What this is
- This cross-sectional study assesses the prevalence of primary headache disorders in Saudi Arabia.
- It aims to fill knowledge gaps in the Eastern Mediterranean Region regarding headache disorders.
- The study surveyed Arabic-speaking adults aged 18-65 across all regions of Saudi Arabia.
Essence
- The study found that 77.2% of participants reported headaches in the past year, with adjusted prevalences of 25.0% for and 34.1% for ().
Key takeaways
- 77.2% of participants reported experiencing headaches in the past year, with 65.8% after adjustments for gender and age. This indicates a high burden of headache disorders in Saudi Arabia.
- Adjusted 1-year prevalence rates were 25.0% for and 34.1% for . These rates are notably higher than global averages, suggesting an underestimation of headache disorders in the region.
- Female participants showed higher prevalence rates for (36.0%) and () (3.4%) compared to males. This highlights gender disparities in headache disorders.
Caveats
- The study's reliance on cell-phone sampling may have introduced bias, particularly under-representing females and older adults. This could affect the generalizability of the findings.
- Diagnostic validation was limited due to challenges in arranging follow-up interviews, potentially impacting the accuracy of headache diagnoses.
Definitions
- Migraine: A primary headache disorder characterized by recurrent headaches, often accompanied by nausea and sensitivity to light.
- Tension-type headache (TTH): A primary headache disorder marked by mild to moderate pain, often described as a tight band around the head.
- Probable medication-overuse headache (pMOH): A secondary headache disorder resulting from the overuse of headache medications, occurring on β₯15 days/month.
AI simplified
Introduction
Over a decade ago, a systematic review of the published literature found that headache disorders affected almost half the worldβs population [1]. Tension-type headache (TTH) and migraine, both primary headache disorders [2], were the major contributors to headache prevalence. Later, in various iterations of the Global Burden of Disease (GBD) study, they were shown to be the second and third most common disorders in the world [3] and of clear public-health importance [3β8]. Medication-overuse headache (MOH), not itself a primary headache disorder but in almost all cases a sequela due to mismanagement of either migraine or TTH, is among the group of disorders characterized by headache on β₯15 days/month [2]. Consequently it, too, is an important contributor to public ill health.
The same review showed large geographical gaps in our knowledge [1]. Lifting The Burden (LTB), conducting the Global Campaign against Headache [9β12], has since been supporting a series of population-based studies to fill these gaps [13β20]. Since there were, in 2007, no data on headache from the whole of the Eastern Mediterranean Region (EMR) [1], these studies have included Pakistan [20], an EMR country with the sixth largest population in the world. Pakistan, however, characterised by economic and political instability and, in parts, by geographical inaccessibility, cannot be considered typical of the Region, which includes the Arab Gulf countries and many in North Africa, from which Pakistan differs ethnically and culturally. Accordingly, we report here a second Global Campaign study from EMR, with prevalence findings of a nationwide cross-sectional population-based survey in the Kingdom of Saudi Arabia (KSA). This country, although second behind Algeria in the Arab world, constitutes the bulk of the Arabian Peninsula and is the largest Arab state by land in Western Asia area (2.15 million km2 [21]). Its total population according to the last official census in 2010 was a little over 27 million [22], but later estimates, for 2015β17, vary between 28.6 million, with well over 30% non-Saudi immigrants creating some uncertainty [22, 23], and about 32 million [21].
All Global Campaign studies so far have followed standardized methodology developed by LTB [24]. In KSA, cultural considerations made methodological adaptations necessary. In particular, while interviewers in all previous LTB-supported studies have engaged participants by calling unannounced at randomly selected households [24], this would not have been acceptable in KSA. Furthermore, however it was achieved, helpful engagement with female participants required female interviewers.
As has been the case for all Global Campaign studies, the two purposes here were to provide evidence for national health policy and to contribute to GBD.
Methods
Ethics
The Ethics Review Board of King Abdullah International Medical Research Centre approved the study protocol. All participants were informed about the nature and purpose of the survey and gave their consent to taking part.
Data-protection legislation was complied with. Personal data were anonymised during analysis and dissemination.
