1Department of Family Medicine, Sultan Qaboos University Hospital, Muscat, Oman; 2Department of Family Medicine and Public Health, Sultan Qaboos 
University, Muscat, Oman; 3Department of Medical Services, Royal Guard of Oman, Muscat, Oman
*Corresponding Author’s e-mail: yaqoubs@squ.edu.om

Knowledge, Attitudes and Practices of Primary 
Care Physicians Regarding Tobacco 

Dependence Treatment in Muscat Governorate, 
Oman

A cross-sectional study

*Yaqoub Alsaidi,1 Buthaina AlMaskari,2 Moon Fai Chan,2 Sanaa Al Sumri,2 Hajer Alhamrashdi3

Sultan Qaboos University Med J, November 2021, Vol. 21, Iss. 4, pp. 563–571, Epub. 25 Nov 21
Submitted 23 Jun 20
Revision Req. 14 Sep 20; Revision Recd. 30 Sep 20
Accepted 1 Nov 20

This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.

https://doi.org/10.18295/squmj.4.2021.034

CLINICAL & BASIC RESEARCH

abstract: Objectives: This study aimed to assess the knowledge, attitudes and practices (KAPs) of primary care 
physicians (PCPs) regarding tobacco dependence treatment (TDT) and to identify barriers to TDT practice in Muscat, 
Oman. Methods: This cross-sectional study was carried out from September 2019 to December 2019 at all 27 health 
centres in Muscat. All 313 PCPs working in these health centres were invited to participate. An adapted version of a 
previously validated 36-item questionnaire was used to assess KAPs regarding TDT services. Results: A total of 255 
PCPs completed the survey (response rate: 81.5%) and they demonstrated poor knowledge (40%) but positive attitudes 
(60%) about TDT services. Of these, the majority were female (85.9%), had never smoked (99.2%) and were general 
practitioners (64.3%). The mean age was 34.3 ± 6.3 years. Only 28.2% had previously received TDT training and less 
than half displayed accurate TDT-related knowledge, with undergraduate medical school representing the main source 
of such knowledge (58.8%). While 96.9% of the PCPs agreed on the importance of TDT, only 28.6% reported feeling 
sufficiently confident to provide such services themselves. Lack of training (83.5%) and time (71.4%) were the main 
barriers to TDT practice. Conclusion: Overall, PCPs in Muscat demonstrated poor knowledge but positive attitudes 
with regard to TDT; however, further knowledge and training is required in order to ensure the effective and accurate 
provision of TDT services. These findings provide baseline data which may be of value for further research and in 
overcoming barriers to TDT practice in Oman; for instance, establishing cessation services as part of the package of 
care in primary health centres could address the time constraints barriers identified by the PCPs.

Keywords: Tobacco Dependence; Smoking Cessation; Primary Care Physicians; Health Knowledge, Attitudes, 
Practice; Oman.

Advances in Knowledge
- Omani primary care physicians (PCPs) in Muscat demonstrated poor knowledge about (40%) but positive attitudes (60%) towards 

tobacco dependence treatment (TDT) services. 
- A high proportion of respondents (71.8%) had never received basic TDT training which would explain why lack of training was identified 

as a major barrier to TDT practice.

Application to Patient Care 
- The positive attitudes among PCP towards the provision of TDT to their smoking patients provides an opportunity to pilot cessation 

services in primary care centres in Muscat.
- Establishing cessation services as part of the package of care in primary health centres could address the time constraint barriers 

identified by the PCPs.

Tobacco use is a major modifiable risk factor for non-communicable diseases and is responsible for six million deaths annually.1 
Worldwide, there are approximately 1.3 billion 
tobacco users, of which an alarmingly high proportion 
consist of men in the Eastern Mediterranean (EMR) 
region.2,3 While many smokers find it difficult to quit, 
evidence-based research has shown that support from 
healthcare providers can increase cessation rates by 
up to 66–84%.4,5 Moreover, a meta-analysis found that 
tobacco dependence treatment (TDT) interventions 

significantly reduced tobacco use in the short term 
while maintaining cessation efforts over time.6 

The World Health Organization (WHO) 
Framework Convention on Tobacco Control stipulates 
that nations should address tobacco dependence 
by promoting cessation services.7,8 Common 
interventions include counselling through regular 
health services, telephone quitlines and access to 
pharmacological therapy. Furthermore, specialised 
TDT clinics should be established and staffed by 
trained physicians in order to provide appropriate 



