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The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review

Published online by Cambridge University Press:  11 November 2025

Bijayalaxmi Biswal ,
Rakshanda Paimapari ,
Arya Suresh ,
Marimilha Grace Pacheco ,
Luanna Fernandes ,
Yashi Gandhi ,
Vikram Patel Open the ORCID record for Vikram Patel [Opens in a new window] ,
Daisy Radha Singla Open the ORCID record for Daisy Radha Singla [Opens in a new window] ,
Anisah Fernandes  and
Richard Velleman
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Bijayalaxmi Biswal
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India
Rakshanda Paimapari
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India
Arya Suresh
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India
Marimilha Grace Pacheco
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India
Luanna Fernandes
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India
Yashi Gandhi
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India Department of Population Health, London School of Hygiene and Tropical Medicine, London, UK
Vikram Patel
Affiliation:
Department of Global Health and Social Medicine, Harvard Medical School, Boston, MA, USA
Daisy Radha Singla
Affiliation:
Campbell Family Mental Health Research Institute, Centre for Addiction and Mental Health, Toronto, ON, Canada
Anisah Fernandes
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India
Richard Velleman
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India Department of Psychology, University of Bath, Bath, UK
Chunling Lu
Affiliation:
Department of Global Health and Social Medicine, Harvard Medical School, Boston, MA, USA Division of Global Health Equity, Brigham and Women’s Hospital, Boston, MA, USA
Chris Grundy
Affiliation:
Department of Infectious Disease Epidemiology and International Health, London School of Hygiene & Tropical Medicine, London, UK
Urvita Bhatia
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India Department of Population Health, London School of Hygiene and Tropical Medicine, London, UK
Abhijit Nadkarni*
Affiliation:
Addictions and Related Research Group, Sangath, Goa, India Department of Population Health, London School of Hygiene and Tropical Medicine, London, UK
*
Corresponding author: Abhijit Nadkarni; Email: abhijit.nadkarni@lshtm.ac.uk
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Abstract

Geographic information systems (GIS) are computer-based spatial mapping tools widely used in public health to examine service availability and access disparities and healthcare utilization. While GIS has supported evidence-based health planning in various domains, its application in mental healthcare service delivery remains underexplored. Our scoping review aimed to address this gap by exploring the scope and type of GIS usage in studying three dimensions of mental health (MH) service delivery (availability, accessibility and utilization), across all geographical locations, settings and populations. We conducted a scoping review following the Joanna Briggs Institute methodology. We included peer-reviewed English-language studies using GIS to examine service delivery (availability, accessibility or utilization) for any MH condition diagnosed through standardized criteria or validated tools. Seven databases were searched (Medical Literature Analysis and Retrieval System Online [MEDLINE], PsycINFO, Excerpta Medica Database [Embase], Global Health, Cumulative Index to Nursing and Allied Health Literature [CINAHL], Cochrane Central Register of Controlled Trials [CENTRAL] and Web of Science) between January and April 2024. This review included 58 studies predominantly from high-income countries. A wide range of GIS methods were employed across studies, including hotspot analysis, network analysis and spatial analysis. Six studies explored availability, generally through measures like distribution of facilities across a population, and resource availability within 5–10-mile network buffers. Forty-six studies explored the spatial accessibility of MH services and substance-use treatment facilities using GIS. Six studies examined service utilization patterns. Equity emerged as a recurring theme across all three dimensions. GIS has the potential to emerge as a powerful tool in MH research, particularly in mapping disparities, informing service delivery and identifying high-risk zones. Expanding GIS use in trial design, implementation science and policy advocacy could help bridge critical gaps in MH service delivery, ensuring more equitable and data-driven decision-making.

Keywords

digital technologiesefficiencyglobal mental healthglobal mental health deliveryhealth inequalities

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Type
Overview Review
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Cambridge Prisms: Global Mental Health , Volume 12 , 2025 , e132
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Creative Commons
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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), 2025. Published by Cambridge University Press

Impact statement

This scoping review provides a comprehensive synthesis of how geographic information systems (GIS) have been used to study the availability, accessibility and utilization of mental health (MH) services. The findings highlight GIS as a powerful, yet underutilized, tool for identifying gaps in service coverage, visualizing disparities across regions and populations and informing data-driven MH policy and planning. By cataloging a wide range of GIS methods and applications from 58 studies, the review lays critical groundwork for the integration of spatial analysis into global MH research.

The review reveals that GIS has predominantly been applied in high-income settings, with limited application in low- and middle-income countries (LMICs) where treatment gaps are largest. It identifies significant opportunities for expanding GIS use in MH implementation research, trial design and policy advocacy – especially in underserved communities. By uncovering invisible barriers to care through spatial mapping, GIS offers an innovative pathway toward more equitable MH systems.

For policymakers, researchers and practitioners, this review provides both a roadmap and a call to action: to harness the full potential of GIS for strengthening MH services, improving access for marginalized populations and driving evidence-based reforms. The insights from this review can support national and local governments, donors and program implementers in making more informed, targeted and just decisions in mental healthcare delivery.

Introduction

Geographic information systems (GIS) are an innovative computer-based spatial mapping technology that can provide an enhanced understanding of patterns, service needs and environmental interactions related to health problems for improving care (Walsan et al., Reference Walsan, Pai and Dawes2016). These systems are equipped to collect, manage and visualize spatial data, assisting in the analysis and interpretation of geographic information. It can be used to examine, quantify and interpret relationships and features within geographic data (McLafferty, Reference McLafferty2003). It has been widely used in the field of public health, especially for understanding the spatial organization of health care, studying healthcare utilization patterns and mapping the availability of healthcare services (McLafferty, Reference McLafferty2003; Higgs, Reference Higgs2004, Reference Higgs2009; Graves, Reference Graves2008). It also has advanced applications in mapping access disparities, disease surveillance, health inequities and emergency responses (Graves, Reference Graves2008; Higgs, Reference Higgs2009). Through integrated analysis of demographic, environmental and clinical data, GIS has been used to support evidence-based policymaking (Hannum et al., Reference Hannum, Wellstead, Howlett and Gofen2025).

Little is known about GIS approaches that have been used in the analysis of mental healthcare service delivery. This has not only precluded a comprehensive understanding of the full potential of GIS in MH research, implementation science, health planning and service delivery but also limited the possibilities of its usage. Leveraging GIS use in exploring mental healthcare service delivery is especially important considering the global focus shifts toward community MH, implementation research and treatment equity gap, which are profoundly shaped by logistical barriers and the practicality of help-seeking (Thornicroft et al., Reference Thornicroft, Deb and Henderson2016; Kola et al., Reference Kola, Kohrt, Acharya, Mutamba, Kieling, Kumar, Sunkel, Zhang and Hanlon2021; Orozco et al., Reference Orozco, Vigo, Benjet, Borges, Aguilar-Gaxiola, Andrade, Cia, Hwang, Kessler and Piazza2022; Adams, Reference Adams2024; McGinty et al., Reference McGinty, Alegria, Beidas, Braithwaite, Kola, Leslie, Moise, Mueller, Pincus, Shidhaye, Simon, Singer, Stuart and Eisenberg2024). Our scoping review aimed to address this gap by exploring the scope and type of GIS usage in studying three dimensions of MH service delivery (availability, accessibility and utilization), across all geographical locations, settings and populations.

According to the World Health Organization (WHO) Health Systems Framework, parameters for monitoring a healthcare service delivery system include (a) availability of services: physical presence of services, encompassing health infrastructure, core health personnel and aspects of service utilization, for example, the proportion of health facilities offering specific services; (b) accessibility: geographic accessibility or spatial accessibility, in terms of commuting time spent and distance traversed to reach healthcare services, for example, the time taken for a service user to drive to the nearest health facility; and (c) utilization: quantification or description of the use of healthcare services by people to study trends, patterns, variations or for other objectives (World Health Organization, 2010, 2014; Penchansky and Thomas, Reference Penchansky and Thomas1981; Carrasquillo, Reference Carrasquillo2013), for example, number of outpatient department visits per 10,000 population per year.

In the current study, we considered these three dimensions of service delivery – namely service availability, accessibility and utilization – because they can also be spatially analyzed, hence providing an opportunity for GIS applications. Drawing from the key stages in the Tanahashi Framework, these three components have been used to identify bottlenecks in service coverage and identify specific barriers to accessing and receiving effective MH care and measuring progress toward universal health coverage in MH (Tanahashi, Reference Tanahashi1978; De Silva et al., Reference De Silva, Lee, Fuhr, Rathod, Chisholm, Schellenberg and Patel2014).

