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A Longitudinal Study of Hospital Safety From Disasters in Kermanshah Province, Iran: Insights for Disaster Risk Reduction

Published online by Cambridge University Press:  29 April 2024

Vahid Ghanbari Open the ORCID record for Vahid Ghanbari [Opens in a new window] ,
Yaghob Hidari ,
Nader Salari ,
Joseph Kimuli Balikuddembe ,
Ehsan Rahimi  and
Leili Rostamnia
Vahid Ghanbari
Affiliation:
Emergency Nursing Department, School of Nursing and Midwifery, Kermanshah University of Medical Sciences, Kermanshah, Iran
Yaghob Hidari
Affiliation:
Treatment deputy, Kermanshah University of Medical Sciences, Kermanshah, Iran
Nader Salari
Affiliation:
Department of Biostatistics, School of Health, Kermanshah University of Medical Sciences, Kermanshah, Iran
Joseph Kimuli Balikuddembe
Affiliation:
Institute for Disaster Management and Reconstruction, Sichuan University and Hong Kong Polytechnic University, Chengdu, Sichuan, China
Ehsan Rahimi
Affiliation:
Student research committee, Kermanshah University of Medical Sciences, Kermanshah, Iran
Leili Rostamnia*
Affiliation:
Nursing Department, School of Nursing and Midwifery, Kermanshah University of Medical Sciences, Kermanshah, Iran
*
Corresponding author: Leili Rostamnia; Email: [email protected].
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Abstract

Objective:

The Hospital Safety Index (HSI) developed by the World Health Organization (WHO) was adopted by most countries to evaluate the safety of hospitals against disasters. This study aimed to assess the status of hospital safety from disasters between 2016 and 2022 in Kermanshah province in Iran.

Methods:

This is a retrospective longitudinal study which investigated HSI data from 23 hospitals. Data were gathered by Farsi Hospital Safety Index (FHSI) and analyzed with a repeated measures analysis of variance (ANOVA).

Results:

The risk of hydro-meteorological (from 43.1 to 32.7) and biological hazards (51.3 to 35.5) significantly decreased. Although structural safety remained constant (from 67.8 to 70.1), nonstructural (from 51.5 to 71.2), and functional (from 47.1 to 71.2) safety scores increased significantly over study period.

Conclusions:

The findings revealed hospitals safety in Kermanshah province gradually improved. However, the health-care stakeholders should pay the necessary attention to improving the structural safety of hospitals.

Keywords

disasterhospital safetyhospital safety indexstructural safetynonstructural safetyfunctional safety
Type
Original Research
Information
Disaster Medicine and Public Health Preparedness , Volume 18 , 2024 , e77
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of Society for Disaster Medicine and Public Health, Inc

Over the years, the number of disasters caused by both natural and man-made hazards has been increasing significantly. Reference Downey, Hebert Chpa and Kim1,2 They, for example, include natural disasters like earthquakes, floods, landslides, heatwaves, etc., and, on the other hand, explosions, fire outbreaks, terror attacks etc. These disasters often result in numerous health impacts, including disease outbreaks, displacements, posttraumatic stress disorders (PTSDs), and above all, disruption of health-care systems, etc., within societies. Reference Yari, Zarezadeh and Fatemi3,Reference Ardalan, Mowafi and Yousefi Khoshsabeghe4 Given these challenges imposed on the health-care needs of affected people by these disasters, hospitals play an important role in responding to them. Reference Barbera, Yeatts and Macintyre5

Hospitals have a critical role in responding during disasters, and thus, they ought to remain operational and maintain their normal functions to meet ongoing health-care needs. Reference Omidvar, Golestaneh and Abdollahi6 Unfortunately, many hospitals have been destroyed or rendered dysfunctional by some disasters. This has been a particular challenge in Iran and in other countries, which are prone to different types of disasters. Reference Rajaei Ghafouri, Mirzahosseini and Pouraghaei7Reference Ardalan, Kandi and Talebian9 For example, during the 2017 Sarpol Zahab earthquake, which was reported to have partially or completely destroyed a total of 8 hospitals and 62 medical centers. Reference Sadeghi, Kalantari and Zaman Abadi Esmaeel10

