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Volume 11
Issue 4
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Safety, Volume 11, Issue 4 (December 2025) – 33 articles

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17 pages, 1011 KB  
Article
Vulnerable Road Users in Romania: Forensic Autopsy-Based Analysis of Child and Elderly Fatalities
by Ştefania Ungureanu, Camelia-Oana Mureșan, Alexandra Enache, Emanuela Stan, Raluca Dumache, Octavia Vița, Ecaterina Dăescu, Alina-Cristina Barb and Veronica Ciocan
Safety 2025, 11(4), 125; https://doi.org/10.3390/safety11040125 - 15 Dec 2025
Viewed by 61
Abstract
Background: Vulnerable road users (VRUs), including children and older adults, face a high risk of fatal road traffic accidents (RTAs) due to limited protection and greater injury susceptibility. Romania reports some of the highest child and elderly RTA mortality rates in the European [...] Read more.
Background: Vulnerable road users (VRUs), including children and older adults, face a high risk of fatal road traffic accidents (RTAs) due to limited protection and greater injury susceptibility. Romania reports some of the highest child and elderly RTA mortality rates in the European Union. This study analyzed medico-legal autopsies from the Timisoara Institute of Legal Medicine (TILM) between 2017 and 2021 to compare fatalities in these two groups and identify key risk factors. Methods: A retrospective analysis was conducted on autopsy records of children (0–17 years) and older adults (>70 years) who died in RTAs during the study period. Data on demographics, type of road user, traumatic injuries, cause of death, and accident circumstances were extracted and supplemented by police reports. Comparative statistical analyses were performed for categorical and continuous variables. Results: Among 395 RTA autopsies, 23 (5.8%) involved children and 51 (12.9%) older adults. Most child victims were passengers (56.5%), whereas elderly fatalities occurred mainly among pedestrians (33.3%) and cyclists (25.5%), with statistically significant differences between age groups. Polytrauma was the leading cause of death in both categories, though isolated cranio-cerebral trauma was proportionally more frequent in children. Crash circumstances also showed age-related patterns, with children more involved in high-energy collisions and older adults more frequently struck as pedestrians. Survival intervals showed a similar distribution across groups. Conclusions: Child and elderly RTA fatalities in Romania share common determinants, primarily driver-related behaviors and insufficient safety measures, while also exhibiting distinct age-related vulnerabilities. Autopsy-based data highlights these patterns and can guide targeted interventions such as stricter law enforcement, public education, and infrastructure improvements. Full article
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17 pages, 1293 KB  
Article
Effects of Using a 360-Degree Swaying Chair on Physical Workload During VDT Work
by Sayaka Noda, Toshihisa Doi and Kuniko Yamashita
Safety 2025, 11(4), 124; https://doi.org/10.3390/safety11040124 - 15 Dec 2025
Viewed by 121
Abstract
Prolonged visual display terminal (VDT) work leads to static muscular loading, increasing the risk of musculoskeletal disorders. Active chairs have been proposed to alleviate such issues; however, solutions like balance balls often induce discomfort due to excessive instability. To address this trade-off, a [...] Read more.
Prolonged visual display terminal (VDT) work leads to static muscular loading, increasing the risk of musculoskeletal disorders. Active chairs have been proposed to alleviate such issues; however, solutions like balance balls often induce discomfort due to excessive instability. To address this trade-off, a 360° swaying chair was developed, though its physiological effects during VDT work remain unclear. This study aimed to investigate the effects of a 360° swaying chair on users performing VDT tasks. Two experiments compared the swaying chair with a standard office chair (OC) under two sitting postures: a forward tilt with feet forward (AC2) and with feet back (AC3). Muscle activity, motion analysis, and subjective evaluations were conducted. The results showed that the AC3 posture (feet back) better maintained the spinal S-curve and reduced activity in the thoracic and lumbar erector spinae and rectus abdominis compared to the AC2 posture and the OC, although it may increase lower-body load. A slight forward tilt promoted activation of the internal oblique muscle. Subjective comfort was not inferior to that of the OC. These findings suggest that the 360° swaying chair, particularly in the AC3 posture, can reduce upper-body muscular and postural loads during VDT work without compromising comfort. However, these findings should be interpreted as preliminary, as they are based on a small and homogeneous sample and short-term VDT tasks. Full article
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20 pages, 920 KB  
Article
Analytical Assessment of Pedestrian Crashes on Low-Speed Corridors
by Therezia Matongo and Deo Chimba
Safety 2025, 11(4), 123; https://doi.org/10.3390/safety11040123 - 9 Dec 2025
Viewed by 224
Abstract
This study presents a comprehensive statewide analysis of pedestrian-involved crashes recorded in Tennessee between 2002 and 2025. We evaluated the influence of roadway, traffic, environmental, and socioeconomic factors on pedestrian crash frequency and severity with substantial components focused on lighting impacts including dark [...] Read more.
This study presents a comprehensive statewide analysis of pedestrian-involved crashes recorded in Tennessee between 2002 and 2025. We evaluated the influence of roadway, traffic, environmental, and socioeconomic factors on pedestrian crash frequency and severity with substantial components focused on lighting impacts including dark and nighttime. A multi-method analytical framework was implemented, combining descriptive statistics, non-parametric tests, regression analysis, and advanced machine learning techniques including the Adaptive Neuro-Fuzzy Inference System (ANFIS) and the gradient boosting model (XGBoost). Results indicated that dark and nighttime conditions accounted for a disproportionate share of severe crashes—fatal and serious injuries under dark conditions reached over 40%, compared to less than 20% during daylight. The statistical tests revealed statistically significant differences in both total injuries and fatalities between low-speed (≤35 mph) and higher-speed (40–45 mph) corridors. The regression result identified AADT and the number of lanes as the strongest predictors of crash frequency, showing that greater traffic exposure and wider cross-sections substantially elevate pedestrian risk, while terrain and peak-hour traffic exhibited negative associations with severe injuries. The XGBoost model, consisting of 300 trees, achieved R2 = 0.857, in which the SHAP analysis revealed that AADT, the roadway functional class, and the number of lanes are the most influential variables. The ANFIS model demonstrated that areas with higher population density and greater proportions of households without vehicles experience more pedestrian crashes. These findings collectively establish how pedestrian crash risks are correlated with traffic exposure, roadway geometry, lighting, and socioeconomic conditions, providing a strong analytical foundation for data-driven safety interventions and policy development. Full article
(This article belongs to the Special Issue Safety of Vulnerable Road Users at Night)
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17 pages, 368 KB  
Article
A Biomechanical Analysis of Posture and Effort During Computer Activities: The Role of Furniture
by María Fernanda Trujillo-Guerrero, William Venegas-Toro, Danni De la Cruz-Guevara, Iván Zambrano-Orejuela, Alvaro Page-Del Pozo and Silvia Santos-Cuadros
Safety 2025, 11(4), 122; https://doi.org/10.3390/safety11040122 - 9 Dec 2025
Viewed by 322
Abstract
The ergonomic risks associated with posture in conventional office workstations have been extensively studied, but there is limited research available on these risks in the context of home-based work environments. Most available studies rely solely on questionnaire-based statistical analyses, leaving a gap in [...] Read more.
