Road traffic accidents and the contributing factors among drivers of public transportation in Mizan Aman town, Ethiopia: a Community-Based Cross-Sectional Study

Background Traffic accidents on the road is an accident is a terrible accident that causes death, injury, and property damage. However, limited studies were addressed to investigate the prevalence of traffic accidents on the road and the contributing factors among drivers that help in developing strategies to cop-up the incidence within the research domain in Ethiopia, particularly in the study area. Objective This study aimed to assess the prevalence of road traffic accidents and the contributing factors among drivers of public transportation in Mizan Aman town, Ethiopia. Methods A community-based cross-sectional survey was employed among 376 drivers of public transportation. Every research subject was selected by using a simple random sampling technique. Semi-structured and open-ended questionnaires which comprised demographic characteristics, risky personal behaviors and lifestyles, driver’s factors, vehicle condition, and environmental conditions were used to gather data. And then after, data was collected through interviewer-administered using KoBo Collect tools. Completed data were edited and cleaned in the Kobo collect toolbox and then exported for additional analysis to a statistical tool for social science statistics version 26. The descriptive statistics were displayed as figures, tables, and texts. Binary logistic regression was analyzed to identify the contributing factors. Statistically significant was decided with a p-value of ≤ 0.05. Results The results showed that the prevalence of road traffic accidents among drivers of public transportation in Mizan Aman town was 17%. The study identified factors influencing traffic accidents on the roads including marital status (being single), employee condition (permanent), monthly income (1001-2500 Ethiopia Birr), alcohol use, vehicle maintenance (not), road type (non-asphalt), and weather conditions (being windy). Conclusion The overall prevalence of road traffic accidents among drivers of public transportation in Mizan Aman town was relatively low. Despite this, sociodemographic characteristics, driver factors, vehicle conditions, and environmental conditions [road type and weather conditions] were the predicting factors of traffic accidents in town. Therefore, reduction strategies should be the highest priority duty for concerned bodies like Mizan Aman town road and transport office, Bench Sheko zone transport and logistics office, and Southwest Ethiopia People Regional State (SWEPRS) transport bureau in the study area.


