Education 39(3), 111126. https://doi.org/10.47678/cjhe.v39i3.479.CrossRefGoogle Scholar
Pasquetto, IV, Randles, BM and Borgman, CL (2017) On the reuse of scientific data. Data Science Journal 16, 8. https://doi.org/10.5334/dsj-2017-008.CrossRefGoogle Scholar
Purgato, M, Gross, AL, Betancourt, T, Bolton, P, Bonetto, C, Gastaldon, C, Gordon, J, O’Callaghan, P, Papola, D, Peltonen, K, Punamaki, RL, Richards, J, Staples, JK, Unterhitzenberger, J, van Ommeren, M, de Jong, J, Jordans, MJD, Tol, WA and Barbui, C (2018) Focused psychosocial interventions for children in low-resource humanitarian settings: A systematic review and individual participant data meta-analysis. The Lancet Global Health 6(4), e390e400. https://doi.org/10.1016/S2214-109X(18)30046-9.CrossRefGoogle ScholarPubMed
Rehm, J and Shield, KD (2019) Global burden of disease and the impact of mental and addictive disorders. Current Psychiatry Reports 21(2), 17. https://doi.org/10.1007/s11920-019-0997-0.CrossRefGoogle ScholarPubMed
Research Data Alliance International Indigenous Data Sovereignty Interest Group (2019) CARE Principles for Indigenous Data Governance: The Global Indigenous Data Alliance. Available at https://www.gida-global.org/.Google Scholar
Robson, SG, Baum, MA, Beaudry, JL, Beitner, J, Brohmer, H, Chin, JM, Jasko, K, Kouros, CD, Laukkonen, RE, Moreau, D, Searston, RA, Slagter, HA, Steffens, NK, Tangen, JM and Thomas, A (2021) Promoting open science: A holistic approach to changing behaviour. Collabra: Psychology 7(1), 120. https://doi.org/10.1525/collabra.30137.Google Scholar
Rothstein, MA (2021) Informed consent for secondary research under the new NIH data sharing policy. Journal of Law, Medicine & Ethics 49(3), 489494. https://doi.org/10.1017/jme.2021.69.CrossRefGoogle ScholarPubMed
Sajatovic, M, Eyler, LT, Rej, S, Almeida, OP, Blumberg, HP, Forester, BP, Forlenza, OV, Gildengers, A, Mulsant, BH, Strejilevich, S, Tsai, S, Vieta, E, Young, RC and Dols, A (2019) The global aging & geriatric experiments in bipolar disorder database (GAGE-BD) project: Understanding older-age bipolar disorder by combining multiple datasets. Bipolar Disorders 21(7), 642649. https://doi.org/10.1111/bdi.12795.CrossRefGoogle ScholarPubMed
Schmaal, L, Pozzi, EC, Ho, T, van Velzen, LS, Veer, IM, Opel, N, Van Someren, EJW, Han, LKM, Aftanas, L, Aleman, A, Baune, BT, Berger, K, Blanken, TF, Capitão, L, Couvy-Duchesne, BR, Cullen, K, Dannlowski, U, Davey, C, Erwin-Grabner, T and Veltman, DJ (2020) ENIGMA MDD: Seven years of global neuroimaging studies of major depression through worldwide data sharing. Translational Psychiatry 10(1), 119. https://doi.org/10.1038/s41398-020-0842-6.CrossRefGoogle ScholarPubMed
Shalev, AY, Gevonden, M, Ratanatharathorn, A, Laska, E, van der Mei, WF, Qi, W, Lowe, S, Lai, BS, Bryant, RA, Delahanty, D, Matsuoka, YJ, Olff, M, Schnyder, U, Seedat, S, deRoon-Cassini, TA, Kessler, RC, Koenen, KC and International Consortium to Predict PTSD (2019) Estimating the risk of PTSD in recent trauma survivors: Results of the international consortium to predict PTSD (ICPP). World Psychiatry 18(1), 7787. https://doi.org/10.1002/wps.20608.CrossRefGoogle Scholar