The ergonomic risks associated with posture in conventional office workstations have been extensively studied, but there is limited research available on these risks in the context of home-based work environments. Most available studies rely solely on questionnaire-based statistical analyses, leaving a gap in understanding the specific conditions of home-based work environments. This study focuses on evaluating the effects of workstation conditions on posture and muscular efforts across three anatomical segments: head-neck, trunk-upper trapezius, and arm-deltoid. The analysis is conducted by simulating workstation setups commonly associated with academic activities performed by students during the COVID-19 pandemic. The conditions examined in this study include inadequate desk height, the use of chairs without armrests, and the use of laptops. Eighteen volunteers, comprising nine women and nine men, participated in experiments conducted under scenarios designed using a 2k statistical approach. In all experiments, participants completed questionnaires, and text-writing activities were performed to evaluate the effects of these conditions. This research introduces a new non-invasive technique for ergonomic assessment that integrates photogrammetry and surface electromyography (sEMG) to simultaneously evaluate posture and muscular effort. The developed methodology allows precise, contactless analysis of ergonomic conditions and can be adapted for various professional and academic teleworking environments. Significant effects were observed in the posture (°) of the trunk and head, with both small and large effects identified at significance levels of p < 0.001 under the furniture conditions studied. In terms of EMG activity, moderate effects were observed at p < 0.01 levels between table height and upper trapezius activation, while small effects were detected at p < 0.05 levels between the use of chairs without armrests and neck. Similarly, small to moderate effects were observed in the arm-deltoid segment under the same furniture conditions. These findings reveal information about the posture and muscular effort patterns associated with the studied tasks, offering knowledge that can be referenced for similar tasks in other technical fields where telematics activities are performed. Full article
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31 pages, 1941 KB  
Article
Boosting Traffic Crash Prediction Performance with Ensemble Techniques and Hyperparameter Tuning
by Naima Goubraim, Zouhair Elamrani Abou Elassad, Hajar Mousannif and Mohamed Ameksa
Safety 2025, 11(4), 121; https://doi.org/10.3390/safety11040121 - 9 Dec 2025
Viewed by 373
Abstract
Road traffic crashes are a major global challenge, resulting in significant loss of life, economic burden, and societal impact. This study seeks to enhance the precision of traffic accident prediction using advanced machine learning techniques. This study employs an ensemble learning approach combining [...] Read more.
Road traffic crashes are a major global challenge, resulting in significant loss of life, economic burden, and societal impact. This study seeks to enhance the precision of traffic accident prediction using advanced machine learning techniques. This study employs an ensemble learning approach combining the Random Forest, the Bagging Classifier (Bootstrap Aggregating), the Extreme Gradient Boosting (XGBoost) and the Light Gradient Boosting Machine (LightGBM) algorithms. To address class imbalance and feature relevance, we implement feature selection using the Extra Trees Classifier and oversampling using the Synthetic Minority Over-sampling Technique (SMOTE). Rigorous hyperparameter tuning is applied to optimize model performance. Our results show that the ensemble approach, coupled with hyperparameter optimization, significantly improves prediction accuracy. This research contributes to the development of more effective road safety strategies and can help to reduce the number of road accidents. Full article
(This article belongs to the Special Issue Road Traffic Risk Assessment: Control and Prevention of Collisions)
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28 pages, 4585 KB  
Article
Uncertainty-Aware Adaptive Intrusion Detection Using Hybrid CNN-LSTM with cWGAN-GP Augmentation and Human-in-the-Loop Feedback
by Clinton Manuel de Nascimento and Jin Hou
Safety 2025, 11(4), 120; https://doi.org/10.3390/safety11040120 - 5 Dec 2025
Viewed by 310
Abstract
Intrusion detection systems (IDSs) must operate under severe class imbalance, evolving attack behavior, and the need for calibrated decisions that integrate smoothly with security operations. We propose a human-in-the-loop IDS that combines a convolutional neural network and a long short-term memory network (CNN–LSTM) [...] Read more.
Intrusion detection systems (IDSs) must operate under severe class imbalance, evolving attack behavior, and the need for calibrated decisions that integrate smoothly with security operations. We propose a human-in-the-loop IDS that combines a convolutional neural network and a long short-term memory network (CNN–LSTM) classifier with a variational autoencoder (VAE)-seeded conditional Wasserstein generative adversarial network with gradient penalty (cWGAN-GP) augmentation and entropy-based abstention. Minority classes are reinforced offline via conditional generative adversarial (GAN) sampling, whereas high-entropy predictions are escalated for analysts and are incorporated into a curated retraining set. On CIC-IDS2017, the resulting framework delivered well-calibrated binary performance (ACC = 98.0%, DR = 96.6%, precision = 92.1%, F1 = 94.3%; baseline ECE ≈ 0.04, Brier ≈ 0.11) and substantially improved minority recall (e.g., Infiltration from 0% to >80%, Web Attack–XSS +25 pp, and DoS Slowhttptest +15 pp, for an overall +11 pp macro-recall gain). The deployed model remained lightweight (~42 MB, <10 ms per batch; ≈32 k flows/s on RTX-3050 Ti), and only approximately 1% of the flows were routed for human review. Extensive evaluation, including ROC/PR sweeps, reliability diagrams, cross-domain tests on CIC-IoT2023, and FGSM/PGD adversarial stress, highlights both the strengths and remaining limitations, notably residual errors on rare web attacks and limited IoT transfer. Overall, the framework provides a practical, calibrated, and extensible machine learning (ML) tier for modern IDS deployment and motivates future research on domain alignment and adversarial defense. Full article
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25 pages, 1853 KB  
Article
Testing of a Safety Leadership Model
by Jian Shen and Maureen Hassall
Safety 2025, 11(4), 119; https://doi.org/10.3390/safety11040119 - 1 Dec 2025
Viewed by 247
Abstract
Fatal and serious injury rates remain unacceptably high in the construction industry. Leadership plays a critical role in safety management and serious and fatal injury prevention. However, limited research has examined industry practitioners’ perceptions of leadership and how it influences safety outcomes, particularly [...] Read more.