Due to the increasing occurrence of disasters over the past few years, the World Health Organization (WHO) took the initiative to promote the safety of hospitals. A safe hospital is a facility that can continue to provide medical care and support to patients during and after an emergency or disaster. 11 According to the Hyogo Framework for Action (HFA), hospital safety can be achieved by building new hospitals at a level that is safe and also by implementing relevant mitigation strategies in old hospital buildings, which can allow them to function in case of any disasters. 11 As a result, the first version of the Hospital Safety Index (HSI) was published in 2008 by the Pan American Health Organization (PAHO) and WHO. Thereafter, health authorities across all WHO regions collaborated to adapt and apply the HSI tool in their settings. 11 In Iran, Ardalan et al. (2011) translated the HSI tool into the Persian language (Farsi Hospital Safety Index (FHSI)) and adopted it into Persian language and checked it validity and reliability (Ardalan et al. 2011). Reference Ardalan, Najafi and Sabzghabaie12 Finally, it is integrated as one of the Hospital Accreditation item (Ardalan et al. 2015). Reference Ardalan, Kandi Keleh and Saberinia13 Since then, the hospital committees for disaster risk reduction annually use FHSI to assess the safety of hospitals against disasters. Reference Ardalan, Kandi and Talebian9,Reference Ardalan, Kandi Keleh and Saberinia13

Since the adoption of HSI, some studies have been undertaken both at the local and national levels to examine the safety of Iranian hospitals from disasters. In 1 of the studies conducted in by Ardalan et al. (2012), the mean safety score of 224 hospitals was revealed to be 32.4 out of 100. Reference Ardalan, Kandi and Talebian9 Again, in another national study carried out by Ardalan et al., in 2015, the mean safety score of 421 hospitals against disasters was indicated at 43 out of 100. Reference Ardalan, Kandi Keleh and Saberinia13 Ghafouri et al., in 2018, reported that the mean safety score of 21 hospitals in Tabriz province was 67 of 100. Reference Rajaei Ghafouri, Mirzahosseini and Pouraghaei7 Other recent studies from Tabriz, Tehran have reported the safety of hospitals against disaster to be at a medium level. Reference Mirzaee, Kakaei and Farasati14,Reference Sabzghabaie, Kondori and Shojaee15 Although the safety of all hospitals is assessed annually, no recent studies have been undertaken to evaluate the progress of hospital safety after using the FHSI for nearly a decade, specifically for Kermanshah province. This is why this longitudinal study was conducted to examine the trends and patterns in hospital safety between 2016 and 2022 in Kermanshah province in the west of Iran. The results of this study are anticipated to help identify areas for hospital safety improvements beyond Kermanshah province.

Methods

Study Method and Setting

This retrospective longitudinal study was performed based on hospital safety data that were gathered by the Disaster Risk Reduction (DRR) Office of the Treatment Deputy at Kermanshah University of Medical Science (KUMS) from 2017 to 2022. This study design is appropriate to observe the variation in results over time. Reference Caruana, Roman and Hernández-Sánchez16 KUMS oversees monitoring health delivery in Kermanshah Province, located in the west of Iran. This province, apart from being prone to annual dust storms, experienced a mega earthquake with a magnitude of 7.3 on November 12, 2017. Data were retrieved from a sample of 23 hospitals located within Kermanshah Province, and their characteristics are presented in Table 1.

Table 1. Hospital characteristics that reported Hospital Safety Index during the study period

Study Tool

The second edition of FHSI, which contains 151 items, was used. The FHSI consists of 4 main modules: hazard analysis (4 main types of hazards), structural safety (2 sub-modules and 18 items), nonstructural safety (4 sub-modules and 93 items), and emergency and disaster management (7 sub-modules and 40 items). Their details are shown in Table 2. Each item is evaluated based on 3 safety levels: low (0), moderate (1), and high (2). All items in modules and sub-modules in FHSI have equal value. Furthermore, all the safety scores are normalized to a 100-point scale for easy interpretation and comparison in FHSI. Reference Ardalan, Najafi and Sabzghabaie12 Finally, the hospital safety total scores were classified into 3 categories: low (0-34), moderate (34.1-66), and high (>66.1). It should be noted that module 1 is not included in the hospital safety index calculation. FHSI was designed and adopted from HSI by a multi-disciplinary expert team cutting across engineering, medical science, and disaster management. This team initially translated HSI to the Persian language before its content was validated and approved. Its analysis was done using a Microsoft Excel spreadsheet (MS Excel). Finally, it was tested at the Tehran University of Medical Sciences. Reference Ardalan, Najafi and Sabzghabaie12 In 2017, both the first and second versions of the FHSI were used to assess the safety of hospitals against disasters in Iran. This study is based on the second version of FHSI.

