Abstract
Purpose
Comparison of effective road safety approaches with those of relatively similar countries can be used to identify possibilities for safety improvement. Since there is no clear and comprehensive study of countries' current and successful approaches to road safety in the world, the aim of this study was to identifying common road safety approaches in the world.
Methods
This study was performed using scoping review and thematic analysis. The study followed the approach proposed by Arksey and O'Malley. In this study all articles were selected without time limit by searching in the following databases: Web of Science, PubMed, Scopus, ProQuest, and Embase. An initial search of 5612 papers was found and finally, 20 papers met the inclusion criteria and were analyzed.
Results
There were different road safety approaches in different countries around the world, which were classified in three themes: traditional approach, systemic approach, and vision zero. The traditional approach includes the sub-theme of the road-user approach, and the causal approach. The systemic approach also includes sub-themes of sustainable safety, safety system, and the United Nations plan for decade of action.
Conclusion
A systemic approach to road safety seems to be welcomed by most developed and developing countries, and a paradigm shift towards a safe system has taken place. Also, given the successful results of implementing vision zero in leading countries, most countries are trying to design and implement this approach. Finally, the choice and implementation of road safety approaches varies according to the principles, priorities and infrastructure of each country.
Keywords: Road safety, Vision zero, Road traffic injury, Road traffic accident, Approach, Safe system
Introduction
Road traffic injuries (RTIs) are one of the public health problems in which the community and decision makers continue to accept inevitably large-scale deaths and disabilities.1 RTIs are one of the leading causes of death in the ages of 5-29 years, so that according to the World Health Organization's (WHO) 2018 report, 1.35 million people die each year from RTIs and 20‐50 million are injured. These are the most important causes of death in low- and middle-income countries, and 93% of road traffic deaths occur in these countries. The financial consequences of RTIs are also significant. According to the WHO, RTIs account for 2%‐7% of gross domestic product (GDP) in low- and middle-income countries.2
Because of the multifaceted nature of road traffic crashes (RTCs), experts around the world have involved to solve this problem for many years. There are many challenges in preventing RTIs. There are generally two different approaches to preventing RTIs: the traditional approach and the systemic approach. The traditional approach tends to focus on changing the behavior of road users and reducing human errors and holding users primarily responsible for the occurrence of RTCs.3 Rather than being seen as a public health problem, RTCs are often regarded as separate crashes due to human errors. The focus on human errors has made road safety practitioners more focused on road users.4 Unlike the traditional approach, the systemic approach considers the prevention of deaths from RTCs as a system in which both road designers and road users are responsible for. In this approach, the level of human tolerance to kinetic energy has been highly regarded, so that speeds in different areas should be considered in such a way as not to cause serious injury and death in a car collision.3 There are various road safety approaches to reduce the number of deaths and serious injuries from RTCs in different countries which have their own goals. Since all approaches aim at preventing, reducing and improving management of fatal RTIs, thereby identifying different road safety approaches, their weaknesses and strengths can be applied as a model for implementing and deploying these approaches in other countries. Moreover, comparison of effective road safety approaches with those of relatively similar countries can also be used to identify possibilities for safety improvement. Since there is no clear and comprehensive study of countries' current and successful approaches to road safety in the world, the aim of this study was to identify common road safety approaches in the world.
Methods
This study was performed using scoping review and thematic analysis. First, using the scoping review, the road safety approaches in the world was reviewed. Then, using the thematic analysis, the results from the scoping review was classified and categorized. The purpose of the scoping review was to provide a method for mapping key concepts that encompass the field of research.5 Generally, scoping review was used for identification to demonstrate working definitions and conceptual boundaries of a topic or context. Therefore, scoping review is used when the body of texts is not yet fully explored or of a large, complex or heterogeneous nature that cannot be systematically reviewed.6 Unlike systematic review, scoping review provides an overview of the status of the research activity rather than evaluating its quality. Since the purpose of this study is to investigate the common road safety approaches, which is a new topic and concept, therefore, the scoping review method is suitable for this study. The study followed the approach proposed by Arksey et al.7 as well as the revised version of the Peters et al.6 This approach consists of five steps: identifying research question, identifying relevant studies, study selection, data charting, and collecting, summarizing and reporting the findings. In the next step, thematic analysis is used to analyze and categorize data.