Introduction
A road traffic accident (RTA) is an incident that involves at least one moving vehicle during transportation and leaves one or more people injured or dead (1,2).The World Health Organization (WHO) defined RTA as any injury, whether fatal or non-fatal, sustained in an accident on a public road (3).There are several scenarios in which a collision may occur (4,5).It involves at least one moving vehicle or pedestrian, and the crash occurs on a path or street that is accessible to public transportation (3).It could result in the deaths or serious injuries of one or more people, and at least one moving car is involved (6).In most times, vulnerable road users include cyclists, motorcyclists, and pedestrians (7).If adequate measures are not taken to reduce road traffic injuries, they will become a serious public health and development concern and can damage a person's quality of life (8).In addition to having an impact on an individual's health, traffic accidents can also place an economic burden on households as they struggle to pay for long-term effects such as medical care, rehabilitation, and the loss of the family's primary provider (4).Traffic accidents can also put a tremendous amount of pressure on the national healthcare systems, which already have a tragically low amount of funding (9).Furthermore, RTAs cost most nations 3% of their gross domestic product (7).
Traffic accidents continue to be a major global health and development issue, particularly in developing nations, including Ethiopia, since the road is the major route for transportation.These accidents kill close to 1.35 million people annually, ranking as the 8th most common cause of death overall, and is the leading cause of death for youth and young adults aged 5-29 years.Ethiopia has three times higher death rates due to RTAs when compared to other low-income nations (26.7 in South East Asia and 26.6 in Africa per 100,000 people) (10)(11)(12).Worldwide, approximately 90% of road deaths occur in middle-class and lower-income nations (7, 9, 13).Despite being the least motorized of the six major world regions, Africa has the highest rates of RTAs with fatality rates of 24.1/100,000 compared to the global average of 18/100,000 fatalities (14).Ethiopia reports a significant incidence of RTAs, despite having a low road network density and low automobile ownership (15).In addition, the WHO revealed a loss of approximately 400 to 500*1000,000 Ethiopian Birr (ETB) and nearly 2,000 deaths involving pedestrians (48%), passengers (45%), and drivers (7%) due to RTAs in Ethiopia (16).Furthermore, according to an Ethiopian demographic and health survey, RTAs were the secondmost common accident and injury (22.8%) after unintentional falls (15).Pieces of evidence from studies have revealed that drivers of public transportation are vulnerable to professional working groups.For instance, stressful working conditions have been associated with health and lifestyle-related outcomes among professional drivers (17).In turn, work stress in professional drivers is positively associated with traffic collisions (18).Consequently, professional drivers have suffered accidents due to work stress, and their safety has also been compromised (19).Moreover, work stress is also related to addictive behaviors such as regular alcohol consumption and smoking, which are the aggravating factors for traffic collisions among drivers (20).As a result, drivers are at more risk of suffering from muscularskeletal, cardiovascular, gastrointestinal, and psychological problems due to specific working conditions (21).
Pieces of evidence from the scientific community suggest that different contributing factors play an important role in the occurrence of RTA, which include sociodemographic characteristics and driver factors such as sex (23), age (1,24,27,28), educational status (8,24), prior punishment (28, 36), place of residence (15,28), income status (8,15), use of alcohol and khat (8,24,37,38), personality of the  (39), and traffic infringement (40).Stress-related working conditions (work stress, social support, and effort or reward imbalance) are relevant predictors of risky driving (41).Furthermore, risky behaviors or lifestyles of drivers were associated with driving experience, positive driving behaviors, social desirability, and perceived stress (42).Another factor that predicts traffic accidents is environmental conditions, including adverse weather conditions (37), road types (27), light conditions (43), and time of accidents (37).Other significant factors are vehicle conditions like types of vehicles (44), maintenance conditions (36), and mechanical problems.Despite RTA being a terrible incident that causes death, injury, and property damage; there is limited information available about traffic accidents on the road and contributing factors among drivers of public transportation in developing countries, including Ethiopia.The primary sources for estimating the extent of road traffic injury in low-income countries are hospital registry data and police records; however, underreporting affects both sources (45).Previous studies addressed the prevalence of RTA among victims through a retrospective study design, which could not give significant information to decision-makers due to the design itself (45).In addition, pieces of evidence from quantitative studies revealed the prevalence of RTA (23, 28, 31, 33-36, 40, 46); in Ethiopia, particularly in the study area, there is a paucity of information regarding the contributing factors among drivers of public transportation to the occurrence of traffic accidents on the roads and public health concerns.Moreover, little was known about the prevalence of traffic accidents on the roads and the contributing factors among drivers of public transportation with a community-based cross-sectional study design.Identifying black spots and comprehending the factors contributing to traffic accidents on the roads are essential for developing remedies for public health issues (27,47).Therefore, obtaining the magnitude and associated factors among drivers who are directly involved in the task would reveal their contribution to the occurrence of traffic accidents on the road.The study aimed to fill the gaps shown in the above pieces of literature.
The current research added a unique contribution to existing literature via a proposed approach that generated realistic findings because the study was well equipped to assess the prevalence of traffic accidents on the roads and the contributing factors among drivers of public transportation in Mizan Aman town, Southwest Ethiopia People Regional State (SWEPRS).In this regard, the rationale of the study is as follows: First, findings from the study might be used as baseline information to design effective strategies to alleviate the problems.In addition, traffic accidents are a major but mistreated public health challenge that requires determined efforts for effective and sustainable prevention; second, information from the study points out the issue regarding traffic accidents on the roads in the study area, which, in turn, primarily invites those interested volunteers to address or tackle the traffic-related problems.Moreover, information regarding the cause of traffic accidents and precautions that need to be taken by drivers was informed, promoted, and disseminated on behalf of road traffic officers; and the third and last rationale of the study was that the result obtained from the study would provide full information for readers, researchers, and policymakers to design an effective interventional strategy in the area.Aman town is linked by an extensive road network to other cities, divisions, and regions such as Oromia and Gambela.Different interregional and regional bus transportation providers served the community of Mizan Aman town.In reality, there were 1,063 cars or vehicles registered in different unions established by the Mizan Aman town administration that provided public transportation service.Those unions include Bajaj unions (N = 754) in which Zenbaba (N = 274), Mango (N = 313), Aman Boeing (N = 167), and Taxi union (Irgib) (N = 55), and all vehicles were ranked from one to three based on the level of unions [Gacheb 1st rank (N = 53), Zihon 2nd rank (N = 84), and Mizan 3rd rank (N = 117)] (48).

