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Erschienen in: The Journal of Headache and Pain 1/2018

Open Access 01.12.2018 | Research article

Health-care utilization for headache disorders in Nepal: a population-based door-to-door survey

verfasst von: Kedar Manandhar, Ajay Risal, Mattias Linde, Timothy J. Steiner

Erschienen in: The Journal of Headache and Pain | Ausgabe 1/2018

Abstract

Background

Headache disorders are an important global public-health problem, but under-diagnosed, undertreated and under-prioritized. Deficiencies in health care for headache, present everywhere, are likely to be greater in poorly-resourced countries. This study reports on health-care utilization for headache in Nepal, a low-income country with high headache burden.

Methods

We took data from a cross-sectional, nationwide population-based door-to-door survey, with multistage cluster random sampling. Face-to-face structured interviews included enquiry into consultations with professional health-care providers (HCPs), and investigations and treatments for headache. Analysis included associations with sociodemographic variables and indices of symptom severity.

Results

Of 2100 participants, 1794 reported headache during the preceding year (mean age 36.1 ± 12.6 years; male/female ratio 1:1.6). Of these, 58.4% (95% CI: 56.1–60.7%) had consulted at least once in the year with HCPs at any level, most commonly (25.0%) paramedical; 15.0% had consulted pharmacists, 10.8% general physicians and 7.6% specialists (of any type). Participants with probable medication-overuse headache consulted most (87.0%), followed by those with migraine (67.2%) and those with tension-type headache (48.6%; p < 0.001). A minority (11.9%) were investigated, mostly (8.9%) by eye tests. Half (50.8%) had used conventional medications for headache in the preceding month, paracetamol being by far the most common (38.0%), and 10.3% had used herbal therapies.
Consultation was positively associated with rural habitation (AOR = 1.5; p < 0.001). Proportions consulting increased in line with all indices of symptom severity.

Conclusions

Although over half of participants with headache had consulted professional HCPs, this reflects demand, not quality of care. Although 7.6% had seen specialists, very few would have been headache specialists in any sense of this term. High persistent burden, with only half of participants with headache using conventional medications, and these not best chosen, suggests these consultations fell far short of meeting need. Health policy in Nepal should recognise this, since the consequences otherwise are costly: lost health, diminished productivity and damaged national economy. On a positive note, the proportions consulting suggest that capacity exists at multiple levels within the Nepalese health system. With this to build upon, structured headache services in line with international recommendations appear achievable in Nepal. Educational programmes are the essential requirement.
Abkürzungen
AOR
Adjusted odds ratio
CI
Confidence interval
CT
Computed tomography
EEG
Electroencephalography
ENT
Ear, nose and throat
GBD
Global Burden of Disease study
HARDSHIP
Headache-Attributed Restriction, Disability, Social Handicap and Impaired Participation
HCP
Health-care provider
ICHD
International Classification of Headache Disorders
LAMI
Low- and middle-income
LTB
Lifting The Burden
MOH
Medication-overuse headache
MRI
Magnetic resonance imaging
NPR
Nepalese rupee
NSAID
Nonsteroidal anti-inflammatory drug
OR
Odds ratio
PHC
Primary health-care centre
pMOH
Probable MOH
PNS
Paranasal sinuses
SD
Standard deviation
SEAR
South-East Asia Region
SPSS
Statistical Package for Social Sciences
TTH
Tension-type headache
USD
United States dollar
YLD
Year of life lost to disability

