Prevalence of asthma Symptoms in Omani schoolchildren


21

ABSTR AC T.  Objectives : To determine the prevalence of asthma in Omani schoolchildren using the International Study of Asthma 
and Allergies in Children (ISAAC) protocols. Method: The ISAAC-written questionnaire was completed by a total of 7,067 Omani school-
children (3,893 children aged 6–7 years of which 56% were boys and 3,174 aged 13–14 years of which  51% were boys) from the 10 health 

regions in the country. Results : The estimated mean national 12-month prevalence of any wheeze, night waking with wheeze, speech 
limiting wheeze and exercise wheeze were respectively 7.8% , 3.5% , 3.2% and 6.9% for the 6–7 year age group and 8.9% , 2.9% , 4.0% and 

19.2% for the 13–14 year age group. Both age groups reported high prevalence of night cough (19.6% and 20.9% in the younger and 

the older children respectively). The prevalence of self-reported asthma diagnosis was higher in the older age group (20.7% vs. 10.5% , 

p<0.001). In the younger age group, the diagnosis of asthma was more common in boys (12.5% vs. 8.0% , p>0.001), but there was no 

signifi cant difference between the two sexes in the older age group (22.0% of boys vs. 20.5% of girls). There was nearly three-fold 

dif ference in the prevalence of self-reported diagnosis of asthma between the regions with the highest and the lowest prevalence of 

asthma for both young and older children (from 5.3% and 9.5% in Musandam to 14.2% and 30.6% in South Sharqiya, respectively). 

Conclusion: The results of this fi rst epidemiological survey of asthma in Oman indicate that asthma is common in Omani children and 
adolescents. Night cough is the most frequent symptom. There is also signifi cant regional variation in pre valence of asthma symptoms 

and diagnosis within the country and this requires further investigation.

Key Words :  asthma, prevalence, ISAAC, wheezing, night cough, Oman, children

A
sthm a is one of the most common chronic 
conditions in children and adults worldwide and one 
with a very high socio-economic cost.1 Numerous 

 studies from the developed countries have reported increases 
in the prevalence of asthma and other allergic conditions 
(allergic rhinitis and eczema) over the last three decades, 
with marked variations between and within countries.2–11 
The greatest increases in the prevalence of asthma have been 
reported in children and young adults with up to 20–30% 
of the children affected in some countries.2–11

Studies from developing countries indicate that asthma 
is common in this part of the world also, with considerable 
variation in its prevalence between countries.12–18 In 1991, 
the International Study of Asthma and Allergies in Child-
ren (ISAAC ) was formed to maximise the value of epidemi-
ological research into asthma and other atopic disorders by 
establishing and promoting standardised methodology and 
facilitating international collaboration by involving as many 
countries as possible provided they met the requirements of 
the study protocol.19 has attracted large-scale  participation 

squ journal for scientific research: 
medical sciences 2001, 1, 21–27
©2001 sultan qaboos university

Prevalence of asthma symptoms in Omani schoolchildren
*Bazdawi M.S. Al-Riyami1, Omar A.S. Al-Rawas1,  Asya A. Al-Riyami2, Lyla G. Jasim2,  Ali J. Mohammed2

1Department of Medicine, College of medicine, Sultan Qaboos University, P.O.Box: 35, Al-Khod 123, Muscat, Sultanate of Oman.  2Ministry of Health, Directorate of Research, Directorate of School 
Health and Directorate General of Health Affairs, P.O.Box: 393, Muscat, Sultanate of Oman.

*To whom correspondence should be addressed. E-mail: bazdawi@squ.edu.om 



a l - r i y a m i  e t  a l22

from all parts of the world.10  Oman was one of the col-
laborating centres in Phase I of the ISA AC project and our 
participation has yielded the only available data on the pre-
valence of asthma in this country.10–11

The summary of the results of our centre has been 
published as part of the ISA AC Steering Committee publi-
cations on the worldwide variations in asthma symptoms.10–11 
The aim of this paper is to report a detailed analysis of the 
prevalence of self-reported asthma symptoms and diagnosis 
in Oman and to compare the prevalence of asthma and its 
symptoms in different regions of the country. 

