Medico-legal aspects regarding drunk driving: experience and competency in practice of community service doctors


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ISSN 2078-6190   EISSN 2078-6204

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RESEARCH

South African Family Practice 2018; 60(2):63–69
https://doi.org/10.1080/20786190.2017.1386899

Open Access article distributed under the terms of the
Creative Commons License [CC BY-NC 3.0]
http://creativecommons.org/licenses/by-nc/3.0

Medico-legal aspects regarding drunk driving: experience and competency in 
practice of community service doctors
L Fouchéa, J Bezuidenhouta, C Liebenbergb and AO Adefuyea* 

a Division Health Sciences Education, Office of the Dean, University of the Free State, Bloemfontein, South Africa
b Department of Forensic Medicine, School of Medicine, University of the Free State, Bloemfontein, South Africa
*Corresponding author, email: adefuyeao@ufs.ac.za  

Background: Drunk driving has been reported to increase the risk of road traffic accidents associated with death and severe 
injury. In South Africa, an increase in blood alcohol concentration of as little as 0.01  g per 100  ml above the legal limit may 
warrant criminal prosecution or the denial of an insurance claim for damages. However, multiple court cases have been 
withdrawn because of the incompetence of officials at various stages of the investigation. The scope of the mistakes range 
from poor scene handling to the incorrect handling of blood samples at the laboratory to eventual laboratory testing of blood 
samples. Using a group of community service doctors (CSDs) as a cohort study group, this study investigated the competency of 
medical graduates in relation to the medico-legal aspects of drunk driving.
Methods: A self-administered questionnaire-based study was done with 150 CSDs. The questionnaire was administered in 
Afrikaans and English and was dispatched electronically via e-mail. All potential participants were contacted telephonically to 
obtain verbal consent. Results are displayed as percentages.
Results: A response rate of 59.3% was achieved. The results obtained in this study confirm that some CSDs lack competency in 
handling medico-legal aspects relating to drunk driving, and are thus unable to serve the communities they have been assigned 
to adequately. Their lack of skills and knowledge suggests that the present undergraduate Clinical Forensic Medicine curriculum 
is inadequate.
Conclusion: It would be beneficial to revise the curriculum for Clinical Forensic Medicine in undergraduate medical training to 
address the gap in knowledge and practice of various demands of forensic medicine required from new medical graduates and 
CSDs.

Keywords: blood alcohol concentration, clinical forensic medicine, community service doctors, drunk driving

Introduction
Consumption of alcoholic beverages is a worldwide 
phenomenon,1 and has been an essential part of many cultures 
for thousands of years.2 According to the World Health 
Organization (WHO) Global Status Report on Alcohol and Health 
(2011), 6.13 litres of pure alcohol was consumed on average by 
every person in the world aged 15  years or older in 2005 
(worldwide per capita consumption). The highest consumption 
levels were found in the developed world, while medium 
consumption levels were found in Southern Africa, where 
Namibia and South Africa had the highest levels.1 A pattern of 
alcohol abuse, ranging from daily heavy drinking to occasional 
episodes of hazardous drinking, has been closely linked to 
significant public health and safety problems in nearly all 
countries.3 It has been reported that the harmful use of alcoholic 
beverages is among the top five risk factors for disease, disability 
and death globally.4 Driving while under the influence of alcohol 
has been reported to increase the risk of road traffic accidents 
associated with death and severe injury.5 Hence, laws enforcing 
drunk driving countermeasures are considered to be cost-
effective strategies for reducing the burden of alcohol-
attributable traffic accidents.6 Determining blood alcohol 
concentration (BAC) (the concentration of alcohol by volume in 
the bloodstream) limits for drivers, conducting sobriety checks 
and random breath testing can reduce traffic crashes by roughly 
20%.7,8

In South Africa, the specified legal BAC limit for drivers of motor 
vehicles is 0.05 g of ethyl alcohol per 100 ml of blood.9 Thus, an 
increase of as little as 0.01 g per 100 ml in BAC value above the 

legal limit may warrant criminal prosecution or the denial of an 
insurance claim for damages.9 There is no doubt that criminal 
prosecutions of inebriated drivers have, in recent years, received 
much attention. However, multiple court cases have been 
dismissed as a result of pure incompetence, ranging in origin 
from the roadside to the eventual laboratory testing of blood 
samples.10 This state of affairs undermines the constitutional 
rights of accused individuals, results in extended delays in 
settling disputes or claims for insurance payouts and, in some 
cases, settlement of the estates of deceased individuals, all of 
which could cause enormous financial hardship to dependants 
or beneficiaries.9 In 2015, it was reported that 44  526 cases of 
drunk driving had been withdrawn from South African courts in 
the 2012/2013 financial year; reasons included inappropriate 
blood sample retention and storage, and invalid sample 
analysis.11 Medical practitioners are often requested by police 
officials to take blood samples from persons who are suspected 
of driving under the influence of alcohol.

Hence, using a group of community service doctors as a cohort 
study group, this study investigated the competency of medical 
graduates regarding the medico-legal aspects of drunk driving, 
with the aim of identifying gaps in knowledge and shortcomings 
in undergraduate medical training in clinical forensic medicine.