Background

Headache disorders are among the most prevalent, burdensome and costly diseases in the world [13]. From a public-health perspective, the primary headache disorders, mostly migraine and tension-type headache (TTH), are of special importance because they lead to widespread ill health, impaired quality of life and much loss of productivity [3]. Inappropriate management of either migraine or TTH can lead to medication-overuse headache (MOH), a major additional contributor to global disability [4].
The Global Burden of Disease Study 2015 (GBD2015) ranked TTH and migraine as second and fifth most prevalent disorders worldwide [5]. In GBD2016, migraine was the second highest cause of disability [6]. These disorders are not the preserve of wealthy countries: recent epidemiological studies in low- and middle-income (LAMI) countries (Ethiopia [7, 8], India [9, 10], Pakistan [11] and Zambia [12, 13]) all found higher prevalence estimates of migraine than the global mean, with substantial headache-attributed burden at individual and population levels. Despite these findings, headache disorders are under diagnosed, undertreated and under-prioritized in health-care delivery systems, and this is especially so in LAMI countries [1].
Nepal is one of the poorest countries within the South-East Asia Region (SEAR). Of its population of approximately 30 million, about one quarter live below the international poverty line [14]. In a population-based study in this country, we found an exceptionally high 1-year prevalence of migraine (34.1%), while the prevalence of probable MOH (pMOH) (2.1%) was towards the upper end of the range observed in other countries [15]. Headache-attributed burden was accordingly high: migraine, TTH and pMOH were accountable for reduced functional capacities of 0.81%, 0.06% and 0.20% respectively at population level [16].
Extreme geographical variation in Nepal causes difficulties of access, aggravated by poor infrastructure such as bad roads and rickety bridges, and a monsoon climate [17], while limited education generally, lack of skill in headache disorders among health professionals, and low investment in health care are high barriers to effective headache care in Nepal. This study assesses health-care utilization for headache and its associations with sociodemographic variables and indices of symptom severity in Nepal using data from the same nationwide population-based survey. The purpose was to provide evidence for national health policy and formulation of public-health programmes in Nepal.

Methods

Study design

The detailed methods have been described elsewhere [17, 18]. In summary, this was a cross-sectional, nationwide population-based door-to-door survey. Trained interviewers made unannounced visits to households selected through stratified multistage cluster random sampling, and conducted face-to-face structured interviews with one adult randomly selected from each household. Representativeness was achieved by sampling in all three physiographic divisions (Mountain, Hill and Terai), and, within each division, all five development regions (Far-western, Mid-western, Western, Central and Eastern). In total, 2100 Nepali-speaking adults aged 18–65 years and resident in Nepal were included during May 2013.

Instrument

Interviewers used the Headache-Attributed Restriction, Disability, Social Handicap and Impaired Participation (HARDSHIP) modular structured questionnaire developed by Lifting The Burden (LTB) for population-based studies [19]. This was culturally adapted, and translated into Nepali language according to LTB’s translation protocol for hybrid documents [20]. It included multiple elements. First were (i) demographic enquiry and (ii) a neutral headache screening question (“Have you had a headache during the last 12 months?”) addressed to all participants. Then, for those who screened positively, were (iii) diagnostic questions based on the International Classification of Headache Disorders (ICHD) [21] (focused on the subjectively most bothersome type in those reporting more than one), and (iv) questions regarding various aspects of headache-attributed burden. The last included indices of symptom severity: headache frequency (days/month [d/m]), attack duration (hours) and headache intensity (with response options “not bad”, “quite bad” and “very bad”, which we interpreted as mild, moderate and severe).
Last, of those with headache, we enquired about (v) consultations for headache (yes or no, and with whom: see below), (vi) investigations for headache undergone within the preceding year (particularly specifying xrays of paranasal sinuses [PNS] or neck, brain imaging [CT or MRI], EEG and eye tests), and (vii) treatments for headache (conventional medications and/or herbal preparations) in the preceding month.

Headache diagnosis

The diagnostic method, centrally by algorithm, has been described previously [15]. Participants reporting headache on ≥15 d/m were first separated; those also overusing acute medication were considered to have pMOH [22] while the remainder were categorized as “other headache on ≥15 d/m” (these cannot be fully diagnosed by questionnaire). To all others, reporting headache on ≤14 d/m, the algorithm applied modified ICHD-3 beta criteria [21] in the following order: definite migraine, definite TTH, probable migraine and probable TTH. Definite and probable migraine were combined, and likewise definite and probable TTH, for further analyses. The few remaining cases were unclassifiable.