M E T H O D

p r o t o c o l  a n d  s u b j e c t s

A stratifi ed multistage sampling method was used. The ten 
health regions of the Sultanate of Oman [Figure 1] were 

considered as strata. The fi rst stage of sampling consisted 
of schools randomly selected as primary sample units. In 
the second stage, one class was chosen from each school as 
the secondary sample unit. The total national target sample 
was distributed among the ten regions of the country using 
the proportion allocation method. The sample frame of the 
survey was a list of public schools provided by the Ministry 
of Education indicating the district and town, number of 
schools with grades I and II primary (6–7 years age group) 
and I and II preparatory (13–14 years age group). The 
number of children in these grades was also indicated.

To achieve a fi nal total sample size of 6,000 children 
(3,000 in each  age group), a total of 7,625 copies of the 
questionnaire were distributed (4,079 to the 6–7 age group 
and 3,546 to the 13–14 age group). The sample size for the 
6–7 year age group was kept higher by 15% to allow for the 
expected lower response rate, since questionnaire had to be 
fi lled by the parents. A total of 220 schools participated (118 
primary and 102 preparatory). Of these, 117 (53%) were 
boys’ schools (66 primary and 51 preparatory).

The ISA AC -written standardised questionnaire19 was 
used to identify asthma, allergic rhinitis, atopic eczema 
and related symptoms. The questionnaire was translated 
to Arabic in the following manner: One of the two bilin-
gual translators translated the questionnaire into Arabic 
and the other translated it back into English and the dif-
ferences between the back translation and the original Eng-
lish version were resolved. The Arabic version of ISA AC 

U . A . E .

G U L F  O F  O M A N

A R A B I A N  S E A

S A U D I  A R A B I A

DHOFAR

AL-WUSTA

AL-DAKHILIYA

NORTH
SHARQIA

SOUTH
SHARQIA

MUSCAT
SO

UT
H

BA
TIN

AH

NORTH BATINAH

AL-DHAHIRAH

MUSANDAM

Y E M E N

Figure 1.   Map of the Sultanate of Oman showing the 
ten health regions of the country

The regions shown above were used as the strata for recruitment of schoolchildren,
in proportion to their population density. Because of their relatively sparse population, 
data from Musandum and Wusta were analysed together.

 
Table 1. Sex and regional distribution of the two age groups of 
Omani schoolchildren 
 

 6 –7 years age group  13–14 years age group 

Boys Girls Total  Boys Girls Total 
N (%) N (%) N  N (%) N (%) N 

Muscat 301 (58) 217 (42) 518  270 (53) 237 (47) 507 

Batinah (North) 441 (63) 258 (37) 699  256 (43) 343 (57) 599 

Batinah (South) 213 (45) 256 (55) 469  204 (54) 172 (46) 376 

Dakhiliya 256 (47) 294 (53) 550  303 (62) 182 (38) 485* 

Sharqiya (South) 220 (68) 101 (32) 321*  90 (49) 93 (51) 183 

Sharqiya (North) 266 (77) 79 (23) 345*  67 (33) 134 (67) 201* 

Dhahirah 174 (45) 210 (55) 284  177 (50) 176 (50) 353 

Dhofar 271 (55) 222 (45) 493  217 (58) 159 (42) 376 

Musandum & Wusta 58 (51) 56 (49) 114  40 (43) 54 (57) 94 

Total national sample 2200 (56) 1693 (44) 3893   1624 (51) 1550 (49) 3174

*Significant difference in sex distribution within the group   



a s t h m a  i n  o m a n i  c h i l d r e n 23

 questionnaire was distributed to the schoolchildren and was 
completed by the parents of the 6–7 year age group and by 
the children themselves in the 13–14 age group.

Ethical approval of the study protocol was obtained 
from both the Ministry of Health and the Ministry of 
 Education.

d ata  p r e s e n tat i o n  a n d  a n a ly s i s

Data were collected and entered using the ISA AC Inter-
national Data Centre protocol,10 and were analysed using 
SPSS -9 software package for Windows. Groups were com-
pared using the chi-square (χ2) test. A p-value of <0.05 was 
considered statistically signifi cant. 