Source and study population
All public transportation drivers found in the Mizan Aman town administration were the source population.The selected public transportation drivers were registered in the office of the Mizan-Aman town administration road transport and logistics and were considered the study population.

Determining the sample size and sampling methods
Using the standard formula for a single population proportion, the sample size was calculated.By taking into account 33.4% of traffic accidents on the roads due to bad road conditions in Chuko Town, Ethiopia (32), at a 95% confidence interval (CI).where n = size of the sample; Zα/2 = 1.96 standard scores, with a 95% confidence interval; d = level margin of error to be tolerated (5%); and p = proportion of RTAs.The sample size would increase to n = 376 when a 10% non-response rate was taken into account.
All vehicle unions found in the Mizan Aman town were a part of the study.Information about public transport drivers and vehicles found in town was obtained from the Mizan Aman town road transport and logistics office.A total sample size was allocated to each vehicle union with their respective number of drivers being proportionate to their population size.The lists of public transport drivers in the Mizan Aman town road and transport office were the sampling frame.The entire sample size was distributed based on the real number of cars registered in the unions, namely, Bajaj unions (Mango, Zenbaba, and Aman Boeing) and Taxi union (Irgib), and all vehicles were ranked from first to third based on the level of unions (Gacheb 1st rank, Zihon 2nd rank, and Mizan 3rd rank).Then, every driver was assigned or coded with an identification number called number plate, and we entered each identification number into a database from 1 to 1,063.A random number generator was used to select 376 drivers of public transportation.Finally, a basic random selection method was used to choose each research subject.To control sampling bias in the study, we carefully defined the target population (all public transportation drivers who are serving the community in Mizan Aman town) and the sampling frame (list of drivers from the different vehicle unions from which the study subject would be drawn).In addition, the researchers made the survey accessible and short.Finally, they monitored those non-responders.

Inclusion and exclusion criteria
The drivers who met the following criteria were included in this study: (a) they had to be at least 18 years old; (b) they had to have been driving professionally for a minimum of a year; and (c) they had to be registered with the town's transport and logistics office to serve the public and community through transportation.

Study variables 2.5.1 Dependent variable
The dependent variable was traffic accidents on the roads.

Independent variables
Demographic characteristics [sex, age, level of education, marital status, monthly income, family size, employee condition, level of driving, experience of driving, and owner of the vehicle]; risky personal behaviors [use of alcohol, khat, and cigarettes, prior punishment by traffic police, and habit of checking vehicles]; driver factors [type of vehicle he/she drives, working hours per day, information about traffic safety (media, training, friends, and traffic police), traffic-related safety training, and use of a safety belt]; vehicle conditions [types of vehicles, service of a vehicle, maintenance of vehicles, and mechanical problems]; and environmental conditions [weather conditions (rain, wind, and fog), road type (non-asphalted vs. asphalted roads), time (day, afternoon, night, and midnight), and type of collision].