Medical consultation

We defined “medical consultation” operationally as consultation, at least once in the preceding year, with any professional health-care provider (HCP) by a participant reporting any type of headache. We classified HCPs into four groups: (i) pharmacist; (ii) paramedic (nurse, physiotherapist, health assistant, auxiliary health worker or herbal practitioner); (iii) general physician; or (iv) specialist (headache specialist, neurologist, neurosurgeon, ophthalmologist, ear, nose and throat [ENT] specialist or psychiatrist). We ranked these groups in ascending order, (i) to (iv).

Statistical analyses

We counted participants with headache reporting medical consultation(s), investigations and/or treatments, and calculated proportions (%) with 95% confidence intervals (CIs). Those reporting consultations at multiple levels were counted only within the highest-ranked group.
We analysed demographic variables as follows. We categorized age in years into five groups: 18–25, 26–35, 36–45, 46–55, 56–65. We used household consumption in USD/year (at the time of study: 1 USD ≈ NPR 100) as an indicator of economic wellbeing, categorizing it in three groups: poorest (< 950), poor (950–1200) and intermediate and above (> 1200). We classed habitation as urban or rural, and dichotomized altitude of dwelling into < 1000 m and ≥ 1000 m.
As indices of symptom severity, we categorized headache frequency in d/m (F) into four groups (< 1, 1–2, 3–14, ≥15) and attack duration in hours (D) into three (< 4, 4–12, > 12). Because F reflected days with headache rather than attack frequency, we used a conservative approximation method for calculation of proportion of time in ictal state (pT). For participants reporting D ≤ 24 h, pT was calculated as [(F*D)/(30*24)]. When D > 24 h, we assumed F was accordingly inflated (for example, one attack lasting into 2 days was reported as 2 headache days); we therefore calculated pT as [(F*24)/(30*24)] = F/30. We converted proportions into percentages, and categorized these into four groups (< 1%, 1–2%, 2.1–8%, > 8%).
We used chi-squared to test differences in proportions reporting medical consultation(s), investigations and/or treatments, according to headache type, habitation and/or dwelling altitude. We used bivariate and multivariate logistic regression analyses (with odds ratios [ORs] and adjusted ORs [AORs], each with 95% CIs) to investigate associations of medical consultation with demographic variables and indices of symptom severity. We entered each of these as covariates in the multivariate analyses, but only the demographic variables for associations with symptom severity. We considered p < 0.05 to be statistically significant.
We analysed all data using SPSS 21.0 (IBM Corp, Armonk, NY, USA).

Results

A total of 2100 participants were included in the original survey, but here we analyze only the 1794 who reported headache during the preceding year (mean age 36.1 ± SD 12.6 years; M/F ratio 1:1.6; 38.2% from poorest category; 38.2% rural; 52.9% dwelling at altitude ≥1000 m).

Medical consultation

Of the 1794 participants reporting headache, 1048 (58.4%; 95% CI: 56.1–60.7%) consulted at some level within the preceding year for headache, 25.0% (M/F ratio 1:1.1) with paramedics, 15.0% (M/F ratio 1:0.96]) with pharmacists, 10.8% (M/F ratio 1:1.1) with general physicians and 7.6% (M/F ratio: 1:1.4) with specialists (Fig. 1). By headache type, participants with pMOH (87.0%) were most likely to have consulted, followed by those with migraine (67.2%), then those with TTH (48.6%; p < 0.001) (Table 1).
Table 1
Medical consultation according to class of professional health-care provider, by headache type
Headache type
Medical consultation
N
Pharmacist
Paramedic
Physician
Specialist
Overall
n (%) [95% confidence interval]
Tension-type headache
863
123 (14.3)
[12.0–16.8]
185 (21.4)
[18.7–24.3]
64 (7.4)
[5.8–9.4]
47 (5.4)
[4.0–7.2]
419 (48.6)
[45.2–51.9]
Migraine
728
117 (16.1)
[13.5–18.9]
216 (29.7)
[26.4–33.1]
101 (13.9)
[11.4–16.6]
55 (7.6)
[5.7–9.7]
489 (67.2)
[63.6–70.6]
Probable medication-overuse headache
46
9 (19.6)
[9.4–33.9]
10 (21.7)
[10.9–36.4]
11 (23.9)
[12.6–38.8]
10 (21.7)
[10.9–36.4]
40 (87.0)
[73.7–95.6]
p*
< 0.001
< 0.001
< 0.001
< 0.001
< 0.001
p*: chi-squared test