Fatal and serious injury rates remain unacceptably high in the construction industry. Leadership plays a critical role in safety management and serious and fatal injury prevention. However, limited research has examined industry practitioners’ perceptions of leadership and how it influences safety outcomes, particularly in the prevention of serious and fatal injuries in the construction industry. Therefore, a theoretical model for capturing perceptions of safety leadership was developed from a systematic literature review. To ensure that the labels and language used in the model can be understood by industry practitioners, a Delphi study was conducted involving twelve experts. Over three iterative rounds, the model was refined to include five leadership styles, seventeen elements, and eighty-five descriptive statements spanning the range from laissez-faire to transformational leadership. The refined model provides a comprehensive framework for understanding safety leadership and serves as a foundation for future empirical testing with frontline construction workers. Full article
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29 pages, 2341 KB  
Article
A Prototype Risk Assessment Dashboard for the Construction Industry: Getting Experts in the Loop Thanks to Machine Learning
by Mirza Muntasir Nishat, Antoine Rauzy and Nils O. E. Olsson
Safety 2025, 11(4), 118; https://doi.org/10.3390/safety11040118 - 1 Dec 2025
Viewed by 353
Abstract
Construction work is fundamentally hazardous. Traditional risk assessment tools (e.g., checklists and audits) are static in essence and hard to make evolve. In this paper, we demonstrate how to get experts dynamically in the loop thanks to machine learning. Namely, we discussed the [...] Read more.
Construction work is fundamentally hazardous. Traditional risk assessment tools (e.g., checklists and audits) are static in essence and hard to make evolve. In this paper, we demonstrate how to get experts dynamically in the loop thanks to machine learning. Namely, we discussed the design of a prototype risk assessment dashboard dedicated to fall accidents. The interactive graphical user interface allows professionals to generate construction scenarios and compare their evaluation of risks with that of the dashboard. The latter continuously learns from expert feedback. The proof-of-concept we present here shows that it is possible to capitalize on expert knowledge in a dynamic and user-friendly way. Thanks to its neural network architecture, not only does the dashboard learn from the experts, but professionals also learn from the dashboard. Full article
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19 pages, 602 KB  
Article
Examining the Effects of Sight Distance, Road Conditions, and Weather on Intersection Crash Severity: A Random Parameters Logit Approach with Heterogeneity in Means and Variances
by Irfan Ullah, Ahmed Farid and Khaled Ksaibati
Safety 2025, 11(4), 117; https://doi.org/10.3390/safety11040117 - 27 Nov 2025
Viewed by 385
Abstract
Intersections represent critical crash locations on road networks necessitating targeted safety interventions. This study employs a random parameters ordered logit (RPOL) model with heterogeneity in means to analyze injury severity contributing factors across 9108 Wyoming intersection crashes that occurred from 2007 to 2017. [...] Read more.
Intersections represent critical crash locations on road networks necessitating targeted safety interventions. This study employs a random parameters ordered logit (RPOL) model with heterogeneity in means to analyze injury severity contributing factors across 9108 Wyoming intersection crashes that occurred from 2007 to 2017. The analysis reveals that crashes on principal and minor arterial intersections are consistently associated with higher risks of severe/fatal injuries, while urban intersections exhibit less severe consequences, likely due to lower speeds and enhanced infrastructure. Adverse weather conditions, particularly snowy and icy road surfaces, increase the likelihood of property-damage-only (PDO) outcomes while reducing severe/fatal injuries. Temporal trends show a decline in crash severity over time, coinciding with advances in vehicle safety and policy improvements. Key behavioral factors, including left turn maneuvers and driver’s age heterogeneity, influence crash outcomes, whereas intersection sight distance (ISD) had no significant effect on crash severity underscoring data limitations requiring advanced analysis methods. This study’s findings prioritize the reconsideration of arterial intersection design, urban safety enhancements, and behavior-focused countermeasures for intersection safety. Full article
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13 pages, 1917 KB  
Article
Occupational Ergonomic Risks Among Women in Underground Coal Mining, South Africa
by Ouma S. Mokwena, Joyce Shirinde and Thabiso J. Morodi
Safety 2025, 11(4), 116; https://doi.org/10.3390/safety11040116 - 25 Nov 2025
Viewed by 346
Abstract
Although women have participated in mining activities across the world for centuries, the industry continues to be perceived as predominantly male-oriented. This perception persists largely due to the male-dominated workforce and the physically demanding nature of mining operations. This paper examines the ergonomic [...] Read more.
Although women have participated in mining activities across the world for centuries, the industry continues to be perceived as predominantly male-oriented. This perception persists largely due to the male-dominated workforce and the physically demanding nature of mining operations. This paper examines the ergonomic impacts of mining machinery on female mineworkers. The study was conducted in three underground coal mining operations located in Mpumalanga, South Africa, using a quantitative research approach. To evaluate the ergonomic demands placed on women working underground, the researchers employed the Rapid Entire Body Assessment (REBA) in combination with direct observation techniques. The findings revealed that female mineworkers experience considerable challenges when performing tasks requiring significant physical strength and endurance. The observed female mineworker recorded a final REBA score of seven, indicating a medium-risk level. Ergonomic challenges in underground coal mining are further intensified for female mineworkers due to the absence of gender-specific considerations in equipment design, task allocation, and the overall working environment. Although the risk classification was moderate, the results underscore the need for further investigation and the timely implementation of corrective measures. Addressing these issues will require the integration of inclusive ergonomic principles that account for gender diversity within the mining workforce. Full article
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19 pages, 1268 KB  
Article
Assessing the Potential Impact of Fugitive Methane Emissions on Offshore Platform Safety
by Stuart N. Riddick, Mercy Mbua, Catherine Laughery and Daniel J. Zimmerle
Safety 2025, 11(4), 115; https://doi.org/10.3390/safety11040115 - 24 Nov 2025
Viewed by 303
Abstract
One of the biggest risks to safety on offshore platform safety is the ignition of high-pressure natural gas streams. Currently, the size and number of fugitive emissions on offshore platforms is unknown and methods used to detect fugitives have significant shortcomings. To investigate [...] Read more.
One of the biggest risks to safety on offshore platform safety is the ignition of high-pressure natural gas streams. Currently, the size and number of fugitive emissions on offshore platforms is unknown and methods used to detect fugitives have significant shortcomings. To investigate the frequency, size, and potential impact of fugitives, a data collection exercise was conducted using incidents reported, leak survey data, and independent measurements. The size and number of fugitives on offshore facilities were simulated to investigate likely areas of safety concern. Incident reports indicate in 2021 there were 113 reports of gas leaks on 1119 offshore facilities, suggesting 0.02 fugitives per Type 1 facility (older, shallow-water platforms) and 0.31 fugitives per Type 2 facility (larger deeper-water facilities). Leak survey data report 12 fugitives per Type 1 facility (average emission 0.6 kg CH4 h−1 leak−1) and 15 fugitives per Type 2 facility (average emission 1.5 kg CH4 h−1 leak−1). Reconciliation of direct measurements with a bottom-up model suggests that the number of fugitive emissions generated from the leak report data is an underestimate for Type 1 platforms (44 fugitives facility−1; average emission 0.6 kg CH4 h−1 leak−1) and in general agreement for the Type 2 platforms (15 fugitives facility−1; average emission 1.5 kg CH4 h−1 leak−1). Analysis of the fugitive emission rates on an offshore platform suggests that gas will not collect to explosive concentration if any air movement is present (>0.36 mph); however, large volumes of air (~600 m3) near representative leaks on the working deck could become explosive in hour-long zero-wind conditions. We suggest that wearable technology could be employed to indicate gas build up, safety regulations amended to consider low-wind conditions and real-world experiments are conducted to test assumptions of air mixing on the working deck. Full article
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21 pages, 1180 KB  
Article
Disclosures of Occupational Health and Safety Performance Indicators: A Perspective from South African Listed Companies
by Oscar Rikhotso
Safety 2025, 11(4), 114; https://doi.org/10.3390/safety11040114 - 20 Nov 2025
Viewed by 770
Abstract
Employers in South Africa are mandated by labour laws to implement systems of work for the maintenance and promotion of health and safety at work. In response, companies have adopted and implemented occupational health and safety management systems (OHSMSs) whose effectiveness should be [...] Read more.