R E S U L T S

t h e  s u b j e c t s

The ISA AC questionnaire was completed by a total of 
7,067 pupils (92.7% response rate) from the ten Omani 
health regions and consisted of two age groups: 3,893 pupils 
aged 6–7 years (95.4% response rate) and 3,174 pupils aged 
13–14 years (89.5% response rate). Table 1 shows the sex 
and regional distribution of the two age groups. Although 
Musandum and Wusta are separate geographical and health 
regions [Figure 1], their data were analysed together because 
of their smaller sample sizes. The sex distribution in the total 
national sample was nearly equal for both age groups (boys 
constituted 56% of 6–7 year-olds and 51% of the13–14 
year-olds). Similarly, the sex distribution in the regional sam-
ples was nearly even for most regions except for North and 
South Sharqiya and Dakhiliya regions; North and South 
Sharqiya regions contained signifi cantly higher number of 
boys in the 6–7 year age group (77% and 68%, respec-
tively). For the 13–14 years age group, boys predominated 

(62%) the sample from Dakhiliya region while there were 
more girls (67%) in the sample from North Sharqiya. The 
number of participants belonging to the two age groups 
varied between regions, ranging from 114 and 94 children 
in Musandum and Wusta to 699 and 599 children in 
North Batinah for the young and older age groups respec-
tively.

e s t i m at e d  n at i o n a l  p r e va l e n c e  
o f  s e l f - r e p o rt e d  a s t h m a  s y m p t o m s  
a n d  d i a g n o s i s

Table 2 shows the prevalence of asthma symptoms and 
self-reported asthma diagnosis (‘ever had asthma’) in the 
two study groups. The estimated national cumulative prev-
alence of any wheeze (‘wheeze ever’), and the 12-month 
period prevalence of any wheeze, and exercise wheeze were 
signifi cantly higher in the 13–14 year age group (15.6, 
8.9, and 19.2% respectively), compared to the 6–7 year 
age group (13.8, 7.8 and 6.9% respectively). There was 
no signifi cant difference between the two groups in the 
12-month period prevalence of four or more wheeze attacks, 
wheeze disturbing sleep, or severe wheeze (‘wheeze limiting 
speech’). Night cough not related to upper respiratory tract 
infection was equally frequent in both age groups (19.6% 
and 20.9% in young and older children, respectively). The 
prevalence of self-reported asthma diagnosis was common 
in both age groups with the older children having nearly 
twice the prevalence in younger children (20.7%vs. 10.5%, 
p<0.001). Although, only 8.9% of children aged 13–14 
reported any wheeze during the past 12 months, 19.2% of 
them reported to have had exercise induced wheeze during 
the same period.

Table 2. The overall national prevalence (%) of self-reported 
asthma symptoms and diagnosis in the studied age groups 
 

 

 6 – 7 yrs old 
(n = 3893) 

13 –14 yrs old 

(n = 3174) 

p- value 

Ever Wheezed 13.8 15.6 0.04 

12-month prevalence of:     
 – Any wheeze 7.8 8.9 0.005 

 – Four or more wheeze 2.5 2.6 0.57 

 – Wheeze disturbs sleep 3.5 2.9 0.18 

 – Wheeze limiting speech 3.2 4 0.09 

 – Exercise wheeze 6.9 19.2 <0.001 

 – Night cough 19.6 20.9 0.2 

Ever had asthma 10.5 20.7 <0.001 

 

Table 3. Gender difference in the prevalence (%) of self-reported 
asthma symptoms and diagnosis in two study age groups 
 

  
6–7 years age group  

(n = 3893) 
 13–14 years age group 

(n = 3174) 

 

 Boys n= 
2200 

Girls 
n= 

1693 

p -value  Boys 
n= 

1622 

Girls
n=

1552

p -value

Ever Wheezed 15.8 11.3 <0.001  16.3 14.9 0.28 

12-month prevalence of:        