Study design
This was a cross-sectional questionnaire-based survey of adults aged 18β65 years. It was designed in accordance with published guidelines [24], albeit with culturally mandated adaptations. We randomly selected and engaged with participants by cell-phone, using random digit-dialling (RDD).
Setting and population
We sampled from all 13 regions of Saudi Arabia, according to the population size of each established by the 2010 national census [22].
Sampling method
We aimed for a total sample size of 2000, in line with published guidelines [24]. For planning purposes we anticipated a 20% non-participation proportion and a requirement therefore to contact a minimum of 2400 potential respondents (N), drawn from each region in proportion to its population according to the census [22].
A total of 10,000 Saudi cell-phone numbers were generated by web-based random-numbers generator software (Research Randomizer) [25]. Almost 6000 of these turned out to be invalid, out of reach, out of service or unanswered despite two calls. The 4000 others became the means of contact and engagement with potential participants, and were called until recruitment was sufficient. These numbers might be in any region; therefore, having determined the number (n) required in each region, once we reached n we ceased enrolling from that region.
Any Arabic-speaking person aged 18β65βyears who answered the telephone was a potential participant. The survey therefore excluded non-Arabic-speaking immigrants but was not limited to Saudi nationals. Any younger person who answered was asked to pass the phone to an older family member, or the call was terminated. Numbers not answered when first dialled were called a second time.
Selection and training of interviewers
The interviewers were research coordinators with nursing or allied health backgrounds, trained in questionnaire administration and with an understanding of the study and its purposes.
Data collection
Each eligible person who agreed upon first contact to participate was included in the survey and, whenever willing, interviewed immediately through the cell-phone call. Those who preferred to be interviewed at another time were phoned again by appointment, when expected to be available. We respected cultural considerations by allowing all female participants the opportunity to be questioned by female interviewers, although many declined this offer.
Interviews followed the Headache-Attributed Restriction, Disability, Social Handicap and Impaired Participation (HARDSHIP) structured questionnaire [26], culturally modified and translated into Arabic according to LTBβs translation protocol for lay documents [27]. The questionnaire had four parts: a) personal and demographic enquiry (including gender, age, marital status, educational level, employment and income from all sources), and b) headache screening questions, which were addressed to all participants; these were followed in those screening positively by c) diagnostic questions based on ICHD-II [28] and d) enquiry into burden. The screening question for headache was: βHave you had a headache during the last year?β Participants who answered βnoβ were classified as headache-free; those who answered βyesβ were asked if all their headaches were of one or more types and, if more than one, to focus in the subsequent questions on the one that was subjectively the most bothersome. The point prevalence of headache was estimated by asking: βDid you have a headache yesterday?β
Data were collected electronically by interviewers directly into the study database, held securely in the data management unit at King Abdullah International Medical Research Centre.
Diagnosis
Interviewers did not make diagnoses: these were derived algorithmically during analysis [26]. We first separated participants reporting headache on β₯15 days/month, describing these as a separate group because they cannot be fully diagnosed by questionnaire. Those among this group who also reported regular use of headache medication on > 3 days/week were considered to have probable MOH (pMOH). To all others, the algorithm applied ICHD-II criteria in the recommended order: migraine, TTH, probable migraine, probable TTH [26, 28]. Again as recommended, cases of migraine and probable migraine, and of TTH and probable TTH, were combined for prevalence estimation and further analyses [24, 26]. Remaining cases were unclassified.
Quality control
Throughout the period of data collection, for fraud-detection purposes, participants were randomly selected and called again, at the rate of approximately 2/week. The first purpose was to establish that the phone number was valid. The second, to establish that the reported interview took place, was achieved by asking the respondent two questions: (1) βDid anyone call you from the King Abdullah International Medical Research Centre?β, and (2) βWhat was the call about?β No concerns were generated, and the data were not, therefore, systematically recorded.