Knowledge, Attitudes and Practices of Primary Care Physicians Regarding Tobacco Dependence Treatment in 
Muscat Governorate, Oman 

A cross-sectional study

564 | SQU Medical Journal, November 2021, Volume 21, Issue 4

motivational counselling and prescriptions for nicotine 
replacement therapy (NRT), most forms of which are 
usually available over the counter.7,8 In June 2019, the 
price of tobacco products doubled due to the addition 
of tax; this change is expected to increase demand for 
tobacco cessation services, particularly in low- and 
middle-income countries.3,9

Assorted tobacco control measures have been 
implemented in the Gulf Cooperation Council (GCC) 
region with varying degrees of success.10 Overall, the 
majority of GCC countries have made important 
strides in tobacco control in recent years, such as 
implementing bans on the advertisement or marketing 
of tobacco products; moreover, all GCC states, apart 
from Bahrain, have a national body dedicated to 
tobacco control measures.11 However, there is some 
concern that clinical TDT interventions may not be as 
effective for Arab populations compared to Western 
populations.12 This is possibly because traditional 
TDT interventions do not take into account the 
sociocultural norms of this region, such as the 
strong influence of friends and family members on 
lifestyle choices.13 Moreover, TDT measures can be 
prohibitively expensive; Heydari et al. observed that 
the mean cost of accessible TDT services in the EMR 
region, such as those involving NRT, was much higher 
than the price of common tobacco products such as 
cigarettes.14

In Oman, the prevalence of tobacco use among 
men aged ≥15 years old was estimated to be 17.9% in 
2010; without additional tobacco control measures, 
this rate is expected to increase to 33.3% by 2025.15 
Moreover, the Global Youth Tobacco Survey showed 
an alarming level of tobacco use among adolescents 
in Oman, with 17.8% of boys and 11.3% of girls using 
various types of tobacco products.16 The National 
Tobacco Control Committee is responsible for 
developing and implementing national policies, laws 
and regulations for tobacco control as well as raising 
awareness and supporting TDT-related training and 
research.17 In Oman, three smoking cessation clinics 
offering NRT and psychological motivational therapy 
were established in Muscat, Nizwa and in the primary 
health care centre at the main public university in 
Muscat in 2006, 2009 and 2015, respectively.15

Primary care providers (PCPs) are in an ideal 
position to support tobacco cessation efforts as they 
represent the first point-of-care for the majority 
of tobacco users.5,18 In Oman, health centres are 
the cornerstone for primary care and provide both 
preventive and curative services; while primary care 
services are also provided at renal dialysis units, 
polyclinics, offices of the Centers for Disease Control 
and Prevention and small primary hospitals, patients 

must first be referred from local health centres. Most 
PCPs are either non-certified general practitioners 
(GPs), family medicine residents or certified family 
physicians. According to statistics from the Ministry of 
Health (MoH), there were 432 Omani and non-Omani 
physicians working in primary healthcare institutions 
in Muscat in 2018, of which approximately 313 PCPs 
worked in local health centres.19

Although tobacco use is a growing problem in 
GCC countries, few studies have sought to assess 
knowledge, attitudes and practices (KAPs) and 
barriers to providing TDT services among PCPs. A 
recent study from Saudi Arabia showed that, despite 
their positive attitudes, PCPs had poor knowledge 
and unsatisfactory practices with regards to smoking 
cessation counselling.20 Another study conducted in 
Armenia found that smoking cessation was limited 
by several factors, including subpar knowledge and 
skills.21 To the best of the authors’ knowledge, no 
previous studies on this topic have been conducted 
in Oman. As such, this study aimed to identify 
the KAPs of PCPs in Muscat with regards to the 
provision of TDT services, determine associations 
with sociodemographic variables and explore possible 
barriers to TDT practice.

Methods

This cross-sectional study was carried out from 
September 2019 to December 2019 at all 27 health 
centres in Muscat, Oman. All PCPs working at these 
health centres were included in the study. The required 
sample size was calculated to be 243 using the nQuery 
Advisor® software, Version 19 (Statistical Solutions 
Ltd., Boston, Massachusetts, USA), assuming a margin 
of error of 0.03 and a confidence interval level of 95%.22 
In order to account for missing responses and attrition, 
all 313 PCPs currently working at the health centres 
were invited to participate in the study.

