Uber use after alcohol consumption among car/motorcycle drivers in ten Brazilian capitals

Érika Carvalho de Aquino Otaliba Libânio de Morais NetoAbout the authors

ABSTRACT

OBJECTIVE

This study aimed to measure the proportion of Uber use instead of drinking and driving in ten Brazilian capitals, in 2019.

METHODS

A cross-sectional survey was developed in ten Brazilian capitals. Data were collected in agglomeration points (AP) and sobriety checkpoints (SC). Based on responses to a standardized questionnaire, the proportion of drivers who used Uber instead of drinking and driving was measured for total sample of each methodology and stratified by municipality, age group, gender, education level, and type of vehicle. Fisher’s exact test was used to make comparisons between the strata.

RESULTS

A total of 8,864 drivers were interviewed. The most used means of transport to replace driving after drinking alcohol was the Uber system (AP: 54.6%; 95%CI: 51.2–58.0. SC: 58.6%; 95%CI: 55.2–61.9). Most of these users were aged from 18 to 29 years, women, with at least one higher education degree. According to the AP methodology, the highest magnitude of this indicator was found in Vitória (ES) (71.0%; 95%CI: 63.5–77.5), whereas the lowest was observed in Teresina (PI) (33.1%; 95%CI: 22.7–45.5). According to the SC methodology, the highest magnitude of the indicator was also found in Vitória (ES) (78.3%; 95%CI: 68.8–85.5), whereas the lowest was observed in Boa Vista (RR) (36.6%; 95%CI: 26.8–47.7).

CONCLUSION

In Brazilian capitals, the study showed higher proportions of Uber use instead of drinking and driving. This type of scientific evidence on factors associated with road traffic injuries presents the potential to guide public health interventions.

Alcohol Drinking; Driving Under the Influence

INTRODUCTION

Every year, about 1.35 million deaths are reported from road traffic injuries (RTI) worldwide, being the main cause of death among people aged from 5 to 29 years. In addition to high mortality, RTI are responsible for 20 to 50 million non-fatal injuries annually, many of them resulting in permanent disability 11. World Health Organization. Global status report on road safety Geneva: World Health Organization; 2018. . Therefore, the risk factors and scenarios associated with RTI need to be studied and understood for the planning of public policies designed to mitigate them 22. Rios PA, Mota EL, Ferreira LN, Cardoso JP, Ribeiro VM, Souza BS. Fatores associados a acidentes de trânsito entre condutores de veículos: achados de um estudo de base populacional. Cien Saude Colet. 2020 Mar;25(3):943-55. https://doi.org/10.1590/1413-81232020253.1192201
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.

Drinking and driving is one of the main risk factors for RTI worldwide. It is estimated that 20% of drivers involved in fatal accidents have some level of alcohol content during the event 33. Naci H, Chisholm D, Baker TD. Distribution of road traffic deaths by road user group: a global comparison. Inj Prev. 2009 Feb;15(1):55-9. https://doi.org/10.1136/ip.2008.018721
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. In some low and middle-income countries, these numbers can reach 69% 33. Naci H, Chisholm D, Baker TD. Distribution of road traffic deaths by road user group: a global comparison. Inj Prev. 2009 Feb;15(1):55-9. https://doi.org/10.1136/ip.2008.018721
https://doi.org/10.1136/ip.2008.018721...
. In 2016, more than 170,000 deaths were recorded from land transport accidents related to alcohol consumption. Apart from high morbidity and social risks, it is estimated that 3.9 deaths can be attributable to alcohol consumption per 100,000 inhabitants annually in Brazil 44. Degenhardt L, Charlson F, Ferrari A, Santomauro D, Erskine H, Mantilla-Herrara A, et al.. The global burden of disease attributable to alcohol and drug use in 195 countries and territories, 1990-2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet Psychiatry. 2018 Dec;5(12):987-1012. https://doi.org/10.1016/S2215-0366 (18)30337-7
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. Alcohol use is an important risk factor for external causes of death, especially those resulting from RTI 55. World Health Organization; United Nations Children’s Fund. United Nations Population Fund; World Bank. Stratégie mondiale visant à reduire l’usage nocif de l’alcool. Geneve: World Health Organization; 2010. p. 5-28. .

Moreover, in Brazil, to inhibit the consumption of alcoholic beverages by motor vehicle drivers, Law nº 11,705 ( Lei Seca ) was enacted in 2008, establishing penalties for this type of infraction 77. Brasil. Lei No 11.705, de 19 de junho de 2008. Altera a Lei no 9.503, de 23 de setembro de 1997, que ‘institui o Código de Trânsito Brasileiro’, e a Lei no 9.294, de 15 de julho de 1996, que dispõe sobre as restrições ao uso e à propaganda de produtos fumígeros, bebidas alcoólicas, medicamentos, terapias e defensivos agrícolas, nos termos do § 4o do art. 220 da Constituição Federal, para inibir o consumo de bebida alcoólica por condutor de veículo automotor, e dá outras providências. Diário Oficial União. 2008 June 20. . However, the impact of this law lasted only a few months due to the lack of inspection equipment to measure the blood alcohol concentration (BAC) in drivers 88. Malta DC, Soares Filho AM. Montenegro MMS, Mascarenhas MDM, Silva MMA, Lima CM, et al. Análise da mortalidade por acidentes de transporte terrestre antes e após a Lei Seca - Brasil, 2007-2009. Epidemiol Serviços Saúde. 2010;19(4):317-28. https://doi.org/10.5123/S1679-49742010000400002
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. The new Lei Seca nº 12.760, 2012 99. Brasil. Lei No 12.760, de 20 de dezembro de 2012. Altera a Lei nº 9.503, de 23 de setembro de 1997, que institui o Código de Trânsito Brasileiro. Diário Oficial União. 2012 Dec 21. (Prohibition Law) was enacted in a new scenario, in which the inspection of drivers was possible and stricter penalties were imposed on drivers with positive BAC. Shults et al. 1010. Shults RA, Elder RW, Sleet DA, Nichols JL, Alao MO, Carande-Kulis VG, et al. Reviews of evidence regarding interventions to reduce alcohol-impaired driving. Am J Prev Med. 2001 Nov;21(4 Suppl):66-88. https://doi.org/10.1016/S0749-3797 (01)00381-6
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stated that this type of measure can reduce the number of traffic accidents up to 24%.