Operational definitions
Accident time: This variable indicates the time during the day (24 h) when there was a high volume of traffic on the roads (49).
Driver: Individuals operating vehicles other than bicycles and two-wheeler vehicles (34).
Passengers: Any occupants of a vehicle other than the driver, including additional passengers and pillion riders.
Pedestrians: Individuals who use the sidewalk or streets to push, ride, or walk bicycles (34).
Road: Any public road system, including city streets and state, regional roadways, and local roadways (34).
Traffic accidents on the road include collisions or crashes involving several cars, pedestrians, animals, or physical or architectural barriers, as well as crashes that occur on a route or roadway that is accessible to the general public (3,4,34).
Users of the road: Pedestrians and all occupants of vehicles (driver, rider, and passengers) (34).
Taxi: A car that is driven by a professional driver and used to carry people and their small belongings across short distances (34).
Vehicle: Any device with three or more wheels that is used to transport people or things from one location to another (34).
Vehicle type refers to the various vehicle kinds, including pick-up, bus, minibus, truck, Isuzu, ambulance, car, and automobile (49).
Driving speed: When a driver exceeds the posted speed limit (34).Chewing on Khat: A cab driver does so while operating a vehicle (34).
Driving while intoxicated: A cab driver who operates a vehicle after consuming alcohol within 3 h (34, 36).
Experience of the driver: This denotes the driver's experience, namely, the amount of time the driver spends operating a vehicle (49).
Vehicle service year denotes the year the owner of the vehicle receives servicing (34,49).
Weather conditions describes the weather at the time of the accident, including whether it was cloudy or foggy, windy, sunny, or wet (49).

Tools and methods for data collection
The tools used in this study were adapted from different published articles (27-29, 32, 34, 40)  Three data collectors with prior experience in data collection and who were fluent in speaking and reading in Amharic and English language were hired, and collection of the survey data underwent two-day training sessions from 14 March 2023 to 15 March 2023, on the informed consent and data collection procedures for the use of KoBoCollect.
Once the data collecting tool's contents were finalized, Microsoft Excel was used to compute the electronic form utilizing the XLSForm standard.Range, checks for logic, and rationale for skipping were incorporated into the electronic form.To verify syntax, XLSForm Online v2.x was used.After the verification, the XLSForm was uploaded via the KoBo Toolbox website.With its web-based form builder, KoBo Toolbox also facilitates form design.Throughout the entire data collection period, we allocated each of the three Android devices running KoBoCollect version 2022.2.3 to a single data collector.A Google account and a KoBo account were created for each smartphone to link the data collected to a particular smartphone and data collector.Each data collector downloaded the blank form to their smartphone from the KoBo Toolbox server.The completed form data were transferred from the smartphones to the server (administer account) after each day of data collection.In conclusion, the technology provides an additional degree of protection by prohibiting smartphones from accessing the aggregated collected data from the server (50).

Data quality assurance
Professionals with linguistic backgrounds who hold a Bachelor of Arts (BA) degree in Amharic translated the tools from English into the national language, Amharic, and then backtranslated to English for accuracy.Tools were adapted from published articles (27-29, 32, 34, 40) and were pretested among 5% (19 study participants) in Bonga Town, Kaffa Zone, before data collection, and any corrections made after the pre-test or not were stated.To guarantee the accuracy, consistency, and completeness of the data collected, data collectors received orientation and rigorous oversight.The consistency and completeness of the collected data were verified.Before analysis, a first analysis was performed.

Data processing, analysis, and interpretation
The completed aggregate of collected data from the server was downloaded, edited, and cleaned.After that, it was exported to Statistical Package for the Social Sciences, version 26 to be further examined.Frequency and percentage were used to summarize descriptive data presented in texts, tables, and figures.To evaluate the contributing factors, logistic regression analysis was performed.To control the impact of confounders, multivariable logistic regression was performed for the variables in the bivariable logistic regression that had a p-value of ≤ 0.25.Hosmer and Lemeshow statistical tests were carried out to check the goodness of fit.The variables were selected using a backward stepwise regression (LR) method.The degree of the connection was assessed by computing the adjusted odds ratio (AOR) with 95% confidence intervals.For variables in the final models, p-values less than 0.05 denote statistical significance.