Table 2. Risk of different type of hazards in selected hospitals

Data Collection and Analysis

Data considered in this study were gathered by the committee members of hospital disaster management. Then, the data were entered in a specific Microsoft Excel spreadsheet that was designed by the FHSI developer team. The collected data from each hospital were reported to and restored in the disaster management office of the Treatment Deputy at KUMS. Then, the research team had access to restored data after the KUMS review board approved the study proposal. Afterward, the information about hospital characteristics, hazard assessment scores, and safety scores (structural, nonstructural, and functional attributes) was imported into SPSS software version 24. The missing data for each unreported item were completed using the previous year’s HSI data from the hospital. The safety scores were calculated and presented in descriptive statistics such as frequency, mean, and standard deviation. Repeated measures analysis of variance (rANOVA) was used to determine whether there were any changes in the hospital safety scores over the study period.

Results

Hospital affiliations, their size, and the services they provide are presented in Table 1. Nearly two-thirds of the hospitals considered in this study were educational and community-related centers. Most of the hospitals were delivering general services, and nearly half of them had fewer than 100 beds. The mean age of hospital buildings was more than 30 y old.

The mean score of different hazards is presented in Table 2. Although the risk of geological, societal, and human-made hazards did not change significantly over time, the risk of hydro-meteorological and biological hazards declined significantly over the study period. In 2017, the risk of meteorological and biological hazards sharply declined, and in the following years, the mean risk score of hydro-meteorological hazards remained in the range of 32-34. Apart from 2017, when the risk score for biological hazards decreased sharply (from 51.3 to 27.3), in subsequent years it gradually increased (35.5). The total risk fell sharply in 2017 (from 40.4 to 33.5) and then gradually increased in the next years (Figure 1).

Figure 1. Mean and standard deviation of total risk and safety scores in HSI assessment over the years.

The descriptive analysis showed the mean scores of structural hospital safety (67.8 ± 22.2) were of high-level rank (Table 3). The rANOVA test indicated that the mean score for structural safety of hospitals did not change significantly. With time, however, the score constantly increased (70.1 ± 16.4). As shown in Table 3, the total mean scores of non-structural (51.5 ± 23.9) and functional safety (47.1 ± 28.8) at the beginning of the study were recorded at a moderate level. Later, their mean scores significantly increased. The mean scores for nonstructural (71.2 ± 12.2) and functional safety (73.9 ± 13.5) at the end of the study period of high rank. Finally, as shown in Table 3, the mean score of the total safety score gradually increased (from 57.8 ± 20.6 to 71.2 ± 8.5), but this was not statistically significant (Figure 1).

Table 3. Means scores of hospital safety dimensions from 2016 to 2022 in all of hospitals

Figure 2 presents the number of hospitals whose safety level was ranked low and sharply declined in 2017. Furthermore, the number of hospitals whose safety was ranked at a moderate level increased sharply in 2017. However, their level of safety steadily decreased over the study period. The number of hospitals with a high level of safety that ranked in the category of high-level increased slowly.

Figure 2. Hospital safety category over study time period.

Figure 2 indicated that the number of hospitals ranked in the high-level category increased slowly.

The analysis revealed that structural safety for all hospital types remained nearly steady and did not register any significant change (P < 0.05) (Table 4). Improving the safety of this department requires the reconstruction or retrofitting of the structural elements of a hospital. In educational and private hospitals, structural safety sharply decreased in 2017, and it did not change in the other years. According to Table 4, there was a gradual increase in non-structural and functional safety dimensions in all hospital types. However, the mean score of non-structural safety increased rapidly in community-based hospitals. More so, the mean functional safety score of educational and community hospitals also increased significantly. Furthermore, Table 4 indicates a gradual increase in the total mean safety score in all types of hospitals. Of interest, military hospitals registered the highest safety scores in all aspects of safety over the study period. On the contrary, community-based hospitals recorded the lowest safety scores over time in all aspects of safety. The safety scores of hospitals that are affiliated with social security organizations increased slightly in all aspects. In summary, there were no important differences in the structural safety of different types of hospitals.