In 2010, the Uber system was launched, a digital platform for smartphone and tablet devices 1111. Viegas CMAR, Letra LHVS. A licitude dos serviços de transporte prestados pelo aplicativo UBER. Cad Prog Pós-Grad Direito. 2016 Aug;11(1). https://doi.org/10.22456/2317-8558.61921
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, 1212. Nancy Andrighi F. Uber: a regulação de aplicativos de intermediação de contrato de transporte*. Rev Direito Adm. 2016;271:409-16. https://doi.org/10.12660/rda.v271.2016.60773
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that supports a type of private transport service such as e-hailing or ridesourcing 1111. Viegas CMAR, Letra LHVS. A licitude dos serviços de transporte prestados pelo aplicativo UBER. Cad Prog Pós-Grad Direito. 2016 Aug;11(1). https://doi.org/10.22456/2317-8558.61921
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, 1313. Antônio L, Coelho A, Andréa L, Silva S, Andrade MO, Maia ML. Perfil socioeconômico dos usuários da Uber e fatores relevantes que influenciam a avaliação desse serviço no Brasil. J Econ Surv. 2018;17(23):545-77. . In Brazil, Uber started its activities in 2014 1313. Antônio L, Coelho A, Andréa L, Silva S, Andrade MO, Maia ML. Perfil socioeconômico dos usuários da Uber e fatores relevantes que influenciam a avaliação desse serviço no Brasil. J Econ Surv. 2018;17(23):545-77. . Then, in the same year, it began operating in São Paulo, Belo Horizonte, and Brasília 1414. Martins MG, Nascimento MT, Machado RM. Os novos serviços na sociedade da informação: o caso do Uber na cidade de São Paulo. Sci Iuris. 2005 Jul;21(2):154-81. https://doi.org/10.5433/2178-8189.2017v21n2p154
https://doi.org/10.5433/2178-8189.2017v2...
. Currently, the app is available in more than 500 Brazilian municipalities, with 1 million drivers and 30 million registered users 1515. Uber. Fatos e dados sobre a Uber. Uber Newsroom. 2022 [cited 2022 May 29];1-14. Available from: https://www.uber.com/pt-BR/newsroom/fatos-e-dados-sobre-uber/
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.

The rapid expansion of Uber Technologies Incorporated and the e-hailing application transformed the logistics network and urban mobility 1616. Esteves LA. Uber: o mercado de transporte individual de passageiros — regulação, externalidades e equilíbrio urbano. Rev Direito Adm. 2016;270:325-61. https://doi.org/10.12660/rda.v270.2015.58746
https://doi.org/10.12660/rda.v270.2015.5...
. Although the final objective of this system is not focused on traffic safety, studies have shown that it can affect its intermediate indicators, such as the prevalence of driving and drinking. In this case, there could be repercussions on the final traffic safety indicators, such as mortality and hospitalization rates due to RTI 1717. Brazil N, Kirk DS. Uber and metropolitan traffic fatalities in the United States. Am J Epidemiol. 2016 Aug;184(3):192-8. https://doi.org/10.1093/aje/kww062
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, 1818. Martin-Buck F. Driving safety: an empirical analysis of ridesharing’s impact on drunk driving and alcohol-related crime. J Health Econ. 2016. . Some studies show an association between the implementation of the Uber system and the reduction in the prevalence of driving after drinking alcohol, which is one of the main risk factors for morbidity and mortality from RTI 1818. Martin-Buck F. Driving safety: an empirical analysis of ridesharing’s impact on drunk driving and alcohol-related crime. J Health Econ. 2016. . However, other studies have not detected this impact, or even an increase in the magnitude of this indicator after the implementation of the Uber system 1717. Brazil N, Kirk DS. Uber and metropolitan traffic fatalities in the United States. Am J Epidemiol. 2016 Aug;184(3):192-8. https://doi.org/10.1093/aje/kww062
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, 2323. Brazil N, Kirk D. Ridehailing and alcohol-involved traffic fatalities in the United States: The average and heterogeneous association of uber. PLoS One. 2020 Sep 11. https://doi.org/10.1371/journal.pone.0238744
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, 2424. Barrios JM, Hochberg Y V, Yi H. The cost of convenience: ridesharing and traffic fatalities. Chicago: Becker Friedman Institute; 2018. . In Brazil, only one study was published on the impact of the Uber System on morbidity and mortality from traffic injuries 2525. Barreto Y, Silveira Neto RM, Carazza L. Uber and traffic safety: evidence from Brazilian cities. J Urban Econ. 2021 , and there are no studies that address this impact on the prevalence of driving after drinking alcohol.