Investigations and treatments

Of the 1794 participants reporting headache, rather more than one tenth (11.9%) were investigated for headache within the preceding year, most commonly (8.9%) by eye test (Table 2). Next, but far fewer, were xrays of PNS (1.4%); brain imaging (0.9%) was unusual, and neck xrays (0.4%) and EEG (0.3%) even more so (Table 2).
Table 2
Investigations and treatments for headache of participants with any headache, by habitation and dwelling altitude
 
All
Habitation
Dwelling altitude
  
Urban
Rural
p*
< 1000 m
≥1000 m
p*
 
n (%) [95% CI]
n (%) [95% CI]
Investigations in the preceding year
 All
214 (11.9)
[10.5–13.5]
75 (10.9)
[8.7–13.5]
139 (12.5)
[10.7–14.6]
0.33
106 (12.5)
[10.4–15.0]
108 (11.4)
[9.4–13.6]
0.47
 Xray of paranasal sinuses
26 (1.4)
[0.9–2.1]
5 (0.7)
[0.2–1.7]
21 (1.9)
[1.2–2.9]
0.07
12 (1.4)
[0.7–2.5]
14 (1.5)
[0.8–2.5]
0.99
 Xray of neck
7 (0.4)
[0.2–0.6]
3 (0.4)
[0.1–1.3]
4 (0.4)
[0.1–0.9]
1.0
1 (0.1)
[0.0–0.7]
6 (0.6)
[0.2–1.4]
0.13
 Brain imaging (CT or MRI)
16 (0.9)
[0.5–0.9]
7 (1.0)
[0.4–2.1]
9 (0.8)
[0.4–1.5]
0.79
9 (1.1)
[0.5–2.0]
7 (0.7)
[0.3–1.5]
0.61
 EEG
5 (0.3)
[0.1–0.5]
1 (0.1)
[0.0–0.8]
4 (0.4)
[0.1–0.9]
0.65
0 (0.0)
-
5 (0.5)
[0.2–1.2]
 Eye test
160 (8.9)
[7.6–10.3]
59 (8.6)
[6.6–11.0]
101 (9.1)
[7.5–11.0]
0.73
82 (9.7)
[7.8–11.9]
78 (8.2)
[6.6–10.2]
0.28
Conventional medications in the preceding month
 Overall
912 (50.8)
[48.5–53.2]
299 (43.6)
[39.8–47.4]
613 (55.3)
[52.3–58.3]
< 0.001
393 (46.5) [43.1–49.9]
519 (54.7)
[51.5–57.9]
< 0.001
 Paracetamol
682 (38.0)
[35.8–40.3]
203 (29.6)
[26.2–33.2]
479 (43.2)
[41.9–47.8]
< 0.001
250 (29.6)
[26.5–32.8]
432 (45.5)
[42.3–48.8]
< 0.001
 Ibuprofen
150 (8.4)
[7.1–9.7]
57 (8.3)
[6.4–10.6]
93 (8.4)
[6.8–10.2]
0.99
51 (5.9)
[4.5–7.9]
99 (10.4)
[8.6–12.6]
0.001
 Nimesulide
94 (5.2)
[4.3–6.4]
49 (7.1)
[5.3–9.3]
45 (4.1)
[3.0–5.4]
0.009
68 (8.0)
[6.3–10.1]
26 (2.7)
[1.8–4.0]