Ethical considerations and participant consent
The study was carried out following ethical approval granted by the institutional review committee of the Mizan Aman Health Science College under reference no: PN003/2023.Furthermore, informed consent was requested from the relevant entity verbally and in writing.The individuals' privacy and the overall information collected from them were kept completely confidential by using codes.Regarding ethical issues, the voluntary participation of key informants was respected, informed consent was obtained, and no harm to human beings was addressed.To stop the spread of COVID-19, personal protective equipment such as masks was used.

Sociodemographic characteristics
A total of 376 people in all, or 100% of the respondents, took part in the research.Nearly 371 (98.7%) study participants were men.The mean age of the study participants was 28.12 ± SD of (6.322).Nearly 227 (60.4%) and 149 (39.6%) of the study participants were married and single.More than three-quarters of the respondents 326 (86.7%) attended secondary school.In terms of working conditions, 255 (67.8%) of the study participants were employed permanently.In addition, the majority of drivers (257, 68.4%) have fewer than 5 years of experience.A total of 359 (95.5%) drivers had less than or equal to five family members.The mean monthly income of respondents was 4859.04 ± SD of (2733.149)ETB (Table 1).The majority, 124 (33%), of drivers reported that they have a monthly income range of 2,501-5,000 ETB (Figure 1).

Drivers factors and vehicles conditions
In this study, nearly 373 (99.2%) of the respondents replied that they received traffic-related safety training, of which approximately 316 (84.0%) engaged in traffic-related safety training before starting a job.Accordingly, approximately 372 (98.9%) drivers replied that they have a habit of checking vehicles.Of which 333 (88.6%) reported that they have a habit of checking their vehicle in the morning.More than half, 193 (51.3%), of the drivers use a safety belt while driving, of which 157 (41.8%) reported that they always use a safety belt (Table 2).
In the present study, approximately 180 (27.9%) and 117 (31.1%)Bajaj and Taxi/Dolphin types of vehicles were the most public transport serving the community, respectively.Of those, approximately 290 (77.1%) of the vehicles' service years were of category 1-4 years.Furthermore, nearly half of the vehicles, 185 (49.2), serving the public in the study area have not been maintained in recent years.Similarly, approximately 230 (61.2%) respondents reported their vehicles were encountered with mechanical problems (Table 2).

Factors associated with the prevalence of traffic accidents on the road
In bivariable logistic regression, variables including marital status, employee condition, monthly income, engagement in traffic-related safety training, chewing Khat, maintenance of a vehicle, vehicle encountered with mechanical problems, road type, and weather conditions were significant.In the multivariable logistic analyses, marital status, employee condition, monthly income, alcohol use, vehicle maintenance, road type, and weather conditions were found to be significantly associated with traffic accidents on the roads at a significance level of p = 0.05 (Table 4).
Compared to part-time workers, drivers with permanent jobs had a three times higher risk of being involved in traffic accidents on the roads (AOR = 3.343; 95% CI: 1.587, 7.041).Drivers who consumed alcohol had four times higher odds of being involved in traffic accidents on the roads than those who did not (AOR = 4.083; 95% CI: 1.415, 11.780).Additionally, according to this study, drivers who operate poorly maintained vehicles are almost three times more likely than their peers to be involved in traffic accidents on the road (AOR = 3.250; 95% CI: 1.483, 7.120).Drivers who had driven on non-asphalted road types had three times higher odds of being involved in traffic accidents on the road than drivers who had driven on asphalted road types (AOR = 3.222; 95% CI: 1.400, 7.414).Drivers who have experienced driving in windy weather conditions were 89.6% less likely to suffer from traffic accidents on the roads than drivers who experienced driving in foggy weather conditions (AOR = 0.104; 95% CI: 0.038, 0.284) (Table 4).