Methods
A self-administered questionnaire-based study included 150 
community service doctors (CSDs), who were medical graduates 
of the School of Medicine, Faculty of Health Sciences, University 
of the Free State (2005–2007). A comprehensive list containing 

http://orcid.org/0000-0003-2380-1487
mailto:adefuyeao@ufs.ac.za
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64 South African Family Practice 2018; 60(2):63–69

names and contact details of all 150 CSDs was sourced from the 
administration of the Faculty of Health Sciences, University of the 
Free State, and the Health Professions Council of South Africa. All 
potential participants were contacted telephonically to obtain 
verbal consent.

The questionnaire was administered in Afrikaans and English 
and was dispatched electronically via e-mail. The data collected 
included the following:

•  demographic details: age, gender and home language;

•  professional profile;

•  employment profile: when and where the participant 
 completed community service;

•  competency regarding assessment and completion of med-
ico-legal documentation of patients accused of driving un-
der the influence of alcohol (DUI) encountered during 
participants’ community service year.

A three-point Likert scale was used (Yes, always, Yes, sometimes, 
and No).

The response rate was 59.3% (89 of the initial 150 questionnaires 
distributed were returned). The results were captured on 
Microsoft Excel®, 2013 (Microsoft Corp, Redmond, WA, USA), and 
calculated by a statistician. A Spearman’s correlation coefficient 
analysis (SPSS® Statistics 24, IBM Corp, Armonk, NY, USA) was 
done to determine the relationship between exposure to 
undergraduate training in medico-legal documentation of 
drunk-driving cases and determinants of competency such as 
appropriate history taking, examination and performance of 
other test on alleged drunk drivers.

Ethical approval was given by the Ethics Committee of the 
Faculty of Health Sciences University of the Free State (HSREC 
149/2011).

Results

Demographic details of participants
Participants were aged between 27 and 35  years, with the 
majority (76.2%, n = 67) between 27 and 29 years old. There were 
55 (61.8%) female and 34 (38.2%) male participants. Furthermore, 
73% (n  =  65) were Afrikaans speaking, 14 (15.7%) were English 
speaking and 11.2% (n  =  10) had other languages as their first 
language.

In terms of placement, the majority 39.3% (n  =  35) of the 
participants did their community service in the Free State province 

(Table 1). Furthermore, 47.2% of the respondent CSDs were posted 
to urban communities, 27% of the participants served in mixed 
urban–rural communities, whilst the remainder of participants 
(25.8%) did their community service in a rural setting.

Instances of alleged drunk driving encountered 
during year of community service
Participants were asked whether they had encounters with 
instances of alleged drunk driving during their year of community 
service. Of the 87 respondents who responded to this question, 
63.2% (n  =  55) reported that they had, during their community 
service, had encounters with people suspected to have been 
driving under the influence of alcohol, while 36.8% (n  =  32) 
answered the question in the negative. The majority of 
participants (54.5%, n  =  30) who reported having encountered 
allegedly drunk drivers stated they had seen between one and 
five cases (Figure 1).

Medico-legal aspects related to drunk driving
In attending to an alleged drunk driver, the medical practitioner 
has to be certain that the individual presented by the police 
official has, in fact, been arrested, or charged with or convicted of 
a crime, before engaging in any medical procedure or 
examination requested by the police official.12 In this study, 
88.8% (n  =  48) of the respondents reported that alleged drunk 
drivers were, at all times, accompanied by a member of the South 
African Police Service (SAPS), who confirmed arrest and charge 
(Table 2).

Table 1: Province of community service by participants

Province of community service %

Western Cape 7.9

Eastern Cape 10.1

Northern Cape 12.4

North-West 13.5

Gauteng 6.7

Mpumalanga 5.6

Limpopo 1.1

Free State 39.3

KwaZulu-Natal 3.4

Figure 1: Number of instances of alleged drunk driving encountered by 
participants during their community service year (n = 55).

Table 2: Observations prior to examination and sample taking

*n = 54.

Item Yes, always (%) Yes, sometimes 
(%)

No (%)

Accompanying 
member of the 
South African Police 
Service*

88.8 9.3 1.9

Accompanied by 
necessary documen-
tation (SAPS 308(A))

78.2 16.3 5.5

Alleged drunken 
driver brought 
in within 2 h of 
incident*

33.3 64.8 1.9

Obtaining consent 
for examination and 
collection of blood 
sample 

50.9 29.1 20



Medico-legal aspects regarding drunk driving: experience and competency in practice of community service doctors 65

In addition, prior to any examination or intervention, the medical 
practitioner should receive from the police a written request for 
the examination of the arrested person (Form SAPS 308(a)).12 
When asked whether the alleged drunk drivers were 
accompanied by the SAPS 308(a) form, 78.2% (n  =  43) of the 
participants reported that alleged drunk drivers were always 
accompanied by the SAPS 308(a) form, while 5.5% (n = 3) of the 
participants said the alleged offenders had not been 
accompanied by the form (Table 2).

During any prosecution for an alleged contravention of Sections 
65(2) or 65(5) of the Road Traffic Act, it must be proved that the 
concentration of alcohol in any specimen of blood exceeded 
0.05 gram per 100 millilitres within two hours after the alleged 
contravention.13 In this study, only 33.3% (n  =  18) of the 
participating CSDs reported that allegedly inebriated driver(s) 
were brought to the healthcare facility within two hours of the 
alleged contravention, while the majority (64.8%) of the 
participants reported that alleged offenders were sometimes 
(not always) presented within two hours of the alleged 
contravention (see Table 2).