 – Any wheeze 8.5 5.3 <0.001  9.2 8.6 0.59 

 – 4 or more wheeze 3 2 0.06  3 2.3 0.18 

 – Wheeze disturbs sleep 4 2.8 0.06  3.2 2.6 0.29 

 – Wheeze limiting speech 3.4 3 0.54  4.2 3.7 0.51 

 – Exercise wheeze 7.7 6 0.04  21.5 16.7 <0.001

 – Night cough 20.3 18.7 0.21  21.3 20.4 0.56 

Ever had asthma 12.4 8 <0.001  21.4 20 0.35 



a l - r i y a m i  e t  a l24

g e n d e r  d i f f e r e n c e

Table 3 shows the prevalence of self-reported asthma symp-
toms and diagnosis according to gender in the two age 
groups. In the 6–7 year age group, the cumulative  prevalence 
of wheeze, the 12-month prevalence of ‘any wheeze’, ‘exer-
cise wheeze’, and ‘ever had asthma’ were signifi cantly higher 
in males. In contrast, there was no signifi cant difference 
between the two sexes in asthma diagnosis or any of its 
symptoms in the 13–14 year age group except exercise 
induced wheeze which was more common in males (21.5% 
vs. 16.7%, p < 0.001). There was no signifi cant difference 
between the two sexes in the prevalence of night cough or 
symptoms of severe asthma (4 or more attacks per week, 
wheeze that disturbs sleep and speech limiting wheeze) in 
both age groups.

r e g i o n a l  va r i at i o n

The prevalence of self-reported asthma symptoms and diag-
nosis in the 10 Omani health regions is shown in Table 
3 (children aged 6–7 years) and Table 4 (children aged 
13–14 years). There was a signifi cant variation in the preva-
lence of asthma diagnosis and its symptoms in both age 
groups, with nearly 3-fold difference in the prevalence of 
self-reported asthma diagnosis between the highest and 

lowest prevalence regions. The prevalence of self-reported 
diagnosis of asthma in South Sharqiya was 14.2% and 
30.6% for young and older children respectively, com-
pared to 5.3% and 9.6% respectively in Musandum and 
Wusta. South and North Sharqiya regions (Eastern region 
of Oman) had consistently higher prevalence of all asthma 
symptoms, contrasting with Musandum which had the 
lowest prevalence of all asthma symptoms.

D I S C U S S I O N

Although data from many different countries provide com-
pelling evidence that asthma and other allergic diseases are 
increasing, these were primarily from the developed coun-
tries which might not be representative of the remainder of 
the world.2–11 The prevalence fi gures may be infl uenced by 
the difference in disease defi nition and classifi cation, diag-
nostic methods, and the level of awareness of the  disease 
as well as by the prevalence and distribution of its risk 
factors.2,6,15 In addition, the causes of the rising trends in 
asthma and other atopic diseases remain to be identifi ed.10–11 
This is the fi rst epidemiological survey on self-reported 
asthma symptoms and diagnosis in the Sultanate of Oman. 
Using the ISA AC protocol, we found the symptoms sug-
gestive of asthma to be quite common in Oman. We also 

Table 4. Regional variation in the prevalence (%) of asthma symptoms in Omani schoolchildren aged 6 –7 years 
 using the ISAAC questionnaire 
 

  12 – month prevalence of   

 Ever wheezed Any wheeze Wheeze 
disturbs sleep 

Wheeze 
limiting speech 

Exercise wheeze Night cough Ever had 
asthma 

Muscat 10.4 5.2 2.7 1.7 5.6 17.8 9.5 

Batinah (North) 16.2 7.7 5.9 2.6 6.2 17.0 10.2 

Batinah (South) 14.7 6.8 4.3 3.8 6.8 19.6 8.3 

Dakhiliya 13.8 7.5 2.5 4.7 7.5 20.7 12.2 

Sharqiya (South) 16.8 8.1 4.7 3.7 10.6 23.4 13.4 

Sharqiya (North) 15.9 9.3 6.4 3.7 7.5 27.5 14.2 

Dhahirah 13.8 6.3 3.4 4.9 6.8 20.6 6.8 

Dhofar 12.8 7.3 2.8 2.3 7.1 16.2 11.8 

Musandum & Wusta 5.3 4.4 0.9 2.6 3.5 15.8 5.3 

Total national sample 13.8 7.8 3.5 3.2 6.9 19.6 10.5 

 



a s t h m a  i n  o m a n i  c h i l d r e n 25

found signifi cant variation in the prevalence of asthma 
diagnosis and symptoms between the different regions. 

n at i o n a l  p r e va l e n c e  o f  s e l f - r e p o rt e d  
a s t h m a  s y m p t o m s  a n d  d i a g n o s i s  