An integrative review conducted in 2019 reviewed GIS applications that were used to study mental healthcare services but limited its scope only to services provided for serious mental illnesses and to one dimension of service delivery (accessibility; Smith-East and Neff, Reference Smith-East and Neff2020). Our scoping review sought to provide a more comprehensive synthesis by mapping how GIS has been applied across three key dimensions of MH service delivery (availability, accessibility and utilization) across diverse contexts, conditions, settings and populations. This broader focus not only enabled a holistic overview of the literature but also revealed methodological and conceptual gaps that must be addressed to strengthen the use of GIS in advancing equitable, evidence-informed MH care.

Materials and methods

We employed a scoping review methodology, which is designed to map the breadth and nature of the existing literature on a topic (Arksey and O’malley, Reference Arksey and O’malley2005; Peters et al., Reference Peters, Godfrey, Khalil, McInerney, Parker and Soares2015). This approach is particularly well-suited to our study because it allows for an exploratory and flexible examination of diverse evidence, identifies key concepts and knowledge gaps and supports the development of future research priorities. The review was conducted in accordance with the Joanna Briggs Institute Methodology for Scoping Reviews (2020) and incorporated the Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) extension for Scoping Reviews Checklist (Tricco et al., Reference Tricco, Lillie, Zarin, O’Brien, Colquhoun, Levac, Moher, Peters, Horsley, Weeks, Hempel, Akl, Chang, McGowan, Stewart, Hartling, Aldcroft, Wilson, Garritty, Lewin, Godfrey, Macdonald, Langlois, Soares-Weiser, Moriarty, Clifford, Tunçalp and Straus2018). The review protocol was published on the Open Science Framework in November 2023 (Registration DOI: 10.17605/OSF.IO/QBPJY).

Eligibility criteria

Peer-reviewed publications in English were included. There were no restrictions on geographical location, year of publication or target population or on design or methodology. Broadly, the scoping review aimed to explore the evidence based on (1) GIS and its various uses in healthcare service delivery (i.e., accessibility, availability and utilization) and (2) MH conditions. Hence, we included any study that 1) used GIS to analyze geographical data and 2) included any MH condition that was diagnosed using one of the following: (a) Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition (DSM-5), or the International Classification of Diseases (ICD) diagnostic criteria; (b) positive screen on a validated screening tool (e.g., 9-item questionnaire for depression [PHQ-9] and 7-item questionnaire for anxiety [GAD-7]); or (c) clinician diagnosis. We excluded studies that solely used global positioning systems (GPSs) or Google Maps for data collection and did not analyze geographical data.

Only studies focusing on service delivery (utilization, accessibility and availability) of healthcare services were included. Healthcare services were defined as any primary, secondary and tertiary health care, as well as community MH services, but not interventions which are not traditionally categorized as health care (e.g., social interventions that improve MH). As mentioned in the introduction, we defined service availability as the physical presence of services and encompassed health infrastructure, core health personnel and aspects of service utilization. Related constructs such as service coverage, treatment capacity and equity in service availability were included under the dimension of availability. Accessibility was defined primarily as geographic accessibility or spatial accessibility, in terms of commuting time spent and distance traversed to reach healthcare services (Penchansky and Thomas, Reference Penchansky and Thomas1981). We were also interested in exploring the relationship of accessibility with help-seeking and treatment adherence. Utilization referred to the quantification or description of the use of healthcare services by people to study trends, patterns, variations or for other objectives (Carrasquillo, Reference Carrasquillo2013). This dimension also conceptually encompassed disparities in service use, hotspots and cold spots and underlying factors influencing doctor visits or hospital admissions.

Although we limited the definition of “accessibility” primarily to its geographic aspect, we are aware that it is a broader concept determined by other factors that affect one’s uptake of health care (Andersen and Newman, Reference Andersen and Newman1973). Thus, we used “utilization” as a separate concept to capture studies which might highlight the direct or indirect use of GIS in analyzing any other aspects of MH service delivery, especially non-spatial ones (e.g., acceptability or affordability of services). We also anticipated that exploring the concept “utilization” could help us discover studies that have used GIS to assess inequity or disparities in care and explain variations in healthcare use.

Primary and secondary research papers of any design and methodology (including quantitative and qualitative designs if any) were included if they met the inclusion criteria. Both experimental and quasi-experimental study designs including randomized controlled trials, non-randomized controlled trials and analytical observational studies (prospective and retrospective cohort studies, case–control studies and analytical cross-sectional studies) were considered for inclusion. This review also considered descriptive observational study designs including case reports, case series and descriptive cross-sectional studies for inclusion. We excluded reviews, commentaries and opinion pieces.

Search strategy

Seven electronic databases were searched: Medical Literature Analysis and Retrieval System Online (MEDLINE), PsycINFO, Excerpta Medica Database (Embase), Global Health, the Cumulative Index to Nursing and Allied Health Literature (CINAHL), Cochrane Central Register of Controlled Trials (CENTRAL) and Web of Science. The search was conducted between January 2024 and April 2024, using search terms under the following concepts: MH conditions (e.g., “depression”) and geographical information systems (e.g., “geospatial analysis”). The detailed search strategy for MEDLINE can be found in Supplementary Appendix A, and the search strategies for the other databases were a modification of this strategy based on the requirement of each database. Forward and backward citation chaining of included studies was conducted using Web of Science to find any additional eligible studies not identified through the database search.

Study selection and data extraction

Search results from all electronic databases were merged and imported into EndNote X9 for the removal of duplicates. After automatic and manual de-duplication, the remaining studies were imported into Covidence, an online software for managing systematic reviews. Papers were also manually screened for duplicates on the Covidence platform. A pair of reviewers (BB and RP) independently screened all titles and abstracts and conducted the full-text screening for eligibility. Conflicts were resolved by a third reviewer (LF).

Forward and backward citation chaining of included studies was conducted at this stage using Web of Science to find any additional eligible studies. A data extraction form was developed a priori on Microsoft (MS) Excel to collect data relevant to the objectives of this review and piloted.

Data were extracted by four pairs of researchers (BB and AS, BB and RP, BB and MGP and BB and AF). Inter-rater reliability among the four pairs of raters for data extraction, as measured by Cohen’s Kappa (κ), was deemed excellent (0.81–0.92). Any disagreements between the reviewers during extraction were resolved through discussion till a consensus was reached.

Data analysis and quality assessment

To effectively summarize the findings in accordance with the objectives of the review, we conducted a narrative synthesis (Popay et al., Reference Popay, Roberts, Sowden, Petticrew, Arai, Rodgers, Britten, Roen and Duffy2006). This involved a descriptive analysis of the studies included in the scoping review, using a textual approach to summarize and explain the results of the synthesis (Popay et al., Reference Popay, Roberts, Sowden, Petticrew, Arai, Rodgers, Britten, Roen and Duffy2006). Studies were categorized under service delivery dimensions, and the processes of GIS usage were described. In line with guidelines for scoping reviews (Peters et al., Reference Peters, Godfrey, Khalil, McInerney, Parker and Soares2015), we did not conduct quality assessments of the included studies.

Results

Search results are summarized in Figure 1. Of the 8,142 reports identified, 1945 were duplicates. From the remaining 6,197 papers, we excluded 6,092 that did not meet eligibility criteria at the title and abstract screening stage. In total, 105 full texts were assessed for eligibility. Two studies were excluded at this stage because their objectives did not align with our predefined service delivery dimensions instead focusing on spatial patterns in the prevalence of MH conditions. Based on our eligibility criteria, 47 studies were eligible for inclusion. The forward and backward citation chaining process identified 11 additional eligible studies, leading to a total of N = 58.

Figure 1. PRISMA flow diagram of included and excluded studies.