Statistics and analysis
We used descriptive summaries for sociodemographic and clinical characteristics. We recorded gender as male or female and analysed these as proportions (%). We recorded age in years, calculating meanβΒ±βstandard deviation (SD), but analysed it as a categorical variable (18β25, 26β35, 36β45, 46β55, 56β65βyears). We classified marital status as single (never married), married, or widowed/divorced; educational level as none, school, or university; employment status as housewife (no other employment), full-time employed/self-employed, student, or otherwise not working (including not currently working but seeking work, and retired: these groups combined because of small numbers). Income data were not analysed for reasons stated later (see Results).
We estimated prevalences as proportions (%) with 95% confidence intervals (CIs), adjusting observed values for gender and age by separately estimating each prevalence in all 10 gender-age groupings and weighting the mean according to the population proportions of these groupings [22]. We used chi-squared and Fisherβs exact tests in comparisons of proportions and distributions. In bivariate analyses for associations between headache types and sociodemographic variables, we calculated odds ratios (ORs) with 95% CIs. We regarded p < 0.05 as significant.
Analyses were performed using SPSS/PC version 20.0 software package for statistical analysis (SPSS, INC, Chicago, IL) and Excel Professional Plus 2010 Version 14.0.7166.5000. All available data were analysed, with no imputations for missing data.
Results
From approximately 4000 phone numbers called and answered, 2800 identified eligible respondents; the remainder were either terminated by the interviewer because the respondent was ineligible or from a region already fulfilled, or declined by the respondent before eligibility could be established. In accordance with guidelines, these were not regarded as non-participants [24]. Of the 2800 initially judged eligible, 2421 participated in the interview (participation proportion 86.5%). However, 105 were later excluded, being outside the intended age range of 18β65 years; therefore, 2316 (final N) were analysed.
| Characteristic | Sample(%)n | National population%a | Chi-squaredp |
|---|---|---|---|
| Gender | |||
| male | 1442 (62.3) | 60.6 | 30.23 |
| female | 874 (37.7) | 39.4 | <β0.0001 |
| Age (years) | |||
| 18β25 | 769 (33.2) | 16.6 | |
| 26β35 | 818 (35.3) | 29.1 | 233.8 |
| 36β45 | 448 (19.3) | 29.3 | <β0.0001 |
| 46β55 | 199 (8.6) | 17 | |
| 56β65 | 82 (3.5) | 7.9 | |
| Education | |||
| none | 205 (8.9) | 11.7 | 724.8 |
| school | 1212 (52.3) | 70.8 | <β0.0001 |
| university | 897 (38.8) | 17.5 | |
| Marital status | |||
| never married | 867 (37.5) | 33.3 | 30.89 |
| married | 1381 (59.7) | 62 | <β0.0001 |
| widowed/divorced | 66 (2.8) | 4.7 | |
| Occupation | |||
| employed or self-employed (=)n | 1199 (51.9) | 53.6 | |
| housewife | 567 (24.5) | 22.6 | 68.56 |
| student | 348 (15.1) | 18.6 | <β0.0001 |
| other (including retired) | 196 (8.5) | 5.2 | |
| Nationality | |||
| Saudi | 1730 (74.7) | 66 | 78.1 |
| non-Saudi | 586 (25.3) | 34 | <β0.0001 |
Prevalence
Headache yesterday [HY] was reported by 254 participants (11.0% [9.7β12.2%]). Adjusted 1-day prevalence of any headache was 11.5% (Table 2).