Identifying the research questions
The objective of this scoping review was to identify the common road safety approaches in the world. A preliminary search for existing research and documents of the topic was conducted, and it was clear that there was no any comprehensive research on the common road safety approaches in the world. No study specifically designed to review the road safety approaches. Therefore, a scoping review of this topic will allow to know what the common road safety approaches in the world. The research question was as follows: what are the common road safety approaches in the world?
Identifying relevant studies
In this study all articles were selected without time limit by searching in the following databases Web of Science, PubMed, Scopus, ProQuest, and Embase. The last searching date was May 17, 2019. Bibliographic references of all major articles were investigated and reviews were assessed for other relevant articles. In addition, the Google search engine was used to search for documents and articles related to the subject. Search for articles was done individually and in combination using keywords such as road safety, traffic safety, road safety management, road traffic management, road strategy, and approach by using the Boolean operators “and/or”.
Study selection
All English-language studies conducted on common approaches to road safety worldwide were considered in this study. Relevant articles were first collected and a list of abstracts was prepared after the search was completed. All duplicates were removed using Endnote ver. X6 software.
Charting the data
Required data was extracted using a pre-prepared checklist that included a variety of approaches, country, current approach, approach name, slogan, and key principles.
Collating, summarizing, and reporting the findings
Initially, using scoping review different codes and concepts were reviewed and extracted. Thematic content analysis was then used to analyze the data. The thematic content analysis steps include familiarizing with data, generating initial codes, searching for themes, reviewing themes, defining and naming themes, and producing the report. 8
Results
Papers related to common approaches to road safety in the world were included in the study. Accordingly, an initial search of 5612 articles was found and finally, using the PRISMA checklist, 20 articles met the inclusion criteria and were analyzed (Fig. 1).
Based on the results of the scoping review and a thematic analysis, road safety and strategies can be classified in three themes: traditional approach, systemic approach, and vision zero. The traditional approach includes the sub-theme of the road-user approach, and the causal approach. The systemic approach also includes sub-themes of sustainable safety, safety system, and the United Nations (UN) plan for decade of action (Table 1).
Table 1.
Themes | Description |
---|---|
Traditional approach | |
Road-user approach |
|
Causal approach |
|
Systemic approach | |
Sustainable safety |
|
Safe system |
|
The UN plan for decade of action |
|
Vision zero |
|
UN: United Nations.
Traditional approach
The traditional approach tends to focus on changing the road users’ behaviors and reducing human errors, with users being primarily responsible for the occurrence of RTCs, mainly through education, advertising and various campaigns.3, 9 Injuries resulted from RTCs are often considered as separate accidents due to human errors rather than as a public health problem. The focus on human errors has made road safety practitioners more focused on road users.4, 9 Traditional approach assumes that there is a limit to safety and there is an optimal level of deaths and serious injuries, determined by the point at which the costs of intervention exceed the benefits.9
Road-user approach
The road-user approach to road safety focuses on human errors as a major cause of RTCs and, therefore, the road users are responsible if a crash occurs. This view is shaped by findings claim that human errors accounts for 95% of RTCs.10,11 In this approach, the main focus is on RTC prevention and hence measures are mainly performed to change the behavior of road users to adapt to the system such as regulation, monitoring of behavior, information and training so that the users behave properly and therefore, RTCs do not occur.11, 12, 13, 14
Causal approach
Causal theories of accidents claim that only an accurate knowledge of the actual factors that lead to accidents can help prevention. The two main trends in causal theories are deterministic events (sequence of events), and probabilistic (set of factors).15 In this approach, an accident may be caused by one or more events or factors. In this model, the accident is described as a chain of conditions and events that lead to the injury. This approach states that accidents can be mitigated by reducing unsafe actions or conditions.16
Systemic approach
The first person who had a systemic approach to RTI prevention was Dr. William Haddon who introduced the Haddon matrix. This matrix is actually a combination of the factor that includes human factor, environment, and causative agent interacting with the three dimensions of the event, including pre-crash, crash, and post-crash.17 Another systemic approach was developed by Carol, who added a third dimension to the two Haddon dimensions, which was then the decision criteria of the interventions. According to this model, for any different interventions, its value criteria, including its cost, effectiveness, freedom, equity, and other identified criteria must be measured in order to make decision and effective interventions.18
Systemic approach focuses on the inherent weaknesses and traits of human beings and considers transport system designers to be responsible for promoting safety and preventing RTIs and stating that responsibility must be shared between system administrators and road users.3 In the systemic approach, the level of human tolerance to kinetic energy has been highly considered, so that speeds in different areas must be sufficiently high to avoid serious injury and death in a car collision. Unlike the traditional approach, the systemic approach is top-down and at the level of strategy using political tools and has a long-term safety perspective.19 Based on the results, there are significant differences between traditional, systemic, and vision zero approaches (Table 2).