A modified version of a previously published semi-
structured 36-item questionnaire was utilised to collect 
data from the participants.20 This self-administered 
questionnaire comprised of three domains, with the 
first section collecting sociodemographic information, 
the second assessing responses to items related to 
TDT-related knowledge (n = 12), attitudes (n = 7) and 
practices (n = 7) and the third identifying self-reported 
barriers to TDT practice. The inter-rater reliability of 
the KAP subscales in the modified instrument was 
high (Cronbach’s alpha: 0.88–0.92). To ensure a high 
response rate, the research team contacted the heads or 
deputies of each health centre to ask them to distribute 
the questionnaire to the members of their teams and 
encourage them to take part in the study. A reminder 



Yaqoub Alsaidi, Buthaina AlMaskari, Moon Fai Chan, Sanaa Al Sumri and Hajer Alhamrashdi

Clinical and Basic Research | 565

was sent to submit the completed questionnaires 
within a three-week period. Completed questionnaires 
were returned to the heads of the health centres before 
being collected by the research team.

In terms of scoring, correct answers to 
knowledge items received 1 point, while incorrect 
answers received 0 points. Attitude items were rated 
in terms of agreement on a 5-point Likert scale with 
responses of ‘strongly agree’, ‘agree’, ‘neither agree nor 
disagree’, ‘disagree’ and ‘strongly disagree’. Positive 
attitudes (indicated by responses of ‘strongly agree’ 
or ‘agree’) were assigned 1 point, while neutral or 
negative attitudes (indicated by responses of ‘neither 
agree nor disagree’, ‘disagree’ or ‘strongly disagree’) 
received 0 points. Finally, practice items were rated 
in terms of frequency on a 4-point Likert scale with 
responses of ‘always’, ‘sometimes’, ‘rarely’ and ‘never’. 
Satisfactory practices (represented by responses of 
‘always’ or ‘sometimes’) were assigned 1 point, while 
unsatisfactory practices (represented by responses 
of ‘rarely’ and ‘never’) received 0 points. Responses 
were grouped in this way to give a clearer indication 
of positive/satisfactory attitudes and practices. 
Percentage mean scores were then calculated for each 
of the knowledge, attitude and practice subscales.

The Statistical Package for the Social Sciences 
(SPSS), Version 21.0 (IBM Corp., Armonk, New 
York, USA) was used for data analysis. Descriptive 
statistics (e.g. frequencies, percentages, means and 
standard deviations) were used to describe the basic 
sociodemographic characteristics of the respondents. 
As appropriate, Chi-squared, Fisher’s exact and 
student’s t-tests were used to test for any significant 
differences or associations between gender and other 
sociodemographic factors. Subsequently, either an 
independent t-test or analysis of variance was utilised 
to determine significant differences in KAP with 
regards to sociodemographic variables. A post-hoc test 
was performed for pair comparisons. All tests were set 
at the 5% level of significance (P <0.05).

Ethical approval for this study was obtained 
from the local Research Ethics Committee of the 
MoH (MOH-DGS-MG-46/2019). Written informed 
consent was provided by all PCPs prior to their 
participation in the study. Identifying information was 
not collected to ensure privacy and confidentiality. 

Results

Of the 313 PCPs invited to take part in the study, 255 
completed the questionnaire (response rate: 81.5%). 
The mean age was 34.3 ± 6.3 years, with 56.6% of 
the participants being between 31–45 years of age. 
The majority of the participants were female (85.9%). 

In terms of position, most were non-certified GPs 
(64.3%), followed by family medicine residents (14.9%) 
or family medicine specialists (11.4%). Interestingly, 
only two male physicians were ex-smokers of cigarettes 
(0.8%). Moreover, only 28.2% of the participants had 
previously received training in TDT services [Table 1]. 

The main source of TDT-related information 
was undergraduate medical school training (58.8%), 
followed by the Internet (55.7%), textbooks (39.2%), 
postgraduate studies (37.6%), medical colleagues 
(37.6%), research studies (28.2%), workshops (20.0%) 

Table 1: Sociodemographic characteristics of primary care 
physicians in Muscat, Oman (N = 255)

Characteristic n (%) P 
value*

Total Male 
(n = 36)

Female 
(n = 219)

Age in years† 0.278

≤30 76 (33.6) 10 (27.8) 66 (34.7)

31–45 128 (56.6) 20 (55.6) 108 (56.8)

>45 22 (9.7) 6 (16.7) 16 (8.4)

Mean ± SD 34.3 ± 6.3 36.9 ± 8.8 33.8 ± 5.5 0.064

Current position 0.713

GP 164 (64.3) 22 (61.1) 142 (64.8)