Because the alleged offender is under arrest when he/she is 
presented at the healthcare facility, his/her consent is not necessary 
and physical constraint by the police official/arresting officer may 
be required to assist the doctor to take a blood sample.12 However, 
the medical practitioner should bear in mind that, as with any other 
medical examination, the patient’s welfare is paramount and it is 
advisable that the patient’s consent be obtained as far as possible.12 
Of the 55 participants who handled alleged instances of DUI during 
their year of community service, only 50.9% (n  =  28) reported 
always obtaining consent from the patient (see Table 2).

Taking a blood sample to determine blood alcohol 
level
BAC has become the mainstay for the prosecution of drunk-driving 
cases. A sample of blood must be obtained from the alleged 
offender within two hours of the alleged contravention and the 
concentration of alcohol in this sample is then measured. Prior to 
taking the blood sample, the skin on the area where blood is to be 
taken has to be cleaned and prepared according to standard 
medical practice i.e. maintaining infection control measures by 
disinfecting the skin. However, it is of utmost importance that the 
attending medical practitioner is aware that the area where blood 
is to be taken should be cleaned with a substance not containing 
alcohol, in contrast to standard medical practice. Almost all the 
participants, that is, 96.2%, reported always cleaning the area 
where the blood sample is to be taken; 7.4% reported that they 
sometimes clean the area (51 participants responded to this 
question). However, when asked about the substance they used to 
clean the area, 76.4% (n = 39) reported cleaning with sterile water, 
21.6% (n  =  11) reported cleaning with alcohol, whilst 2% (n  =  1) 
reported cleaning with other substances (Figure 2).

Maintaining chain of evidence
For successful prosecution of DUI cases, blood sampling is the 
gold standard. This must, however, be done properly by qualified 
personnel, and the chain of evidence must be maintained. 10 
Data from this study show that, in 80% of instances where 
participants encountered people accused of driving while drunk, 
the accused were always accompanied by the necessary alcohol 
kit (Table 3). In addition, 85% of the participants reported that 
they always check the kit beforehand, whilst 94.3% reported 
always personally breaking the seal of the alcohol kit (Table 3). 
Following sample collection, specimens are transferred, avoiding 

contamination, to a sterile McCartney bottle containing 
anticoagulant (sodium fluoride and potassium oxalate), then put 
into a labelled bag, sealed and handed to the investigating 
officer. He/she sign to acknowledge receipt of the specimen and 
then transport it to the testing laboratory. When asked whether 
they seal the kit personally after blood collection, the majority 
(94.3%) of participants reported that they always seal the kit 

Figure 2: Substance used to clean area where blood is to be taken 
(n = 51).

Table 3: Steps in maintaining the chain of evidence

Item Yes, always (%) Yes, sometimes (%) No (%)

Accompanied by 
necessary alcohol 
kit (n = 55)

80 14.5 5.5

Checking the kit 
beforehand (n = 53)

85 7.5 7.5

Personally breaking 
the seal (n = 53)

94.3 3.8 1.9

Sealing the kit per-
sonally (n = 53)

94.3 1.9 3.8

Handing documen-
tation and alcohol 
kit to investigating 
officer (n = 50)

96 0 4

Table 4: History taking and examination of drivers suspected to be 
inebriated

Item Yes, always (%) Yes, sometimes (%) No (%)

Taking of medical 
history (n = 47)

65.9 21.3 12.8

Asking about med-
ication usage in the 
previous 24 h (n = 48)

54.1 31.3 14.6

Previous injuries, 
abnormalities and 
operations (n = 48)

50 33.3 16.7

Alcohol/drug con-
sumption over the 
previous 24 h (n = 48)

81.2 12.5 6.3

Performing a full 
clinical examination 
(n = 48)

66.6 16.7 16.7

Completing the 
necessary documen-
tation (n = 48)

93.8 4.2 2

Signing of documen-
tation (n = 46)

97.8 2.2 0



66 South African Family Practice 2018; 60(2):63–69

 ‘… any medical officer of any prison or any district surgeon 
or, if requested thereto by any police official, any registered 
medical practitioner or registered nurse may take such 
steps, including the taking of a blood sample, as may be 
deemed necessary in order to ascertain whether the body 
of any person referred to in paragraph (a) (i) or (ii) of 
subsection (1) has any mark, characteristic or distinguishing 
feature or shows any condition or appearance.’

In this study, 50% of the participants reported that they always 
inquired about previous injuries, abnormalities and operations, 
33.3% reported that they sometimes asked about these, whilst 
16.7% reported that they did not inquire about any previous 
injuries, abnormalities and operations (see Table 4). If, in the 
professional opinion and experience of the doctor, the reason for 
the patient’s impairment could be the result of other factors, for 
example, drugs, hypoglycaemia, head injury or mental illness, it is 
important that it is recorded as such.12 To rule out drug-related 
impairment, the history of a patient’s intake of medication in the 24 h 
prior to presentation is of utmost importance. In this study, only 
54.1% of the participants reported that they always took a history 
of medication used in the 24 h prior to arrest (Table 4). Furthermore, 
a full clinical examination is required to exclude impairment 
secondary to head trauma. A full clinical examination was always 
performed by 66.6% of the participants, whilst 16.7% of them 
sometimes performed a full clinical examination (see Table 4). 

personally after sample collection (Table 3), whilst 96% reported 
that they always hand over documentation and the alcohol kit to 
the investigating officer (Table 3).