| Migraine(=β663)n | Tension-type headache(=β994)n | Probable MOH(=β41)n | Other headache onββ₯β15d/m(=β48)n | Any headache yesterday(=β254)n | |
|---|---|---|---|---|---|
| All (=β2316)N | 28.7 [26.9β30.6] | 42.9 [40.9β45.0] | 1.8 [1.3β2.4] | 2.1 [1.5β2.7] | 11.0 [9.7β12.3] |
| Gender | |||||
| male (=β1442)n | 24.3 [22.1β26.6] | 45.3 [42.7β47.9] | 0.8 [0.4β1.4] | 1.4 [0.8β2.1] | 8.8 [7.4β10.4] |
| female (=β874)n | 36.0 [32.9β39.3] | 39.0 [35.8β42.3] | 3.4 [2.4β4.9] | 3.2 [2.3β4.6] | 14.5 [12.3β17.0] |
| (male vs female)pa | <β0.0001 | 0.0032 | <β0.0001 | 0.0039 | <β0.0001 |
| Age (yr) | |||||
| 18β25 (=β769)n | 31.1 [27.8β34.5] | 41.4 [37.8β44.9] | 1.3 [0.6β2.4] | 2.1 [1.2β3.4] | 10.3 (8.2β12.6] |
| 26β35 (=β818)n | 28.0 [24.9β31.2] | 45.7 [42.3β49.2] | 1.6 [0.8β2.7] | 1.7 [0.9β2.9] | 10.6 [8.6β13.0] |
| 36β45 (=β448)n | 29.5 [25.3β33.9] | 42.0 [37.3β46.7] | 2.2 [1.1β4.1] | 2.7 [1.4β4.6] | 11.6 [8.8β14.9] |
| 46β55 (=β199)n | 24.6 [18.8β31.2] | 39.7 [32.8β46.9] | 3.5 [1.4β7.1] | 2.5 [0.8β5.8] | 13.1 [8.7β18.6] |
| 56β65 (=β82)n | 19.5 [11.6β29.7] | 42.7 [31.8β54.1] | 1.2 [0.0β6.6] | 1.2 [0.0β6.6] | 12.2 [6.0β21.3] |
| Adjusted for gender and ageb | 25.0 [23.2β26.8] | 34.1 [32.2β36.0] | 2.0% | 2.3% | 11.5% |
Associations
All headache types except TTH were significantly more common in females (Table 2), migraine by about 3:2, pMOH by about 4:1 and other headache on β₯15 days/month by about 2:1. HY was reported nearly twice as commonly by females.
Logistic regression analysis (Table 3) confirmed the positive associations of migraine and pMOH with female gender and negative association of migraine with age > 45 years, and demonstrated that pMOH was most prevalent in those aged 46β55 years. Analyses of associations with socioeconomic indicators (education and employment) revealed nothing unexpected (Table 3): gender associations were reflected in associations with the (obviously female) occupation of housewife. The only other finding of note was that TTH reportedly increased in prevalence with level of education. Income data were not analysed because they were reported by only 782 participants (33.8%), and probably highly biased.
| Migraine | Tension-type headache | Probable MOH | ||||
|---|---|---|---|---|---|---|
| OR [95% CI] | p | OR [95% CI] | p | OR [95% CI] | p | |
| Gender | ||||||
| male (=β1442)n | reference | β | reference | β | reference | β |
| female (=β874)n | 1.7 [1.4β2.1] | <β0.0001 | 0.9 [0.7β1.0] | 0.1237 | 4.7 [2.3β9.4] | <β0.0001 |
| Age (yr) | ||||||
| 18β25 (=β769)n | reference | β | reference | β | reference | β |
| 26β35 (=β818)n | 0.9 [0.7β1.1] | 0.2419 | 1.1 [0.9β1.4] | 0.2244 | 1.4 [0.6β3.2] | 0.4277 |
| 36β45 (=β448)n | 0.9 [0.7β1.2] | 0.4621 | 0.9 [0.7β1.2] | 0.5559 | 1.7 [0.7β4.2] | 0.2231 |
| 46β55 (=β199)n | 0.7 [0.5β1.0] | 0.0626 | 0.9 [0.6β1.3] | 0.577 | 2.7 [1.0β7.4] | 0.0415 |
| 56β65 (=β82)n | 0.4 [0.2β0.8] | 0.0143 | 0.9 [0.5β1.5] | 0.6904 | 0.9 [0.1β7.4] | 0.9509 |
| Education | ||||||
| none (=β205)n | 1.0 [0.7β1.4] | 0.8549 | 0.3 [0.2β0.5] | <β0.0001 | 1.8 [0.6β4.8] | 0.2731 |
| school (n-1212) | reference | β | reference | β | reference | β |
| university (=β897)n | 1.1 [0.9β1.4] | 0.272 | 1.3 [1.0β1.5] | 0.0142 | 1.5 [0.8β2.9] | 0.2129 |
| Employment | ||||||
| employed or self-employed (=β1199)n | reference | β | reference | β | reference | β |
| housewife (=β567)n | 1.5 [1.2β1.8] | 0.0012 | 0.8 [0.7β1.0] | 0.0735 | 2.4 [1.2β4.9] | 0.0127 |
| student, seeking work or retired (n-544) | 1.2 [0.9β1.5] | 0.1504 | 0.9 [0.7β1.1] | 0.2069 | 1.3 [0.6β3.1] | 0.504 |
Discussion
This study in KSA, the second population-based study in EMR using Global Campaign methodology, has found headache disorders to be very common in this country. Almost two thirds of adults (65.8%) are affected, reporting at least one episode in the preceding year. We estimated 1-year prevalences, gender- and age-adjusted, of 25.0% for migraine and 34.1% for TTH. Headache on β₯15βdays/month affects 4.3%, and 11.5% have headache on any 1 day (generalizing from HY, on the assumption that there was nothing special about βyesterdayβ).