Sim, I, Stebbins, M, Bierer, BE, Butte, AJ, Drazen, J, Dzau, V, Hernandez, AF, Krumholz, HM, Lo, B, Munos, B, Perakslis, E, Rockhold, F, Ross, JS, Terry, SF, Yamamoto, KR, Zarin, DA and Li, R (2020) Time for NIH to lead on data sharing. Science 367(6484), 13081309. https://doi.org/10.1126/science.aba4456.CrossRefGoogle ScholarPubMed
Skriner, LC, Chu, BC, Kaplan, M, Bodden, DHM, Bögels, SM, Kendall, PC, Nauta, MH, Silverman, WK, Wood, JJ, Barker, DH, De La Torre, J, Saavedra, L and Xie, MG (2019) Trajectories and predictors of response in youth anxiety CBT: Integrative data analysis. Journal of Consulting and Clinical Psychology 87(2), 198211. https://doi.org/10.1037/ccp0000367.CrossRefGoogle ScholarPubMed
Sullivan, PF, Agrawal, A, Bulik, CM, Andreassen, OA, Børglum, AD, Breen, G, Cichon, S, Edenberg, HJ, Faraone, SV, Gelernter, J, Mathews, CA, Nievergelt, CM, Smoller, JW, O’Donovan, MC and Psychiatric Genomics Consortium (2018) Psychiatric genomics: An update and an Agenda. American Journal of Psychiatry 175(1), 1527. https://doi.org/10.1176/appi.ajp.2017.17030283.CrossRefGoogle Scholar
Susukida, R, Amin-Esmaeili, M, Mayo-Wilson, E and Mojtabai, R (2021) Data management in substance use disorder treatment research: Implications from data harmonization of National Institute on Drug Abuse-funded randomized controlled trials. Clinical Trials 18(2), 215225. https://doi.org/10.1177/1740774520972687.CrossRefGoogle ScholarPubMed
Tedersoo, L, Küngas, R, Oras, E, Köster, K, Eenmaa, H, Leijen, Ä, Pedaste, M, Raju, M, Astapova, A, Lukner, H, Kogermann, K and Sepp, T (2021) Data sharing practices and data availability upon request differ across scientific disciplines. Scientific Data 8(1), 111. https://doi.org/10.1038/s41597-021-00981-0.CrossRefGoogle ScholarPubMed
Tenenbaum, JD, Bhuvaneshwar, K, Gagliardi, JP, Fultz Hollis, K, Jia, P, Ma, L, Nagarajan, R, Rakesh, G, Subbian, V, Visweswaran, S, Zhao, Z and Rozenblit, L (2017) Translational bioinformatics in mental health: Open access data sources and computational biomarker discovery. Briefings in Bioinformatics 20(3), 842856. https://doi.org/10.1093/bib/bbx157.CrossRefGoogle Scholar
The United Nations Economic Commission for Latin America and the Caribbean (2022) Research data management in Latin America and the Caribbean: An Overview. Available at https://learn-rdm.eu/en/research-data-latin-america/ (accessed 10 December 2022).Google Scholar
Towse, JN, Ellis, DA and Towse, AS (2021) Opening Pandora’s box: Peeking inside Psychology’s data sharing practices, and seven recommendations for change. Behavior Research Methods 53(4), 14551468. https://doi.org/10.3758/s13428-020-01486-1.CrossRefGoogle ScholarPubMed
Van den Eynden, V (2017, November 28-29) Informed Consent for Data Sharing and Reuse (workshop). Creating Shareable Research Data: Managing and Archiving Social Science Research Data: UK Data Service, University of Essex. Available at from https://ukdataservice.ac.uk/app/uploads/2017-11-28_consent_final_-pdf.pdf.Google Scholar