Employers in South Africa are mandated by labour laws to implement systems of work for the maintenance and promotion of health and safety at work. In response, companies have adopted and implemented occupational health and safety management systems (OHSMSs) whose effectiveness should be continuously monitored through performance measurement. However, there remains no national convention on the specific performance measurement indicators for companies to use. The objective of this study was to determine, characterise and compare lagging indicators adopted and reported by the top 150 Johannesburg Stock Exchange (JSE)-listed companies in South Africa. This qualitative study evaluated annual reports and data books from these companies by analysing textual data through qualitative document analysis. Only 87 of the 150 case companies reported performance using lagging indicators. The basic materials, consumer goods, consumer services and industrial sectors had the most companies which reported performance metrics. Fatality count and lost time injury frequency rate (LTIFR) were the most commonly reported performance metrics and were reported by 64 and 41 companies, respectively. There was variation in the number, type and form of adopted lagging indicators by the case companies. Companies in the manufacturing and mining sectors were more likely to report OHS performance, in general, than those in other sectors. The observed variation across sectors emphasises the need for harmonised indicators to measure and report OHS performance in South Africa. Full article
(This article belongs to the Collection Occupational Health and Safety in A Changing World: Realities, Challenges and Perspectives)
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20 pages, 291 KB  
Article
Occupational Safety and Injury Risk in Professional Football: The Portuguese Framework in Comparative Perspective
by Miguel Gouveia, Micaela Pinho and Paulo Botelho Pires
Safety 2025, 11(4), 113; https://doi.org/10.3390/safety11040113 - 18 Nov 2025
Viewed by 618
Abstract
Professional football players face considerable occupational hazards, with injuries posing serious challenges to player safety, club performance, and regulatory oversight. This descriptive study examines the multifaceted implications of Portugal’s Laws No. 48/2023, which formally recognises professional football as a high-risk occupation and strengthens [...] Read more.
Professional football players face considerable occupational hazards, with injuries posing serious challenges to player safety, club performance, and regulatory oversight. This descriptive study examines the multifaceted implications of Portugal’s Laws No. 48/2023, which formally recognises professional football as a high-risk occupation and strengthens the mandatory insurance regime through a major regulatory update. Adopting a qualitative approach, the analysis focuses on Portugal, where the professional football business model heavily relies on player commercialisation, and compares regulatory frameworks in Spain, Germany, England, Italy, France, and Brazil. Findings indicate that Portugal’s legal framework enhances player safety by ensuring comprehensive coverage and improved disability protections, yet also introduces financial pressures on clubs, particularly those with lower economic capacity. These pressures are exacerbated by limited market competition and high insurance concentration, increasing premium costs. Cross-country comparisons reveal persistent disparities in legal standards, insurance scope, and institutional coordination, which complicate risk allocation in an increasingly globalised football market. Notably, Portugal’s high-risk insurance model most closely aligns with France’s hybrid approach, in contrast to fully public schemes seen in countries like Germany and Italy. While complete harmonisation remains challenging, the study identifies key principles to guide policy reform and international cooperation. Overall, the findings advance understanding of occupational risk regulation in sport and offer practical insights for designing effective, equitable, and safety-oriented protection systems for professional athletes. Full article
34 pages, 380 KB  
Review
Subtractive Manufacturing of Hazardous Materials: A Review
by Leon Proud, Daniel Whitehead, Tom Slatter, Pete Crawforth and David Curtis
Safety 2025, 11(4), 112; https://doi.org/10.3390/safety11040112 - 17 Nov 2025
Viewed by 712
Abstract
Whilst subtractive manufacturing has been de-risked significantly over recent decades, the emergence of new unfamiliar materials is proving to be a significant challenge for social sustainability. Given this rapidly evolving landscape, this review serves to outline the current available data on the occupational [...] Read more.
Whilst subtractive manufacturing has been de-risked significantly over recent decades, the emergence of new unfamiliar materials is proving to be a significant challenge for social sustainability. Given this rapidly evolving landscape, this review serves to outline the current available data on the occupational health implications of various existing and emerging material species, ranging from radioactive metals to composite materials. A structured search of sources up to January 2025 was conducted using databases such as Google Scholar, PubMed and Web of Science in addition to various authoritative occupational health reports, prioritising the literature directly pertaining or analogous to machining-related hazards. Evidence highlights the complexity of the machining environment, with occupational hazards ranging from toxicological factors to fire risks (i.e., due to swarf pyrophoricity). Case studies outline both relatively benign pathologies (e.g., dermatitis and sensitisation) and much more severe health complications (e.g., carcinogenicity, systemic organ damage and death), underscoring the need for continuous assessment and updating of exposure controls, even for materials traditionally regarded as safe. Full article
29 pages, 5727 KB  
Review
Progress in Improving Safety Performance of Battery Separators Based on MOF Materials: Mechanisms, Materials and Applications
by Tian Zhao, Yajuan Bi, Jiayao Chen, Jiangrong Yu, Shilin Peng, Fuli Luo and Yi Chen
Safety 2025, 11(4), 111; https://doi.org/10.3390/safety11040111 - 17 Nov 2025
Viewed by 1723
Abstract
This comprehensive review examines the transformative role of metal–organic frameworks (MOFs) in advancing battery separator technology to address critical safety challenges in rechargeable lithium metal batteries. MOF-based separators leverage their highly specific surface area, tunable pore structures, and functionalized organic ligands to enable [...] Read more.