6 –7 year age group 

The estimated national prevalence of parent-reported 
asthma diagnosis in this age group was 10.5%. This puts 
Oman in the intermediate prevalence compared to the rest 
of the world for this age group.10 In keeping with the fi nd-
ings in most ISA AC centres, boys had signifi cantly higher 
prevalence than girls for cumulative wheeze, 12-month his-
tory of ‘any wheeze’ and ‘exercise wheeze’, and parent-
reported history of asthma (‘ever had asthma’).10 However 
there was no signifi cant difference between the two sexes 
in night cough or any of the symptoms suggestive of 
severe asthma (the 12-month prevalence of: four or more 
attacks of wheeze, sleep disturbing wheeze and speech limit-
ing wheeze). Only three Eastern Mediterranean countries 
(Iran, Malta and Oman) were included this ISA AC Phase-I 
optional age group with a mean prevalence of ‘ever had 
wheeze’ of 6.56%. Among these, Oman had the highest 
prevalence of ‘ever had asthma’ and all asthma  symptoms 

except the 12-month prevalence of any wheeze which was 
slightly higher in Malta (7.1% vs. 8.8%).10

13–14 year age group 

Like most participating countries, the prevalence of self-
reported asthma symptoms and diagnosis was higher in this 
age group compared to the younger group.10 This suggests 
that symptoms starting at young ages persist into adoles-
cence (cumulative effect) or that more new cases develop 
with time compared to those which resolve spontaneously 
(net effect). The prevalence of ‘ever had asthma’ in this 
age group in Oman (20.7%) was the highest among the 
seven Eastern Mediterranean participating countries: Iran 
(2.7%), Kuwait (17.5%), Lebanon (11.6%), Malta (11.1%), 
Morocco (11.7%) and Pakistan (7.3%).10 Only six of the 
56 participating countries reported prevalence rates higher 
than 20% (range: 20–28%) in this age group (Peru, 
United Kingdom, Australia, New Zealand, Singapore and 
Oman).10 With the exception of Oman, in all of these coun-
tries and many other countries the reporting of 12-month 
prevalence of wheeze was higher than ‘ever had asthma’. In 
contrast, Oman was one of the several countries where the 
reporting of ‘ever had asthma’ was more frequent than ‘ever 
wheeze’. The cause of this difference is not clear, but it may 
be due to over-reporting of asthma diagnosis in Oman. An 

Table 5. Regional variation in the prevalence (%) of asthma symptoms in Omani schoolchildren  
aged 13 –14 years using the ISAAC questionnaire 
 

 12 –month prevalence of: 

 ever wheezed Any wheeze Wheeze 
disturbs sleep 

Wheeze limiting 
speech 

Exercise 
wheeze 

Night cough 
Ever had 
asthma 

Muscat 11.6 6.7 1.6 3.0 12.6 21.3 19.1 

Batinah (North) 19.9 12.7 4.0 5.7 25.7 23.2 25.2 

Batinah (South) 18.1 10.6 4.3 5.9 18.9 19.4 23.4 

Dakhiliya 11.5 5.8 3.3 1.6 16.9 19.2 20.2 

Sharqiya (South) 26.8 14.2 13.3 4.9 31.1 23.0 30.6 

Sharqiya (North) 16.4 8.5 4.5 2.5 19.4 20.4 26.9 

Dhahirah 14.2 7.9 1.7 4.2 17.8 19.0 15.0 

Dhofar 13.8 7.7 2.9 4.0 17.6 21.8 13.8 

Musandum & Wusta 9.6 5.3 2.1 3.2 12.8 18.1 9.6 

Total national sample 15.6 8.9 2.9 4.0 19.2 20.9 20.7 

 



a l - r i y a m i  e t  a l26

alternative and more plausible explanation is that the diag-
nosis of asthma may be based on symptoms other than 
wheeze.20 This is supported by the high prevalence of night 
cough (20.9%) and exercise-induced wheeze (19.2%). A 
third possibility is that many of the children with previous 
history of asthma (‘ever had asthma’) in this age group did 
not have ‘any wheeze’ during the previous 12 months.