van Tuijl, LA, Voogd, AC, de Graeff, A, Hoogendoorn, AW, Ranchor, AV, Pan, KY, Basten, M, Lamers, F, Geerlings, MI, Abell, JG, Awadalla, P, Bakker, MF, Beekman, ATF, Bjerkeset, O, Boyd, A, Cui, Y, Galenkamp, H, Garssen, B, Hellingman, S, Huisman, M, Huss, A, Keats, MR, Kok, AAL, Luik, AI, Noisel, N, Onland-Moret, NC, Payette, Y, Penninx, BWJH, Portengen, L, Rissanen, I, Roest, AM, Rosmalen, JGM, Ruiter, R, Schoevers, RA, Soave, DM, Spaan, M, Steptoe, A, Stronks, K, Sund, ER, Sweeney, E, Teyhan, A, Vaartjes, I, van der Willik, KD, van Leeuwen, FE, van Petersen, R, Monique Verschuren, WM, Visseren, F, Vermeulen, R and Dekker, J (2021) Psychosocial factors and cancer incidence (PSY-CA): Protocol for individual participant data meta-analyses. Brain and Behavior 11(10), 113. https://doi.org/10.1002/brb3.2340.Google ScholarPubMed
Washburn, AN, Hanson, BE, Motyl, M, Skitka, LJ, Yantis, C, Wong, KM, Sun, J, Prims, JP, Mueller, AB, Melton, ZJ and Carsel, TS (2018) Why do some psychology researchers resist adopting proposed reforms to research practices? A description of researchers’ rationales. Advances in Methods and Practices in Psychological Science 1(2), 166173. https://doi.org/10.1177/2515245918757427.CrossRefGoogle Scholar
WHO (2013) Mental Health Action Plan 2013–2020. Geneva: World Health Organization.Google Scholar
WHO (2022) Mental health and COVID-19: Early evidence of the pandemic’s impact. World Health Organization: Scientific Brief (Vol. 2, Issue March).Google Scholar
Wilbanks, J and Friend, SH (2016) First, design for data sharing. Nature Biotechnology 34(4), 377379. https://doi.org/10.1038/nbt.3516.CrossRefGoogle ScholarPubMed
Wilkinson, MD, Dumontier, M, Aalbersberg, IJ, Appleton, G, Axton, M, Baak, A, Blomberg, N, Boiten, JW, da Silva Santos, LB, Bourne, PE, Bouwman, J, Brookes, AJ, Clark, T, Crosas, M, Dillo, I, Dumon, O, Edmunds, S, Evelo, CT, Finkers, R, Gonzalez-Beltran, A, Gray, AJG, Groth, P, Goble, C, Grethe, JS, Heringa, J, ’t Hoen, PAC, Hooft, R, Kuhn, T, Kok, R, Kok, J, Lusher, SJ, Martone, ME, Mons, A, Packer, AL, Persson, B, Rocca-Serra, P, Roos, M, van Schaik, R, Sansone, S-A, Schultes, E, Sengstag, T, Slater, T, Strawn, G, Swertz, MA, Thompson, M, van der Lei, J, van Mulligen, E, Velterop, J, Waagmeester, A, Wittenburg, P, Wolstencroft, K, Zhao, J and Mons, B (2016) Comment: The FAIR guiding principles for scientific data management and stewardship. Scientific Data 3, 19. https://doi.org/10.1038/sdata.2016.18.CrossRefGoogle ScholarPubMed
Wright, SL, Karyotaki, E, Bisson, JI, Cuijpers, P, Papola, D, Witteveen, AB, Seedat, S and Sijbrandij, M (2022) Protocol for individual participant data meta-analysis of interventions for post-traumatic stress. BMJ Open 12(2), 110. https://doi.org/10.1136/bmjopen-2021-054830.CrossRefGoogle ScholarPubMed
Yang, X, Fang, Y, Chen, H, Zhang, T, Yin, X, Man, J, Yang, L and Lu, M (2021) Global, regional and national burden of anxiety disorders from 1990 to 2019: Results from the global burden of disease study 2019. Epidemiology and Psychiatric Sciences 30, e36. https://doi.org/10.1017/.CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. Value of data reuse in global mental health research. **Includes data from low- to middle-income countries.