FM resident 38 (14.9) 6 (16.7) 32 (14.6)

FM specialist 29 (11.4) 6 (16.7) 23 (10.5)

FM senior 
specialist

20 (7.8) 2 (5.6) 18 (8.2)

FM senior 
consultant

4 (1.6) 0 (0.0) 4 (1.8)

Previously received TDT training 0.125

Yes 72 (28.2) 14 (38.9) 58 (26.5)

No 183 (71.8) 22 (61.1) 161 (73.5)

Smoking status 0.019

Non-smoker 253 (99.2) 34 (94.4) 219 (100.0)

Ex-smoker 2 (0.8) 2 (5.6) 0 (0.0)

Smoker 0 (0.0) 0 (0.0) 0 (0.0)

Type of tobacco used -

Cigarettes 2 (0.8) 2 (5.6) 0 (0.0)

Shisha 0 (0.0) 0 (0.0) 0 (0.0)

Midwakh 0 (0.0) 0 (0.0) 0 (0.0)

Chewable 
tobacco

0 (0.0) 0 (0.0) 0 (0.0)

Other 0 (0.0) 0 (0.0) 0 (0.0)

SD = standard deviation; GP = Non-certified general practitioner; FM = fam- 
ily medicine. 
*Calculated using a Chi-squared (χ2) test, student’s t-test or Fisher’s exact 
test, as appropriate.  †Missing data for this variable were reported for 29 participants.



Knowledge, Attitudes and Practices of Primary Care Physicians Regarding Tobacco Dependence Treatment in 
Muscat Governorate, Oman 

A cross-sectional study

566 | SQU Medical Journal, November 2021, Volume 21, Issue 4

and conferences (14.1%). Crucially, most knowledge 
questions were answered correctly by less than half 
of the participants; furthermore, a large proportion 
indicated that they did not know the correct response 
to certain questions. Most PCPs were aware of the first-
line treatment for tobacco dependency (88.2%) and 
the best methods for long- and short-term cessation 
success (80.4%). Moreover, only 118 participants 
(46.3%) were familiar with the ‘Ask, Advise, Assess, 
Assist and Arrange’ (5As) approach; However, 29 
(24.6%) of them could not accurately identify the five 
individual components of this approach [Figure 1].

In terms of attitudes, most PCPs (96.9%) agreed on 
the importance of providing TDT counselling services 
for their patients; however, only 28.6% felt sufficiently 
confident to perform such counselling themselves. 
Furthermore, while the majority of PCPs agreed 
that they should ask patients about their smoking 
status (83.9%) and advice patients to quit tobacco use 
routinely (90.6%), 57.6% of the participants expressed 
dissatisfaction with their own TDT knowledge and 
skills [Figure 2]. 

Concerning actual TDT practices, 38.0% of 
the PCPs reported always asking and documenting 
their patients’ smoking status; however, only 13.3% 
continued updating this information on a regular 
basis. Most PCPs (99.2%) explained the health-related 
consequences of tobacco use to their patients and 
encouraged them to stop smoking. In contrast, few 
participants (14%) provided information regarding 
smoking cessation and helped their patients to make 
plans to quit. Just under half of the PCPs had never 
prescribed pharmacological TDT agents (48.2%) or 
scheduled follow-up TDT appointments (45.5%). 

The two most commonly reported barriers to 
TDT practice included a lack of training and time 
(83.5% and 71.4%, respectively). Moreover, failure to 
follow up cessation efforts was considered a barrier to 
TDT practice by 51.4% of participants. Other less 
commonly identified barriers to providing TDT 
services included withdrawal symptoms, relapses and 
the patients’ desire to smoke. Most PCPs recommended 
that adding tobacco status as a mandatory field in 
electronic health information systems or to the patient’s 

Figure 1: Knowledge regarding tobacco dependence treatment among primary care physicians in Muscat, Oman (N =255).
SR = sustained-release ; NRT = nicotine replacement therapy ; TDT = tobacco dependence treatment ; 5As = Ask , Advise , Assess, Assist 
and Arrange .

Figure 2: Attitudes towards tobacco dependence treatment among primary care physicians in Muscat, Oman (N = 255).
TDT = tobacco dependence treatment; PCPs = primary care physicians.



Yaqoub Alsaidi, Buthaina AlMaskari, Moon Fai Chan, Sanaa Al Sumri and Hajer Alhamrashdi

Clinical and Basic Research | 567

vital signs would encourage more physicians to provide 
TDT services (73.7% and 65.1%, respectively).