Study characteristics (Table 1)

Table 1. Summary characteristics of included studies

The 58 included studies were published between 1998 and 2024, with most publications (n = 45 of 58, 77.9%) clustered between 2014 and 2024. The wide majority of studies were conducted in high-income countries (n = 53, 91.4%), with most (n = 41, 70.7%) originating from the United States. Two studies emerged from upper-middle-income countries (South Africa and China) (Bhana and Pillay, Reference Bhana and Pillay1998; Pang and Lee, Reference Pang and Lee2008) and three from lower-middle-income countries (Nigeria, India and Sri Lanka) (Otun, Reference Otun2016; Rajapakshe et al., Reference Rajapakshe, Edirisuriya, Sivayogan and Kulatunga2019; Roberts et al., Reference Roberts, Shiode, Grundy, Patel, Shidhaye and Rathod2020). The wide majority (n = 56, 96.6%) employed a cross-sectional design, with two exceptions: one utilizing a prospective chart review (Klimas et al., Reference Klimas, O’Reilly, Egan, Tobin and Bury2014) and the other using both longitudinal and cross-sectional methods (Cantor et al., Reference Cantor, DeYoreo, Hanson, Kofner, Kravitz, Salas, Stein and Kapinos2022). None of the studies reported the use of GIS in MH trials. The data used came from a variety of settings including inpatient, outpatient, emergency departments (EDs), community-based settings and primary care settings. Most (n = 32, 55.2%) examined substance-use disorders (SUDs) (mainly opioid use disorders [OUDs]), while others also focused on serious mental illness (e.g., schizophrenia) and common mental disorders (e.g., depression and anxiety). The significant number of papers that focused on SUDs mainly examined OUDs and associated treatment, including medication-assisted treatment (MAT) options (methadone, buprenorphine and naloxone distribution), opioid treatment programs in various settings (clinics and pharmacies) and outpatient treatment for OUD.

Accessibility was the most frequently examined service delivery dimension, with 46 out of 58 studies focusing on this aspect, followed by availability (n = 6) and utilization (n = 6). Types of GIS analysis utilized included variations of spatial analysis (descriptive spatial analysis, spatial regression models and spatiotemporal analysis), hotspot analysis, network analysis, 2-step floating catchment area (2SFCA) method, drive-time comparisons and cluster analysis. Sources of data included provider/specialist directories, Substance Abuse and Mental Health Services Administration (SAMHSA) database, community surveys, inpatient databases, ED databases and census data.

Figure 2 illustrates the conceptual framework used to organise the review findings. The framework builds on the WHO’s Service Coverage Framework and the Tanahashi model of health service delivery, adapted to mental health and GIS contexts.

Figure 2. The conceptual framework used to organize the review findings. The framework builds on the WHO’s Service Coverage Framework and the Tanahashi model of health service delivery, adapted to mental health and GIS contexts.

The following section summaries the results into the three key dimensions of accessibility, availability and utilization. In a fourth theme (“Impact”), we report studies that examined how a service delivery dimension impacted other treatment outcomes.

Availability

Six studies (Pang and Lee, Reference Pang and Lee2008; Perron et al., Reference Perron, Gillespie, Alexander-Eitzman and Delva2010; Goedel et al., Reference Goedel, Shapiro, Cerdá, Tsai, Hadland and Marshall2020; Sutarsa et al., Reference Sutarsa, Banfield, Passioura, Konings and Moore2021; Nolen et al., Reference Nolen, Zang, Chatterjee, Behrends, Green, Kumar, Linas, Morgan, Murphy, Walley, Yan, Schackman and Marshall2022; Oluyomi et al., Reference Oluyomi, Schneider, Christian, Alvarez, Smárason, Goodman and Storch2023) explored availability, generally through measures such as the distribution of facilities across a population and resource availability within 5–10-mile network buffers. Analyses commonly used were hotspot analysis or cluster analysis. Service availability could be further organized as “coverage” and “equity.”

Service coverage

Out of the six, three studies (Pang and Lee, Reference Pang and Lee2008; Sutarsa et al., Reference Sutarsa, Banfield, Passioura, Konings and Moore2021; Nolen et al., Reference Nolen, Zang, Chatterjee, Behrends, Green, Kumar, Linas, Morgan, Murphy, Walley, Yan, Schackman and Marshall2022) explored availability in terms of treatment/service coverage. Nolen et al. (Reference Nolen, Zang, Chatterjee, Behrends, Green, Kumar, Linas, Morgan, Murphy, Walley, Yan, Schackman and Marshall2022) used naloxone coverage ratios (the number of naloxone kits distributed through community-based programs to the number of opioid-related overdose deaths among its residents) to determine if US municipalities with high percentages of racial minorities have equitable access to the overdose antidote naloxone (Nolen et al., Reference Nolen, Zang, Chatterjee, Behrends, Green, Kumar, Linas, Morgan, Murphy, Walley, Yan, Schackman and Marshall2022). Pang and Lee (Reference Pang and Lee2008) used district-based geographic coverage to evaluate the methadone treatment program (MTP) in Hong Kong (Pang and Lee, Reference Pang and Lee2008). Sutarsa et al. (Reference Sutarsa, Banfield, Passioura, Konings and Moore2021) investigated the spatial distribution of MH nurses across Australian local government areas by measuring the number of full-time equivalent MH nurses per 1,00,000 people, revealing significant regional disparities (Sutarsa et al., Reference Sutarsa, Banfield, Passioura, Konings and Moore2021).

Equity in service availability

The remaining three studies (Perron et al., Reference Perron, Gillespie, Alexander-Eitzman and Delva2010; Goedel et al., Reference Goedel, Shapiro, Cerdá, Tsai, Hadland and Marshall2020; Oluyomi et al., Reference Oluyomi, Schneider, Christian, Alvarez, Smárason, Goodman and Storch2023) focused on equity in service availability. Two studies (Perron et al., Reference Perron, Gillespie, Alexander-Eitzman and Delva2010; Goedel et al., Reference Goedel, Shapiro, Cerdá, Tsai, Hadland and Marshall2020) attempted to evaluate treatment capacities of particular regions by identifying the distribution of healthcare facilities, determining population covered by service catchment areas and calculating the total number of resources within 5–10-mile Euclidean buffers from patients’ addresses (i.e., straight-line distances from patients’ addresses). One study examined the geographic distribution of OCD CBT speciality providers across the state of Texas, with particular attention to the relationship with neighborhood socioeconomic disadvantage, insurance status and rural versus urban status (Oluyomi et al., Reference Oluyomi, Schneider, Christian, Alvarez, Smárason, Goodman and Storch2023).

Accessibility

Forty-six studies aimed to explore the spatial accessibility of MH services and substance-use treatment facilities using GIS. Accessibility was most commonly defined as the ease with which individuals can reach and utilize MH services. Temporal accessibility, measured by travel time to the nearest MH facility, and spatial accessibility, measured by distance to nearest facility, were generally used measures to assess accessibility, with a small number of studies also using parameters like population within a convenient distance of services (5–10 miles from a facility or within a 30-minute drive from healthcare services). Only one of the studies used the cost of travel as a metric (Han and Stone, Reference Han and Stone2007). Studies relied on usual data sources (census data, the SAMHSA database, community surveys, etc.) occasionally using them alongside databases linked to law or justice departments like the Drug Enforcement Administration (DEA).