The introduction of new interventions related to traffic must be systematically monitored and evaluated 2626. Morais Neto OL, Silva MM, Lima CM, Malta DC. Silva Junior. JB Da. Projeto Vida no Trânsito: avaliação das ações em cinco capitais brasileiras, 2011-2012 Epidemiol Serv Saude. 2013;22(3):373-82. https://doi.org/10.5123/S1679-49742013000300002
https://doi.org/10.5123/S1679-4974201300...
. Thus, due to contradictory results and the scarcity of studies on the impact of the Uber system implementation on the prevalence of driving after drinking alcohol in Brazil, this study aimed at measuring the proportion of Uber use among drivers of cars and motorcycles after drinking alcohol in ten Brazilian capitals in 2019.

METHODS

Study Design and Locations

A cross-sectional survey was conducted on the sociodemographic characteristics and background of car and motorcycle drivers, as well as possible risk factors for RTI, in ten Brazilian capitals, in 2019. The study was developed in the following Brazilian capitals: Belo Horizonte, Boa Vista, Cuiabá, Florianópolis, Macapá, Salvador, São Luís, São Paulo, Teresina, and Vitória. These municipalities represent the five Brazilian regions and currently account for more than 22 million inhabitants.

Target Population, Inclusion, and Exclusion Criteria

Participants were included based on the following criteria: being 18 years or older, driving a car or motorcycle, and living in one of the investigated municipalities. Commercial vehicle drivers (taxi, mototaxi, bus, application vehicles, heavy vehicles, and delivery vehicles) were not eligible for survey data collection.

To obtain representative samples of drivers from each capital, two methodologies were used, with different samples ( Figure 1 ). Similar methodologies have already been implemented in countries such as Australia, Canada, the United States of America, among others 2727. De Boni R, Diemen L, Duarte PC, Bumaguin DB, Hilgert JB, Bozzetti MC, et al. Regional differences associated with drinking and driving in Brazil. Br J Psychiatry. 2012 Oct;34(3):306-13. https://doi.org/10.1016/j.rbp.2012.02.003
https://doi.org/10.1016/j.rbp.2012.02.00...
, 2828. Campos VR, Salgado R, Rocha MC, Duailibi S, Laranjeira R. Beber e dirigir: características de condutores com bafômetro positivo. Arch Clin Psychiatry. 2012;39(5):166-71. https://doi.org/10.1590/S0101-60832012000500004
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, using the same inclusion criteria but with different search questions. For both, the choice of approach locations was conducted in consensus with the agencies responsible for traffic inspection in each participating municipality. Support was provided by professionals from traffic safety agencies at municipal, state, and federal levels. Data collection was conducted from Wednesday to Sunday, at night, and, in some cities, also in the afternoon on Sunday.

Figure 1
Research data collection flowchart - adapted from Pechansky et al. 2929. Pechansky F, Duarte PC, De Boni R, Leukefeld CG, Diemen L, Bumaguin DB, et al. Predictors of positive Blood Alcohol Concentration (BAC) in a sample of Brazilian drivers. Br J Psychiatry. 2012 Oct;34(3):277-85. https://doi.org/10.1016/j.rbp.2012.06.002
https://doi.org/10.1016/j.rbp.2012.06.00...
(2012).

Selection of Participants

Methodology 1 - ‘agglomeration points’

For the first methodology, non-probabilistic convenience sampling was adopted. This was applied to ‘agglomeration points’ (AP) such as open markets, shopping malls, gas stations, and supermarkets. The selection of points was conducted with the consent of the owners, directors, and/or managers of each selected location. After a random approach by the interviewers, individuals who met the inclusion criteria were invited to participate in the study.

Methodology 2 - ‘sobriety checkpoints’

For the second methodology, data collection was performed at ‘sobriety checkpoints’ (SC), popularly known as ‘blitzes.’ SC installed on public roads with more intense traffic, with higher concentrations of bars, restaurants and nightclubs, and neighborhoods with different socioeconomic levels, were considered as recommended by Campos et al. 2828. Campos VR, Salgado R, Rocha MC, Duailibi S, Laranjeira R. Beber e dirigir: características de condutores com bafômetro positivo. Arch Clin Psychiatry. 2012;39(5):166-71. https://doi.org/10.1590/S0101-60832012000500004
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. In the selected locations, a systematic random sampling of vehicles/motorcycles was conducted, with one vehicle being selected in every five so that the driver was invited to participate in the study. After standard procedures performed by the police authority (verification of regularity and documentation of the vehicle and driver), drivers were invited to participate in the study 2727. De Boni R, Diemen L, Duarte PC, Bumaguin DB, Hilgert JB, Bozzetti MC, et al. Regional differences associated with drinking and driving in Brazil. Br J Psychiatry. 2012 Oct;34(3):306-13. https://doi.org/10.1016/j.rbp.2012.02.003
https://doi.org/10.1016/j.rbp.2012.02.00...
.

In both methodologies, individuals who met the inclusion criteria and agreed to participate signed an informed consent form. Guidelines were provided for them on the objectives, methods, benefits, and potential risks of participating in the research 2727. De Boni R, Diemen L, Duarte PC, Bumaguin DB, Hilgert JB, Bozzetti MC, et al. Regional differences associated with drinking and driving in Brazil. Br J Psychiatry. 2012 Oct;34(3):306-13. https://doi.org/10.1016/j.rbp.2012.02.003
https://doi.org/10.1016/j.rbp.2012.02.00...
. Then, data collection was performed individually by the interviewers, using a structured and standardized tool installed on tablet devices. After data collection, guidelines were provided on the risks of driving under the influence of alcohol 2727. De Boni R, Diemen L, Duarte PC, Bumaguin DB, Hilgert JB, Bozzetti MC, et al. Regional differences associated with drinking and driving in Brazil. Br J Psychiatry. 2012 Oct;34(3):306-13. https://doi.org/10.1016/j.rbp.2012.02.003
https://doi.org/10.1016/j.rbp.2012.02.00...
.