In the 13–14 age group, exercise-induced wheeze in 
the last 12 months was reported more frequently than ‘any 
wheeze’ within the same period. This pattern was reported 
in most of (50 of 56)  the participating countries.10 On 
theoretical grounds one would expect the opposite pattern 
(i.e. the reporting of ‘any wheeze’ to be more frequent than 
any of its components such as exercise induced wheeze). 
The reason for this is not clear and has not been previously 
explained.10 One possibility is that children at this age 
group, who self-completed the ISA AC questionnaire, per-
ceived exercise induced wheeze as a separate entity from the 
ordinary wheeze of asthma.

r e g i o n a l  va r i at i o n

In the ISA AC Phase-I, several countries participated with 
more than one centre (18 countries for 6–7 year age group 
and 30 countries for 13–14 year age group) and these 
yielded signifi cant variations in the self-reported asthma 
symptoms and diagnosis within countries.10 Oman partici-
pated with only one centre for both age groups. However 
we sought to determine the difference in asthma and 
other allergies among the 10 health regions of the country 
by distributing the total sample among these regions in 
pro portion to their population. A clear and consistent pat-
tern of regional variation in the prevalence of asthma and 
symptoms  emerged. The eastern region (North and South 
Sharqiya) had the highest asthma diagnosis and symptoms 
in the country for both age groups and both sexes. In con-
trast, Musandum and Wusta (northernmost  middle regions 
respectively) had the lowest prevalence rates for both age 
groups and both sexes. Overall, the north-western regions 
had less asthma diagnosis and symptoms than the south-
eastern regions with the interior region (Dakhiliya) having 
intermediate rates. The cause of this variation is not known, 
but might be due to the difference in the distribution of 
the risk factors of atopy and asthma in different regions.13,21 
There is no information on the prevalence and the regional 
distribution of the risk factors for asthma and atopy in 
Oman. Investigations of these factors in the different regions 
of the country will not only help elucidating the causes 
of the regional variation in the prevalence of asthma, but 
also help in the development of national health and envi-
ronmental strategies to control asthma and other atopic 
 conditions. 

C O N C L U S I O N

The prevalence of self-reported asthma symptoms and diag-
nosis is relatively high in Oman with signifi cant regional 
variation within the country. The cause of this high pre-
valence and its regional variation is not clear, as there are 
no data on the risk factors for the development of asthma 
and other allergic diseases. Participation in ISA AC Phase II 
may defi ne some of risk factors for asthma in Oman which 
may be different in different regions of the country.

a c k n ow l e d g e m e n t

We thank Muscat Pharmacy for their fi nancial assistance 
towards this study, school health physicians of the Ministry  
of Health for distributing and retrieving questionnaires 
from schools, and Mr. Khorrum Tahlilkar and Mr. M. Al-
Shukeiry of Department of Physiology, College of  Medicine, 
Sultan Qaboos University, for data entry. 

R E F E R E N C E S

1. Barnes PJ, Jonsson B, Klim JB. The cost of asthma. Eur 
Respir J 1996, 9, 636–42.

2. Peter DP. Asthma in children: Epidemiology – changing 
prevalence, patterns, and treatment. BMJ 1994, 308, 
1584–5. 

3. Peat JK, van den Berg RH, Green WF, Mellis CM, 
Leeder SR, Woolcock AJ. Changing prevalence of asthma 
in Australian children. BMJ 1994, 308, 1591–6.

4. Aberg N, Hesselmar B, Aberg B, Eriksson B. Increase of 
asthma, allergig rhinitis and eczema in Swedish schoolchil-
dren between 1979 and 1991. Clin Exp Allergy 1995, 25, 
815–9.

5. Busquets RM, Anto JM, Sunyer J, Sancho N, Vall O. 
Prevalence of asthma-related symptoms and bronchial 
responsiveness to exercise in children aged 13–14 yrs in 
Barcelona, Spain. Eur Respir J 1996, 2094–8.

6. Nystad W, Magnus P, Gulsvik A, Skarpaas IJ, Carlsen 
KH. Changing prevalence of asthma in schoolchildren: 
evidence for diagnostic changes in asthma in two surveys 
13 years apart. Eur Respir J 1997, 10, 1046–51.

7. Norman E, Nystrom L, Jonsson E, Stjernberg N. Preva-
lence and incidence of asthma and rhinoconjuctivitis in 
Swedish teenagers. Allergy 1998, 53, 28–35.

8. Kaur B, Anderson HR, Austin J et al. Prevalence of 
asthma symptoms, diagnosis and treatment in 12–14 year-
old children across Great Britain (International study of 
asthma and allergies in childhood, ISAAC, UK). BMJ 
1998, 316, 118–24.