Equity in service accessibility

A substantial number of these papers (n = 16) focused on studying equity of services (Bhana and Pillay, Reference Bhana and Pillay1998; Koizumi et al., Reference Koizumi, Rothbard and Kuno2009; Perron et al., Reference Perron, Gillespie, Alexander-Eitzman and Delva2010; Guerrero et al., Reference Guerrero, Pan, Curtis and Lizano2011; López-Lara et al., Reference López-Lara, Garrido-Cumbrera and Díaz-Cuevas2012; Guerrero et al., Reference Guerrero, Kao and Perron2013; Amiri et al., Reference Amiri, Lutz, Socías, McDonell, Roll and Amram2018; Rajapakshe et al., Reference Rajapakshe, Edirisuriya, Sivayogan and Kulatunga2019; Simmons, Reference Simmons2019; Upadhyay et al., Reference Upadhyay, Aparasu, Rowan, Fleming, Balkrishnan and Chen2019; Wani et al., Reference Wani, Wisdom and Wilson2019; Joudrey et al., Reference Joudrey, Chadi, Roy, Morford, Bach, Kimmel, Wang and Calcaterra2020; Langabeer et al., Reference Langabeer, Stotts, Cortez, Tortolero and Champagne-Langabeer2020; Pustz et al., Reference Pustz, Shrestha, Newsky, Taylor, Fowler, Van Handel, Lingwall and Stopka2022; Katayama et al., Reference Katayama, Woldesenbet, Munir, Bryan, Carpenter and Pawlik2023; Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024). Twelve focused on the rural–urban divide of mental healthcare services, using spatial analysis to visually map areas with limited access to MH services with help of rural and urban census tracts (Bhana and Pillay, Reference Bhana and Pillay1998; Koizumi et al., Reference Koizumi, Rothbard and Kuno2009; Perron et al., Reference Perron, Gillespie, Alexander-Eitzman and Delva2010; López-Lara et al., Reference López-Lara, Garrido-Cumbrera and Díaz-Cuevas2012; Amiri et al., Reference Amiri, Lutz, Socías, McDonell, Roll and Amram2018; Upadhyay et al., Reference Upadhyay, Aparasu, Rowan, Fleming, Balkrishnan and Chen2019; Wani et al., Reference Wani, Wisdom and Wilson2019; Joudrey et al., Reference Joudrey, Chadi, Roy, Morford, Bach, Kimmel, Wang and Calcaterra2020; Langabeer et al., Reference Langabeer, Stotts, Cortez, Tortolero and Champagne-Langabeer2020; Pustz et al., Reference Pustz, Shrestha, Newsky, Taylor, Fowler, Van Handel, Lingwall and Stopka2022; Katayama et al., Reference Katayama, Woldesenbet, Munir, Bryan, Carpenter and Pawlik2023; Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024) and generally concluding that rural areas were underserved compared to urban areas. In addition to the usual 30-minute or 60-minute drive times, some studies also used other methods of calculating access like enhanced two-step floating catchment area (E2SFCA) method access score (Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024), 2SFCA technique with a distance decay function (Amiri et al., Reference Amiri, Lutz, Socías, McDonell, Roll and Amram2018), geospatial distance buffering (Langabeer et al., Reference Langabeer, Stotts, Cortez, Tortolero and Champagne-Langabeer2020) and network analysis (Roberts et al., Reference Roberts, Shiode, Grundy, Patel, Shidhaye and Rathod2020). After visually mapping accessibility, two studies used spatial regression techniques to explore associations with socio-demographic factors that further determined healthcare access (Perron et al., Reference Perron, Gillespie, Alexander-Eitzman and Delva2010; Amiri et al., Reference Amiri, Lutz, Socías, McDonell, Roll and Amram2018). The other four studies studied equity of services by focusing on access for vulnerable populations (elderly, ethnic minorities, socio-economically weak groups) (Guerrero et al., Reference Guerrero, Pan, Curtis and Lizano2011; Guerrero et al., Reference Guerrero, Kao and Perron2013; Rajapakshe et al., Reference Rajapakshe, Edirisuriya, Sivayogan and Kulatunga2019; Simmons, Reference Simmons2019). One study used network analysis methods to map dementia care service points geographically with relation to elderly population density (Rajapakshe et al., Reference Rajapakshe, Edirisuriya, Sivayogan and Kulatunga2019). Simmons (Reference Simmons2019) conducted an optimized hotspot analysis to determine which regions were the most underserved in terms of serious mental illness burden and correlated it to neighborhood poverty (Simmons, Reference Simmons2019). Two studies assessed the distance between Latino-populated census tracts and general MH treatment facilities (Guerrero et al., Reference Guerrero, Pan, Curtis and Lizano2011; Guerrero et al., Reference Guerrero, Kao and Perron2013).

Opioid dependence and accessibility of treatment

A number of papers (n = 12) used different methods to explore the same objective: identifying high-risk zones for opioid dependence in the United States and exploring accessibility of emergency services and inpatient and outpatient treatment for the same. Eight studies mapped overdose incidents and compared them to the location of treatment services (ambulance services and methadone/naloxone facilities), highlighting areas of deprivation and concluding that having a treatment facility within 15- and 30-minute drive time from hotspots of overdose deaths was associated with lower risks of overdoses (Kao et al., Reference Kao, Torres, Guerrero, Mauldin and Bordnick2014; Klimas et al., Reference Klimas, O’Reilly, Egan, Tobin and Bury2014; Burrell et al., Reference Burrell, Ethun, Fawcett, Rickard-Aasen, Williams, Kearney and Pringle2017; Taylor et al., Reference Dworkis, Taylor, Peak and Bearnot2017; Dworkis et al., Reference Dworkis, Weiner, Liao, Rabickow and Goldberg2018; Amram et al., Reference Amram, Socías, Nosova, Kerr, Wood, DeBeck, Hayashi, Fairbairn, Montaner and Milloy2019; Iloglu et al., Reference Iloglu, Joudrey, Wang, Thornhill and Gonsalves2021; Anwar et al., Reference Anwar, Duever and Jayawardhana2022). One study tried to obtain an overall risk score by summing distance scores and overdose scores for each town in a state to create a map which approximated the need for additional emergency resources by town (Schneider et al., Reference Schneider, Carlson and Rosenthal2020). After identifying high-risk areas, they further examined how the inaccessibility of resources affects outcomes in patients with OUDs. One study mapped opioid dependence priority areas and areas with low numbers of DEA-waivered practitioners to identify unmet treatment need priority areas and low MAT capacity priority areas (Topmiller et al., Reference Topmiller, Mallow, Vissman and Grandmont2018). Kleinman (Reference Kleinman2020) used population-weighted mean travel time from census tracts to nearest opioid treatment programs and pharmacies, comparing two models of methadone dispensing and demonstrating that pharmacies were more accessible for this purpose than opioid treatment programs (Kleinman, Reference Kleinman2020). Abell-Hart et al. (Reference Abell-Hart, Rashidian, Teng, Rosenthal and Wang2022) identified several hotspots where patients lived far from naloxone/buprenorphine providers (Abell-Hart et al., Reference Abell-Hart, Rashidian, Teng, Rosenthal and Wang2022).

Accessibility and help-seeking

Two studies examined accessibility and its association with demand for care or help-seeking. Bensley et al. (Reference Bensley, Karriker-Jaffe, Cherpitel, Li, Wallisch and Zemore2021) explored the distance and travel time to nearest treatment services (using network analysis) to show that lower service density was associated with a lower likelihood of considering getting help (Bensley et al., Reference Bensley, Karriker-Jaffe, Cherpitel, Li, Wallisch and Zemore2021). Conversely, Roberts et al. (Reference Roberts, Shiode, Grundy, Patel, Shidhaye and Rathod2020) found no association between travel distance and the probability of seeking treatment for depression (Roberts et al., Reference Roberts, Shiode, Grundy, Patel, Shidhaye and Rathod2020).

Accessibility and treatment adherence

Three studies explored the relationship between treatment accessibility and adherence. Two studies concluded that increased distance (>10 miles) was associated with a higher number of missed doses or lower treatment adherence (Amiri et al., Reference Amiri, Lutz, Socías, McDonell, Roll and Amram2018; Amiri et al., Reference Amiri, Lutz, McDonell, Roll and Amram2020), while another used multivariate logistic regression analysis to demonstrate the relationship between travel distance and treatment completion for minority groups (Upadhyay et al., Reference Upadhyay, Aparasu, Rowan, Fleming, Balkrishnan and Chen2019).

Utilization

Six studies examined service utilization patterns (Perlman et al., Reference Perlman, Law, Luan, Rios, Seitz and Stolee2018; Thurston and Freisthler, Reference Thurston and Freisthler2020; Holmes et al., Reference Holmes, Rishworth and King2022; Schwarz et al., Reference Schwarz, Hemmerling, Kabisch, Galbusera, Heinze, von Peter and Wolff2022; Rhew et al., Reference Rhew, Jacklin, Bright, McCarty, Henning-Smith and Warry2023; Winckler et al., Reference Winckler, Nguyen, Khare, Patel, Crandal, Jenkins, Fisher and Rhee2023) with two studies focusing on equity of services or disparities (Holmes et al., Reference Holmes, Rishworth and King2022; Rhew et al., Reference Rhew, Jacklin, Bright, McCarty, Henning-Smith and Warry2023).

Equity in service utilization

Rhew et al. (Reference Rhew, Jacklin, Bright, McCarty, Henning-Smith and Warry2023) studied rural–urban differences in healthcare utilization for older adults with dementia across the state by exploring hospital admission rates and ED visit rates related to dementia, stratified by rurality and regions (Rhew et al., Reference Rhew, Jacklin, Bright, McCarty, Henning-Smith and Warry2023). Holmes et al. (Reference Holmes, Rishworth and King2022) explored disparities in opioid overdose survival and naloxone administration across different counties in Pennsylvania (Holmes et al., Reference Holmes, Rishworth and King2022).