This comprehensive review examines the transformative role of metal–organic frameworks (MOFs) in advancing battery separator technology to address critical safety challenges in rechargeable lithium metal batteries. MOF-based separators leverage their highly specific surface area, tunable pore structures, and functionalized organic ligands to enable precise ion-sieving effects, uniform lithium-ion flux regulation, and dendrite suppression—significantly mitigating risks of internal short circuits and thermal runaway. We systematically analyze the mechanisms by which classical MOF families (e.g., ZIF, UiO, MIL series) enhance separator performance through physicochemical properties such as electrolyte wettability, thermal stability (>400 °C), and mechanical robustness. Furthermore, we highlight innovative composite strategies integrating MOFs with polymer matrices (e.g., PVDF, PAN) or traditional separators, which synergistically improve ionic conductivity while inhibiting polysulfide shuttling in lithium–sulfur batteries and side reactions in aqueous zinc-ion systems. Case studies demonstrate that functionalized MOF separators achieve exceptional electrochemical outcomes: Li–S batteries maintain >99% Coulombic efficiency over 500 cycles, while solid-state batteries exhibit 2400 h dendrite-free operation. Despite promising results, scalability challenges related to MOF synthesis costs and long-term stability under operational conditions require further research. This review underscores MOFs’ potential as multifunctional separator materials to enable safer, high-energy-density batteries and provides strategic insights for future material design. Full article
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11 pages, 1062 KB  
Article
Static Rate of Failed Equipment-Related Fatal Accidents in General Aviation
by Douglas D. Boyd and Linfeng Jin
Safety 2025, 11(4), 109; https://doi.org/10.3390/safety11040109 - 14 Nov 2025
Viewed by 744
Abstract
General aviation (GA), comprised mainly of piston engine airplanes, has an inferior safety history compared with air carriers in the United States. Most studies addressing this safety disparity has focused on pilot deficiencies. Herein, we determined the rates/causes of equipment failure-related GA fatal [...] Read more.
General aviation (GA), comprised mainly of piston engine airplanes, has an inferior safety history compared with air carriers in the United States. Most studies addressing this safety disparity has focused on pilot deficiencies. Herein, we determined the rates/causes of equipment failure-related GA fatal accidents for type-certificated and experimental-amateur-built airplanes. Aviation accidents/injury severity were per the NTSB AccessR database. Statistical tests employed proportion/binomial tests/a Poisson distribution. The rate of fatal accidents (1990–2019) due to equipment failure was unchanged (p > 0.026), whereas the fatal mishap rate related to other causes declined (p < 0.001). A disproportionate (2× higher) count (p < 0.001) of equipment-related fatal accidents was evident for experimental-amateur-built aircraft with type-certificated references. Propulsion system (67%) and airframe (36%) failures were the most frequent causes of fatal accidents for type-certificated and experimental-amateur-built aircraft, respectively. The components “fatigue/corrosion” and “manufacturer–builder error” resulted in 60% and 55% of powerplant and airframe failures, respectively. Most (>90%) type-certificated aircraft propulsion system failures were within the manufacturer-prescribed engine time-between-overhaul (TBO) and involved components inaccessible for examination during an annual inspection. There is little evidence for a decline in equipment failure-related fatal accident rate over three decades. Considering the fact that powerplant failures mostly occur within the TBO and involve fatigue/corrosion of one or more components inaccessible for examination, GA pilots should avoid operations where a safe off-field landing within glide-range is not assured. Full article
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29 pages, 380 KB  
Review
A Multidimensional Conceptualization of Employee Safety Voice
by Andrea Bazzoli, Valentina Sommovigo, Georgia Libera Finstad, Valerio Vinciarelli and Matteo Curcuruto
Safety 2025, 11(4), 110; https://doi.org/10.3390/safety11040110 - 13 Nov 2025
Viewed by 949
Abstract
Previous conceptualizations of safety voice have described this construct as fundamentally unidimensional, compared to several other multidimensional models that have been outlined for the more general concept of employee voice. Drawing from previous studies in occupational safety, previous safety voice conceptualizations (challenge vs. [...] Read more.
Previous conceptualizations of safety voice have described this construct as fundamentally unidimensional, compared to several other multidimensional models that have been outlined for the more general concept of employee voice. Drawing from previous studies in occupational safety, previous safety voice conceptualizations (challenge vs. defense of safety systems), dynamic safety capability, and wise proactivity, we outline an extended conceptualization of safety voice. Adopting a functionalist approach, we identified and described promotive, preventive, prohibitive, and hostile safety voice. For each type, we discuss the definition, its function, its implications, and examples. This multidimensional conceptualization provides a conceptual structure that supports more accurate measurement, intervention design, and discussions surrounding safety-related communication. It also clarifies when and how distinct forms of safety voice emerge, identifies levers for system and leadership design, and outlines actionable implications and testable propositions for advancing prevention, learning, and research. Full article
(This article belongs to the Special Issue Occupational Health and Safety (OHS): Emerging Trends and Future Directions)
13 pages, 446 KB  
Article
School Management Council and Disaster Preparedness: A Study of Special Needs Schools in Japan
by Hiroshi Tamura, Hiromi Kawasaki and Satoko Yamasaki
Safety 2025, 11(4), 108; https://doi.org/10.3390/safety11040108 - 10 Nov 2025
Viewed by 641
Abstract
Many Japanese special needs schools have adopted the School Management Council (SMC), involving residents and other stakeholders in school management. However, its influence on disaster preparedness remains unclear. We used a cross-sectional design to clarify the relationship between SMC adoption and disaster preparedness [...] Read more.
Many Japanese special needs schools have adopted the School Management Council (SMC), involving residents and other stakeholders in school management. However, its influence on disaster preparedness remains unclear. We used a cross-sectional design to clarify the relationship between SMC adoption and disaster preparedness among 537 special needs schools across Japan. Data were collected using a self-administered survey conducted between November and December 2020. Chi-square tests were carried out for each item addressing adoption and preparedness. Logistic regression analysis was performed to assess the overall relationship between the SMC and shelter and equipment readiness, revealing significant associations for two items: having decided the division of roles in case of disaster with the municipality’s disaster prevention department (shelter preparedness) and the presence of a stockpile warehouse on the school premises (equipment preparedness). The SMC may support three key aspects of disaster preparedness: compensating for the lack of shelter experience among school staff, strengthening support for disaster victims through local community–municipal authority collaboration, and enhancing preparedness for unforeseen events. The SMC could thus be an effective strategy for strengthening disaster preparedness in special needs schools. Full article
(This article belongs to the Special Issue Navigating the Complexity of Natural Hazards and Disasters: Research, Preparedness and Mitigation)
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17 pages, 1604 KB  
Article
A Case Study on Predicting Road Casualties Among Young Car Drivers in the Republic of Serbia Using Machine Learning
by Svetlana Bačkalić, Željko Kanović and Todor Bačkalić
Safety 2025, 11(4), 107; https://doi.org/10.3390/safety11040107 - 10 Nov 2025
Viewed by 683
Abstract
Road traffic accidents are a major global public health concern, ranking among the top three causes of death worldwide and constituting the leading cause of death among individuals aged 15–29. Monitoring traffic safety status and trends is a vital element of effective road [...] Read more.