9. Pearce N, Weiland S, Keil U, Langridge P, Anderson 
HR, Strachan D, et al. Self-reported prevalence of asthma 



a s t h m a  i n  o m a n i  c h i l d r e n 27

symptoms in children in Australia, England, Germany 
and New Zealand: an international comparison using the 
ISAAC protocol. Eur Respir J 1993, 6, 1455–61.

10. Asher MI, Anderson HR, Stewart AW, Crane J. World-
wide variations in the prevalence of asthma symptoms: the 
International Study of Asthma and Allergies in Childhood 
(ISAAC). Eur Respir J. 1998 12, 315–35. 

11. The International Study of Asthma and Allergies in 
Childhood: (ISAAC) Steering Committee. Worldwide 
variation in prevalence of symptoms of asthma, allergic rhi-
noconjunctivitis, and atopic eczema: ISAAC. Lancet 1998,  
25, 1220–1.

12. Ramadan FM, Mruoeh SM, Khoury MN, Hajjar TA, 
Khogali M. Prevalence of asthma and asthma symptoms 
in children in urban Lebanon. Saudi Med J 1999, 20, 
453–7.

13. Al-Frayh AR, Facharzt M, Al-Nahdi M, Bener AR, Al- 
Jawadi TQ. Epidemiology of asthma and allergic rhinitis 
in two costal regions of Saudi Arabia. Int J Allergy Immunol 
1989, 21, 389–93.

14. Al-Frayh AR, Bener AR, Al-Jawadi TQ. Prevalence of 
asthma among Saudi schoolchildren. Saudi Med J 1992, 
13, 521–4.

15. Lai CK, Douglass C, Ho SS, Chan J, Lau J, Wong G et 
al. Asthma epidemiology in the Far East. Clin Exp Allergy 
1996, 26, 5–12.

16. Leung R, Bishop J, Robertson CF. Prevalence of asthma 
and wheeze in Hong Kong schoolchildren: an interna-
tional comparative study. Eur Respir J 1994, 7, 2046–9.

17. Goh DY, Chew FT, Quek SC, Lee BW. Prevalence 
and severity of asthma, rhinitis and eczema in Singapore 
schoolchildren. Arch Dis Child 1996, 74, 131–4.

18. Kim YY, Cho SH, Kim WK, Park JK, Song SH, Jee 
YK et al. Prevalence of childhood asthma based on ques-
tionnaire and methacholine bronchial provocation test in 
Korea. Clin Exp Allergy 1997,  27, 761–8.

19. Asher MI, Keil U, Anderson HR, et al. International study 
of asthma and allergies in children (ISAAC): rationale  and 
methods. Eur Respir J. 1995;8:483-91.

20. Wright AN, Holberg CJ, Morgan WJ, Taussic LM, Halo-
nen M et al. Recurrent cough in childhood and its rela-
tion to asthma. Am J Respir Crit Care Med 1996, 153, 
1259–65.

21. Ulrik CS, Backer V, Hesse B, Dirksen A. Risk factors for 
the development of asthma in children and adolescents: 
fi ndings from a longitudinal population study. Respir Med 
1996, 90, 623–30.

A P P E N D I X

core questionnaire for  
wheezing and asthma (isaac phase i) 
 

1.  Have you (has your child) ever had wheezing or 
whistling in the chest at any time in the past? 

If you have answered ‘No’ please skip to question 6 

Yes/No 

2.  Have you (has your child) had wheezing or whistling 
in the chest in the last 12 months?  

If  you have answered ‘No’ please skip to question 6 

Yes/No 

3.  How many attacks of wheezing have you (has your 
child) had in the last 12 months?  

None   /   1–3 /  
 4–12   /   >12 

4.  In the last 12 months, how often on the average, has 
your (your child) sleep been disturbed due to wheezing?  

Never woken with 
wheezing / less than 
one night per week / 
one or more nights 
per week. 

5.  In the last 12 months, has wheezing ever been severe 
enough to limit your (your child’s) speech to only one or 
two words at a time between breaths?  

Yes / No 

6.  Have you (has your child) ever had asthma? Yes/No 

7.  In the last 12 months, has your (your child’s) chest 
sounded wheezy during or after exercise?  

Yes/No 

8.  In the last 12 months, have you (your child) had a dry 
cough at night apart from a cough associated with a cold 
or flu?  

Yes/No