< 0.001
 NSAID/paracetamol combination
71 (4.0)
[3.1–5.0]
18 (2.6)
[1.6–4.1]
53 (4.8)
[3.6–6.2]
0.025
43 (5.1)
[3.7–6.8]
28 (3.0)
[2.0–4.1]
0.021
Herbal therapies in the preceding month
 Overall
185 (10.3)
[8.9–11.8]
36 (5.2)
[3.7–7.2]
149 (13.4)
[11.5–15.6]
< 0.001
63 (7.5)
[5.8–9.4]
122 (12.9) [10.8–15.2]
< 0.001
 Vicks
64 (3.6)
[2.8–4.6]
15 (2.2)
[1.2–3.6]
49 (4.4)
[3.3–5.8]
0.013
36 (4.3)
[3.0–5.8]
28 (3.0)
[3.0–4.3]
0.16
 Tulsi leaves
11 (0.6)
[0.3–1.1]
3 (0.4)
[0.1–1.3]
8 (0.7)
(0.3–1.4)
0.55
7 (0.8)
[0.3–1.7]
4 (0.4)
[0.1–1.1]
0.37
 Titepati leaves
11 (0.6)
[0.3–1.1]
3 (0.4)
[0.1–1.3]
8 (0.7)
[0.3–1.4]
0.55
2 (0.2)
[0.0–0.9]
9 (0.9)
[0.4–1.8]
0.069
CI Confidence interval
p*: chi-squared test
Significant p-values (<0.05) are emboldened
Just over half (50.8%) had used at least one type of conventional medication for headache in the preceding month. Among 13 different medications (paracetamol, aspirin, diclofenac, ibuprofen, naproxen, nimesulide, codeine or dihydrocodeine, domperidone, metoclopramide, Codamol, Coflam, D-cold and Rhinex), the most common was paracetamol as monotherapy (38.0%); ibuprofen (8.4%) followed way behind. Nimesulide was used by a not inconsiderable minority (5.2%). Less common was the combination of nonsteroidal anti-inflammatory drug (NSAID) and paracetamol (4.0%) (Table 2).
Just over one tenth (10.3%) had used herbal therapies in the last month, most commonly Vicks (3.6%). This was usually applied to the forehead, inhaled or administered via the nasal mucosa. Depending on formulation, it might contain camphor, turpentine oil, levomenthol, eucalyptus oil, Siberian pine needle oil, methyl salicylate and/or oxymetazoline hydrochloride. Next, but not common, were tulsi leaves (Holy basil, or Ocimum tenuiflorum) and titepati leaves (Artemesia vulgaris) (both 0.6%) (Table 2). These were usually taken as a drink after boiling in water.