Table 4. Comparison of Hospital Safety Index from 2014 to 2022 in respect type of hospitals

Discussion

The safety of hospitals, initially underlined in the HFA and subsequently in the Sendai Framework as 1 of the important issues, was integrated into the road map of DRR for Iran’s health system. 11,Reference Ardalan, Kandi Keleh and Saberinia13

Our finding indicated that the risk of geological, societal, and human-made hazards did not significantly change over the study period. This study revealed a significant decline in the risk of hydro-meteorological and biological hazards. Surprisingly, the total risk of hazards also declines gradually. This contrasts with the findings in the 2022 global assessment report on DRR, which reported the risk of hydrometrological and biological disasters as increasing. 17 The increase in the risk of biological and hydrometeorological hazards can be attributed to climate change. 17 This is in contrast with what happened in the Kermanshah province during the 2017 earthquake, the 2018 flood, and coronavirus disease 2019 (COVID-19). Another possible explanation for the significant decline in the risk of biological and hydro-meteorological hazards is that they were overestimated at the beginning of the study period. However, it is recommended that the hospital committee for DRR be educated about hazard identification and profiling to effectively assess the risk of hazards to hospital safety.

The study’s result indicated that the mean structural safety score was 67.8 ± 22.2 at the beginning of the study (2016) and later did not rise significantly. This structural mean score is higher than what Ardalan et al. reported in the 2 national studies in Iran. Reference Ardalan, Kandi and Talebian9,Reference Ardalan, Kandi Keleh and Saberinia13 Rajaei Ghafouri et al. (2018) also showed that the mean score of structural safety at Tabriz Hospital was 52.73 ± 17.34. Reference Rajaei Ghafouri, Mirzahosseini and Pouraghaei7 The safety assessment of of Georgian hospitals indicated that 63.1% of hospitals were at average risk. 2 This is in contrast with the findings in the structural safety assessment project that was undertaken by the Iran Ministry of Health (MOH), which indicated that approximately 70% of hospitals could not safely respond to earthquakes. Reference Ardalan, Kandi and Talebian9 Thus, the project recommended that a structural safety assessment be conducted by an expert team of building engineers. The most obvious finding that emerged from this study is about the mean scores of structural safety, which remained nearly constant from 2016 to 2022. Although this is in line with what was revealed in the study by Ardalan et al., that indicated the structural safety score to have remained constant during the study time. Reference Ardalan, Kandi Keleh and Saberinia13 A possible explanation for this result is that improving the safety of this section necessitates the reconstruction or retrofitting of the hospital’s structural elements. However, implementing these measures needs significant financial of financial resources. So this issue hindered hospitals from taking steps to improve the safety of the structural section.

This study found the mean score of nonstructural safety of hospitals not only to be moderate but also to have gradually increased over the years. This finding is also confirmed by the safety of Georgian hospital, which indicated that more than 80% of the hospital’s nonstructural safety was between good and moderate level. 2 Ardalan et al. also found that the nonstructural safety of hospitals in Iran remarkably increased from 2012 to 2015. Reference Ardalan, Kandi Keleh and Saberinia13 The safety of this section included electrical and telecommunications systems and safety, water supply and safety, medical fuel and gases, heating, ventilation and air conditioning (HVAC) systems, and safety and medical/laboratory equipment and supplies. Most hospitals already have these items, so improving safety of this items could be achievable with limited financial resources.

Another important finding in the present study is that the functional safety of hospitals was enhanced. This may have been a result of some factors as explained below. First, the design and communication of the programs related to hospital safety and disaster planning. Second, the functional safety of hospitals in Keremashah province would have been enhanced by the different training courses that were held to promote hospital safety in disasters. Third, performing periodical evaluations in line with the hospital accreditation by the KUMS and MOH. Furthermore, a finding about the functional safety of hospitals is supported by results in a study by Ardalan et al., which indicated that the nonstructural and functional safety of hospitals countrywide in Iran improved significantly. Reference Ardalan, Kandi Keleh and Saberinia13 Ingrassia et al. showed that most of the hospitals in Italy were prepared to efficiently manage and respond to their safety in case of disasters. Reference Ingrassia, Mangini and Azzaretto18