Patterns of service use

Thurston and Freisthler (Reference Thurston and Freisthler2020) examined the frequency and geographic distribution of EMS calls resulting in naloxone administration (Thurston and Freisthler, Reference Thurston and Freisthler2020). Schwarz et al. (Reference Schwarz, Hemmerling, Kabisch, Galbusera, Heinze, von Peter and Wolff2022) studied the extent to which the location of the service user’s home within the catchment area, as well as the distance between the home and the clinic, influences the utilization of two treatment models (inpatient treatment compared to IEHT) (Schwarz et al., Reference Schwarz, Hemmerling, Kabisch, Galbusera, Heinze, von Peter and Wolff2022). Winckler et al. (Reference Winckler, Nguyen, Khare, Patel, Crandal, Jenkins, Fisher and Rhee2023) measured the rate of MH visits per 1,000 children in specific geographic regions (census tracts) to assess the extent to which MH services were being accessed and used by the target population with the aim of identification of high utilization for the pediatric population (Winckler et al., Reference Winckler, Nguyen, Khare, Patel, Crandal, Jenkins, Fisher and Rhee2023). Perlman et al. (Reference Perlman, Law, Luan, Rios, Seitz and Stolee2018) examined the geographic variation in MH service utilization in Toronto at the neighborhood level identifying hotspots and cold spots, spatial patterns and underlying factors measured by doctor visits and hospital admissions (Perlman et al., Reference Perlman, Law, Luan, Rios, Seitz and Stolee2018).

Impact

Seven studies examined how a service delivery dimension (availability, accessibility or utilization) impacted other outcomes (Kleinman, Reference Kleinman2020; Thurston and Freisthler, Reference Thurston and Freisthler2020; Wei and Chan, Reference Wei and Chan2021; Alibrahim et al., Reference Alibrahim, Marsh, Amaro, Kong, Khachikian and Guerrero2022; Cantor et al., Reference Cantor, DeYoreo, Hanson, Kofner, Kravitz, Salas, Stein and Kapinos2022; Schwarz et al., Reference Schwarz, Hemmerling, Kabisch, Galbusera, Heinze, von Peter and Wolff2022; Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024).

Program or policy evaluation

Thurston and Freisthler (Reference Thurston and Freisthler2020) examined the frequency and geographic distribution of EMS calls resulting in naloxone administration and identified clusters of naloxone events (Thurston and Freisthler, Reference Thurston and Freisthler2020). They eventually concluded that spatial clusters crossed administrative boundaries (i.e., county lines) suggesting that opioid misuse was less responsive to county-level policies. Cantor et al. (Reference Cantor, DeYoreo, Hanson, Kofner, Kravitz, Salas, Stein and Kapinos2022) assessed the proportion of individuals who had a SUD treatment facility within a 15-minute drive that accepted their specific form of payment – Medicaid, private insurance or cash (Cantor et al., Reference Cantor, DeYoreo, Hanson, Kofner, Kravitz, Salas, Stein and Kapinos2022). The study found that Medicaid beneficiaries faced lower geographic accessibility to SUD treatment services, primarily because fewer facilities accepted Medicaid compared to other payment types.

Impact on treatment choices

Five studies showed how accessibility influenced treatment choices (Kleinman, Reference Kleinman2020; Wei and Chan, Reference Wei and Chan2021; Alibrahim et al., Reference Alibrahim, Marsh, Amaro, Kong, Khachikian and Guerrero2022; Schwarz et al., Reference Schwarz, Hemmerling, Kabisch, Galbusera, Heinze, von Peter and Wolff2022; Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024). One study compared driving time from zip codes of patients to treatment facilities to show that higher accessibility was observed for counseling services than methadone services (Alibrahim et al., Reference Alibrahim, Marsh, Amaro, Kong, Khachikian and Guerrero2022). Wei and Chan (Reference Wei and Chan2021) compared the distance between the patients’ residence and treatment centers to discover that patients living closer to the treatment center were more likely to choose methadone as treatment, while patients living farther away were more likely to choose sublingual buprenorphine tablets (Wei and Chan, Reference Wei and Chan2021). Another study investigated the extent to which the location of the service user’s home within the catchment area, as well as the distance between the home and the clinic, influences the utilization of inpatient treatment compared to inpatient equivalent home treatment (IEHT) (Schwarz et al., Reference Schwarz, Hemmerling, Kabisch, Galbusera, Heinze, von Peter and Wolff2022). Kleinman (Reference Kleinman2020) used population-weighted mean travel time from census tracts to nearest opioid treatment programs and pharmacies, comparing two models of methadone dispensing and demonstrating that pharmacies were more accessible for this purpose than opioid treatment programs (Kleinman, Reference Kleinman2020). Charlesworth et al. (Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024) examined access to MH prescribers and non-prescribers in rural areas and found that mental healthcare delivery in rural settings often relied on non-prescribers, owing to limited access to Medicaid-participating prescribers (Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024).

Discussion

To our knowledge, this is the first scoping review to comprehensively synthesize how GISs have been applied across three core dimensions of MH service delivery spanning diverse populations, settings and geographical regions. Our review builds upon previous literature by moving beyond a narrow focus on serious mental illness and accessibility to encompass a broader spectrum of MH conditions and service delivery dimensions. The findings not only demonstrate a growing literature in GIS applications of MH service delivery but also point to a highly uneven distribution of research (both thematically and geographically) with a concentration of studies in high-income countries and a predominant focus on spatial accessibility. This review has identified several underexplored areas in the application of GIS that have the potential to advance MH service planning and delivery globally, including its use in designing and monitoring clinical trials, supporting implementation research and informing advocacy strategies.

Current scope and patterns of use across studies

About one-third of eligible studies across all three themes had primary objectives related to resource management and planning, focusing on identifying high-risk zones or priority areas for opioid dependence, hotspots of overdose deaths or unmet treatment needs, mapping them against areas where treatment services or providers are located. Treatment or service coverage, another metric of importance to resource planning, was explored by conducting spatial analyses of services delivered in comparison with the target population. In addition to quantifying service gaps, studies focused on this theme also suggested potential interventions, such as expanding treatment infrastructure or modifying service delivery models to enhance access.

Another emerging focus that is consequential for resource allocation was studying equity of services (n = 25), which was explored by looking at disparities in service delivery for marginalized populations and rural/urban areas. Furthermore, these studies explored structural inequities by assessing associations between spatial healthcare access and socioeconomic indicators, race/ethnicity and insurance status, highlighting systemic barriers and advocating for equity-driven policy reforms.

Some studies used GIS for program evaluation or policy impact assessment, like comparing two different models of methadone maintenance programs (Iloglu et al., Reference Iloglu, Joudrey, Wang, Thornhill and Gonsalves2021) and the restrictive payment model of Medicaid (Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024), often suggesting equity-informed interventions and changes in policy (Kleinman, Reference Kleinman2020; Cantor et al., Reference Cantor, DeYoreo, Hanson, Kofner, Kravitz, Salas, Stein and Kapinos2022).

The strength of existing databases and electronic health records emerged as a major determinant of GIS usage, which could possibly explain why only three studies were conducted in low- and middle-income countries (LMICs) (Otun, Reference Otun2016; Rajapakshe et al., Reference Rajapakshe, Edirisuriya, Sivayogan and Kulatunga2019; Roberts et al., Reference Roberts, Shiode, Grundy, Patel, Shidhaye and Rathod2020). GIS applications in MH research relied heavily on existing databases, including census data, provider directories, community surveys and law enforcement databases. Some of these databases also helped facilitate real-time tracking of healthcare trends, enabling analysis without the need for additional primary data collection. The integration of multiple data sources, such as the SAMHSA database, DEA reports and ED records, allowed for a more comprehensive analysis of MH service distribution (Topmiller et al., Reference Topmiller, Mallow, Vissman and Grandmont2018; Kleinman, Reference Kleinman2020; Iloglu et al., Reference Iloglu, Joudrey, Wang, Thornhill and Gonsalves2021; Abell-Hart et al., Reference Abell-Hart, Rashidian, Teng, Rosenthal and Wang2022; Charlesworth et al., Reference Charlesworth, Nagy, Drake, Manibusan and Zhu2024). Interdisciplinary approaches, such as combining healthcare data with law enforcement statistics, helped studies enhance the scope of their analysis and provide a multidimensional perspective on MH service accessibility and availability (Adelfio et al., Reference Adelfio, Kain, Stenberg and Thuvander2019).