Associations

Overall, medical consultations were similar in females (60.1%) and males (55.7%; p = 0.96) (Fig. 1, Tables 3 and 4). Females (8.5%) consulted specialists more than males (6.1%), but not significantly (p = 0.28) (Tables 3 and 4).
Table 3
Medical consultation by age, gender, household consumption, habitation and dwelling altitude
Variable
N
Overall
Specialist
n (%)
95% CI
n (%)
95% CI
Age (years)
 18–25
426
240 (56.3)
51.5–61.1
24 (5.6)
3.6–8.3
 26–35
581
346 (59.6)
55.4–63.6
54 (9.3)
7.1–12.0
 36–45
358
204 (57.0)
51.7–62.2
25 (7.0)
4.6–10.1
 46–55
258
162 (62.9)
56.6–68.7
18 (7.0)
4.2–10.8
 56–65
171
96 (56.1)
48.4–63.7
15 (8.8)
5.0–14.1
Gender
 Male
689
384 (55.7)
51.9–59.5
42 (6.1)
4.4–8.2
 Female
1105
664 (60.1)
57.1–63.0
94 (8.5)
6.9–10.3
Household consumption (USD/year)
 < 950
686
423 (61.7)
57.9–65.3
46 (6.7)
5.0–8.8
 950–1200
687
400 (58.2)
54.4–61.9
61 (8.9)
6.9–11.3
 > 1200
421
225 (53.4)
48.6–58.3
29 (6.9)
4.7–9.7
Habitation
 Urban
686
354 (51.6)
47.8–55.4
54 (7.9)
6.0–10.1
 Rural
1108
694 (62.6)
59.7–65.5
82 (7.4)
5.9–9.1
Dwelling altitude (m)
 < 1000
845
474 (56.1)
52.7–59.5
72 (8.5)
6.7–10.6
 ≥ 1000
949
574 (60.5)
57.3–63.6
64 (6.7)
5.2–8.5
CI confidence interval
Table 4
Associations between medical consultation and demographic variables
Variable
Overall
Specialist consultation
Bivariate analysis
Multivariate analysis
Bivariate analysis
Multivariate analysis
OR (95% CI)
p
AOR a (95% CI)
p
OR (95% CI)
p
AOR a (95% CI)
p
Age (in years)
 18–25
Reference
Reference
Reference
Reference
 26–35
1.1 (0.9–1.5)
0.31
1.1 (0.8–1.4)
0.54
1.7 (1.1–2.8)
0.034
1.5 (0.9–2.5)
0.11
 36–45
1.0 (0.8–1.4)
0.86
0.9 (0.7–1.3)
0.62
1.3 (0.7–2.4)
0.44
1.2 (0.6–2.1)
0.65
 46–55
1.3 (0.6–1.8)
0.10
1.2 (0.9–1.7)
0.28
1.3 (0.7–2.4)
0.48
1.1 (0.6–2.2)
0.71
 56–65
1.0 (0.7–1.5)
0.96
0.8 (0.6–1.2)
0.28
1.6 (0.8–3.2)
0.16
1.5 (0.8–3.0)
0.24
Gender
 Male
Reference
Reference
Reference
Reference
 Female
1.2 (0.9–1.5)
0.069
1.0 (0.8–1.2)
0.96
1.4 (1.0–2.1)
0.062
1.2 (0.8–1.8)
0.28
Household consumption (USD/year)
 < 950
1.2 (0.9–1.4)
0.19
1.1 (0.9–1.4)
0.40
0.7 (0.5–1.1)
0.13
0.8 (0.5–1.1)
0.17
 950–1200
Reference
Reference
Reference
Reference
 > 1200
0.8 (0.6–1.1)
0.12
0.8 (0.6–1.0)
0.11
0.8 (0.5–1.2)
0.24
0.7 (0.5–1.2)
0.20
Habitation
 Urban
Reference
Reference
Reference
Reference
 Rural
1.6 (1.3–1.9)
< 0.001
1.5 (1.2–1.9)
< 0.001
0.9 (0.7–1.3)
0.71
0.9 (0.6–1.3)
0.51
Dwelling altitude(m)
 < 1000
Reference
Reference
Reference
Reference
 ≥ 1000
1.2 (0.9–1.4)
0.06
1.0 (0.8–1.2)
0.96
0.8 (0.6–1.1)
0.16
0.7 (0.5–1.1)
0.094
OR odds ratio, CI confidence interval, AOR adjusted OR
a adjusted for age, gender, household consumption, habitation, dwelling altitude, headache frequency, attack duration, headache intensity and proportion of time in ictal state
Significant p-values (<0.05) are emboldened
There was a slightly increasing overall trend with advancing age up to 46–55 years (from 56.3% for 18–25 years to 62.9% for 46–55 year), then a decrease (to 56.1% for 56–65 years) (Tables 3 and 4). However, age was not a significant factor (AOR 1.2 [p = 0.28] for 46–55 years and AOR 0.8 [p = 0.28] for 56–65 years with reference to the youngest group) (Tables 3 and 4). Consultations with specialists increased with age (5.6% for 18–25 years, 9.3% for 26–35 years, 7.0% for 36–55 years and 8.8% for 56–65 years), but again not significantly (Tables 3 and 4).