History taking and examination for drivers suspected 
to be inebriated
It is important for the medical practitioner to ascertain and 
record in writing that the impairment of the allegedly inebriated 
driver is due to alcohol consumption.12 In order to ascertain this 
properly, a detailed history and full clinical examination is 
needed. Data collected from the questionnaires reveals that 
65.9% of the participants reported that they always take a 
medical history, whilst 12.8% reported that they did not take 
medical history (Table 4). According to Section 37(2) of the 
Criminal Procedure Act of 1977:

Table 5: Undergraduate training and exposure to medico-legal 
documentation of drunk-driving cases

Item Yes (%) No (%)

Trained to complete documentation for drunk-driv-
ing cases at undergraduate level (n = 54)

11.1 88.9

Undergraduate exposure to drunk-driving cases  
(n = 55)

10.9 89.1

Table 6: Spearman’s correlation matrix showing relationship between undergraduate training and competency in practice by community service 
doctors

Notes: (a) Trained to complete documentation for drunk-driving cases at undergraduate level, (b) undergraduate exposure to drunk-driving cases, (c) 
taking of medical history, (d) obtaining consent for examination and collection of blood sample, (e) performing a full clinical examination, (f ) asking 
about medication usage in the previous 24 h, (g) previous injuries, abnormalities and operations, (h) alcohol/drug consumption over the previous 24 h.
*Correlation is significant at the 0.05 level (2-tailed).
**Correlation is significant at the 0.01 level (2-tailed).

Item a b c d e f g h

Spearman’s rho a Correlation coefficient 1.000 1.000** 0.269 .324* 0.262 0.334* 0.359* 0.181

Sig. (2-tailed) – – 0.067 0.017 0.072 0.020 0.012 0.219

n 54 54 47 54 48 48 48 48

b Correlation coefficient 1.000** 1.000 0.269 0.326* 0.262 0.334* 0.359* 0.181

Sig. (2-tailed) – – 0.067 0.015 0.072 0.020 0.012 0.219

n 54 55 47 55 48 48 48 48

c Correlation coefficient 0.269 0.269 1.000 0.879** 0.961** 0.617** 0.821** 0.738**

Sig. (2-tailed) 0.067 0.067 – 0.000 0.000 0.000 0.000 0.000

n 47 47 47 47 47 47 47 47

d Correlation coefficient 0.324* 0.326* 0.879** 1.000 0.853** 0.797** 0.875** 0.663**

Sig. (2-tailed) 0.017 0.015 0.000 – 0.000 0.000 0.000 0.000

n 54 55 47 55 48 48 48 48

e Correlation coefficient 0.262 0.262 0.961** 0.853** 1.000 0.560** 0.822** 0.794**

Sig. (2-tailed) 0.072 0.072 0.000 0.000 – 0.000 0.000 0.000

n 48 48 47 48 48 48 48 48

f Correlation coefficient 0.334* 0.334* 0.617** 0.797** 0.560** 1.000 0.819** 0.365*

Sig. (2-tailed) 0.020 0.020 0.000 0.000 0.000 – 0.000 0.011

n 48 48 47 48 48 48 48 48

g Correlation coefficient 0.359* 0.359* 0.821** 0.875** 0.822** 0.819** 1.000 0.709**

Sig. (2-tailed) 0.012 0.012 0.000 0.000 0.000 0.000 – 0.000

n 48 48 47 48 48 48 48 48

h Correlation coefficient 0.181 0.181 0.738** 0.663** 0.794** 0.365* 0.709** 1.000

Sig. (2-tailed) 0.219 0.219 0.000 0.000 0.000 0.011 0.000 –

n 48 48 47 48 48 48 48 48



Medico-legal aspects regarding drunk driving: experience and competency in practice of community service doctors 67

heart failure, and stroke,17 alcohol consumption has been identified 
as a component cause for more than 200 diseases, injuries and 
other health-conditions with ICD (International Statistical 
Classification of Diseases and Related Health Problems)-10 codes.18 
In South Africa, alcohol is the third most common cause of 
disability and death, after sexually transmitted infections and 
interpersonal violence, both of which are themselves influenced 
by alcohol abuse.19 In 2000, the health, social and economic 
burden of South Africa’s alcohol crisis could be seen in the 36 840 
deaths, 787 749  years of life lost, and 344 331  years lived with a 
disability attributable to alcohol in that year.20

According to the WHO global status report on road safety, over 
1.2 million people die each year on the world’s roads, and 
between 20 and 50 million suffer non-fatal injuries.5 The WHO 
reports that over 90% of all fatalities on the roads globally occur 
in low- and middle-income countries, which have an estimated 
road fatality rate of 21.5 and 19.5 per 100 000 population, 
respectively, compared with 10.3 per 100  000 recorded in high-
income countries. 5 The risk of dying as a result of a road traffic 
injury is highest in the African region (24.1 per 100 000 
population), and lowest in the European region (10.3 per 100 
000).21 According to South Africa’s transport minister, a road traffic 
fatality rate of 23.5 per 100 000 people was reported in 2014, 
compared with the global average of 17.4 fatalities per 100 000 
people for that year.22 It can thus be said that road fatalities have 
denied many South African families economic freedom, as many 
of the people injured or killed on the roads were breadwinners 
and important contributors to the economy at large.22