Those who agreed to participate signed an informed consent form. Then, the interview was conducted individually using a structured instrument. This instrument was developed by the authors of this study and comprises questions on sociodemographic characteristics, antecedents, and various risk factors for traffic accidents. The collected data were recorded on tablet devices during the interviews.

Questionnaire and Indicator

The following questions from the questionnaire were used to compose the indicator that was used in this study:

In the last 30 days, did you consume at least one dose of alcoholic beverage? (Options: yes, no, don’t know/didn’t want to answer);

On any of those days when you consumed alcohol, did you drive after drinking? (Options: yes, no, don’t know/didn’t want to answer);

In the last 30 days, when you used alcohol and did not drive, what means of transport did you use to get around? (Options: Uber, other e-hailing apps, ride friend/family/partners, public transportation, taxi/mototaxi, other ways, don’t know/didn’t want to answer).

The indicator was calculated using the following formula: proportion of drivers who used Uber as a substitute for drinking and driving = (number of drivers who reported using Uber as a means of transport after drinking alcohol / number of drivers who reported drinking alcohol in the last 30 days and reported not driving after) * 100.

Sample Size

Sample size calculations indicated that the number of respondents needed to compose the survey sample would be 296 individuals for each methodology (SC and AP) from each participating capital (n = 2,960), considering a significance level of 95% (α = 0.05), margin of error of 2.5 percentage points, prevalence of positive BAC of 4.2% 2929. Pechansky F, Duarte PC, De Boni R, Leukefeld CG, Diemen L, Bumaguin DB, et al. Predictors of positive Blood Alcohol Concentration (BAC) in a sample of Brazilian drivers. Br J Psychiatry. 2012 Oct;34(3):277-85. https://doi.org/10.1016/j.rbp.2012.06.002
https://doi.org/10.1016/j.rbp.2012.06.00...
, and potential losses of 20%.

Statistical Analysis of Data

Data were analyzed using Stata software program, version 16.0. The rake method was used to construct post-stratification weights using age and gender variables. To calculate the weights, the distribution of drivers by gender and age group, measured by the 2013 Brazilian National Health Survey, was used as a reference.

The proportion of drivers who used Uber as a substitute for drinking and driving, as well as the respective 95% confidence intervals (95%CI), were measured for total sample of each methodology and stratified by municipality, age group, gender, education level, and type of vehicle predominantly used by the interviewee (car or motorcycle). Fisher’s exact test was used to perform comparisons related to the magnitude of the indicator between different strata.

This research was approved by the Research Ethics Committee of the Universidade Federal de Goiás (no. 2,854,899/2018). The study was conducted in accordance with Resolution no. 466 of the Brazilian National Health Council, which regulates the standards for research on human beings in the country. This research was funded by the Ministry of Health of Brazil by a Decentralized Execution Term.

RESULTS

In total, 8,864 car and motorcycle drivers from ten Brazilian capitals participating in the research were interviewed. Table 1 summarizes the number of interviewees approached for the survey according to the sample, as well as the rate of acceptance and completion of the interview. The overall acceptance rate was 93.6% and 97.7% among eligible drivers approached in AP and SC methodology, respectively.

Table 1
Number of eligible drivers approached, number of interviews conducted, and acceptance rate in the ten Brazilian capitals participating in the study.

Figure 2 shows the distribution of participants according to consumption of alcoholic beverages 30 days before the survey, driving after consumption and the means of transport used if they did not drive after drinking. Most drivers reported having consumed alcoholic beverages at least once in the 30 days before the survey (AP: 87.8%; 95%CI: 86.2–89.4. SC: 83.6%; 95%CI: 81.6–85.4). Most of these drivers, however, reported that they did not drive after drinking during the period (AP: 75.2%; 95%CI: 72.9–77.3. SC: 79.9%; 95%CI: 77.8–81.9). The most used means of transport to replace driving after drinking alcohol was the Uber system (AP: 54.6%; 95%CI: 51.2–58.0. SC: 58.6 %; 95%CI: 55.2–61.9).

Figure 2
Distribution of respondents according to consumption of alcoholic beverages 30 days before the survey, driving after drinking, and means of transport used if they did not drive, according to the research methodology used, in the capitals participating in the study (2019).

Figure 3 shows the proportion of drivers who used Uber after drinking alcohol, according to the methodology used and the municipality. According to the data collected using the AP methodology, the highest magnitude of this indicator was found in Vitória (71.0%; 95%CI: 63.5–77.5), whereas the lowest was observed in Teresina (33.1%; 95%CI: 22.7–45.5). According to the data collected using the SC methodology, the highest magnitude of the indicator was also found in Vitória (78.3%; 95%CI: 68.8–85.5), whereas the lowest magnitude was observed in Boa Vista (36.6%; 95%CI: 26.8–47.7).

Figure 3
Proportion of drivers who used Uber after drinking alcohol according to the research methodology used in the capitals participating in the study (2019).

Table 2 shows the proportion of drivers who used Uber after drinking, according to the methodology used and sociodemographic characteristics of drivers, for all participating capitals. It is possible to observe that the age group that presented the highest magnitude for this indicator was 18 to 29 years old (AP: 51.6%; 95%CI: 46.8–56.4. SC: 53.4%; 95%CI: 48.1–58.6). In addition, women (AP: 51.8%; 95%CI: 45.7–57.8. SC: 48.7%; 95%CI: 42.3–55.1) and the educational level corresponding to Higher education or more (AP: 51.8%; 95%CI: 46.5–57.2. SC: 46.6%; 95%CI: 42.4–50.8) were responsible for the highest magnitudes for this indicator. The AP methodology indicated greater magnitude of the indicator among motorcycle drivers (69.5%; 95%CI: 45.3–100.00), whereas the SC methodology indicated it among car drivers (44, 9%; 95%CI: 41.7–48.2).