Table 2.
Items | Approach |
||
---|---|---|---|
Traditional | Systematic | Vision zero | |
Philosophy |
|
|
|
Ethical imperative | Not clear. | Ethical aspects are often ignored. | It is never ethically acceptable that people to be killed or be injured seriously in the road transport system. |
Direction | Bottom-up approach | Up-down approach | Up-down approach |
Problem | Try to prevent all RTCs | Prevent crashes from resulting in fatal and serious casualties | Prevent crashes from resulting in fatal and serious casualties |
Appropriate goal | Prevent road accident | Reduce fatalities and serious injuries | Eliminate/zero fatalities and serious injuries |
Planning approaches |
|
|
|
Causes of the problem |
|
|
The system design as the main cause and system designers as responsible. (Road user, designers, administrators, etc.) |
Focus on human characteristics | Excessive mechanical forces on humans |
|
|
Ultimately responsible | Individual road users | It places a shared responsibility across all elements of the system. | Shared responsibility amongst everyone, including those that design, build, operate and use the road system. |
System method of work | Is composed of isolated interventions | Different elements of a safe system combine to produce a summary effect greater than the sum of the individual treatments-so that if one part of the system fails others parts provide protection. | People will sometimes make mistakes, so the road system and related policies should be designed to ensure those inevitable mistakes do not result in serious injuries or fatalities. |
Cost of saving lives | Expensive | Cheap | Cheap |
RTIs: road traffic injuries.
In the present study, using scoping review and thematic analysis, the sub-themes such as sustainable safety approach, safety system, and the UN plan for decade of action were introduced as systemic approaches to road safety.
Sustainable safety approach
The sustainable safety approach began in the Netherlands in the early 1990s. This approach confirms that humans are vulnerable to RTCs and are susceptible to errors. The purpose of sustainable safety is to prevent such errors as far as possible or reduce their consequences due to human limitations in traffic system design.20 This strategy is based on five principles that are essential for a sustainable traffic system: (1) Functionality of roads: monofunctionality of roads as either through roads, distributor roads, or access roads in a hierarchical road network. (2) Homogeneity of mass and/or speed and direction: equality in speed, direction, and mass at moderate and high speeds. In places where traffic uses high speeds, different types of users and drivers driving in different directions should be physically separated from each other to avoid collisions that can cause death or serious injury. (3) Predictability of road course and road user behaviour by a recognizable road design: road environment and road user behaviour that support road user expectations through consistency and continuity in road design. (4) Forgivingness of environment and road users: limiting injury through a forgiving road environment and predicting road user behavior. Roads should assist road users in the event of an error. (5) State awareness of road user: road users should be able to assess their capability to access and control driving tasks.20, 21, 22 Initially the sustainable safety system contained only the first three principles, but in 2005 the outlook for sustainable development was updated and two subsequent strategies were added.21 The first four are specifically related to road infrastructure.20,22
Safe systematic approach
Safe system has evolved from the ideas that emerged in Sweden and the Netherlands in the mid-1990s and then after Australia in the 20th century from 1999 to 2002.23 This approach represents a “paradigm shift” in road safety approaches. The shift from treating RTIs factors as rational to the underlying assumption that there are always inherent risks to RTIs is towards conceptualizing and pursuing the development and management of a road transport system that is inherently safe from human errors.23 A key principle in the safe system approach is shifting responsibility from road users to road system designers to prevent RTIs.23,24 There are generally four key principles to a safe system: (1) People may make a mistake that can result in road injuries. (2) The human body has limited physical ability to tolerate the forces of RTC. (3) While individuals have a responsibility to comply with traffic laws, there is also a shared responsibility with those responsible for the design, construction, management and use of roads and vehicles to prevent RTIs. (4) All parts of the system must be fused together to multiply their effects, and if one part fails, it will still be protected by the other parts of the system.20,24,25 The safety system approach typically considers key interactive pillars including safe roads, safe vehicles, safe speeds, and safe road users. The fifth pillar is the post-crash response introduced by the UN in 2010 but not yet reflected in many areas of the safe system.20 Safe road: road is designed and maintained to reduce the risk of RTCs occurring and reduce the severity of injury in the crash event. Safe road prevents unintentional use by designing and encouraging safe behaviors by road users. Safe speed: speed limits are supplemented with road environments to manage RTC impact forces on human tolerance; and all road users comply with speed limits. Safe vehicles: the vehicles not only reduce the incidence rate of an RTCs and protect people, but also make driving easier and protect vulnerable users. Increasingly, these include vehicles that communicate with other roads and vehicles, while automated protective systems are used when the risk of a RTCs increases. Safe people: encourage people to have safe, sustainable and consistent behaviors through informed and trained road users. Licensing, training, road rules, enforcement and sanctions are all part of the safe system.26