Drunk driving increases the risk of being involved in a road traffic 
accident and increases the severity of resulting injuries. It has been 
reported that the level of impaired driving and the risk of crash 
involvement is directly proportional to the amount of alcohol 
consumed.21 Of the road traffic fatalities in South Africa in 2012, 
52.2% of the deaths of adult males and 11.6% of those of adult 
females can in some way be attributed to alcohol.6 Laws enforcing 
measures to prevent and punish drunk driving, such as the 
introduction of BAC limits for drivers, have been shown to reduce 
the burden of alcohol-attributable traffic accidents 6. It is reported 
that a BAC of 0.05 g/dl will cause impairment in the vast majority 
of adult drivers, while someone with a BAC level of 0.1 g/dl faces 
five times the risk of being involved in a road traffic accident than 
someone with BAC level of zero.23 According to the WHO report, 89 
countries, with a total population of 4.55 billion people (66% of the 
world’s population), now have comprehensive drink-driving laws. 
Best practice dictates that the BAC limit must be 0.05 g/dl or less.24

According to Section 65 Subsections 2 and 5 of the South African 
Road Traffic Act, ‘no person shall drive a vehicle, or occupy the 
driver’s seat of a motor vehicle of which the engine is running, on 
a public road, respectively while the concentration of alcohol in 
any specimen of blood taken from any part of the person’s body 
is not less than 0.05 gram per 100 millilitres, or in the case of a 
professional driver referred to in section 32, not less than 0.02 
gram per 100 millilitres, or while the concentration of alcohol in 
any specimen of breath exhaled by such person is not less than 
0.24 milligrams per 1000 millilitres’.25 However, enforcing 
prosecution under this law is not common in South Africa, as 
many drunk-driving court cases have been dismissed as a result 
of the state’s inability to present credible evidence—this failure 
is accredited to members of the SAPS and the Department of 
Health.10 Medical practitioners, in particular young or newly 
graduated medical practitioners working as CSDs, are 
indispensable members of the Department of Health’s workforce. 

When asked about completing and signing the necessary 
documentation, 93.8% and 97.8% of the participants reported 
that they always or sometimes completed and signed the 
necessary documentation, respectively (see Table 4).

Undergraduate training and exposure to medico-
legal documentation for drunk-driving cases
Data collected by this study reveal that only 11.1% of participants 
who indicated that they had encountered patients accused of 
drunk driving during their year of community service had, during 
their undergraduate training, received training on medico-legal 
documentation of drunken-driving cases (Table 5). Similarly, 
only 10.9% of the participants indicated that they had any 
undergraduate exposure to drunk-driving cases (Table 5).

Spearman’s correlation analysis
Results obtained from the Spearman’s correlation analysis 
revealed a strong positive correlation between undergraduate 
exposure to drunk-driving cases and training to complete 
documentation of drunk-driving cases at the undergraduate 
level (r

s
  =  1.000; p  <  0.01) (Table 6). A weak positive correlation 

was found between exposure to undergraduate training in 
medico-legal documentation of drunk-driving cases and taking a 
relevant medical history (r

s
 = 0.269; p = 0.067) (Table 6). Similarly, 

a weak positive correlation was also found between exposure to 
undergraduate training in medico-legal documentation of 
drunk-driving cases and performing full examination on alleged 
inebriated drivers (r

s
 = 0.262; p = 0.072) (Table 6).

In addition, a strong positive correlation was recorded between 
taking a relevant medical history and taking a history of 
medication usage in the previous 24 h, history of previous 
injuries, abnormalities and operations and history of alcohol/
drug consumption over the previous 24 h, respectively (r

s
 = 0.617, 

0.821 and 0.738, respectively; p < 0.01 in all cases) (see Table 6). 
Furthermore, the results presented in Table 6 show a very strong 
positive correlation between obtaining consent for examination 
and performing a full clinical examination (r

s
  =  0.875; p  <  0.01). 

Other correlation values are also presented in Table 6.

Discussion
Since the arrival of the European settlers at the southern tip of 
Africa in the year 1652,14 alcohol has played a central and often 
controversial role in the life of many South Africans.15 The 
establishment of a refreshment station for passing ships at what 
was to become Cape Town meant that drunkenness, gambling 
and violence were soon part of the daily lives of many inhabitants. 
Members of the indigenous population caught on quickly and 
started to exchange alcohol for cattle and labour.15 The 
seventeenth and twentieth centuries saw the growth of extensive 
wine and brewing industries in South Africa and the 
establishment of illegal drinking outlets (shebeens) amongst 
black communities became problematic.15

Today South Africa has the highest levels of alcohol consumption 
in the southern African region,3 with the total level of adult pure 
alcohol per capita consumption estimated at 32.8 l for men and 
16.0 l for women in 2010.6 Patterns of drinking range from frequent 
drinking at times not part of meals, drinking in public places, 
communal drinking, and drinking at family/community events,15 
to heavy episodic drinking (consumption of 60 or more grams of 
pure alcohol per single occasion) over weekends.16 Although 
habitual light to moderate alcohol intake is associated with a 
decreased risk of total mortality in certain medical conditions, 
such as coronary artery disease, diabetes mellitus, congestive 



68 South African Family Practice 2018; 60(2):63–69

examination still has an important place in the medico-legal 
investigation of drunk driving. This was shown in the case of S v. 
Conradie 2000(2) SACR 386 cited in Le Roux,26 in which the clinical 
findings and clinical opinion were found to supersede the BAC 
result, causing the court to conclude that the blood analysis 
must have been faulty.