Figure 1

Table 1. FAIR data principles with definitions and application to mental health research

Figure 2

Table 2. FAIR global mental health data: Vision for the future and practical next steps

Author comment: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R0/PR1

Comments

No accompanying comment.

Review: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R0/PR2

Conflict of interest statement

Reviewer declares none.

Comments

Comments to Author: The authors’ stated aim of the manuscript is to review “data sharing, preservation, and re-use as a crucial component of optimizing the impact of mental health research globally”. The Findable, Accessible, Interoperable, and Reusable (FAIR) principles are introduced. Sharing data in ways that are compatible with the FAIR principles is intended to increase efficiency and inclusiveness of research by improving replicability of studies, encouraging novel re-use of data, and enabling cross-disciplinary studies. The intended result is to improve diagnosis, interventions and outcomes. The main challenges/barriers to using the FAIR principles are ethical considerations including consent for resharing. The primary ethical arguments for using FAIR principles are potential contributions to equity and social impact.

In the second section the authors further discuss concepts related to FAIR principles and their compatibility with mental health research. FAIR represents principles rather than rules or guidance for implementation of open data in a specific context. Furthermore, the authors emphasize that FAIR requires clarity and transparency, but does not require that all data be open which is an important consideration for mental health research, as they state “Many mental health data resources cannot be fully open but nearly all can be made accessible”. A third section outlines initiatives, institutions, and key literature related to mental health research related to each of the FAIR elements. Table 1 appears to organize the observations of the authors on the current status of open access to mental health data organized by each element of FAIR. Proposed next steps are presented in table 2 organized by a framework adapted from the literature that identifies FAIR-relevant research entry points. The authors conclude that the review has “provided examples - across the field of mental health research – of collaborative efforts to develop tools and resources that put the FAIR data principles into action”.

Addressing the timely and important issue of improving research with open data access, the authors make a novel contribution by investigating the current status of mental health data resources using widely recognized FAIR principles. They raise questions that are highly relevant to the field and that are of high concern to institutions that fund mental health research among other audiences.

At first reading of the manuscript, it appeared that there is a missing critical discussion section that would be expected in an article of this type. I was surprised to find a good deal of discussion and the major contribution of the article somewhat hidden away in Tables 1 & 2. In revising the paper, the authors should focus on fully developing the discussion on current status and field-specific challenges in the body of the text. Then, the focus should be on the clear and logical links of the analysis to the novel proposed implementation guidance framework now contained in Table 2. The audience would be specifically interested in how each of these authors’ work;“Kassam-Adams & Olff 2020; 1Broman& Woo, 2018; 2Towse, Ellis & Towse, 2021;3O’Neil et al., 2020.”; was adapted and why. This proposed framework should be clearly identified as the “Opportunities” promised in the paper’s title.

Review Question 1:

For global reviews, how well does the review cover global content in the inclusion of research, presentation of results, and/or in the discussion and implications? And how could this be improved/expanded?

The scope and implications of the review is relevant to a global audience. Global examples in the current manuscript are limited and suggest the authors redouble efforts to include any others that may be currently missing. The authors discuss the survey conducted by Borghi & Van Gulick, 2021 that found “31 countries indicated that they archived, deposited, or published a dataset for others to access but noted a lack of standardization of practices within their research group.”. One global project is mentioned – the Global Collaboration on Traumatic Stress’ FAIR Data workgroup (https://www.global-psychotrauma.net/fair). One bullet point in table 2 states “Global mental health research datasets are collected in well-curated repositories that provide long-term preservation and machine-readable persistent identifiers”.

In the revision, the authors may want to expand on analysis of global data access in comparison with promising discipline or community specific data sharing and collaboration practices. For example, the authors mention national policy frameworks and national research funding agencies, but additional analysis would be welcomed describing what is global and what is particular to different nations. Similarly, the authors state “The CARE Data Principles for Indigenous Data Governance exemplify these aspects of data stewardship (Carroll et al., 2020)”, but I believe additional analysis of how, why or what these community standards contribute globally would strengthen the paper for this journal.

Additional suggested considerations in revision:

In the Introduction, suggest refined focus on the most important review questions on what are fundamental and specific problems for mental health research. The contribution of the paper bridges a perceived gap between principles and practice that might be captured in more questions addressing the demand for guidance and rules applicable to mental health research and how mental health data, “can be made accessible”. The issue of obtaining consent for resharing seems of such fundamental importance, that one might expect much more of a focus on this in critical discussion. A greater focus on what are the important questions would help guide the reader. The value of reusing data is discussed at length in introduction with a focus on “individual participant-level data (IPD) from multiple studies”. This level of detail seems more appropriate in the current section 3.

Additional attention to Defining Key concepts in section 2 is suggested. Table 1 column 3 does not always appear as clear examples related to column 2. For example, metadata is discussed in “R” but is part of the definition of “I”. If the table intends to give definitions in column 2 and then clear examples in column 3, then it is suggested to choose the most illustrative examples with precise language to articulate what the principle might mean in mental health practice. Perhaps taking this information out of the table and focusing on a limited number of key concepts and there relation to mental health research would strengthen this section.