A comparison of mean KAP scores according to 
sociodemographic characteristics is shown in Tables 
2 to 4. Overall, the percentage mean scores for the 
knowledge, attitude and practice subscales were 39.8% 
± 18.8%, 59.1% ± 19.6% and 60.0% ± 25.2%, respectively. 
There were no statistically significant differences in 
mean scores between the different age groups with 
regards to attitude (F = 0.990; P = 0.373) or practice (F 
= 1.669; P = 0.191). However, there was a significant 
difference in knowledge according to age (P = 0.002). 
According to the post-hoc analysis, participants aged 
≤30 years had significantly lower mean knowledge 
scores compared to those aged 31–45 years (33.3% ± 
14.3% versus 43.2% ± 20.9%; P <0.001).

In terms of position, specialists and senior 
specialists/consultants achieved the highest mean 
knowledge (56.9% ± 20.5%) and practice (75.8% ± 

18.9%) scores, respectively. Moreover, there was a 
statistically significant difference in both knowledge 
(F = 22.892; P <0.001) and practice (F = 14.609; P 
<0.001) according to position. However, there was no 
statistically significant difference in attitude (F = 0.152; 
P = 0.928). A post-hoc test indicated that GPs had 
significantly lower mean knowledge scores compared 
to both specialists and senior specialists/consultants 
(34.7% ± 16.8% versus 56.9% ± 20.5% and 56.3% ± 
16.7%; P <0.001 each). In addition, GPs also had 
significantly lower mean practice scores compared to 
residents, specialists and senior specialists/consultants 
(52.9% ± 24.3% versus 69.5% ± 23.6%, 74.8% ± 21.3% 
and 75.8% ± 18.9%; P ≤0.001 each). 

With regard to gender, there was no significant 
difference between males and females in terms of 
either attitude (t = 0.139; P = 0.890) or practice (t 
= 1.275; P = 0.203). However, male physicians had 
significantly higher mean knowledge scores compared 
to female physicians (47.7% ± 21.0% versus 38.5% ± 
18.2%; t = 2.743; P = 0.007). Previous TDT training 
was found to significantly affect mean scores for the 
knowledge and practice subscales. In comparison to 
untrained physicians, trained physicians demonstrated 
significantly higher mean scores for knowledge (54.4% 

Table 3: Mean attitude scores regarding tobacco depen- 
dence treatment according to sociodemographic vari- 
ables among primary care physicians in Muscat, Oman 
(N = 255)

Characteristic Percentage mean 
score ± SD in %

F or t 
value

P 
value

Age in years 0.990 0.373

≤30 56.8 ± 13.4

31–45 60.6 ± 22.2

>45 59.7 ± 13.7

Gender 0.139 0.890

Male 59.5 ± 21.7

Female 59.0 ± 19.2

Previously received TDT training 1.953 0.052

Yes 62.9 ± 19.9

No 57.6 ± 19.3

Current position 0.152 0.928

GP 59.0 ± 18.5

FM resident 57.9 ± 17.9

FM specialist 61.9 ± 24.7

FM senior 
specialist/
consultant

58.6 ± 22.9

SD = standard de viation ; GP = Non-certified general practitioner ; 
FM = family medicine.

Table 2: Mean knowledge scores regarding tobacco dep- 
endence treatment according to sociodemographic vari- 
ables among primary care physicians in Muscat, Oman 
(N = 255)

Characteristic Percentage 
mean score ± 

SD in %

F or t 
value

P 
value

Age in years 6.684 0.002

≤30 33.3 ± 14.3*

31–45 43.2 ± 20.9

>45 37.9 ± 19.7

Gender 2.743 0.007

Male 47.7 ± 21.0

Female 38.5 ± 18.2

Previously received TDT training 7.534 <0.001

Yes 54.4 ± 21.1

No 34.1 ± 14.3

Current position 22.892 <0.001

GP 34.7 ± 16.8†

FM resident 39.6 ± 13.5‡

FM specialist 56.9 ± 20.5

FM senior 
specialist/
consultant

56.3 ± 16.7

SD = standard de viation ; GP = Non-certified general practitioner ; 
FM = family medicine.
*The difference in mean knowledge scores between participants aged ≤30 
versus 31–45 years (P <0.001) was statistically significant.  †The difference 
in mean knowledge scores between GPs versus specialists (P <0.001) and 
GPs versus senior specialists/consultants (P <0.001) was statistically sig- 
nificant.  ‡The difference in mean knowledge scores between residents ver- 
sus specialists (P <0.001) and residents versus senior specialists/consultants 
(P <0.001) was statistically significant.