In questioning the reliability of these estimates, we draw attention to two important study limitations.
The first was sampling, and engagement with participants, by cell-phone, culturally necessitated but a suboptimal method [24]. In KSA, use of cell-phones is almost universal: in 2012, according to a United Nations Conference on Trade and Development (UNCTAD) report, KSA led the world, with a ratio β predicted to continue rising β of 1.88 cell-phones per head of population [29]. A ratio of > 1 is itself problematic, since holders of multiple phones have an enhanced chance (multiplied by the number of phones) of being selected. Predictably, sampling by cell-phone would lead to under-selection of females, older people, non-Saudis (who might have non-Saudi phone numbers) and those in poverty. This appears to have happened, at least with respect to the first groups, but not to such an extent that adjustment could not achieve statistical correction. While RDD is an accepted sampling method, it is more likely than cold-calling at households to allow the introduction of participation bias: a phone call is readily terminated β more than might be the case by a respondent engaged face-to-face and at home by an interviewer [24]. This bias might be against those with no interest in the survey (those without headache), or those who might consider themselves too busy (professional classes), but the participation proportion of 86.5% suggests it was not a highly influential factor. An important safeguard was that female interviewers were always available to question female participants who expressed a preference for this.
The second limitation was largely a consequence of the first. Validation of the diagnostic questions requires second interviews by a headache expert of a subset of participants. This was difficult to arrange when the initial engagement was by cell-phone, and risked selection of a highly biased sub-sample β those with particularly troublesome headache. It was attempted, but abandoned, since the questionnaire had a record of successful use in many countries and cultures [14β20] and had been validated in four of these [14β16, 20, 26].
With these issues in mind, what did our study show? The global age-standardised 1-year prevalence estimates for migraine and TTH, from GBD2016 [6] (which has the most detailed headache analyses), are 14.4% and 26.1%. Our findings of 25.0% migraine prevalence and 34.1% for TTH are higher than these global means by, respectively, factors of 1.7 and 1.3. These, particularly the first, are large margins of difference. While headache to some extent affects almost two thirds of adults (65.8%) in KSA, one in every 23 has headache on more days than not. On any particular day, one in every nine has headache. This indicates a substantial amount of headache in the country, and of consequential ill health, with a strong association, except for TTH, with female gender.
While we might, speculatively, try to explain these high prevalences in terms of genetic or cultural factors specific to Saudi Arabia, it may be more relevant to question the global estimates of GBD, which still lack data from many parts of the world. GBD2016 also estimated case counts in KSA β by extrapolation, since no direct data were available β of 5.8 million migraine and 8.7 million TTH. On the basis that about two thirds (67%) of the total population of KSA are aged 18β65, or 21.3 million people [21, 23], there are, according to our estimate, 5.3 million people with migraine among these alone. Prevalence in the almost 10 million aged < 18 years is expected to be lower (we have no data about these yet), but nevertheless the GBD2016 estimate of 5.8 million in total looks low, as, correspondingly, does the estimate for TTH. Future iterations of GBD will be better informed.