Road traffic accidents are a major global public health concern, ranking among the top three causes of death worldwide and constituting the leading cause of death among individuals aged 15–29. Monitoring traffic safety status and trends is a vital element of effective road safety management. This study investigates road traffic casualties involving young car drivers (aged 18–24) in the Republic of Serbia from 1997 to 2024, analyzing historical patterns and introducing a predictive model for casualty outcomes. The analytical framework employs machine learning techniques, specifically Long Short-Term Memory (LSTM) networks, to estimate the number of casualties (FSI = Fatal + Serious Injuries) based on various contributing factors. Accurate prediction of accident outcomes is essential for designing targeted road safety measures and reducing casualty numbers. Full article
(This article belongs to the Special Issue The Safe System Approach to Road Safety)
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33 pages, 6592 KB  
Article
How Signal Phasing Shapes University Students’ Crossing Decisions and Confidence
by Efstathios Bouhouras, Grigorios Fountas, Socrates Basbas, Panagiotis Giapitzoglou, Stefanos Tsouggaris, Georgios Zois and Erlind Gishti
Safety 2025, 11(4), 106; https://doi.org/10.3390/safety11040106 - 5 Nov 2025
Viewed by 524
Abstract
This paper presents a comparative analysis of pedestrian behavior and perceived safety among university students at two signalized intersections near the campus premises of the Aristotle University of Thessaloniki, Greece. Although both intersections include pedestrian crosswalks and traffic lights, one permits vehicle left [...] Read more.
This paper presents a comparative analysis of pedestrian behavior and perceived safety among university students at two signalized intersections near the campus premises of the Aristotle University of Thessaloniki, Greece. Although both intersections include pedestrian crosswalks and traffic lights, one permits vehicle left turns during pedestrian phases via flashing yellow arrows, while the other restricts all vehicle movement. Two questionnaire-based surveys (n1 = 304 and n2 = 303) recorded demographic information, crossing behavior, perceived risk, and preferred safety interventions. Results indicate that the intersection permitting vehicle conflict is associated with significantly lower levels of perceived safety and higher instances of risk-taking, such as crossing “at any time”. Conversely, the vehicle-restricted intersection fosters greater compliance with pedestrian signals and a stronger sense of security. Key factors influencing crossing decisions included vehicle speed, signal duration, pedestrian group presence, and urgency. Respondents prioritized safety improvements such as pedestrian countdown timers, enhanced signage, and enforcement cameras. These findings underscore the critical role of signal phasing in shaping pedestrian behavior and safety perceptions. Evidence-based recommendations are offered to urban planners and policymakers to enhance pedestrian safety through targeted infrastructure upgrades and enforcement strategies. Full article
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14 pages, 380 KB  
Article
Association Between Workplace Sedentary Behavior, Age, and Waist-to-Height Ratio in Spanish Male Workers: An Observational Study in a Large Occupational Cohort
by Alejandro de Arriba Santos, Gema Santamaría, Raúl Cobreros Mielgo, Luis M. Cacharro, Álvaro López-Llorente, Elena Jiménez-Callejo, Jesús Seco-Calvo and Diego Fernández-Lázaro
Safety 2025, 11(4), 105; https://doi.org/10.3390/safety11040105 - 4 Nov 2025
Viewed by 619
Abstract
Prolonged sitting (PS) in the workplace has been linked to a higher risk of developing non-communicable chronic diseases. Simultaneously, an elevated waist-to-height ratio (WHtR) is considered a reliable measure of increased risk for the same condition. The main objective of this research was [...] Read more.
Prolonged sitting (PS) in the workplace has been linked to a higher risk of developing non-communicable chronic diseases. Simultaneously, an elevated waist-to-height ratio (WHtR) is considered a reliable measure of increased risk for the same condition. The main objective of this research was to examine the relationship between workplace PS and increased WHtR among male workers from the Spanish region of Castilla y León. The secondary objective was to assess how age affects elevated WHtR in workers. This retrospective observational study was carried out in accordance with the STROBE guidelines. The sample included 85,670 male workers, categorized by job type (with or without PS) and age (<40 years or ≥40 years). Chi-square test (X2), Pearson correlation coefficients, and odd ratios (OR) were used to analyze associations. Among workers with PS, X2 = 0.73 (p = 0.391) and 1.11 (p = 0.292) were reported, and among those without PS, X2 = 0.86 (p = 0.354) and 1.24 (p = 0.265), for the years 2022 and 2023, respectively. Therefore, there was no significant association between workers with or without PS and an elevated WHtR, both in those younger than and older than 40 years of age. Advanced age (≥40 years) showed a significant association with increased WHtR (p < 0.01; OR = 2.6). However, no statistical association was observed between PS and elevated WHtR (p > 0.05; OR = 1.15). These findings suggest that age plays a more prominent role than occupational PS time in WHtR among male workers. Future studies should consider other factors, including physical activity and dietary habits, that could affect WHtR. Full article
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13 pages, 1027 KB  
Article
Semi-Quantitative Risk Assessment of Occupational Back Pain and Its Associated Risk Factors Among Electronics Assembly Workers
by Sunisa Chaiklieng and Pornnapa Suggaravetsiri
Safety 2025, 11(4), 104; https://doi.org/10.3390/safety11040104 - 1 Nov 2025
Viewed by 930
Abstract
Electronics manufacturing workers engaged in material handling are susceptible to occupational back pain. This cross-sectional study aimed to develop a semi-quantitative risk assessment matrix and evaluate ergonomic risk factors contributing to back pain among workers in this industry. A total of 354 electronics [...] Read more.
Electronics manufacturing workers engaged in material handling are susceptible to occupational back pain. This cross-sectional study aimed to develop a semi-quantitative risk assessment matrix and evaluate ergonomic risk factors contributing to back pain among workers in this industry. A total of 354 electronics assembly workers participated in the study. Data collection involved the use of the Musculoskeletal Disorders (MSDs) Severity and Frequency Questionnaire (MSFQ), the Rapid Upper Limb Assessment (RULA), and workstation lighting intensity measurements. The risk assessment matrix for back pain prediction was applied, and associated factors were analyzed using multiple logistic regression. Results indicated that lighting intensity at 76.52% of inspection stations was below the standard requirements. Furthermore, 57.63% of workstations exhibited high- to very high-risk postures, necessitating ergonomic intervention. The risk matrix predicted that 62.44% of workers were at moderate to very high risk of occupational back pain. Statistical analysis identified manual lifting (ORadj = 2.48; 95% CI = 1.13–5.44), shift work (ORadj = 2.21; 95% CI = 1.11–4.40), and inappropriate workstation design (ORadj = 3.45; 95% CI = 1.42–8.42) as significant contributors to elevated back pain risk. These findings underscore the importance of ergonomic interventions and the application of a semi-quantitative risk assessment matrix for the prevention of occupational back pain in industrial workers. Full article
24 pages, 359 KB  
Article
A Risk Management Approach in Occupational Health and Safety Based on the Integration of a Weighted Composite Score
by Mirel Glevitzky, Maria Popa, Paul Mucea-Ștef and Doriana Maria Popa
Safety 2025, 11(4), 103; https://doi.org/10.3390/safety11040103 - 22 Oct 2025
Viewed by 2633
Abstract
Occupational health and safety (OHS) is essential for protecting the life, health, and physical integrity of workers. In a complex and dynamic professional context, the prevention of occupational risks has become a priority for employers and decision-makers, going beyond legal compliance to create [...] Read more.