Section 3.1 does seem to need a table or more detail on the comprehensiveness of the review. Are the initiatives and organizations mentioned examples or do they represent the totality of work relevant to mental health research currently? For example, the authors cite Christensen et al., 2019 “Several organizations have emerged to provide training and support for open science technologies”, and it may be helpful to readers to present these in a table or other reference. Their relation and relative value with respect to the Open Science Framework would be of interest and potentially important to the manuscript’s argument for mental health research opportunities organized in a framework. Why is there no mention of GitHub or other open science platforms used by diverse researchers? If these are not a comprehensive survey, but only ‘noteworthy examples’ – this should be more explicit in the text.

Further analysis of the completeness and comparison of examples in section 3.2 are welcome. This might be accomplished by organizing and expanding on some of the content in Table 2 but organized by the FAIR principles in table 1. Consider the organization of this section as leading the reader to the set of categories proposed in column one of table 2. The “current state” now reads somewhat as a list. Concepts like ‘Meta data’ appear in different rows but there is not enough detail to clearly understand why the concept spans these rows. Other authors evaluating FAIR practices within their disciplines often contrast FAIR with another discipline specific framework or a relevant set of criteria/categories. What do the authors suggest as a guiding framework for mental health research that could be contrasted against FAIR?

Section 4 leaves some important questions raised in the Introduction unanswered or left in the tables. It is missing a critical discussion of the gaps and dominant or weaker approaches to address the identified challenges and barriers. For example, more discussion ideas presented in the background such as data“sharing and re-use “baked in” from the beginning as an explicit project aim” would be welcome.

The Conclusion currently states that the paper “provided examples - across the field of mental health research – of collaborative efforts to develop tools and resources that put the FAIR data principles into action”. With revision, the paper can do this well and more. Consider ‘Next Steps’ to be included in conclusions to strengthen what are now generalities.

Overall, this very interesting paper deserves great attention to revisions. The ‘opportunities’ may be strong enough to be the foundation of a very useful framework for guiding the implementation of open data access in mental health research. Perhaps the authors should consider this aim as there is need for a -- discipline specific framework or a relevant set of criteria/categories – to contrast against FAIR to strengthen the analysis – and this adapted frame could be introduced earlier in the paper.

Best wishes to the authors as they consider the revisions and look forward to reading the next version of the paper.

Recommendation: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R0/PR3

Comments

Comments to Author: Dear Authors, please follow the suggestions of Reviewer #1 answering his/her questions.

Decision: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R0/PR4

Comments

No accompanying comment.

Decision: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R0/PR5

Comments

No accompanying comment.

Author comment: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R1/PR6

Comments

No accompanying comment.

Review: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R1/PR7

Comments

Comments to Author: I am convinced of the importance of this review for a broad audience from those interested in more efficient use of research resources to those interested in innovative approaches. Readers will find the tables and examples useful.

On page 8, I would consider removing "current state" and instead "overview of FAIR principles as applied...".

A question remains about how the notable examples beginning on page 11 were identified. Are they all the authors could find? Are they everything the authors have seen in professional gatherings? How would one go about making a more exhaustive list and perhaps who should be responsible for better accounting of available repositories?

FAIR principles hints at the social justice concerns regarding best use of data, and I think think the article does well discussing importance, challenges and potential of open science trends for global mental health.

Recommendation: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R1/PR8

Comments

Comments to Author: Dear authors:

Your current manuscript version requires minor revision requested by the reviewer.

There are other important recommendations:

1. Please, after the introduction could you clarify some methodological details of your review? For example, a) methods for finding and reviewing the literature and b) the type of literature review according to: Grant, M.J. and Booth, A. (2009), A typology of reviews: an analysis of 14 review types and associated methodologies. Health Information & Libraries Journal, 26: 91-108. https://doi.org/10.1111/j.1471-1842.2009.00848.x

2. In the point 1.1 Ethical, equity, and social justice considerations, your examples are addressing uniquely the English-speaking middle- and low-income countries. Could you detail examples from non-English-speaking middle- and low-income countries?

3. In the point 2.3 Current notable efforts that advance FAIR data practices in mental health research; could you detail examples from non-English-speaking middle- and low-income countries?

Thank you very much.

Decision: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R1/PR9

Comments

No accompanying comment.

Decision: Opportunities for improving data sharing and FAIR data practices to advance global mental health — R1/PR10

Comments

No accompanying comment.