This study also depicted that the total safety score slightly increased during the study period. This could have resulted from the improvement in HSI data for enhancing Iran’s hospital safety to respond to disasters (Ardalan et al., 2016). However, the impacts of recent earthquakes in 2012 East Azarbaijan, 2013 Bushehr, and 2017 Kermanshah revealed the critical need for closer supervision in the implementation of the safety building code, especially for hospitals. Reference Omidvar, Golestaneh and Abdollahi6,Reference Sadeghi, Kalantari and Zaman Abadi Esmaeel10

In terms of the differences in safety levels among hospital types, the analysis herein indicated that the safety of military hospitals was higher in all components of HSI. On the other hand, community hospitals had the lowest safety level. There were no important differences in the safety components among different types of hospitals. Educational hospitals also had significant improvements in functional safety over the study period. Ardalan et al. findings indicated that hospital safety levels among different types of hospitals had significant differences, and in particular, hospitals affiliated with military organizations had higher safety levels. Reference Ardalan, Kandi Keleh and Saberinia13

Nonetheless, the major limitation of this study is related to its self-assessment of HSI, which could have been susceptible to a risk of bias. As a result, further research is needed to ensure the accuracy of the data for HSI self-assessment.

Conclusions

In summary, this study aimed to investigate hospital safety over 6 y using FHSI. Its findings suggest that hospital hazard assessments, which are designed to identify the potential hazards and risks to hospitals during disasters, may not accurately reflect their actual impact. The study’s findings indicate that, while progress has been made in improving the non-structural and functional safety of hospitals in response to disasters, there is still a lack of attention to their structural safety. This highlights the need for policy-makers and hospital administrators to focus on addressing structural vulnerabilities in hospitals located in disaster-prone areas. By doing so, hospitals no doubt can become more resilient and better equipped to respond to disasters, ultimately helping to mitigate their impact on communities and save lives. The findings herein can be used to inform policies and initiatives aimed at improving the safety and resilience of health-care facilities in disaster-prone areas like Iran and elsewhere.

Data availability of statement

The datasets generated and/or analyzed during the current study are not publicly available due to participant confidentiality but are available from the corresponding author on reasonable request.

Acknowledgments

Special gratitude goes to the hospital DRR committee members who annually assessed the safety of their hospitals and agreed to share the data for this study. Also, we thank the Office of Treatment Deputy at KUMS for their support in the course of conducting this study.

Author contributions

Vahid Ghanbari: conceived and designed the study. He wrote the first draft of manuscript and approved the final version of the manuscript. Ehsan Rahimi: conceived the study and data management Nader Salari: analyzed the data, read and approved the manuscript. Joseph Kimuli Balikuddembe: conceived the study, prepared and approved the final version of manuscript. Yaghob Hidari: Data gathering and management, approved the final version of manuscript. Leili Rostamniya: conceived and designed the study. He wrote the first draft of manuscript and approved the final version of the manuscript.

Funding

Vice chancellor for Research and Technology of KUMS.

Competing interests

None.

Ethical standards

The institutional review board of the KUMS research deputy approved the presented study (IR.KUMS.REC.1400.054) and supervised all the steps of implementation. The anonymity of the hospitals considered in this study was preserved.