Comparisons with the global estimates of GBD are supplemented, perhaps more informatively, by comparisons within the region. The only data for comparison from the Arab world are from a Kuwaiti study, performed after ours, with interviewers using the HARDSHIP questionnaire while calling at households [30] (in theory, a better methodology). But, despite a very large reported N (15,523), the participation proportion was only 53.3% β a potential source of serious bias. Prevalence of episodic migraine (presumably definite + probable) was 23.1% (95% CI 19.4β32.9%), which would not, on these values, differ significantly from our finding in KSA (but it has to be noted that the reported 95% CI implies a much smaller N than 15,523, for which the 95% CI would have been 22.5β23.8%). Prevalence of βchronic headacheβ (probably equivalent to our headache on β₯15 days/month) was 5.4% (no CI reported). Also problematic in the Kuwaiti study is that no adjustments in prevalence estimates appear to have been made for gender or age [30].
Otherwise, from all of EMR, there are published findings only from Pakistan, a Global Campaign study of 4223 participants (mean age 34.4 Β± 11.0 years) sampling, as in Kuwait, by calling at households, but with a much higher participation proportion of 89.5% [20]. Despite the methodological differences from our study in KSA (but use of the same questionnaire [20]), we can point to broadly similar findings. In Pakistan the age- and gender-adjusted 1-year prevalence of migraine is 22.5% [95% CI: 21.2β23.8%]; in KSA, at 25.0 [23.2β26.8], it is somewhat higher (Fisherβs exact test: p = 0.0238). In both countries, migraine is more prevalent in females by a factor of 3:2 [20], whereas globally it is close to 2:1 [6]. Values for TTH are more different: in Pakistan 44.6% (43.1β46.1%), in KSA 34.1 (32.2β36.0%; p < 0.0001). However, TTH is more prevalent in males in both countries, in Pakistan by about 1.3:1, in KSA by 1.2:1. This unusual gender differential, seen also in Nepal [17], is possibly explained by male:female working ratios in mostly patriarchal countries: in Pakistan the burden of supporting the entire household falls almost solely on the male [31], whereas in KSA, the labour force is over 80% male [23] (even among Arab countries, KSA has one of the lowest levels of female participation in the national labour force). Our finding in KSA that TTH prevalence is positively associated with educational level suggests an influence of level of responsibility, but this is speculative.
The prevalence of pMOH in KSA probably also exceeds the global mean [32]. There is a large gender-related difference in pMOH between KSA and Pakistan: while this disorder affects only 0.8% of adults in Pakistan [20], and the same proportion of males in KSA, it is reported by 3.4% of females in KSA, making it predominantly a problem among women in this country. This disorder is typically more prevalent among females [32]. Migraine prevalence is the principal driver of MOH, since migraine is the antecedent headache in most cases, but access to medication is a key risk factor. Unlike Pakistan, KSA is a high-income country [33], but wealth is distributed very unequally. Whether this is a relevant factor is very uncertain; more likely is the higher urbanisation rate in KSA (> 83% [23], versus about 40% in Pakistan [34]). In Zambia, lower-middle-income like Pakistan, and with very similar urbanisation [35], urban dwelling was a major factor positively associated with pMOH prevalence.
Pakistan and KSA are very different geographically, ethnically, culturally, politically, economically and in urbanisation rates. There are differences also in terms of headache, possibly consequentially, but they are not large. Overall, Pakistan has rather more prevalent headache than KSA (76.6% and 65.8% respectively), but this is accounted for by TTH, the least burdensome of the headache types [6]. There is more pMOH in KSA, reflecting, probably, the higher-income status of KSA and its greater urbanisation, which both facilitate access to medication.
Conclusion
Prevalences in KSA of migraine and TTH, and perhaps of pMOH, are considerably higher than global averages. The latter are almost certainly underestimated. Prevalences in KSA are not very different from those in Pakistan, also an EMR country but with many differences otherwise.
Information on the burden attributable to these disorders in KSA, needed to inform health policy and priority-setting, will be reported later.