Medical consultation showed no associations with household consumption or dwelling altitude. Rural participants consulted more than urban (OR = 1.6; AOR = 1.5; p < 0.001) (Tables 3 and 4). Specialist consultation showed no demographic associations.
Investigations showed no associations, but both conventional medications and herbal therapies were reportedly used more, overall, by rural than by urban participants (p < 0.001), and by high-altitude dwellers than low (p < 0.001) (Table 2).
Associations with indices of symptom severity are presented in Table 5. In bivariate analysis, greater severity (according to all indices) was associated with increased likelihood of medical consultation. Multivariate analysis confirmed these associations. This was not the case for specialist consultation. Greater headache frequency showed a paradoxical association, with ORs and AORs of 0.6–0.7 for frequencies of 1–14 d/m but > 2 for frequency ≥ 15 d/m. Reflecting this, specialist consultation was less likely initially (OR and AOR = 0.5) as pT increased above 2%, then becoming more likely beyond pT = 8%. Greater headache intensity was clearly associated with specialist consultation in both analyses, whereas the effect of attack duration did not achieve significance (Table 5).
Table 5
Associations between medical consultation and indices of symptom severity
Index
Overall
Specialist consultation
Bivariate analysis
Multivariate analysis
Bivariate analysis
Multivariate analysis
OR (95% CI)
p
AOR a (95% CI)
p
OR (95% CI)
p
AOR a (95% CI)
p
Headache frequency (d/m)
 < 1
Reference
Reference
Reference
Reference
 1–2
1.2 (0.9–1.5)
0.18
1.2 (0.9–1.5)
0.17
0.6 (0.4–0.9)
0.025
0.6 (0.4–0.9)
0.023
 3–14
1.8 (1.4–2.3)
< 0.001
1.9 (1.5–2.4)
< 0.001
0.7 (0.4–1.1)
0.14
0.7 (0.4–1.1)
0.12
 ≥ 15
2.7 (1.8–3.9)
< 0.001
2.6 (1.8–3.9)
< 0.001
2.2 (1.3–3.6)
0.002
2.1 (1.3–3.5)
0.004
Attack duration (hours)
 < 4
Reference
Reference
Reference
Reference
 4–12
2.0 (1.6–2.6)
< 0.001
2.1 (1.6–2.6)
< 0.001
1.5 (0.9–2.3)
0.13
1.4 (0.9–2.3)
0.14
 > 12
3.1 (2.5–4.3)
< 0.001
3.3 (2.3–4.1)
< 0.001
1.5 (0.9–2.2)
0.087
1.4 (0.9–2.4)
0.10
Headache intensity
 Mild
Reference
Reference
Reference
Reference
 Moderate
2.5 (2.0–3.2)
< 0.001
2.5 (2.0–3.2)
< 0.001
1.3 (0.8–2.3)
0.30
1.3 (0.8–2.3)
0.31
 Severe
3.8 (2.9–5.1)
< 0.001
3.6 (2.7–4.8)
< 0.001
2.6 (1.5–4.5)
0.001
2.7 (1.3–4.7)
< 0.001
Proportion of time in ictal state (pT) (%)
 < 1
Reference
Reference
Reference
Reference
 1–2
1.5 (1.1–2.0)
0.012
1.5 (1.1–2.0)
0.014
1.0 (0.6–1.7)
0.92
1.0 (0.5–1.7)
0.95
 2.1–8
1.6 (1.2–2.1)
0.001
1.6 (1.2–2.1)
0.001
0.5 (0.2–0.9)
0.023
0.5 (0.3–0.9)
0.021
 > 8
2.8 (2.2–3.5)
< 0.001
2.9 (2.3–3.7)
< 0.001
1.4 (0.9–2.1)
0.094
1.4 (0.9–2.0)
0.13
OR odds ratio, CI confidence interval, AOR adjusted OR
a adjusted for age, gender, household consumption, habitation and dwelling altitude
Significant p-values (<0.05) are emboldened