Knowledge, Attitudes and Practices of Primary Care Physicians Regarding Tobacco Dependence Treatment in 
Muscat Governorate, Oman 

A cross-sectional study

568 | SQU Medical Journal, November 2021, Volume 21, Issue 4

± 21.1% versus 34.1% ± 14.3%; t = 7.534; P <0.001) 
and practice (69.7% ± 26.5% versus 56.2% ± 23.7%; t 
= 3.956; P <0.001), but not for attitude (62.9% ± 19.9% 
versus 57.6% ± 19.3%; t = 1.953; P = 0.052). 

Discussion

The current study was performed in order to assess 
the KAPs of PCPs in Muscat with regard to the 
provision of TDT services, determine associations 
with sociodemographic variables and explore possible 
barriers to TDT practice. Overall, PCPs demonstrated 
poor knowledge, satisfactory practices and positive 
attitudes concerning TDT services. Certain variables 
were significantly associated with KAP scores 
including age, gender, position and previous TDT 
training. The two major barriers to TDT practice 
identified by the respondents included a lack of 
training and time. These findings represent a baseline 
for further research exploring additional barriers to 
providing such services in Oman as well as potential 
measures to circumvent these obstacles. 

The proportion of participants in the current 
study who had never received basic TDT training was 
alarmingly high (71.8%). Al Hosani et al. reported that 
a similar proportion (72.1%) of personnel working 
in primary care centres in the United Arab Emirates 
(UAE) had not received specific training on smoking 
cessation.23 These findings can be explained by the 
dearth of properly structured postgraduate TDT 
training programmes for PCPs in the GCC region. 
This is an area of training which is paramount to 
support regional tobacco cessation efforts. According 
to a previous meta-analysis, healthcare professionals 
who receive TDT training are more likely to perform 
smoking cessation tasks compared to untrained 
controls.6 Indeed, the present study found that trained 
physicians scored significantly higher compared to 
those without training in terms of both TDT-related 
knowledge and practice. A similar finding was reported 
in Armenia in which trained physicians were twice as 
likely to provide assistance to tobacco users compared 
to non-trained physicians.24

Overall, 40% of the PCPs demonstrated poor 
knowledge of TDT (mean score: 39.8% ± 18.8%). Al-
Jdani et al. documented a comparable level of knowledge 
among primary healthcare providers in Saudi Arabia 
(mean score: 35.25% ± 18.40%).20 This finding is 
unsurprising, given that most physicians in the present 
study reported relying on their undergraduate medical 
education or the Internet as their primary sources of 
information regarding TDT. Similar results have been 
reported in Saudi Arabia with regard to the popularity 
of online sources of TDT information among primary 
healthcare professionals.18,20 In addition, Surrati et al. 
identified a significant association between source 
of TDT information and awareness of smoking 
cessation measures.18 In contrast, Al-Turkstani et al. 
reported that the majority of PCPs (74.4%) in Makkah, 
Saudi Arabia, were knowledgeable with regard to 
smoking cessation measures.25 This may be due to 
the larger proportion of current or ever-smokers 
in the latter study (26%); however, this is unlikely to 
have had an effect as non-smoker physicians were 
found to demonstrate significantly greater knowledge 
compared to smokers.25 

Knowledge of TDT services was significantly 
affected by several factors in the current study 
including age, gender and position. Overall, PCPs 
aged ≤30 years demonstrated significantly lower 
knowledge scores compared to those aged 31–45 
years. Similarly, Al-Turkstani et al. noted that PCPs 
aged 36–45 and >55 years were significantly more 
likely to exhibit correct knowledge compared to those 
aged 25–35 years old.25 In the present study, male 
physicians exhibited significantly better knowledge 

Table 4: Mean practice scores regarding tobacco depend- 
ence treatment according to sociodemographic variables 
among primary care physicians in Muscat, Oman (N = 255)

Characteristic Percentage 
mean score 
± SD in %

F or t 
value

P value

Age in years 1.669 0.191

≤30 55.5 ± 25.9

31–45 62.2 ± 25.5

>45 60.0 ± 20.5

Gender 1.275 0.203

Male 65.0 ± 22.2

Female 59.2 ± 25.6

Previously received TDT 
training

3.956 <0.001

Yes 69.7 ± 26.5

No 56.2 ± 23.7

Current position 14.609 <0.001

GP 52.9 ± 24.3*

FM resident 69.5 ± 23.6

FM specialist 74.8 ± 21.3

FM senior 
specialist/
consultant

75.8 ± 18.9

SD = standard de viation ; GP = Non-certified general practitioner ; 
FM = family medicine.
*The difference in mean practice scores between GPs versus residents 
(P = 0.001), GPs versus specialists (P <0.001) and GPs versus senior 
specialists/consultants (P <0.001) was statistically significant. 