Occupational health and safety (OHS) is essential for protecting the life, health, and physical integrity of workers. In a complex and dynamic professional context, the prevention of occupational risks has become a priority for employers and decision-makers, going beyond legal compliance to create a safe and efficient work environment. This article explores the history and the main theoretical aspects of OHS and explores the implementation of the ISO 45001 standard and introduces managing workplace health and safety (WHS) risks based on the 5M Method and a weighted composite algorithm for OHS risk assessment integrating factors such as severity, probability, frequency of exposure, number of exposed employees, organizational response capacity, and incident history. Applied in a mixed industrial case study, this approach demonstrated superior risk prioritization compared to the classic severity–probability model. The findings have practical applications: organizations can use the Weighted Composite Score to prioritize interventions, allocate resources efficiently, and prevent high-risk incidents. The approach is adaptable across industries, supporting data-driven safety decisions. The integration of this method supports ISO 45001’s principles of a systematic, proactive, and continuous improvement approach to OHS management. Full article
(This article belongs to the Special Issue Occupational Health and Safety (OHS): Emerging Trends and Future Directions)
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30 pages, 335 KB  
Article
Organizational Determinants of Unsafe Acts: An Exploratory Study in Refinery Maintenance Operations
by Gheorghe Dan Isbasoiu and Dana Volosevici
Safety 2025, 11(4), 102; https://doi.org/10.3390/safety11040102 - 16 Oct 2025
Viewed by 660
Abstract
Accident investigations in high-risk industries frequently focus on attributing unsafe acts to individual operators, often neglecting the organizational conditions that shape such behaviors. This study adopts an exploratory perspective to examine how communication, resource adequacy, and procedural design influence the potential for unsafe [...] Read more.
Accident investigations in high-risk industries frequently focus on attributing unsafe acts to individual operators, often neglecting the organizational conditions that shape such behaviors. This study adopts an exploratory perspective to examine how communication, resource adequacy, and procedural design influence the potential for unsafe acts in refinery maintenance operations within the oil and gas sector. Building on the HFACS-OGI framework, unsafe acts were classified into perception errors, decoding errors, model errors, decision errors, and violations. Data were collected through a survey (n = 46) and analyzed using ordinal logistic regression with 10,000 bootstrap replications, complemented by partial correlation analysis to capture indirect associations. The results provide preliminary evidence that organizational factors operate both as direct predictors of unsafe acts and as systemic pathways linking broader contextual conditions with operator behavior. In particular, deficiencies in communication emerged as a transversal determinant, partially explaining the relationship between organizational context and both perception and decision errors. While limited by sample size and exploratory design, the study contributes to safety science by extending the empirical application of HFACS-OGI beyond post-accident analysis and offering actionable insights for safety governance. The findings underscore the need for proactive organizational interventions that enhance communication systems, ensure resource adequacy, and promote the usability of procedures in order to mitigate the potential for unsafe acts. Full article
(This article belongs to the Special Issue Occupational Health and Safety (OHS): Emerging Trends and Future Directions)
25 pages, 385 KB  
Review
Industrial Safety Strategies Supporting the Zero Accident Vision in High-Risk Organizations: A Scoping Review
by Jesús Blanco-Juárez and Jorge Buele
Safety 2025, 11(4), 101; https://doi.org/10.3390/safety11040101 - 16 Oct 2025
Viewed by 1249
Abstract
Industrial safety in high-risk sectors such as mining, construction, oil and gas, petrochemicals, and offshore fishing remains a strategic global challenge due to the high incidence of occupational accidents and their human, financial, and legal consequences. Despite international standards and advancements in safety [...] Read more.
Industrial safety in high-risk sectors such as mining, construction, oil and gas, petrochemicals, and offshore fishing remains a strategic global challenge due to the high incidence of occupational accidents and their human, financial, and legal consequences. Despite international standards and advancements in safety strategies, significant barriers persist in the effective implementation of a Zero Accident culture. This scoping review, conducted under PRISMA-ScR guidelines, analyzed 11 studies selected from 232 records, focusing on documented practices in both multinational corporations from developed economies and local companies in emerging markets. The methodological synthesis validated theoretical models, practical interventions, and regulatory frameworks across diverse industrial settings. The findings led to the construction of a five-pillar model that provides the structural foundation for a comprehensive safety strategy: (1) strategic safety planning, defining long-term vision, mission, and objectives with systematic risk analysis; (2) executive leadership and commitment, expressed through decision-making, resource allocation, and on-site engagement; (3) people and competencies, emphasizing continuous training, communities of practice, and the development of safe behaviors; (4) process risk management, using validated protocols, structured methodologies, and early warning systems; and (5) performance measurement and auditing, combining reactive and proactive indicators within continuous improvement cycles. The results demonstrate that only a holistic approach, one that aligns strategy, culture, and performance, can sustain a robust safety culture. While notable reductions in incident rates were observed when these pillars were applied, the current literature is dominated by theoretical contributions and model replication from developed countries, with limited empirical evaluation in emerging contexts. This study provides a comparative, practice-oriented framework to guide the implementation and refinement of safety systems in high-risk organizations. This review was registered in Open Science Framework (OSF): 10.17605/OSF.IO/XFDPR. Full article
(This article belongs to the Special Issue Occupational Health and Safety (OHS): Emerging Trends and Future Directions)
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22 pages, 427 KB  
Review
Ontologies and Knowledge Graphs for Railway Safety
by Marzia De Bartolomeo and Antonio De Nicola
Safety 2025, 11(4), 100; https://doi.org/10.3390/safety11040100 - 15 Oct 2025
Viewed by 821
Abstract
Semantic technologies based on ontologies and knowledge graphs are increasingly recognized for their potential to enhance safety, risk, and emergency management in railway systems. This paper presents a systematic literature review aimed at identifying how ontologies, knowledge graphs, and the technologies based on [...] Read more.