Furthermore, Section 65 Subsection 3 of the South African Road 
Traffic Act of 1996 25 states that:

 ‘If, in any prosecution for an alleged contravention of a 
provision of subsection (2), it must be proved that the 
concentration of alcohol in any specimen of blood taken 
from any part of the body of the person concerned was not 
less than 0.05 gram per 100 millilitres at any time within two 
hours after the alleged contravention, it shall be presumed, 
in the absence of evidence to the contrary, that such 
concentration was not less than 0.05 gram per 100 millilitres 
at the time of the alleged contravention, or in the case of a 
professional driver referred to in section 32, not less than 
0.02 gram per 100 millilitres, it shall be presumed, in the 
absence of evidence to the contrary, that such concentration 
was not less than 0.02 gram per 100 millilitres at the time of 
the alleged contravention.’25

Findings from this study revealed that 33.3% of the participants 
reported that the alleged drunk drivers always presented within 
two hours of incident, while 64.8% of participants reported that 
people accused of driving drunk were sometimes presented 
within the two-hour time frame. A BAC sample collected more 
than two hours after the incident will give an unreliable result, 
which will not be admissible in a court of law, thus suggesting 
that a guilty verdict would be unlikely.

In addition, Section 65 Subsection 4 of the Road Traffic Act 
further states that:

 ‘ … where in any prosecution in terms of this Act proof is 
tendered of the analysis of a specimen of the blood of any 
person, it shall be presumed, in the absence of evidence to 
the contrary, that any syringe used for obtaining such 
specimen and the receptacle in which such specimen was 
placed for despatch to an analyst, were free from any 
substance or contamination which could have affected the 
result of such analysis.’

During standard medical practice, any area where blood is to be 
taken should be kept sterile as far as possible, generally by making 
use of alcohol swabs. However, in taking a blood sample for a BAC 
test, preparing the skin area with an alcohol swab or any other 
substance that may affect the result is strongly prohibited. When 
asked what substance they used to clean the skin area, 76.4% 
(n = 39) of the participants reported cleaning it with sterile water, 
21.6% (n  =  11) reported cleaning with alcohol, and 2% (n  =  1) 
reported cleaning with other substances (Figure 2). This indicated 
a lack of basic understanding among some participants of the 
principles governing sample collection while performing a BAC 
test and its legal importance in the prosecution of drunk drivers.

When collecting evidence or samples for clinical forensic purposes, 
maintaining the chain of evidence is of the utmost importance. It 
can be said that, for this study, the majority of the participants 
knew and adhered to the basic principles of maintaining the chain 
of evidence for medico-legal purposes (see Table 3).

The aim of this study was to assess the competencies of this 
group of medical practitioners in relation to medico-legal 
documentation of patients who had allegedly been driving 
under the influence of alcohol, to identify gaps in knowledge 
and shortcomings in practice. This enabled reflection on the 
adequacy of the undergraduate medical training presently 
available in clinical forensic medicine.

In the present study, 63.2% (n = 55) of the participating CSDs had 
encountered people who were alleged to have driven drunk 
during their year of community service; the majority (54.5%, 
n  =  30) reported having managed between one and five cases 
during that time (see Figure 1). The majority of participants 
(47.2%) were required to perform their community service in 
urban communities (see Table 1).

For the successful prosecution of a drunk driver, the clinical 
evaluation and examination of an accused by an expert witness is 
usually conducted by the medical practitioner on request by the 
police officer by way of a formal SAP 308(a) request form.26 It was 
found in this study that the SAP 308(a) request form was presented 
in only 78.2% of cases, never presented in 5.5% of the cases and, in 
16.3% of the cases examined by the participants, presented 
sometimes (see Table 2). This shows that the SAPS officers are 
either uninformed or untrained and also provides evidence of the 
gap in knowledge on the side of the medical practitioners.

The clinical evaluation and examination must always be done in 
a well-lit room. It begins with general observation of the patient 
to determine signs and symptoms of intoxication, such as smell 
of alcohol, an increased respiratory rate, diminished alertness 
and memory loss, photophobia, blurred vision and abdominal 
pain.27 This observation must be followed by a clinical 
examination, to exclude any form of injury or trauma to the head 
or other parts of the body. Particular attention should be paid to 
the ingestion of any medication and any relevant medical history 
(e.g. psychiatric illness) must be noted. During the clinical 
evaluation, the doctor should ascertain whether the patient’s 
faculties are indeed impaired, try to assess the degree of 
impairment; try to assess whether the accused is fit to drive a 
motor vehicle with the necessary skill and care required and 
whether the impairment can be wholly or partly due to alcohol 
consumption.26 The doctor must ensure that the examination is 
conducted in a just and proper manner and that the evidence 
collected adheres to the procedures for admissibility in a court of 
law.26 Data presented by this study show that only 65.9% of the 
participating CSDs attested to taking a proper medical history 
every time they had to examine someone accused of drunk 
driving (see Table 4), while only 54.1% of the participants 
reported that they enquired about the recent intake of 
medication. It was unexpected and disturbing that 16.7% of the 
participants never performed full clinical examinations on these 
patients (Table 4). Findings from the Spearman’s correlation 
analysis show a positive correlation between exposure to 
undergraduate training in medico-legal documentation of 
drunk-driving cases and taking a proper medical history and 
performing a full clinical examination (see Table 6). This suggests 
that adequate undergraduate training will ensure that CSDs take 
relevant medical history and perform full clinical examinations 
when attending to alleged inebriated drivers (Table 6). The 
findings that the medical practitioner makes should be recorded 
on an appropriate form (Health 475, GW4/75),28 which was done 
by 93.8% of the participants (Table 4). Although the value of the 
clinical evaluation and examination by qualified medical 
personnel has been questioned in court, clinical evaluation and 



Medico-legal aspects regarding drunk driving: experience and competency in practice of community service doctors 69

8.  Peek-Asa C. The effect of random alcohol screening in reducing motor 
vehicle crash injuries. Am J Prev Med. 1999;16(1):57–67. doi:10.1016/
S0749-3797(98)00116-0.