Table 2
Proportion of drivers who used Uber after drinking alcohol according to the research methodology used and sociodemographic characteristics of drivers across all capitals participating in the study (2019).

DISCUSSION

In this study, 83 to 87% of drivers reported drinking alcoholic beverages at least once in the 30 days before the survey. According to data from the 2013 Brazilian National Health Survey, the prevalence of consumption of alcoholic beverages once or more a week was 23.9% 3030. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2013 [cited 2022 Sep 14]. Available from: https://www.ibge.gov.br/estatisticas/sociais/saude/29540-2013-pesquisa-nacional-de-saude.html?=&t=downloads
https://www.ibge.gov.br/estatisticas/soc...
. In 2019, the magnitude of this indicator increased to 26.4% 3131. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2019 [cited 2022 Sep 14]. Available from: http://www.pns.icict.fiocruz.br/arquivos/Portaria.pdf
http://www.pns.icict.fiocruz.br/arquivos...
. Alcohol abuse, according to data from the same survey, increased from 13.7%, in 2013, to 17,1% in 2019 3030. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2013 [cited 2022 Sep 14]. Available from: https://www.ibge.gov.br/estatisticas/sociais/saude/29540-2013-pesquisa-nacional-de-saude.html?=&t=downloads
https://www.ibge.gov.br/estatisticas/soc...
, 3131. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2019 [cited 2022 Sep 14]. Available from: http://www.pns.icict.fiocruz.br/arquivos/Portaria.pdf
http://www.pns.icict.fiocruz.br/arquivos...
. For all Brazilian capitals, according to data from Vigitel, the prevalence of alcohol abuse was even higher, reaching 18.8% in 2019, with a continuous increase in prior years 3232. Ministério da Saúde (BR). Secretaria de Vigilância em Saúde. Departamento de Análise em Saíde e Vigilância de Doenças Não Transmissíveis. Vigitel Brasil 2019: vigilância de fatores de risco e proteção para doenças crônicas por inquérito telefônico: estimativas sobre frequência e distribuição sociodemográfica de fatores de risco e proteção para doenças crônicas nas capitais dos 26 estados. Brasília, DF: Ministério da Saúde; 2020. .

According to the data collected in this study, 20% to 25% of individuals who reported drinking alcohol stated that they did not drive after. This indicator, which measures the prevalence of driving after consumption of any amount of alcohol, is considered the most sensitive for monitoring this practice, as it is close to what is recommended in the Lei Seca 66. Malta DC, Bernal RT, Silva AG, Lima CM, Machado IE, Silva MM. Tendência temporal da prevalência de indicadores relacionados à condução de veículos motorizados após o consumo de bebida alcoólica, entre os anos de 2007 e 2018. Rev Bras Epidemiol. 2020;23 suppl 1:23. https://doi.org/10.1590/1980-549720200012.supl.1
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, 99. Brasil. Lei No 12.760, de 20 de dezembro de 2012. Altera a Lei nº 9.503, de 23 de setembro de 1997, que institui o Código de Trânsito Brasileiro. Diário Oficial União. 2012 Dec 21. . This behavior was also identified by the 2019 National Health Survey, which estimated, among drivers over 18 years old, a prevalence of driving after consuming alcoholic beverages of 17.0% in Brazil and 14.0% in all capitals. Research conducted in European Union countries showed that 1 to 4% of drivers were driving under the influence of alcohol 3333. Gledec M. Presence of alcohol in croatian road traffic. In: International Council on Alcohol, Drugs and Traffic Safety Conference. International Council on Alcohol, Drugs and Traffic Safety; 2000. . Although the comparison with global studies becomes difficult due to the different methodologies and legislation of the countries, higher prevalence is observed in Brazil when compared with Europe 3535. Organização Mundial da Saúde. Relatório global sobre o estado da segurança viária 2015. Genebra: Organização Mundial da Saúde; 2015. .

Moreover, data from the Brazilian National Department of Transport Infrastructure show that, in 2017, 19,083 drivers were caught by the Federal Highway Police driving under the influence of alcohol. During this period, about 6,450 accidents caused by drunk drivers were recorded on federal highways, with more than 13,000 victims and about 1,000 deaths 3636. Ministério da Infraestrutura (BR). Departamento Nacional de Infraestrutura de Transportes. Álcool e direção: uma mistura que não acaba bem. Brasília, DF: Ministério da Infraestrutura; 2019. . Statistics show that driving a vehicle after drinking alcohol remains a serious problem in the country.