The UN plan for decade of action
Given the importance of road safety and increased political participation of countries and long-term action in national and international coordination, another program with a systemic approach to preventing and reducing RTIs was announced: the UN plan for decade of action for road safety. In 2010, the UN general assembly adopted a declaration of the decade (2020–2011) calling it the plan for decade of action and required all membered states to implement preventive programs to reduce road traffic deaths and injuries. The program is based on the safe system approach and includes five pillars of action decade plan goals for road safety including road safety management, road and safe movement, safe vehicles, safe road users, and post-crash care.27
Vision zero
The vision zero was first started in Sweden by Professor Claes Tingvall and approved by the parliament in October 1997.9,28 Vision zero is a public program that aims to achieve a system in which deaths or serious injuries resulting from RTCs reach zero.4,28,29 The vision zero represents a long-term goal and is based on the elements including ethics, responsibility, safety philosophy, and creating mechanism for change.30,31 This approach is based on an ethical imperative to reduce death and serious injury in the transportation system.9,24 Vision zero considers human beings as the highest value and the system must be designed so that a RTC does not cause death or serious injury.4 The vision zero is based on the principle that deaths and injuries caused by RTCs can be prevented. Another principle of the vision zero is that human errors are unavoidable and unpredictable, hence the system must be designed in a way that human errors are predicted and death or serious injury will not occur.4,31 Vision zero also emphasizes on changes in road safety responsibility. Vision zero defines the responsibility view in such a way that system designers are always and ultimately responsible to design, to manage, and to provide use the road transport system and consequently responsible for the overall level of safety of the system.4,9,14,29 If road users are unable to comply with the rules, for example due to lack of knowledge, acceptance or ability, or occurrence of personal injury, system designers should take additional measures to prevent death or serious injury.24,29,31,32 The main focus of this outlook is on upgrading and modifying the transportation system, and if countries cannot change system safety such as road and users' safety, all focus should be on speed management. In this approach, speed management is very important and highly focused. These speeds are based on the human body's tolerance restriction against kinetic energy.3,11,33
The results of the study illustrated that some of the leading countries in road safety follow different approaches with different goals, priorities and principles. In general, the best road safety approaches in the leading countries are shown in Table 3 along with their names and key principles.
Table 3.
Country | Current approach to road safety |
Name of road safety/slogan | Key principles |
---|---|---|---|
Sweden | Vision zero | Safe traffic: vision zero on the move & “vision zero” from concept to action |
|
Norway | Vision zero | Norwegian vision zero |
|
Canada | System approach based on vision zero | Towards Zero: The Safest Roads in the World |
|
Netherland | System approach based on sustainable safety | Sustainable safety |
|
UK | System approach | Tomorrow's roads - safer for everyone& strategic framework for road safety |
|
US | System approach based on vision zero | Road safety strategies/strategic highway safety plans |
|
Australia | System approach based on safe system, vision zero and sustainable safety | National road safety strategy |
|
Poland | System approach based on vision zero | National road safety program |
|
Germany | Multiplicity approaches | National road safety program (risk: oriented approach) |
|
Japan | System approach | The 10th traffic safety program white paper on traffic safety |
|
UK: United Kingdom, US: United States, RTI: road traffic injury.
Discussion
The traditional approach included a road-user approach and a causal approach to road safety. The systemic approach was also divided into three sub-themes: sustainable safety, safe system, and the UN plan for decade of action. In addition, the vision zero approach, despite similarities to the systemic approach, was classified as a separate approach. The results of the study demonstrate that there are important differences between the traditional and systemic approaches and the vision zero in road safety.