Discussion
This is the first study that has assessed the prevalence of traffic accidents on the roads and contributing factors among drivers of public transportation in Mizan Aman town, Bench Sheko zone, SWEPR, Ethiopia.
In the current study, the prevalence of traffic accidents on the roads among drivers of public transportation in the past 3 years was found to be 17%.This result is consistent with results reported in previous studies conducted in different countries: Ibadan, Nigeria (16.2%) (46), Hanoi, Vietnam (20%) (25), and Ethiopia [Bahirdar city and Amhara national regional state] (16.3 and 20%) (31,51).The main reasons for the occurrence of the accidents might be due to stressful working conditions ( 17), job stress (18), safety compromised by job stress (19), job stress related to addictive behaviors (regular alcohol consumption and smoking) (20), and psychological problems (anxiety, depression, and post-traumatic stress disorder) (21).Implementation of strategies to combat RTAs includes road safety training courses for young people and adults aimed at raising awareness and changing the attitudes of their participants, influencing the intention to change behaviors toward more appropriate and less risk factors among drivers, and evaluations of different types of programs regarding road traffic, which specifically focused on resilience, risk detection, and decision-making that have proven to be the most useful (52).However, the result is somewhat lower than the study results reported in Mekelle Town (26.4%) (33), Chuko Town (23.5%) (32), and Ethiopia (21.9%) (15).The observed variation may be attributed to variations in the data sources, study participants, study settings, and sample size (15,32,33).The other reason that caused the variation might be the source of obtained information related to the occurrence of traffic accidents on the roads in the form of questionnaires in which some respondents purposely close or hide some important information.On the other hand, the figure is higher than the result reported from an Ethiopian study from 2015 using the STEPS survey, in which 3% of the participants had been in a traffic accident (8).This significant disparity may result from variations in the study population, the study period and conditions, the sampling strategy, methods for analyzing descriptive data, and sociodemographic traits.Moreover, the result is lower than what is reported in different countries having a history of traffic accidents on the roads in the past years: Bauchi State, Nigeria (38.3%) (23), Hail, Saudi (63%) (26), and Ethiopia [Sidama region, town, Nekemte town, Dilla town, and Addis Ababa] (55.1, 32.8,33, 39.9, and 56.9%) (27,28,(34)(35)(36).The difference might be due to differences in sample sizes such as of Addis Ababa (840), East Wollega Zone (400), and Saudi Arabia (208), respectively (26, 28, 35).In addition, the reasons for the difference could be because of a large population or over-crowdedness in previous studies (23,34,35) and the environments for study, the research subjects and design, the technique of sampling, and the data source (27).This study's findings show that sociodemographic attributes of public transport drivers were strongly correlated with the occurrence of traffic accidents on the roads in the town.Regarding marital status, those drivers who were single were 56% less likely to be involved in the occurrence of traffic accidents than drivers who were married.This might be because married drivers were responsible for taking care of their families as the only source of income, so they run timelessly for extra income, which leads them to be more involved in the occurrence of traffic accidents on the roads.Moreover, a study conducted in Vietnam (40) and another in Dilla Town (36) showed that taxi drivers who had been married were not significantly involved in road traffic accidents.This may be the result of variations in the sample population and the type of vehicle involved in the study.In other words, the study conducted in Vietnam was limited to taxi drivers (40), but in this study, all public transport service providers were included.
Compared to part-time workers, drivers with permanent jobs had a three times higher risk of being involved in traffic accidents.Risk is the probability of getting harm (injury, illness, death, damage, etc.) that may occur from exposure to a hazard.In this scenario, drivers being full-time employed were more exposed to hazards, which might lead them to be involved in RTA.In addition, permanent drivers may be under social and economic pressure because of inflation.This finding was inconsistent with a study result reported in Vietnam in which taxi drivers employed as part-time were 2.22 times more likely to be involved in RTA than drivers employed full-time (40).In addition, a study carried out in Nigeria among drivers employed by state institutions revealed that drivers with part-time occupations were 2.6 times more likely to be involved in RTA than those without such professions (46).This discrepancy might be due to the additional need for income sources because of high expenditure on social needs such as education and health and economic