The predominance of opioid-related GIS studies conducted in the United States could be explained by the presence of strong surveillance infrastructure and the policy urgency surrounding the opioid epidemic. Federal databases such as the Centers for Disease Control and Prevention’s (CDC) overdose surveillance and SAMHSA’s treatment facility directories provide high-resolution, publicly available spatial data, enabling fine-grained analyses rarely possible elsewhere. The national prioritization of the opioid crisis has also channeled research funding and policy attention toward this issue, creating a disproportionate body of US-based GIS evidence compared to other MH domains or regions.

Gaps in evidence and future scope of use

While GIS offers powerful tools for studying MH service delivery, existing GIS research in MH is constrained by methodological simplifications that limit cross-context transferability. Many studies assessing temporal accessibility measure travel time in terms of drive times to the nearest facility, implicitly assuming uniform transportation modes and potentially overlooking barriers faced by individuals reliant on public transport. The absence of measures that capture economic or cost-related barriers (such as transportation costs, time lost from work or out-of-pocket expenses) can lead to overestimation of true or effective access, as financial burdens may remain prohibitive despite apparent geographic proximity. Similarly, studies examining service availability often assume that proximity equates to access, ignoring capacity constraints, wait times or service saturation. It is also important to consider that the relevance of geographic location could differ across service types: For emergency services, such as opioid overdose treatment, rapid access is critical, whereas for non-emergency MH services, factors like privacy, stigma or patient comfort may make discrete or neutral service locations preferable to simply prioritizing proximity. Additionally, an exclusive focus on geographic distance may fail to capture other determinants of service use, such as stigma, privacy concerns or service acceptability, as highlighted by Cantor et al. (Reference Cantor, DeYoreo, Hanson, Kofner, Kravitz, Salas, Stein and Kapinos2022), who demonstrated that mapping services without considering payment acceptance could misrepresent true access.

Considering cultural or behavioral determinants of service delivery or integrating multiple dimensions (such as triangulating service utilization with availability) can provide a more accurate picture of true treatment capacity and better reflect the complexity of real-world service provision. Additionally, qualitative research can help elucidate the socio-cultural mechanisms underlying spatial patterns of service delivery, offering nuanced explanations for disparities observed through GIS analyses. Most GIS studies in the review offer static, cross-sectional snapshots of accessibility, overlooking how service reach and population mobility shift over time in response to policy changes, service expansion or closure and seasonal fluctuations in demand. Integrating longitudinal spatial analyses could help capture these temporal dynamics, offering a more realistic representation of equity in access to MH services.

More than 90% of the studies included in this review were conducted in high-income or upper-middle-income countries. The few studies conducted in LMICs leveraged existing administrative datasets or community surveys to generate actionable insights, demonstrating that creative use of available resources can support service planning and policy decisions. Future research in LMICs could build on these approaches by integrating multiple data sources, using open-source geographic data or applying community-driven mapping to expand GIS applications.

A major gap observed in this review was the lack of GIS usage in designing or monitoring trials related to MH service delivery. GIS can optimize recruitment strategies for clinical trials by identifying and targeting specific geographic areas with high prevalence of MH conditions or low service utilization. This can improve inclusivity of trial samples and reflect real-world dynamics (Krzyzanowski et al., Reference Krzyzanowski, Manson, Eder, Kne, Oldenburg, Peterson, Hirsch, Luepker and Duval2019). Furthermore, GIS can help understand and address geographic barriers to participation and retention in trials, such as transportation difficulties or lack of local resources, increasing the external validity of trials (Arnold et al., Reference Arnold, Rerolle, Tedijanto, Njenga, Rahman, Ercumen, Mertens, Pickering, Lin, Arnold, Das, Stewart, Null, Luby, Colford, Hubbard and Benjamin-Chung2024). It could also help in adopting more pragmatic approaches to trials, by informing adaptive trial designs and allowing for dynamic allocation of resources based on geographic disparities in service access (Savoca et al., Reference Savoca, Ludwig, Jones, Jason Clodfelter, Sloop, Bollhalter and Bertoni2017). It can be used to plan and monitor the delivery of community interventions within a trial (Nadkarni et al., Reference Nadkarni, Gandhi, Fernandes, Mirchandani, Kamat, Weiss, Singla, Velleman, Lu, Bhatia, Biswal, Sequeira, D’souza, Raikar and Patel2024). For example, it can help ensure equitable distribution of resources across different geographic areas and track intervention implementation in real time.

There is also scope for expanding GIS usage in MH implementation research, specifically in leveraging it to support integration and coordination of MH services across different sectors (e.g., health care, social services and education). Mapping the distribution of services and identifying gaps in coverage can help improve service linkages and reduce fragmentation of care. It can also identify coordination gaps between primary care, specialized MH facilities and social support systems (Reference Khashoggi and MuradKhashoggi and Murad 2020). GIS can enable monitoring of implementation outcomes of new programs and policies, providing real-time data on service delivery, utilization and outcomes. This information can be used to identify implementation challenges and make necessary adjustments to improve program effectiveness, helping us learn on the go and fundamentally transforming implementation research (Scotch et al., Reference Scotch, Parmanto, Gadd and Sharma2006; McGinty et al., Reference McGinty, Alegria, Beidas, Braithwaite, Kola, Leslie, Moise, Mueller, Pincus, Shidhaye, Simon, Singer, Stuart and Eisenberg2024).

The visual impact of GIS mapping has a strong potential in shaping public health policies and advocacy strategies (Davenhall and Kinabrew, Reference Davenhall, Kinabrew, Kresse and Danko2012; Manjunatha et al., Reference Manjunatha, Madhu, Sahana, Suraj, Mounika Sree, Chaithra and Kameshwari2024). Geospatial representations of treatment gaps, inequities and high-risk zones can provide compelling evidence to justify targeted funding allocations for MH infrastructure in underserved areas. GIS-based spatial equity audits could build a case to demand adjustments of service coverage to ensure marginalized communities are not disproportionately affected by service unavailability (Sharma and Ramesh, Reference Sharma and Ramesh2024). Participatory or community-driven mapping can also be used to advocate for policy reforms addressing systemic disparities and decentralization of MH services, ensuring that rural and remote populations have better access to care (Douglas et al., Reference Douglas, Subica, Franks, Johnson, Leon, Villanueva and Grills2020).

Governments, funders and policymakers can take concrete steps to harness the potential of GIS for equitable MH service delivery. Integrating GIS into national health information systems could enable continuous monitoring of geographic inequities in MH service provision. Training policymakers and planners to interpret and apply GIS data in decision-making can help bridge the gap between technical analysis and governance. In parallel, funding agencies should invest in GIS-based implementation research (particularly in LMICs) promoting the use of open-source tools and participatory, community-engaged approaches.

Another consideration for future research and practice could be the use of interdisciplinary approaches in studying MH service delivery. The intersection of GIS with machine learning and MH sciences offers promising avenues for predictive analytics and precision MH (Kamel Boulos et al., Reference Kamel Boulos, Peng and VoPham2019; Li and Ning, Reference Li and Ning2023; Fadiel et al., Reference Fadiel, Eichenbaum, Abbasi, Lee and Odunsi2024). For example, spatial–temporal artificial intelligence (AI) models could predict future service demand based on socioeconomic shifts, urbanization trends or climate change effects. Integration with mobile health (mHealth) tools could personalize treatment pathways based on an individual’s geographic constraints. Legal and policy studies could utilize GIS to assess the impact of health policy changes on service accessibility over time.

Limitations of the review

There are a number of limitations to our findings and review process. Our findings are presented descriptively as is typical for scoping reviews. We did not include gray literature or publications in languages other than English in our search, which may bias our results. Finally, we restricted the scope of the review to healthcare services, excluding preventive or promotional care delivered in other settings.

Conclusion

GIS has the potential to emerge as a powerful tool in MH research, particularly in mapping disparities, informing service delivery and identifying high-risk zones. However, the existing literature remains concentrated in high-income settings, underscoring the need for context-specific applications in LMICs. Additionally, expanding GIS use in trial design, implementation science and policy advocacy could help bridge critical gaps in MH service delivery, ensuring more equitable and data-driven decision-making. We hope this scoping review provides researchers, policymakers and service providers with an orientation to the current scope of GIS applications in MH service delivery and offers a foundation for advancing this work in diverse and underrepresented contexts.