Data from the survey showed that the Uber system was the most used means of transport to replace driving after drinking alcohol, ranging from 55% to 59%. Factors such as low cost, convenience, simple payment method, accessibility, and security may explain this preference 1313. Antônio L, Coelho A, Andréa L, Silva S, Andrade MO, Maia ML. Perfil socioeconômico dos usuários da Uber e fatores relevantes que influenciam a avaliação desse serviço no Brasil. J Econ Surv. 2018;17(23):545-77. , 1818. Martin-Buck F. Driving safety: an empirical analysis of ridesharing’s impact on drunk driving and alcohol-related crime. J Health Econ. 2016. , 2323. Brazil N, Kirk D. Ridehailing and alcohol-involved traffic fatalities in the United States: The average and heterogeneous association of uber. PLoS One. 2020 Sep 11. https://doi.org/10.1371/journal.pone.0238744
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, 3737. Young M, Farber S. The who, why, and when of Uber and other ride-hailing trips: an examination of a large sample household travel survey. Transp Res Part A Policy Pract. 2019;119:383-92. https://doi.org/10.1016/j.tra.2018.11.018
https://doi.org/10.1016/j.tra.2018.11.01...
. According to Martin-Buck 1818. Martin-Buck F. Driving safety: an empirical analysis of ridesharing’s impact on drunk driving and alcohol-related crime. J Health Econ. 2016. , e-hailing services have led to a 10% to 11.4% reduction in alcohol-related fatal car accidents. In New York and in 15 Illinois counties, a reduction in the number of people who drove under the influence of alcohol was observed after Uber system implementation 1919. Fell JC, Scolese J, Achoki T, Burks C, Goldberg A, DeJong W. The effectiveness of alternative transportation programs in reducing impaired driving: A literature review and synthesis. J Safety Res. 2020 Dec;75:128-39. https://doi.org/10.1016/j.jsr.2020.09.001
https://doi.org/10.1016/j.jsr.2020.09.00...
. A study conducted in Toronto (Canada) found that the main reason for using e-haling services was to travel to entertainment places, bars, and other activities related to alcoholic beverages consumption, possibly reducing the prevalence of driving after drinking alcohol 3737. Young M, Farber S. The who, why, and when of Uber and other ride-hailing trips: an examination of a large sample household travel survey. Transp Res Part A Policy Pract. 2019;119:383-92. https://doi.org/10.1016/j.tra.2018.11.018
https://doi.org/10.1016/j.tra.2018.11.01...
.

In a study conducted in four cities in the United States, a reduction of up to 61.8% was observed in the rate of RTI related to alcohol use (an absolute decrease of 3.1 accidents per week) after the resumption of Uber system activities in these cities 2121. Morrison CN, Jacoby SF, Dong B, Delgado MK, Wiebe DJ. Ridesharing and motor vehicle crashes in 4 US cities: an interrupted time-series analysis. Am J Epidemiol. 2018 Feb;187(2):224-32. https://doi.org/10.1093/aje/kwx233
https://doi.org/10.1093/aje/kwx233...
. Dills and Mulholland observed a 17% to 40% reduction in RTI mortality in US counties after four years or more since implementing the Uber system 2222. Dills AK, Mulholland SE. Ride‐sharing, fatal crashes, and crime. South Econ J. 2018;84(4):965-91. https://doi.org/10.1002/soej.12255
https://doi.org/10.1002/soej.12255...
. In fact, based on the results of these and other studies, several agencies responsible for traffic safety emphasize the need for public policies aimed at improving the availability, convenience, and accessibility of this type of passenger transport service 3838. Uber. Decide to ride. São Paulo: Uber; 2022 [cited 2022 Jan 10]. Available from: https://www.uber.com/us/en/u/reasons-to-ride/
https://www.uber.com/us/en/u/reasons-to-...
, 3939. Teutsch SM, Geller A, Negussie Y, editors. Getting to zero alcohol-impaired driving fatalities: a comprehensive approach to a persistent problem. Getting to Zero alcohol-impaired driving fatalities: a comprehensive approach to a persistent problem. National Academies Press; 2018. .

On the other hand, the study by Brazil and Kirk did not note any impact of the Uber system on RTI morbidity and mortality in the United States 1717. Brazil N, Kirk DS. Uber and metropolitan traffic fatalities in the United States. Am J Epidemiol. 2016 Aug;184(3):192-8. https://doi.org/10.1093/aje/kww062
https://doi.org/10.1093/aje/kww062...
. Barrios et al. found that, in the United States, the use of e-hailing services was associated with an increase of approximately 3% in the number of deaths and fatal accidents involving motor vehicles. This increase occurred not only for vehicle occupants, but also for pedestrians 2424. Barrios JM, Hochberg Y V, Yi H. The cost of convenience: ridesharing and traffic fatalities. Chicago: Becker Friedman Institute; 2018. . A study conducted by Brazil and Kirk showed that the availability of Uber system is not associated with changes in total traffic fatalities nor with a reduction in driving under the influence of alcohol. On the contrary, it showed an association with the increase in traffic fatalities in urban and highly populated municipalities 4040. Brazil N, Kirk D. Ridehailing and alcohol-involved traffic fatalities in the United States: the average and heterogeneous association of uber. PLoS One. 2020 Sep;15(9):e0238744. https://doi.org/10.1371/journal.pone.0238744
https://doi.org/10.1371/journal.pone.023...
.

In Brazilian capitals, the study showed a higher proportion of drivers who did not drive and used the Uber app to travel after drinking alcohol. In Vitória, the prevalence ranged from 71% to 78%. To Tirachini and Río 4141. Tirachini A, del Río M. Ride-hailing in Santiago de Chile: Users’ characterisation and effects on travel behaviour. Transp Policy. 2019;82:46-57. https://doi.org/10.1016/j.tranpol.2019.07.008
https://doi.org/10.1016/j.tranpol.2019.0...
, the frequency of use of e-hailing applications is not associated with their implementation time and availability of cars. According to data from the Brazilian National Health Survey, Vitória was the Brazilian capital with the lowest prevalence of driving after drinking alcohol in 2013 (9.9%) 3030. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2013 [cited 2022 Sep 14]. Available from: https://www.ibge.gov.br/estatisticas/sociais/saude/29540-2013-pesquisa-nacional-de-saude.html?=&t=downloads
https://www.ibge.gov.br/estatisticas/soc...
and the fourth in 2019 (9.2%) 3131. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2019 [cited 2022 Sep 14]. Available from: http://www.pns.icict.fiocruz.br/arquivos/Portaria.pdf
http://www.pns.icict.fiocruz.br/arquivos...
, with a downward trend.