competition driven by the need of drivers who were employed part-time in Vietnam (40).Since the RTA is a sudden phenomenon, full-time drivers were more exposed to RTA than part-time drivers.This study finding showed that drivers with a monthly income of 1,000-2,500 ETB were 63% less likely to be encountered in RTA than those below 1,000 ETB and above 2,500 ETB.This result is in line with those of studies conducted in Vietnam and Ethiopia, which disclosed that inadequate revenue collection was strongly linked to RTA, and households with annual incomes exceeding 30,000 ETB were the most engaged in RTA (8,40).In addition, the result is also in line with that of a study conducted in Addis Ababa, Ethiopia (38).The research carried out in the Amhara region revealed that being wealthy and in the middle-income strata were 8 and 40% less likely to be involved in the occurrence of RTI, respectively (51).However, the findings in Dilla Town among drivers were not significant with respect to RTA (36).This discrepancy may be brought about by the sociodemographic traits of the research subjects in the study region.It is supported by a qualitative finding that showed that economic pressure on the safety of drivers had contributed to RTA (53).
In fact, the use of alcohol is one of the risky personal behaviors that expose drivers to traffic accidents on the roads.A study conducted in North Gondar disclosed that driver's behavior contributes (67%) more than other factors in causing RTA (54).Similarly, an Iranian study found that the primary risk factors for the incidence of RTAs were the actions of drivers inside the transportation system (55).The results of this study showed that the likelihood of experiencing a traffic collision on the roads was 4.08 times higher for those who used or  (33).It is further bolstered by another research study carried out in Dilla town, which showed that involvement in traffic accidents was over eight times higher among drivers who exhibited risky driving behaviors compared to those who did not (36).Despite this finding, a result reported in the United States showed that alcohol consumption as a cause of RTA causalities was less likely (56).This disparity may result from variations in the research settings, the sociodemographic makeup of the populations, transportation laws or policies among the nations.Similarly, a study conducted in Eastern Wollega and Vietnam showed that the habit of alcohol consumption was not significant for the occurrence of RTA (28,40).This could be because of variations in the research area or environments, the sociodemographic makeup, transportation laws, or policies among the nations.This study found that drivers who operate poorly maintained vehicles are almost three times more likely than their peers to be involved in traffic accidents on the road.This result is corroborated by those reported in Vietnam (28) and Dilla Town, Ethiopia (36).
Road conditions play a pivotal role in the occurrence of traffic accidents on the road.Drivers who had driven on non-asphalted road types had three times higher odds of being involved in traffic accidents on the road than drivers who had driven on asphalted road types.This result aligns with a result reported in Hawassa, Ethiopia (27), which might be due to similarities in the geography of the study area.The road features are, in turn, determined by natural topography, the quality of roads by themselves, the absence of roadside traffic signals, and the absence of speed breakers, especially on sloppy roads.
The likelihood of traffic accidents occurring on the roads was 89.6% lower when windy weather prevailed compared to rain, fog, and overcast conditions.This might be because the weather conditions of the study area, particularly SWEPRS, were most likely rain, fog, and overcast conditions, rather than windy.The finding aligns with that of research conducted at the Burayu town police stations in Ethiopia, which indicated rainy weather conditions that caused the fatality in RTAs (39).It is also supported by findings reported in the United States (56).A review of factors that cause RTA in Africa identified that environmental factors cause one-fourth of the accidents in the region (57).According to a systematic review conducted by Jakobsen et al., external factors were found to have an influence on occupational risk factors for road traffic crashes among professional drivers (58).Moreover, a study carried out in Pakistan showed weather conditions such as rain, wind, and fog as a determinant factor for the occurrence of traffic accidents (59).A similar finding in Iran indicated that unsupportive environmental conditions contribute to RTAs (60).This inference is reinforced by the findings of a qualitative study conducted in an industrial city in India, which demonstrated that inclement weather not only exacerbates poor road conditions but also reduces visibility for motorists traveling in the opposite direction (61).However, Dajun Dai revealed that weather conditions were not significant risk factors for the occurrence of RTA (43).Frequency of driving above the recommended speed among divers in the Mizan-Aman town, Bench Sheko Zone, SWEPRS, Ethiopia, 2023.