Open peer review

To view the open peer review materials for this article, please visit http://doi.org/10.1017/gmh.2025.10088.

Supplementary material

The supplementary material for this article can be found at http://doi.org/10.1017/gmh.2025.10088.

Data availability statement

Data availability is not applicable to this article as no new data were created or analyzed in this study.

Author contribution

AN, VP, RV and DRS substantially contributed to the conception or design of the work. BB, RP, AKS, MGP, LF, YG and AF substantially contributed to the acquisition, analysis or interpretation of data for the work. BB, RP, AKS, MGP, LF, YG, DRS, AF, RV, VP, CL, CG, UB and AN drafted the work or revised it critically for important intellectual content. BB, RP, AKS, MGP, LF, YG, DRS, AF, RV, VP, CL, CG, UB and AN finally approved the version to be published. BB, RP, AKS, MGP, LF, YG, DRS, AF, RV, VP, CL, CG, UB and AN agreed to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.

Financial support

This study was a part of the IMPlementation of evidence-based facility and community interventions to reduce the treatment gap for depRESSion (IMPRESS) program that has been funded through a grant from the National Institute of Mental Health (NIMH), United States (Grant Number R01MH115504).

Competing interests

The authors declare none.

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Figure 0

Figure 1. PRISMA flow diagram of included and excluded studies.

Figure 1

Table 1. Summary characteristics of included studies

Figure 2

Figure 2. The conceptual framework used to organize the review findings. The framework builds on the WHO’s Service Coverage Framework and the Tanahashi model of health service delivery, adapted to mental health and GIS contexts.

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Author comment: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R0/PR1

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr1 [Opens in a new window]
Abhijit Nadkarni [Opens in a new window] London School of Hygiene & Tropical Medicine, United Kingdom of Great Britain and Northern Ireland
Revision round: 0
Role: author

Comments

To

Professor Judy Bass and Professor Dixon Chibanda,

Editor in Chief

PLOS Global Public Health

Subject: Submission of Manuscript – “The use of Geographic Information Systems (GIS) in studying mental health service delivery: A Scoping Review”

Dear Prof Bass and Prof Chibanda,

I am pleased to submit our manuscript entitled “The use of Geographic Information Systems (GIS) in studying mental health service delivery: A Scoping Review” for consideration of publication in the Global Mental Health journal.

This manuscript presents the first comprehensive scoping review of Geographic Information Systems (GIS) applications in mental health service delivery, systematically mapping the breadth and nature of existing literature across three core service delivery dimensions: availability, accessibility, and utilization. Our review synthesizes findings from 58 peer-reviewed studies, highlighting both the methodological diversity and the significant gaps in current research—particularly the underrepresentation of low- and middle-income countries (LMICs) and the predominance of spatial accessibility as a research focus. By identifying emerging directions and opportunities for GIS in mental health research, implementation science, and policy advocacy, our study offers a timely resource for researchers, policymakers, and practitioners aiming to advance equitable and data-driven mental health service planning globally.

While GIS has been widely applied in general public health for mapping service disparities and informing resource allocation, its use in mental health service delivery has remained limited and fragmented. Previous reviews have focused narrowly on serious mental illness or single service dimensions. Our review builds on and extends this literature by encompassing a broader range of mental health conditions, service settings, and research objectives, and by critically appraising both the strengths and limitations of GIS methodologies in this context.

We have had no prior interactions with the journal regarding this manuscript. The work is original, has not been published elsewhere, and is not under consideration by any other journal.

We believe this manuscript aligns closely with the mission of the Global Mental Health journal to publish rigorous, interdisciplinary research addressing global health challenges and promoting equity in health systems. We hope our findings will stimulate further research and practical applications of GIS in mental health, especially in underrepresented settings.

Thank you for considering our submission. We look forward to your response.

Sincerely,

Abhijit

Review: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R0/PR2

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr2 [Opens in a new window]
Reviewer_1
Date of review:  07 September 2025
Revision round: 0
Role: reviewer
Recommendation/decision: major-revision

Conflict of interest statement

No Competing interests to declare

Comments

Overall, this review provides a comprehensive and timely overview of Geographic Information Systems (GIS) in mental health service delivery. This field offers significant potential for exploration due to its policy and practice implications. Although previous work exists, synthesis has been limited. Grounded in Joanna Briggs Institute methodology, the paper benefits from a pre-registered protocol (OSF DOI provided). The inclusion of 58 studies highlights significant trends, such as the overrepresentation of data from wealthier nations. It lays a solid foundation for further research. Professionals in global mental health, health systems, and digital health will find this manuscript useful. However, some areas would benefit from adjustments to optimise clarity, transparency, and impact.

Major Issues

Framing and Originality (Introduction)

The introduction does a decent job of placing GIS in the broader context of public health. However, it might benefit from a stronger emphasis on *why* its application in mental health service delivery has lagged behind other areas of healthcare. Clarify the added value. What does this review provide that Smith-East & Neff (2020) do not? Consider positioning it as a primary focus: addressing availability, accessibility, and utilisation globally, across the board.

Scope and Definitions (Methods)

Definitions of availability, accessibility, and utilisation are provided. However, they sometimes become unclear (for example, is *this* accessibility, or *that* utilisation?). Clarify the definitions and ensure consistent application throughout Results and Discussion.

Transparency of Screening and Selection

The PRISMA flow diagram is there, which is good. But, adding more detail about *why* full-text articles were excluded would improve reproducibility. A supplementary table listing excluded studies, *with reasons why*, would be helpful.

Depth of Critical Analysis (Results and Discussion)

The Results section is mainly descriptive, which is fine for a scoping review. The Discussion, however, could go deeper. For instance:

Why *specifically* are GIS applications so focused on opioid-related studies in the US?

What methodological weaknesses (e.g., drive-time measures, a lack of integrated cost/accessibility data) limit the extent to which we can apply these findings?

How do cultural and healthcare system differences impact the transfer of GIS methods from one location to another?

Equity Considerations

Equity keeps emerging as a theme, but we could further develop the analysis. How does GIS specifically highlight inequities in LMICs, and what implications does this have for implementation science and health policy in the future? Explain *how* GIS might reduce inequalities in mental health care access, especially in settings with limited resources.

Policy and Practice Recommendations

The conclusion makes some bold claims about GIS being a “powerful tool.” That’s fair, but the recommendations could be more concrete. Offer some actionable steps. For example, integrating GIS into national health information systems, training policymakers, or prioritising research funding in LMICs.

Minor Issues

Language and Readability

Generally, the language is strong. However, sentences can be lengthy with many references packed in. Editing for conciseness could enhance the flow.

Terminology Consistency

The manuscript jumps between “substance use disorders,” “opioid use disorder,” and “opioid-related overdose.” Consistently use one term throughout.

Figures and Tables

Table 1 is very detailed, possibly to an excessive degree. Consider splitting it into multiple tables (accessibility, availability, utilisation, etc.) to improve clarity.

References

Some recent digital health and GIS methodological references (2022–2024) should be added. Focus particularly on AI-enhanced spatial modelling and open-source GIS. tools that are appropriate for LMICs.

Review: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R0/PR3

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr3 [Opens in a new window]
Date of review:  18 September 2025
Revision round: 0
Role: reviewer
Recommendation/decision: major-revision

Conflict of interest statement

Reviewer declares none.

Comments

This paper provides an overview of the use of GIS in analysing the availability, accessibility, and utilisation of mental health services. The scoping review appears to have been well-conducted, following recommended practice for scoping reviews and using a comprehensive search strategy. However, I believe that some edits to the manuscript could make it into a much more useful resource for the field.

The introduction introduces the concepts of availability, accessibility, and utilization. However the results section also includes uses multiple other related concepts, including service coverage/treatment coverage, help-seeking, various dimensions of equity, and treatment choices. It would have been helpful to more clearly spell out in the introduction how these fit into your taxonomy of service delivery dimensions, potentially using a figure or diagram to illustrate the theoretical framework used to organise the review and show which of the various terms used in the included studies are considered to be synonymous or overlapping.