References

Downey, E, Hebert Chpa, A, Kim, D. (A283) Hospital security planning for patient surge incidents: a comparison of three national systems in China, India, and Japan. Prehosp Disaster Med. 2011;26(S1):s78-s79. doi: 10.1017/S1049023X11002676 CrossRefGoogle Scholar
World Health Organization. Evaluation of hospital safety in Georgia (112 hospitals): summary report, Tbilisi 2018. 2019. Accessed April 4, 2024. https://www.who.int/europe/publications/i/item/WHO-EURO-2019-3598-43357-60822 Google Scholar
Yari, A, Zarezadeh, Y, Fatemi, F, et al. Disaster safety assessment of primary healthcare facilities: a cross-sectional study in Kurdistan province of Iran. BMC Emerg Med. 2021;21(1):23.CrossRefGoogle ScholarPubMed
Ardalan, A, Mowafi, H, Yousefi Khoshsabeghe, H. Impacts of natural hazards on primary health care facilities of Iran: a 10-year retrospective survey. PLoS Curr. 2013;5:ecurrents.dis.ccdbd870f5d1697e4edee5eda12c5ae6.Google Scholar
Barbera, JA, Yeatts, DJ, Macintyre, AG. Challenge of hospital emergency preparedness: analysis and recommendations. Disaster Med Public Health Prep. 2009;3(2 Suppl):S74-S82.CrossRefGoogle Scholar
Omidvar, B, Golestaneh, M, Abdollahi, Y. A framework for post-earthquake rapid damage assessment of hospitals. Case study: Rasoul-e-Akram Hospital (Tehran, Iran). Environ Hazards. 2014;13(2):133-160.CrossRefGoogle Scholar
Rajaei Ghafouri, R, Mirzahosseini, S, Pouraghaei, M et al. Are our hospitals safe against disasters? An evaluation of hospital safety index in Tabriz, Iran. J Anal Res Clin Med. 2018;6(3):139-144.CrossRefGoogle Scholar
Djalali, A, Massumi, A, Öhlen, G, et al. (A282) Comparison of safety index in Iranian hospitals. Prehosp Disaster Med. 2011;26(S1):s78. doi: 10.1017/S1049023X11002664 CrossRefGoogle Scholar
Ardalan, A, Kandi, M, Talebian, MT, et al. Hospitals safety from disasters in I.R.Iran: the results from assessment of 224 hospitals. PLoS Curr. 2014;6: 6:ecurrents.dis.8297b528bd45975bc6291804747ee5dbGoogle Scholar
Sadeghi, S, Kalantari, A, Zaman Abadi Esmaeel, I. Effect of construction deficiencies on seismic performance of hospitals during the 2017 Sarpol-e Zahab earthquake. J Perform Constr Facil. 2021;35(1):04020140. doi: 10.1061/(ASCE)CF.1943-5509.0001550 CrossRefGoogle Scholar
World Health Organization. Hospital safety index: guide for evaluators. 2nd ed. 2015. Accessed April 4, 2024. https://www.who.int/publications/i/item/9789241548984 Google Scholar
Ardalan, A, Najafi, A, Sabzghabaie, A, et al. A pilot study: Development of a local model to hospital disaster risk assessment. Hospital Journal. 2011:9.Google Scholar
Ardalan, A, Kandi Keleh, M, Saberinia, A, et al. 2015 estimation of hospitals safety from disasters in I.R.Iran: the results from the assessment of 421 hospitals. PLoS One. 2016;11(9):e0161542.CrossRefGoogle Scholar
Mirzaee, F, Kakaei, H, Farasati, F, et al. Investigation on the safety status and preparedness of Ilam’s Hospitals against disasters in 2012. Research. J Ilam Uni Med Sci. 2015;22(7):14-23.Google Scholar
Sabzghabaie, A, Kondori, A, Shojaee, M, et al. Hospital safety in hospitals affiliated with Shahid Beheshti University of Medical Sciences in 2011-13. Pajoohandeh J. 2013;18(2):83-87.Google Scholar
Caruana, EJ, Roman, M, Hernández-Sánchez, J, et al. Longitudinal studies. J Thorac Dis. 2015;7(11):E537-E540. doi: 10.3978/j.issn.2072-1439.2015.10.63 Google ScholarPubMed
UNDRR. Global assessment report on disaster risk reduction 2022: our world at risk: transforming governance for a resilient future. UN; 2022. Accessed April 4, 2024. https://reliefweb.int/report/world/global-assessment-report-disaster-risk-reduction-2022-our-world-risk-transforming Google Scholar
Ingrassia, PL, Mangini, M, Azzaretto, M, et al. Hospital disaster preparedness in Italy: a preliminary study utilizing the World Health Organization Hospital Emergency Response Evaluation Toolkit. Minerva Anestesiol. 2016;82(12):1259-1266.Google ScholarPubMed
Figure 0

Table 1. Hospital characteristics that reported Hospital Safety Index during the study period

Figure 1

Table 2. Risk of different type of hazards in selected hospitals

Figure 2

Figure 1. Mean and standard deviation of total risk and safety scores in HSI assessment over the years.

Figure 3

Table 3. Means scores of hospital safety dimensions from 2016 to 2022 in all of hospitals

Figure 4

Figure 2. Hospital safety category over study time period.

Figure 5

Table 4. Comparison of Hospital Safety Index from 2014 to 2022 in respect type of hospitals