The lowest proportion of drivers who used Uber after drinking alcohol was observed in Teresina (33%) and Boa Vista (37%). Data from the Brazilian National Health Survey show that these were the capitals with the highest prevalence of driving after drinking alcohol in 2013 (44.8% in Teresina and 35.6% in Boa Vista) 3030. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2013 [cited 2022 Sep 14]. Available from: https://www.ibge.gov.br/estatisticas/sociais/saude/29540-2013-pesquisa-nacional-de-saude.html?=&t=downloads
https://www.ibge.gov.br/estatisticas/soc...
. In 2019, these capitals had the fourth and fifth highest magnitudes for this indicator (28.5% in Teresina and 28.5% in Boa Vista) 3131. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2019 [cited 2022 Sep 14]. Available from: http://www.pns.icict.fiocruz.br/arquivos/Portaria.pdf
http://www.pns.icict.fiocruz.br/arquivos...
. Considering the years 2000 to 2016, among Brazilian capitals, the highest mortality rate from land transport accidents occurred in Boa Vista (41.6 deaths/100,000 inhabitants). As for occupants of motorcycles or tricycles, the highest mortality also occurred in Boa Vista (16.1/100,000 inhabitants) 4242. Aquino ÉC, Antunes JL,Morais OL. Mortalidade por acidentes de trânsito no Brasil (2000-2016): capitais versus não capitais. Rev Saude Publica. 2020;54:54. https://doi.org/10.11606/s1518-8787.2020054001703
https://doi.org/10.11606/s1518-8787.2020...
.

The age group that showed the highest proportion of drivers who used Uber after drinking alcohol was 18 to 29 years old (52% to 53%). These results differ from those found in studies conducted in developed countries, which showed a higher prevalence of driving after drinking alcohol precisely among young adults 4343. Choi NG, DiNitto DM, Marti CN. Risk factors for self-reported driving under the influence of alcohol and/or illicit drugs among older adults. Gerontologist. 2016 Apr;56(2):282-91. https://doi.org/10.1093/geront/gnu070
https://doi.org/10.1093/geront/gnu070...
, 4444. Machin MA, Sankey KS. Relationships between young drivers’ personality characteristics, risk perceptions, and driving behaviour. Accid Anal Prev. 2008 Mar;40(2):541-7. https://doi.org/10.1016/j.aap.2007.08.010
https://doi.org/10.1016/j.aap.2007.08.01...
. However, investigations conducted in Brazil showed results consistent with those of this study, indicating that 30 years or older drivers are more likely to drive under the influence of alcohol 2727. De Boni R, Diemen L, Duarte PC, Bumaguin DB, Hilgert JB, Bozzetti MC, et al. Regional differences associated with drinking and driving in Brazil. Br J Psychiatry. 2012 Oct;34(3):306-13. https://doi.org/10.1016/j.rbp.2012.02.003
https://doi.org/10.1016/j.rbp.2012.02.00...
, 2828. Campos VR, Salgado R, Rocha MC, Duailibi S, Laranjeira R. Beber e dirigir: características de condutores com bafômetro positivo. Arch Clin Psychiatry. 2012;39(5):166-71. https://doi.org/10.1590/S0101-60832012000500004
https://doi.org/10.1590/S0101-6083201200...
, 4545. Guimarães RA, Morais Neto OL. Prevalence and factors associated with driving under the influence of alcohol in Brazil: an analysis by macroregion. Int J Environ Res Public Health. 2020 Jan;17(3):767. https://doi.org/10.3390/ijerph17030767
https://doi.org/10.3390/ijerph17030767...
. A study by Guimarães and Morais Neto 4545. Guimarães RA, Morais Neto OL. Prevalence and factors associated with driving under the influence of alcohol in Brazil: an analysis by macroregion. Int J Environ Res Public Health. 2020 Jan;17(3):767. https://doi.org/10.3390/ijerph17030767
https://doi.org/10.3390/ijerph17030767...
indicated a higher prevalence of driving under the influence of alcohol in the 30 to 39 age group throughout Brazil and in Southeast and South macro-regions. This behavior may reflect greater car availability suitable for this age group and lower adherence of this population to traffic safety measures since their bad habits are more consolidated 4545. Guimarães RA, Morais Neto OL. Prevalence and factors associated with driving under the influence of alcohol in Brazil: an analysis by macroregion. Int J Environ Res Public Health. 2020 Jan;17(3):767. https://doi.org/10.3390/ijerph17030767
https://doi.org/10.3390/ijerph17030767...
.