FIGURE 3
The sources of information about traffic safety among divers in the Mizan-Aman town, Bench Sheko Zone, SWEPRS, Ethiopia, 2023.Despite these predicting factors such as age (24, 27, 28, 34, 46); driving above the recommended speed (27,33); mechanical problems encountered on the vehicle (33); chewing khat (8,34), and attending traffic safety-related training (36) investigated in previous studies, there is no observed statistical association with RTA in the current study.

Limitations of the study
First, there was no control over characteristics that would have limited the ability to draw conclusions about causality or advocate policies based on the findings because the study participants had access to all pertinent information.Second, bias because of the study's design relied on interviewers to get self-reported data and information from participants; these data may be influenced by social desirability or recollection bias.Third, limited availability of data -data obtained from previous studies, reports, or databases may not provide the most updated or comprehensive information about traffic accidents on the roads -may limit the accuracy and generalization of the findings.Finally, there was lack of qualitative data, which should be incorporated into future studies.

Conclusion
Incidence of traffic collision on the road among drivers of public transportation in Mizan-Aman town is 17%.Some predictive factors were found to be associated with the likelihood of traffic accidents, including weather, road type, marital status, alcohol consumption, and car maintenance.
Therefore, implementation of reduction strategies for RTAs like speed breakers, alcohol tracing, and strong traffic safety guidelines and laws ought to be the highest priority for concerned bodies such as the regional transport office, zonal transport office, and road safety and traffic police to mitigate these problems in the study area.In addition, enhancing awareness about road safety rules and regulations should be given to drivers as well as to the community.Frequency of chewing Khat among drivers in the Mizan-Aman town, Bench Sheko zone, SWEPRS, Ethiopia, 2023.

Funding
The author(s) declare financial support was received for the research, authorship, and/or publication of this article.Mizan Aman Health Science College provided funding for the study.The decision to publish, the design of the study, data collection and analysis, and the writing of the manuscript were all done without the funders' input.The consequence of RTA in the last 3 years among drivers in the Mizan-Aman town, Bench Sheko zone, SWEPRS, Ethiopia, 2023.The reasons for the occurrence of RTA in the last 3 years among drivers in the Mizan-Aman town, Bench Sheko zone, SWEPRS, Ethiopia, 2023.

FIGURE 8
FIGURE 8 and modified to make them suitable for the study context.These tools comprise a structured and open-ended questionnaire that includes the following variables: demographic characteristics [sex, age, educational and marital status, monthly income, family size, employee condition, driving license level, the experience of the driver, and possession of a car]; risky personal behaviors [alcohol use, chewing khat, cigarette smoking, prior punishment by traffic police, and the habit of checking vehicles]; driver factors [working hours per day, information sources about traffic safety (media, training, and friends vs. traffic police), trafficrelated safety training, use of a safety belt]; vehicle conditions [vehicle

TABLE 2
(38)er's factors and vehicle conditions related with the prevalence of traffic accidents on the roads among drivers of public transportation in Mizan Aman town, Bench Sheko zone, SWEPRS, Ethiopia, 2023 (n = 376).This result is consistent with previous study results reported in different countries: Ibadan, Nigeria (24), Ethiopia, Addis Ababa(38), and Mekelle town

TABLE 3
Prevalence of traffic accidents on the roads among drivers of public transportation in Mizan Aman town, Bench Sheko zone, SWEPRS, Ethiopia, 2023.