The aims and methods are generally clear and well-described. The aims could be rephased slightly to avoid ambiguity (lines 147-149); i.e. specifying that you are examining the literature on the use of GIS as applied to mental health care (rather than exploring the use of GIS in analysing healthcare and the literature on mental health conditions). I was surprised by the inclusion of qualitative studies, since the phenomena of interest are quantitatively defined, so I think this needs some justification (and if there is genuinely a role for GIS in qualitative studies of mental health service availability/accessibility/utilization but no such studies were found then this deserves some mention in the discussion). I was curious about the two studies that were excluded because they were not focused on the three dimensions of service delivery – what was GIS used for in these cases? Spelling this out could shed light on the boundaries of how these terms are operationalised and whether relevant literature exists that uses alternative conceptual frameworks.

The individual results are clearly described, but could be organised in a clearer and more logical way. The accessibility heading is repeated twice. Some sub-headings could be rephrased to be more precise (e.g. “equity of services” is repeated under various sections – edit to be clear which aspect of equity this refers to in each case? Services can obviously be equitably distributed in space but still not be equitable in the service that they provide). Linked to the point above, the conceptual distinction between utilization, help-seeking, treatment coverage, and treatment choices is not always clear and could be made more explicit. Elaborating on the conceptual framework further and aligning this with the organisation of results and corresponding sub-headings would help the reader to connect the content and follow the flow of the results. In some cases it’s unclear to me why a study has been categorised under the heading used; e.g. should the Holmes et al (2022) paper have been included under the “impact” heading, since it investigated opioid overdose survival? Some of the studies classified under “impact on treatment choices” seem to investigate accessibility of different types of facility rather than patient choices about type of treatment, based on the description in the text (e.g. the Alibrahim et al 2022 study, lines 444-447; the Kleinman 2020 study, lines 453-457; and possibly the Charlesworth 2024 study; lines 457-460). It was also unclear how “cost of travel” was operationalised spatially (Han and Stone 2007) – presumably most studies that focussed on travel cost were excluded as they did not use geographic methods (in which case I would not highlight this as a finding).

There are many missed opportunities in the discussion to highlight what GIS can and can’t do to advance the field of mental health services research, so I think that rewriting this would make the paper substantially more useful to other researchers considering applying GIS to study access to mental health services. It would be useful for the first paragraph of the discussion to briefly list the underexplored areas identified (rather than simply state that there were identified). Similarly the statement that the review has identified emerging methodological directions that can advance mental health service research would be more substantive if these were elaborated; perhaps this could be rephrased to say that in the following paragraphs you will discuss the potential applications of the methods used, to show which have promise in advancing mental health service research beyond the limited conditions and geographic regions studied to date. It would be very helpful for the discussion to briefly spell out what the methods mentioned in the results can do; for example, what sorts of research questions require spatial regression techniques to answer? What questions can E2SFCA methods address, when applied to mental health services research?

At the moment there is no discussion of the assumptions made in the studies and the potential for GIS studies to mislead if these assumptions are not critically examined (e.g. do some methods assume that everyone drives, and would they come to different conclusions if they were based on assessing public transport routes? Are the datasets used to measure utilization etc generally reliable? Do the studies assume that services have unlimited capacity if they are geographically accessible (i.e. having a service within a given radius is taken to indicate availability regardless of how over-subscribed they may be) and if not how did they factor service capacity in to their models? To what extent to the included studies capture both public and private services, and use of general health services for mental health reasons (e.g. GP consultations about mental health) and what should future research learn from the methods used in the literature to date to conduct robust analyses of access to mental health care? There is always a risk that enthusiasm for shiny new methods distract from more basic questions, leading to misleading findings when key assumptions are overlooked because of the sophistication of the analysis techniques applied. This review could help to improve GIS research on mental health services by noting not only the potential applications of these methods but also the limitations of the methods used, and provide a reminder that looking at distance alone can produce misleading results (as demonstrated by the Cantor 2022 study that explored whether the available facilities accepted the forms of payment that service users had access to).

I would have liked to see some recommendations for how to expand the use of GIS in LMIC, potentially by exploring how the included studies managed to employ it despite limited existing databases, to help others to apply similar approaches or build on these methods. It would also be helpful to discuss the ways in which geographic location matters in different ways for different conditions, especially given the predominance of opoid overdose treatment studies. Treating overdoses relies on people being able to reach a service quickly in an emergency situation, whereas the way in which people interact with non-emergency mental health services differs substantially. In the latter case, having services located in a discrete location where they’re not likely to bump into people they know might be preferable to having services as close as possible to patients’ homes.

The point about GIS use in trials is a good one, but could perhaps have been highlighted earlier (by including study types in the table of study characteristics and noting the absence of trials in the text on study characteristics) so that this finding isn’t introduced for the first time in the discussion. The statement that about one third of studies explored objectives related to resource management and planning is confusing; how was this classified? I’m not sure I could identify which these are based on the manuscript. Surely the ultimate point of all of the analyses is to inform resource allocation decisions? Similarly, I’m not sure how studies were classified as using GIS for program evaluation (documenting the impact of the Medicaid model of payment is arguably not program evaluation). Note that the finding that >90% of studies were from high-income or upper-middle-income countries is not a limitation of the review; it is a finding based on the existing evidence (and the idea that generalisability of findings is limited by this doesn’t make sense in the context of a scoping review, since you are not drawing conclusions about a specific question but simply mapping the evidence base).

Finally, there are a few issues of grammar and formatting that need addressing prior to publication:

• The numbering of sub-headings within the results section is not consistent (I. Accessibility, II. Availability, III. Accessibility, no number for the “Utilization” sub-heading)

• Some minor typos need correcting (e.g. line 162 should say “this encompasses”). The sentence on line 490 needs to be rephrased (“by correlating spatial healthcare access with socioeconomic indicators” - replace with “by assessing associations between”?)

• References are needed for the software used (Endnote/Covidence)

• I would recommend including a brief definition of any terms that will not be familiar to those who are new to spatial methods (e.g. Euclidean)

• Date missing for Sharma and Ramesh reference on line 546

Recommendation: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R0/PR4

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr4 [Opens in a new window]
Siham Sikander [Opens in a new window] Department of Primary Care & Mental Health , University of Liverpool, UK, United Kingdom of Great Britain and Northern Ireland
Date of review:  22 September 2025
Revision round: 0
Role: Handling Editor
Recommendation/decision: major-revision

Comments

We have now received comments from reviewers on your manuscript. Based on their comments and suggestions we have reached a decision and recommend major revisions to your manuscript. Attached are reviewer comments for you to address and respond to.

Decision: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R0/PR5

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr5 [Opens in a new window]
Judith Bass [Opens in a new window] Johns Hopkins University Bloomberg School of Public Health, United States
Revision round: 0
Role: Editor in Chief
Recommendation/decision: major-revision

Comments

No accompanying comment.

Author comment: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R1/PR6

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr6 [Opens in a new window]
Abhijit Nadkarni [Opens in a new window] London School of Hygiene & Tropical Medicine, United Kingdom of Great Britain and Northern Ireland
Revision round: 1
Role: author

Comments

No accompanying comment.

Review: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R1/PR7

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr7 [Opens in a new window]
Date of review:  21 October 2025
Revision round: 1
Role: reviewer
Recommendation/decision: accept

Conflict of interest statement

Reviewer declares none.

Comments

Thank you for the thoughtful responses to my comments. I believe that the edits have addressed all of my feedback and am happy to recommend the manuscript for publication.

Recommendation: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R1/PR8

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr8 [Opens in a new window]
Siham Sikander [Opens in a new window] Department of Primary Care & Mental Health , University of Liverpool, UK, United Kingdom of Great Britain and Northern Ireland
Date of review:  24 October 2025
Revision round: 1
Role: Handling Editor
Recommendation/decision: accept

Comments

Dear Authors

We have reviewed the revisions you made to the manuscript and we accept the revised manuscript for publication.

Regards

Siham

Decision: The use of geographic information systems (GIS) in studying mental health service delivery: A scoping review — R1/PR9

Published online by Cambridge University Press:  11 November 2025
DOI: https://doi.org/10.1017/gmh.2025.10088.pr9 [Opens in a new window]
Judith Bass [Opens in a new window] Johns Hopkins University Bloomberg School of Public Health, United States
Revision round: 1
Role: Editor in Chief
Recommendation/decision: accept

Comments

No accompanying comment.