Semantic technologies based on ontologies and knowledge graphs are increasingly recognized for their potential to enhance safety, risk, and emergency management in railway systems. This paper presents a systematic literature review aimed at identifying how ontologies, knowledge graphs, and the technologies based on them are applied within the domain of railway safety and assessing their contributions. A total of 53 relevant papers were analyzed using a structured review process, covering four main areas: risk management, safety management, emergency management, and accident analysis. The results reveal that ontologies and knowledge graphs support proactive hazard identification, formalization of safety knowledge, intelligent emergency response, and detailed accident causation modeling. Moreover, they enable semantic interoperability, reasoning, and automation across complex socio-technical railway systems. Despite their benefits, challenges remain regarding data heterogeneity, scalability, and the lack of semantic standardization. This study identifies the most relevant models and technologies, such as SRAC, SRI-Onto, and transformer-based graph neural networks, highlighting their role in advancing intelligent railway safety solutions. This work contributes a detailed map of the current state of semantic applications in railway safety and offers insight into emerging opportunities for future development. Full article
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12 pages, 503 KB  
Article
Leadership Style and Safety Culture in Commuter Railroads
by Patrick Sherry
Safety 2025, 11(4), 99; https://doi.org/10.3390/safety11040099 - 9 Oct 2025
Viewed by 812
Abstract
Previous research has repeatedly demonstrated the importance of both safety culture and leadership in promoting workplace safety. Several studies and reviews have identified transformational leadership style as an important contributor to a strong safety culture. However, a transformational leadership style may not be [...] Read more.
Previous research has repeatedly demonstrated the importance of both safety culture and leadership in promoting workplace safety. Several studies and reviews have identified transformational leadership style as an important contributor to a strong safety culture. However, a transformational leadership style may not be sufficient to establish an effective safety culture in a high-risk rail transportation environment. The present study investigated the role of democratic and authoritative leadership styles and behaviors and their association with the perceived effectiveness of safety culture. Employees of a mid-sized rail transportation company in the Eastern US completed a survey assessing leadership behaviors and safety culture. Correlational analyses revealed strong associations between leadership practices and behaviors, and employees’ perceptions of an effective organizational safety culture. Strong senior management commitment and a focus on educating employees to behave in accordance with predetermined safety procedures were also significantly associated with a perceived effective safety culture. Authoritative leadership behaviors were highly positively correlated with effectiveness, while democratic leadership behaviors were less strongly correlated. Moreover, the odds of the safety culture being perceived as effective were increased if authoritative rather than democratic leadership behaviors were exhibited. The results of the present study are both expected and unexpected considering the previous literature, adding to prior work by clarifying the leadership style most effective in a high-risk rail transportation work environment. Full article
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34 pages, 768 KB  
Article
Understanding the Mechanism Through Which Safety Management Systems Influence Safety Performance in Nigerian Power and Electricity Distribution Companies
by Victor Olabode Otitolaiye and Fadzli Shah Abd Aziz
Safety 2025, 11(4), 98; https://doi.org/10.3390/safety11040098 - 8 Oct 2025
Viewed by 1377
Abstract
The power and electricity (P & E) sector experiences a substantial number of occupational accidents, including in Nigeria. The implementation of a safety management system (SMS) to promote safety performance and mitigate occupational risks in this sector remains underreported. Therefore, we aimed to [...] Read more.
The power and electricity (P & E) sector experiences a substantial number of occupational accidents, including in Nigeria. The implementation of a safety management system (SMS) to promote safety performance and mitigate occupational risks in this sector remains underreported. Therefore, we aimed to explore the factors influencing the safety performance of Nigeria’s P & E distribution companies by applying McGrath’s input–process–output model as a theoretical framework. We used SmartPLS 3.0 for structural equation modelling and SPSS Version 23 for preliminary data analysis. We included a sample of 222 organizations and found that management commitment to safety, safety communication, safety champions, and government regulations influence working conditions and safety performance to varying degrees. Employee involvement, safety training, and working conditions were significant factors affecting safety performance. Management commitment, employee involvement, safety communication, safety champions, and government regulations had significant indirect effects on safety performance through their influence on working conditions. Organizational and regulatory elements played a crucial role in shaping safety performance in high-risk environments. The results highlight vital areas to be considered when developing interventions to address P & E occupational accidents. The results can aid stakeholders in developing and implementing measures to improve workplace safety, including examining current SMSs and considering working conditions when implementing safety interventions. Full article
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25 pages, 1271 KB  
Review
Occupational Risk Prevention in People with Autism Spectrum Disorder: A Review of the State of the Art
by Mayly Torres Alvarez and Estela Peralta
Safety 2025, 11(4), 97; https://doi.org/10.3390/safety11040097 - 8 Oct 2025
Viewed by 2496
Abstract
People with Autism Spectrum Disorder (ASD) face significant barriers to accessing and maintaining employment, many of which stem from work environments that fail to accommodate their neurological diversity. This article aims to analyze the occupational risks faced by autistic individuals in the workplace. [...] Read more.
People with Autism Spectrum Disorder (ASD) face significant barriers to accessing and maintaining employment, many of which stem from work environments that fail to accommodate their neurological diversity. This article aims to analyze the occupational risks faced by autistic individuals in the workplace. A total of 39 scientific studies were reviewed, and the results identified nine predominant thematic categories of occupational risks. Particularly prominent were deficient communication, lack of structured support, cognitive overload, and difficulties coping with change. The reported situations were examined in detail, with attention paid to their specific contexts. A clear predominance of psychosocial risks over ergonomic ones was observed. The review also highlights several underexplored yet equally relevant risk factors, such as discontinuity in supported employment programs, difficulties in requesting reasonable accommodations, discrimination, a lack of professional recognition, and the negative effects of digital or remote environments, such as isolation. This study underscores the importance of recognizing unsafe conditions arising from the lack of neurodiversity-informed adjustments as a necessary step toward implementing organizational and social adaptations in the workplace. Full article
(This article belongs to the Topic New Research in Work-Related Diseases, Safety and Health)
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18 pages, 695 KB  
Article
Emergency Management in Coal Mining: Developing a Capability-Based Model in Indonesia
by Ajeng Puspitaning Pramayu, Fatma Lestari, Dadan Erwandi and Besral Besral
Safety 2025, 11(4), 96; https://doi.org/10.3390/safety11040096 - 4 Oct 2025
Viewed by 1418
Abstract
The coal mining sector in Indonesia faces a high level of risk of disasters; however, to date, there is no specific evaluation framework to measure Emergency Management Capability. This research aims to develop a conceptual model of EMC that applies to the context [...] Read more.
The coal mining sector in Indonesia faces a high level of risk of disasters; however, to date, there is no specific evaluation framework to measure Emergency Management Capability. This research aims to develop a conceptual model of EMC that applies to the context of the coal mining industry. Using an exploratory qualitative approach, this study employed regulatory analysis and in-depth interviews, which were then thematically analyzed using the NVivo application. The results identified four challenges to EMC implementation, namely the absence of a minimum index standard for assessment, policy and implementation gaps, illegal mining activities, and risk dynamics. In response to these challenges, three strategic approaches were proposed: utilizing the InaRISK platform, adapting the IKD model, and developing standardized EMC instruments. Furthermore, this research formulates seven main components in the mining sector EMC framework, namely (1) risk and threat identification, (2) physical capacity, (3) human resource capacity, (4) prevention, (5) emergency response capability, (6) evaluation and improvement, and (7) recovery and restoration. This framework is expected to serve as a reference for evaluating the preparedness of mining organizations in a systematic, adaptive, and integrated manner within the national safety management system. Full article
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