Yaqoub Alsaidi, Buthaina AlMaskari, Moon Fai Chan, Sanaa Al Sumri and Hajer Alhamrashdi

Clinical and Basic Research | 569

compared to females. Al-Turkstani et al. reported the 
opposite to be true among PCPs in Makkah, where 
females were significantly more knowledgeable than 
males.25 Finally, job position was significantly linked 
with TDT knowledge in the present study, with GPs 
demonstrating significantly lower mean knowledge 
scores compared to physicians in other positions. 
While Al-Jdani et al. also found position to be 
significantly related to knowledge scores, dentists were 
found to be least knowledgable.20 Position was not 
found to be significantly associated with knowledge 
among PCPs in Makkah, while Al-Jdani et al. reported 
that neither age nor gender significantly affected TDT-
related knowledge among healthcare practitioners in 
Western Saudi Arabia.20,25

Despite their low levels of knowledge, approx- 
imately 60% of the PCPs demonstrated positive 
attitudes and satisfactory practices with regard to 
TDT services (mean scores: 59.1% ± 19.6% and 60.0% 
± 25.2%, respectively). Al-Jdani et al. and AlAteeq et 
al. also documented positive attitudes and satisfactory 
practices among PCPs in Saudi Arabia.20,22 Variables 
which were found to affect TDT practices in the current 
study included position and previous TDT training; 
however, none of the studied sociodemographic 
variables were found to affect attitudes. In contrast, 
previous research has found that attitudes towards 
smoking cessation among healthcare providers in 
Western Saudi Arabia are significantly impacted by 
gender and position.20

The generally positive attitudes towards TDT 
services demonstrated by PCPs in the present study 
may have something to do with the low prevalence 
of current smokers in the cohort (0.8%). Indeed, 
Alsaqry et al. reported that smoker and non-smoker 
PCPs in Northern Saudi Arabia displayed significantly 
different attitudes with regard to certain tobacco 
control measures, such as the prohibition of smoking 
in certain areas, increasing taxes on tobacco products 
and the routine provision of smoking cessation advice, 
although not with regard to the prohibition of tobacco 
advertisements.26 In contrast, Al Hosani et al. noted 
that the majority of primary care personnel in the 
UAE (82.8%) had positive attitudes towards smoking 
cessation services, regardless of their smoking 
status.23 Smoker and non-smoker PCPs in Makkah 
also reported similar TDT attitudes in most regards, 
except one; there was a significant discrepancy in 
agreement with the idea that physicians should speak 
to community groups about smoking (88.2% versus 
97.9%; P = 0.001).25 

It is possible that the participants in the present 
study did not reveal true details of their smoking habits 
for various reasons. A previous study conducted by Al-

Lawati et al. concluded that the prevalence of tobacco 
use in Oman was 16.4% among male physicians and 
dentists; this is much higher compared to the current 
study in which only 5.6% of male PCPs admitted to 
a history of smoking.27 However, it is important to 
note that male physicians represented only 14.1% of 
the present cohort. Cigarette smoking by women is 
generally frowned upon in GCC countries and is seen 
as socially undesirable.25,26,28 In accordance with this 
cultural norm, Al-Lawati et al. noted that less than 1% 
of female physicians in Oman were tobacco users.27 
The WHO Framework Convention on Tobacco 
Control recognises the discrepancy in smoking 
rates among men and women in certain regions and 
therefore advocates for gender-specific strategies in 
the implementation of tobacco control measures.7