In addition, women were responsible for the highest proportion of drivers who used Uber after drinking alcohol (AP: 51.8%; 95%CI: 45.7–57.8. SC: 48.7%; 95%CI: 42.3–55.1). These results are consistent with those observed in several studies, which report that men tend to engage in risky health behaviors more often than women and are the main victims of traffic accidents 22. Rios PA, Mota EL, Ferreira LN, Cardoso JP, Ribeiro VM, Souza BS. Fatores associados a acidentes de trânsito entre condutores de veículos: achados de um estudo de base populacional. Cien Saude Colet. 2020 Mar;25(3):943-55. https://doi.org/10.1590/1413-81232020253.1192201
https://doi.org/10.1590/1413-81232020253...
, 44. Degenhardt L, Charlson F, Ferrari A, Santomauro D, Erskine H, Mantilla-Herrara A, et al.. The global burden of disease attributable to alcohol and drug use in 195 countries and territories, 1990-2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet Psychiatry. 2018 Dec;5(12):987-1012. https://doi.org/10.1016/S2215-0366 (18)30337-7
https://doi.org/10.1016/S2215-0366 (18)3...
, 4646. Andrade SM, Soares DA, Braga GP, Moreira JH, Botelho FM. Comportamentos de risco para acidentes de trânsito: um inquérito entre estudantes de medicina na região sul do Brasil. Rev Assoc Med Bras. 2003;49(4):439-44. https://doi.org/10.1590/S0104-42302003000400038
https://doi.org/10.1590/S0104-4230200300...
. A study conducted by Andrade et al. 4646. Andrade SM, Soares DA, Braga GP, Moreira JH, Botelho FM. Comportamentos de risco para acidentes de trânsito: um inquérito entre estudantes de medicina na região sul do Brasil. Rev Assoc Med Bras. 2003;49(4):439-44. https://doi.org/10.1590/S0104-42302003000400038
https://doi.org/10.1590/S0104-4230200300...
among medical students in the southern region of Brazil revealed that young men reported a higher frequency of risk behaviors such as learning to drive a car when they were 16 years old or less and having consumed alcohol before driving a vehicle 30 days prior to the survey. According to data from the 2019 Brazilian National Health Survey, 20.5% of men reported that they had driven a car or motorcycle after drinking alcohol in the 12 months before the survey. On the other hand, only 7.8% of women revealed this type of behavior 3131. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2019 [cited 2022 Sep 14]. Available from: http://www.pns.icict.fiocruz.br/arquivos/Portaria.pdf
http://www.pns.icict.fiocruz.br/arquivos...
. The risk levels of mortality from RTI are much lower for women compared to men 4747. Ladeira RM, Malta DC, Morais Neto OL, Montenegro MMS, Soares Filho AM, Vasconcelos CH, et al. Acidentes de transporte terrestre: estudo Carga Global de Doenças, Brasil e unidades federadas, 1990 e 2015. Rev Bras Epidemiol. 2017 May;20(suppl 1):157-70. https://doi.org/10.1590/1980-5497201700050013
https://doi.org/10.1590/1980-54972017000...
.

The education level higher education or more was the one with the highest proportion of drivers who used Uber after drinking alcohol (47% to 52%). The prevalence of abusive alcoholic beverages consumption is inversely related to the education level (more years of study leads to lower prevalence of abusive consumption) 3131. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2019 [cited 2022 Sep 14]. Available from: http://www.pns.icict.fiocruz.br/arquivos/Portaria.pdf
http://www.pns.icict.fiocruz.br/arquivos...
. Paradoxically, data from the 2019 PNS also showed that the prevalence of alcohol consumption once or more times a week is directly proportional to the education level (more years of study leads to greater prevalence of consumption) 3131. Instituto Brasileiro de Geografia e Estatística. Pesquisa Nacional de Saúde: 2019 [cited 2022 Sep 14]. Available from: http://www.pns.icict.fiocruz.br/arquivos/Portaria.pdf
http://www.pns.icict.fiocruz.br/arquivos...
. The same occurs with the indicator analyzed here: the proportion of drivers who did not drive and used Uber after drinking alcohol increased with education level. Although it may seem as a contradiction, these findings can be explained by the fact that there is an increased risk of alcohol abuse and/or dependence among populations of lower socioeconomic status 4848. Grant BF, Goldstein RB, Saha TD, Chou SP, Jung J, Zhang H, et al. Epidemiology of DSM-5 Alcohol use disorder: results from the national epidemiologic survey on alcohol and related conditions III. JAMA Psychiatry. 2015 Aug;72(8):757-66. https://doi.org/10.1001/jamapsychiatry.2015.0584
https://doi.org/10.1001/jamapsychiatry.2...
, 4949. Meloni JN, Laranjeira R. Custo social e de saúde do consumo do álcool. Rev Bras Psiquiatr. 2004;26 suppl 1:7-10. https://doi.org/10.1590/S1516-44462004000500003
https://doi.org/10.1590/S1516-4446200400...
. Thus, although alcohol consumption is less frequent among populations of lower socioeconomic status, they are more likely to be negatively affected by alcohol if they drink, which can lead to abusive consumption, risky behavior in traffic, dependence, and death 5050. Thompson A, Wright AK, Ashcroft DM, van Staa TP, Pirmohamed M. Epidemiology of alcohol dependence in UK primary care: results from a large observational study using the Clinical Practice Research Datalink. PLoS One. 2017 Mar;12(3):e0174818. https://doi.org/10.1371/journal.pone.0174818
https://doi.org/10.1371/journal.pone.017...
.

The AP methodology indicated greater magnitude of the indicator among motorcycle drivers (AP = 69.5%; 95%CI: 45.3–100.00), whereas the SC methodology indicated it among car drivers (SC = 44.9%; 95%CI: 41.7–48.2). This observation may have occurred since the number of motorcycle drivers participating in the SC methodology was very small, representing only 23.6% of respondents. Meanwhile, in the AP methodology, this type of conductor represented 36.4% of the total number of respondents. The fact that commercial vehicle drivers were not included in the survey may have impacted this fact since most motorcycle drivers approached in the SC methodology fitted this profile.

Knowledge about the proportion of Uber use instead of driving after drinking alcohol may contribute to actions to prevent morbidity and mortality in traffic. This type of scientific evidence on factors associated with RTI presents the potential to guide interventions in Brazil toward reaching the goal of a 50% reduction in traffic deaths and injuries by 2030, as defined in the Brazilian National Plan for the Reduction of Deaths and Injuries in Traffic (PNATRANS), part of the Sustainable Development Goals.

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Publication Dates

  • Publication in this collection
    10 Nov 2023
  • Date of issue
    2023

History

  • Received
    17 Oct 2022
  • Accepted
    20 June 2023
Faculdade de Saúde Pública da Universidade de São Paulo São Paulo - SP - Brazil
E-mail: revsp@org.usp.br