Sustainable safety
The sustainable safety approach is one of the systemic approaches that the Netherlands is leader in its implementation. The positive effects of the implementation of the sustainable safety in the Netherlands can be seen. In recent years the Netherlands has maintained a very well road safety record. The fatality rate has dropped from 811 deaths in 2006 to 613 in 2017.34 The Netherlands recorded 31 fatalities per million inhabitants in 2017 that was well below the European Union (EU) average.35 From the cost-benefit analysis, it can be concluded that the measures were cost effective as well. The benefits were about four times the cost and overall cost-effectiveness.20
Safe system
The safe system approach has been implemented in some countries, such as Australia and to some extent in Germany. Although in Australia, national road safety has been reduced despite this approach, it has only been around 3.3% per year. As a result, it agreed on a new Australian road safety strategy: 2011–2020 that was more in line with Sweden's vision zero and Dutch sustainable safety approaches.36 Based on this approach, both Australia and Germany have achieved some success in reducing fatal road traffic injureis2,37, which could be due to a proper approach in road safety. In Australia as a step towards this long-term vision, a 10-year plan to reduce the annual number of deaths and serious injuries on Australian roads by at least 30% was presented. These goals are challenging because they are compared to a 23% reduction in road deaths achieved in the past decade.26 In 2017, there were 1225 fatal road traffic injures which had a decrease of approximately 14% from the 2011–2020 national road safety strategy.38 Adopting and implementing a safe system approach requires strong organizational leadership and close collaboration between all key organizations involved. For example, reports show that in Victoria, implementing a safe system approach is usually accompanied by challenges that generally aren't technical and scientific. Instead, they are mainly political and social. While many governments are looking for safe system-based strategies, some land-based measures still depend on politicians to understand that they are acceptable to society and the public. Continuous efforts should be made to inform road users. However, success has been achieved by focusing on improving road network safety by examining speed limits and by specifically introducing improvements in modern vehicle safety features.39
The UN plan for decade of action
The UN plan for decade of action for road safety is based on the safe system approach adopted by the UN in 2010. Many countries have adopted their goals and approaches to the program, and have announced a goal of reducing deaths by 2020. Analysis of the findings of various studies and sources shows that although some countries such as Sweden, Italy, Germany, Greece, and the United States have managed to achieve significant reductions in fatal RTIs, most countries have not succeeded in achieving the goals.2,27,37
Vision zero
Vision zero is a long-term philosophy and guide to the road safety structure. Not only does this approach look systemic, it also takes into account the inherent weaknesses and traits of human beings and the ethics dimension. Thus, the vision zero goes beyond the systemic approach and the important difference is the ethical and philosophical view of the value of human life.10 Countries like Sweden are at the forefront of the vision zero approach, followed by many countries such as Norway, Canada, the United States, the United Kingdom, and Poland which are inspired by this approach in road safety management. The experiences of these countries, especially Sweden, show that the vision zero approach is significantly effective in preventing road traffic injuries. For example, Sweden has reduced road traffic fatalities by more than 50% from 2007 to 2017.37 Contrary to most statistics in which 90% of RTCs are the result of human errors, vision zero laws have placed RTIs planners responsible for RTIs prevention.9,11 However, rather than eliminating human errors or crashes, successful vision zero programs expect to address these problems through infrastructures that reduce RTCs by increasing the body's biological tolerance to external forces as a guiding mechanism.40 The purpose of this approach is to minimize all potential accidental hazards whether caused by human errors or otherwise.41 Hazard reduction is achieved by separating traffic modalities at high speeds, managing the integrated traffic flow, and reducing collision angles at potential collision points.28 The success of vision zero approach in Sweden has made it to be inspired in the United States for road safety.41 Some states also achieved remarkable successes following the vision zero, including a 43% reduction in fatal RTIs in Minnesota, a 48% reduction in Utah, and a 40% reduction in Washington state.42,43 The United States has also focused heavily on improving the principles and infrastructures of cycling based on the principles of vision zero.44 Poland has also taken important steps to implement the vision zero. The most effective measures covers implementation and development of traffic safety programs at both regional and county levels, establishing the traffic safety observatory and two regional observatories, changes in driver training and examining procedures, implementation and improvement of a monitoring system (speed control and drivers' working hours control), standardizing bikers regulations, exhaustive construction of express highways and motorways, creating safe intersections, applying traffic calming measures, introducing traffic safety audits, upgrading the system of emergency rescue and post-crash response systems.45 However, some measures in Poland have not yet gained the expected results. They are rarely, or unfortunately, have not been done.45 In addition, the results of the previous studies show that governments do not charge a fee for introducing mindsets such as vision zero in road traffic safety program. The mindsets seem to have no cost. Implementing a safety plan is a way that requires resources and costs, especially if there is a limited time period. However, it should be made clear that the cost of implementing the vision zero is no higher than other road safety measures if done correctly.46 Therefore, the basic principles of vision zero can be achieved in any country with any level of socio-economic development.4, 24