A lack of training and time were the two major 
barriers to TDT practice reported by the participating 
physicians in the current study. Healthcare providers 
in Northern Saudi Arabia have identified a lack of skills 
and facilities (e.g. medical resources) to be frequent 
reasons for not implementing smoking cessation 
interventions.26 Monshi et al. also underlined that 
a lack of time, training and resources on the part of 
clinicians were important barriers to smoking cessation 
efforts in GCC countries, alongside perceptions 
of responsibility and discrepancies in TDT-related 
knowledge.13 These findings emphasise the importance 
of providing additional postgraduate TDT training to 
all PCPs. Moreover, as yet no official guidelines or 
policies have been published with regards to a national 
tobacco control programme in Oman. Furthermore, 
establishing TDT services in primary care provides the 
necessary grounds to apply the PCP’s undergraduate 
and postgraduate knowledge in daily practice that can 
enhance their hands on experience and confidence in 
the field. Until cessation services become a routine 
part of health service delivery throughout government 
facilities, it will be difficult for individual practitioners 
to provide this service. In 2017, it was projected that 
providing TDT services on its own can influence the 
prevalence of smoking in Oman by 3.5% in 5 years and 
8.7% by 40 years averting 8,870 deaths in 40 years.15 
If combined with the implementation of the complete 
set of the WHO’s 6-points MPOWER initiative, the 
prevalence will reduce by 35.8% in 5 years and 54.1% 
in 40 years, saving up to 55,395 lives in 40 years.15

Further research is recommended to assess 
the TDT-related KAPs of PCPs in other regions of 
Oman. Despite the limited existing tobacco cessation 
services in Oman, their presence gives a valuable 
opportunity to study their effectiveness, strengths 
and limitations that can represent a local view of the 
overall experience providing essential context-specific 



Knowledge, Attitudes and Practices of Primary Care Physicians Regarding Tobacco Dependence Treatment in 
Muscat Governorate, Oman 

A cross-sectional study

570 | SQU Medical Journal, November 2021, Volume 21, Issue 4

evidence. The importance of this view is raised by the 
emerging concerns that traditional TDT interventions 
are not as effective for Arab populations compared 
to Western populations.12 Exploring this unique 
experience will serve as a guide for implementing any 
further developments in this area in Oman. Moreover, 
it would be worthwhile to determine the effectiveness 
of tailored TDT interventions in improving KAPs 
among physicians, members of the public and tobacco 
users.

This study was hindered by certain limitations. 
As the data were collected using a self-administered 
questionnaire, the results may have been affected 
by response bias. Moreover, no pilot study was 
performed to assess the face validity, reliability or 
comprehensibility of the modified questionnaire or to 
determine the effect of any relevant cultural issues. In 
addition, the scoring system used in the present study 
differed from that employed by the original authors 
of the questionnaire tool, limiting comparison of the 
results with previous research.20 Finally, as the study 
was conducted in a single governorate of Oman, the 
generalisability of the results may be limited. However, 
the current study adds new information to the existing 
literature regarding the KAPs of PCPs towards TDT 
services in Oman and reveals commonly reported 
barriers to TDT practice. These findings may be of use 
to policymakers and healthcare administrators in the 
development of a targeted TDT training programme. 

Conclusion

Despite displaying positive attitudes and satisfactory 
practices, PCPs in Muscat displayed poor knowledge 
with regards to TDT services. This urgently needs 
to be addressed in order to ensure the provision of 
effective TDT services to tobacco users in this region. 
Furthermore, both lack of training and time were noted 
to be barriers to TDT practice. Establishing cessation 
services as part of the package of care in primary 
health centres could address the time constraint 
barriers identified by the PCPs. In addition, the latter 
barrier could be overcome by allotting adequate 
time during appointment slots for known tobacco 
users or implementing weekly clinics especially for 
TDT services. This study is intended as a baseline for 
further research in Oman focusing on TDT services. 
These findings will hopefully aid decision-makers and 
primary healthcare authorities in the implementation 
of targeted TDT training programmes to enable PCPs 
to effectively help patients with their tobacco cessation 
efforts.

a c k n o w l e d g e m e n t s

Permission was obtained from the original authors 
to use their previously validated questionnaire in the 
current study. In addition, the authors would like to 
thank all of the participants, as well as the heads of 
the local health centres for their support during data 
collection.

c o n f l i c t o f i n t e r e s t
The authors declare no conflicts of interest. 

f u n d i n g

No funding was received for this study.

a u t h o r s’ c o n t r i b u t i o n
YA conceptualised the study. YA and BA performed 
the literature review and drafted the manuscript. MF 
designed the methodology and reviewed the results. 
BA, SAS and HA collected the data. YA analysed the 
data while HA performed the data entry. MF and SAS 
performed the final review of the manuscript. All 
authors approved the final version of the manuscript.

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