9.  Ehmke-Engelbrecht U, Du Toit-Prinsloo L, Jordaan J, et al. Questioning 
the validity of blood alcohol concentration analysis: combating 
drunken driving. S Afr Crime Q. 2016;2016(57):7–14 https://doi.
org/10.17159/2413-3108/2016/v0n57a442.

10.  Bateman C. Drunk driving: bring back the breathalyser-experts. S Afr 
Med J. 2016;106(5):432–3. doi:10.7196/samj.2016.v106i5.10912.

11.  James W. The state of forensic chemistry laboratories in SA. 2015 [cited 
2017 Feb 28]. Politics Web. Available from: http://www.politicsweb.
co.za/party/the-state-of-forensic-chemistry-laboratories-in-sa

12.  South African Medical Association (SAMA). Guideline For Medical 
Practitioners Taking Blood Samples In Drunken Driving Cases. 2012 
Retrieved 23 May 2017 from https://www.samedical.org/images/
attachments/guideline -for-tak ing-blood-samples-in- drunken-
driving-cases-2012.pdf.

13.  de Villiers W. Evidentiary presumption of drinking and driving cases 
and the suspects’ right to counsel under South African law. Int’l  J 
Advanced Legal Stud & Governance. 2012;3:9–31.

14.  Noble J. Illustrated official handbook of the Cape and South Africa: 
a résumé of the history, conditions, populations, productions and 
resources of the several colonies, states and territories. London: J.C. 
Juta & Company; 1896.

15.  Parry CD. South Africa: alcohol today. Addiction 2005, 100(4):426–
429. doi:10.1111/j.1360-0443.2005.01015.x.

16.  Parry CD, Plüddemann A, Steyn K, et al. Alcohol use in South Africa: 
findings from the first Demographic and Health Survey (1998). J Stud 
Alcohol. 2005, 66(1):91–7. doi:10.15288/jsa.2005.66.91.

17.  O’Keefe JH, Bhatti SK, Bajwa A, et al. Alcohol and cardiovascular 
health: the dose makes the poison… or the remedy. In: Mayo 
Clinic Proceedings; Elsevier; 2014. pp.382–93. doi:10.1016/j.
mayocp.2013.11.005

18.  Rehm J, Mathers C, Popova S, et al. Global burden of disease and 
injury and economic cost attributable to alcohol use and alcohol-
use disorders. The Lancet. 2009;373(9682): 2223–2233. doi:10.1016/
S0140-6736(09)60746-7.

19.  Norman R, Bradshaw D, Schneider M, et al. Estimating the burden of 
disease attributable to interpersonal violence in South Africa in 2000. 
S Afr Med J 2007;97(8):653–6.

20.  Schneider M, Norman R, Parry C, et al. Collaboration SACRA. 
estimating the burden of disease attributable to alcohol use in South 
Africa in 2000. S Afr Med J. 2007;97(8):664–72.

21.  World Health Organization. Global status report on road safety 2013: 
supporting a decade of action: summary. Luxembourg: WHO; 2013.

22.  Peters D. Africa road safety 2016. Durban: Tsogo Sun Elangeni Hotel; 
2016.

23.  Compton RP, Blomberg RD, Moscowitz H, et al. Crash risk of alcohol 
impaired driving. Proceedings International Council on Alcohol, 
Drugs and Traffic Safety Conference. 2002:39–44.

24.  World Health Organization. Global status report on road safety 2013: 
supporting a decade of action. Luxembourg: WHO press; 2013.

25.  South African Government. (1996). National road traffic act 93 of 1996. 
Available from: http://www.gautengonline.gov.za/Publications%20
and%20Reports/National_Road_Traffic_Act_1996.pdf

26.  Le Roux A. Medico-legal aspects regarding drunk driving. S. Afr. J. 
Crim. Justice 2007;20(2):220–242. Available from: http://hdl.handle.
net/10520/EJC52912

27.  Kraut JA, Kurtz I. Toxic alcohol ingestions: clinical features, diagnosis, 
and management. Clin J Am Soc Nephrol. 2008;3(1):208–225 
http://10.2215/CJN.03220807. https://doi.org/10.2215/CJN.03220807

28.  Von Willich JH. The doctor and the drunk driver-shifting the paradigm. 
Pretoria: University of Pretoria; 2016.

29.  Sukhai A, Seedat M. Adverse driving behaviours: the case of 
aggression, excessive speed and alcohol impairment. In: Ashley 
Van, N, Shahnaaz, S, Mohamed, S, editors. Crime, Violence & Injury 
Prevention in South Africa. 2008 ed. Tygerberg: Medical Research 
Council-University of South Africa Crime, Violence and Injury 
Lead Programme. 2008. Available from: http://www.mrc.ac.za/
crime/2ndreviewchapter5.pdf