Experiences in different countries showed that major advances in road safety can be achieved through comprehensive and concerted efforts and successes are likely to be achieved if road safety programs are well prepared and implemented.19 Worldwide, road safety approaches are developed, implemented, and evaluated based on different types of road-related deaths and injury estimates.40 Road safety approaches are designed to select, guide and describe measures to mitigate these damages caused by RTCs.36 Road safety approaches focus on road users, vehicles, roads and socio-economic factors.25 Recently, there has been a gradual or steady improvement in road safety following the introduction of road safety approaches such as vision zero in Sweden and sustainable safety in the Netherlands.36 The number of people killed in RTCs between 2000 and 2011 has fallen by almost 4.85%. There has also been a decrease in this period in the Netherlands and England.36 Approaches vary widely in the way they are presented and such as road safety, transport or institutional contexts or for implementation such as Sweden's vision zero.10,36 The vision zero scientific foundation shows that different road designs and vehicles, which improve human tolerance against external violence, can prevent 63% of deaths.9 A study done in Europe has shown that significant improvements have been made in the past decade in reducing the impact of road transport in terms of casualties. However, there is still a lot of work to be done to achieve vision zero on road safety by 2050. Also, despite efforts to coordinate between European countries, there are still significant differences in disaster management in the absence of a single structure, standards, data models and definitions, and there is no general agreement on the different stages of the process.47
In general, there are different approaches to managing road safety in the world. Recently, the paradigm shift seems to have shifted to the safe system.25,48 This is a real paradigm shift, as it requires more than a purely political or administrative decision to simply switch to safe system. Building a safety system is a comprehensive, long-term exercise that requires broad support mobilization, as a safety system based on shared responsibility for road safety performance. Not just road users, but also all who involved in planning, building, maintaining, managing or using of road traffic need to endorse a responsibility for road safety performance, and act on it. Without strong, forward-looking leaders, nothing will change in road safety. At a political level, guiding a country or a city requires a change of political paradigm and public support.25 In general, changing the paradigm of road safety issues in observing and responding to it requires a top leadership priority to make mental changes and guide stakeholders in advancing the road safety system. It also needs to create a sense of urgency to drive this change and raise awareness among all stakeholders that a safe system is the best approach to deliver improved road safety.25 The real breakthrough in road safety management is a fundamental paradigm shift in how we look at road safety as well as in the strategies used to address it. This paradigm shifts from traditional road safety policies to an integrated perspective in which road traffic becomes a secure system. In general, the implementation and success of road safety approaches requires consideration of human rights and their safety. Accepting road safety as the right of all road users is only possible if all those associated with the road traffic system fulfill their obligations.1
There are generally three types of approaches to road safety. The traditional approach, which includes a road-user and causal approach to road safety, focuses more on human errors and road users. Systemic approaches also include sustainable safety, the safe system, and the UN plan for decade of action. These approaches consider fatal RTI prevention as a system in which both road users and designer are responsible and each have different principles and goals in road safety. Another approach is the vision zero. Vision zero according to ethical philosophy and special attention to the value of human life is a more comprehensive approach than a systemic approach and a more comprehensive perspective on safety. Although each of these approaches has specific goals and principles, their ultimate goal is to reduce fatal RTCs. A systemic approach to road safety seems to be welcomed by most developed and developing countries, and a paradigm shift towards a safe system has taken place. Also, given the successful results of implementing vision zero in leading countries, most countries are trying to design and implement this approach. Finally, the choice and implementation of road safety prevention approaches varies according to the principles, priorities and infrastructure of each country. Proper modeling coupled with the principles of successful road safety practices can help to improve the safety and management of RTCs in different countries.
Funding
This study funded by Shahid Beheshti University of Medical Sciences, Tehran, Iran.
Ethical Statement
Not applicable.
Acknowledgments
We would like to thank all researchers who helped us in this study.
Footnotes
Peer review under responsibility of Chinese Medical Association.
Declarations of Competing Interest.
The authors declare no conflicts of interest.
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