Received: 13-06-2017 Accepted: 26-09-2017

Finally, findings from this study showed that only 11.1% of the 
participants had undergone any form of undergraduate training in 
completing documentation for drunk-driving cases, while only 
10.9% reported having had any undergraduate exposure to 
allegedly inebriated drivers (see Table 5). This limited undergraduate 
training and exposure to medico-legal aspects regarding drunk 
driving can be responsible for the incompetency displayed by 
some CSDs in this study. Results obtained from the Spearman’s 
correlation analysis revealed a strong positive correlation between 
undergraduate exposure to drunk-driving cases and training to 
complete documentation of drunk-driving cases at the 
undergraduate level (see Table 6). Similarly, positive correlations 
were observed between exposure to undergraduate training in 
medico-legal documentation of drunk-driving cases and other 
determinants of competency as seen in Table 6. It is therefore very 
likely that increased undergraduate exposure to drunk-driving 
cases will enhance competency in practice by CSDs. This finding, 
thus, indicates the need for a new curriculum for clinical forensic 
medicine in the MBChB programme to address the shortcomings in 
current training, and enhance skills and knowledge of medical 
graduates in relation to executing of medico-legal cases.

Conclusion
Taken together, findings from this study confirm that some 
officers in the employ of the SAPS and the DOH had an 
inadequate knowledge base and understanding of the effective 
handling of the medico-legal aspects regarding accusations of 
drunk driving. Alcohol-related road traffic accidents are 
notoriously associated with repeat offenders.29 It would, 
therefore, be beneficial to direct a new curriculum for clinical 
forensic medicine in the MBChB programme to address the gap 
in knowledge and practice of various topics of forensic medicine 
of newly qualified medical graduates and CSDs. In addition, it is 
recommended that members of the SAPS be properly trained in 
medico-legal aspects regarding drunk driving.

Disclosure statement – No potential conflict of interest was 
reported by the authors.

Funding – This work was supported by the Health and Welfare 
Sector Education and Training Authority (HWSETA) of South 
Africa [MOU HWESTA/UFS 2016/2017].

ORCID
AO Adefuye   http://orcid.org/0000-0003-2380-1487

References
1.  World Health Organization. Global status report on alcohol and 

health 2011. Geneva: WHO Press; 2011.
2.  McGovern PE. Uncorking the past: the quest for wine, beer, and other 

alcoholic beverages. California: University of California Press; 2009.
3.  Department of Mental Health Substance Abuse World Health 

Organization. Global status report on alcohol and health. Geneva: 
WHO; 2011

4.  Lim SS, Vos T, Flaxman AD, et al. A comparative risk assessment 
of burden of disease and injury attributable to 67 risk factors 
and risk factor clusters in 21 regions, 1990–2010: a systematic 
analysis for the Global Burden of Disease Study 2010. The Lancet. 
2012;380(9859):2224–60. doi:10.1016/S0140-6736(12)61766-8.

5.  World Health Organization. World report on road traffic injury 
prevention. Geneva: WHO press; 2004.

6.  World Health Organization. Global status report on alcohol and 
health 2014. Luxembourg: WHO press; 2014.

7.  Elder RW, Shults RA, Sleet DA, et al. Effectiveness of sobriety 
checkpoints for reducing alcohol-involved crashes. Traffic Inj Prev. 
2002;3(4):266–74. doi:10.1080/15389580214623.

https://doi.org/10.1016/S0749-3797(98)00116-0
https://doi.org/10.1016/S0749-3797(98)00116-0
https://doi.org/10.17159/2413-3108/2016/v0n57a442
https://doi.org/10.17159/2413-3108/2016/v0n57a442
https://doi.org/10.7196/samj.2016.v106i5.10912
http://www.politicsweb.co.za/party/the-state-of-forensic-chemistry-laboratories-in-sa
http://www.politicsweb.co.za/party/the-state-of-forensic-chemistry-laboratories-in-sa
https://www.samedical.org/images/attachments/guideline-for-taking-blood-samples-in-drunken-driving-cases-2012.pdf
https://www.samedical.org/images/attachments/guideline-for-taking-blood-samples-in-drunken-driving-cases-2012.pdf
https://www.samedical.org/images/attachments/guideline-for-taking-blood-samples-in-drunken-driving-cases-2012.pdf
https://doi.org/10.1111/j.1360-0443.2005.01015.x
https://doi.org/10.15288/jsa.2005.66.91
https://doi.org/10.1016/j.mayocp.2013.11.005
https://doi.org/10.1016/j.mayocp.2013.11.005
https://doi.org/10.1016/S0140-6736(09)60746-7
https://doi.org/10.1016/S0140-6736(09)60746-7
http://www.gautengonline.gov.za/Publications%20and%20Reports/National_Road_Traffic_Act_1996.pdf
http://www.gautengonline.gov.za/Publications%20and%20Reports/National_Road_Traffic_Act_1996.pdf
http://hdl.handle.net/10520/EJC52912
http://hdl.handle.net/10520/EJC52912
http://10.2215/CJN.03220807
http://www.mrc.ac.za/crime/2ndreviewchapter5.pdf
http://www.mrc.ac.za/crime/2ndreviewchapter5.pdf
http://orcid.org
http://orcid.org/0000-0003-2380-1487
https://doi.org/10.1016/S0140-6736(12)61766-8
https://doi.org/10.1080/15389580214623

	Methods
	Results
	Demographic details of participants
	Instances of alleged drunk driving encountered during year of community service
	Medico-legal aspects related to drunk driving
	Taking a blood sample to determine blood alcohol level
	Maintaining chain of evidence
	History taking and examination for drivers suspected to be inebriated
	Undergraduate training and exposure to medico-legal documentation for drunk-driving cases
	Spearman’s correlation analysis

	Discussion
	Conclusion
	References