Discussion

We found that almost three fifths (58.4%) of all participants reporting headache had at least one consultation with at least one class of professional HCP in the previous year, while fewer than one-tenth (7.6%) had seen a specialist of any sort. Unsurprisingly, the great majority (87.0%) of participants with pMOH had consulted, as had two-thirds (67.2%) with migraine but barely half (48.7%) with TTH. In keeping with this, the likelihood of having consulted increased with all indices of symptom severity, although only headache intensity and frequency of ≥15 d/m showed clear associations with specialist consultation. Over one tenth had been investigated. Half had used conventional medications, and one tenth had used herbal therapies for headache in the preceding month.
It may seem remarkable that such a large proportion of the participants with headache had consulted: this finding, in a low-income country, suggests better availability of health care than in many other, wealthier countries in Asia [23, 24], Western Europe [2527] and North America [28, 29]. We need to make two cautionary comments on this. First, the evidence from other countries came from studies conducted some two decades earlier [2429]. In that period, more effective treatments for headache have emerged, awareness of headache as a major public-health concern has substantially increased [30, 31], and, of course, information technology has advanced greatly. These may have led to changes in policy priorities and in public health-seeking behaviour. Second, and probably more influential, we included consultations with a very wide range of HCPs in our count of “medical consultations” in Nepal, among them some who have no counterparts in many other countries, or would not be accredited as health professionals. This probably lies behind the otherwise surprising finding that medical consultation was positively associated with rural habitation (discussed below). If pharmacist consultations (15.0%) are excluded, as they might be in studies elsewhere, the medical consultation proportion falls to 43.4% in Nepal, similar to the 46.6% recently found in China [32] and somewhat lower than findings in other countries [2329]. If consultations only with physicians (general physicians [10.8%] or specialists [7.6%]) are considered, the proportion in Nepal (18.4%) is much lower than those elsewhere [2329, 32]. This is probably the most salient comparison. It should be added that, while we included a range of specialties in the “specialist” classification (allowing for the possibility of consultations abroad), Nepal has no headache specialists, and few neurologists or neurosurgeons, so consultations were most likely with ophthalmologists, ENT specialists or psychiatrists.
In other words, these findings should not be taken as indicators of good care. The high consultation proportion reflects high demand, but gives no assurance that needs were met. On the contrary, headache-attributed burden in Nepal persists at a high level [16]. Investigations were requested for over 10%, but most were eye (vision) tests. While these might have been clinically indicated, they would not have contributed much to headache diagnosis or management [21]. Among the medications used, paracetamol was prominent – far more than NSAIDs, despite being less effective [33]. Nimesulide, a drug giving rise to serious safety concerns [34], was reportedly used by over 5%. These are clear markers of health-care failure.
But a more positive view may be taken. Over half of participants with headache had engaged at some level with professional health care, a proportion well in line with international recommendations for headache service organisation and delivery [31]. This indicates that capacity is available within Nepalese health services, and this can be built upon in a programme aimed at improvement. Furthermore, there is an existing health-care infrastructure that would readily accommodate the suggested three-tier model of headache-service organization [31]. Consultations with pharmacists (whose important role is to keep those with simple requirements outside the three-tier model) might be entirely adequate for the 15.0% reporting only these – if pharmacists had basic knowledge and skills in management of headache. This proviso applies equally to nurses, health assistants and auxiliary health workers (who would be at level one within the model) and, indeed, general physicians (level two). While only 10.8% had seen general physicians, and only 7.6% had seen a specialist of any sort (level three), these should suffice if all HCPs received training in headache care appropriate to their level [31].
Nepal is a low-income country; the range of household consumption (a marker of socio-economic status) is very much compressed towards the lower end. We did not see associations between household consumption and medical consultation, overall or with specialists, but any such relationship would be difficult to detect for this reason. We did observe that rural participants with headache were more likely than their urban counterparts to consult, although not with specialists. This, seen also in both Taiwan [24] and mainland China [32], may be due in Nepal to the provision nationwide but especially in rural areas of easy-access community-based primary health-care centres (PHCs), staffed mainly by health assistants and/or auxiliary health workers [35]. Nepal has a mixed health-service model, involving both public and private sectors. While government-supported basic services are available throughout the country, PHCs offer free medical consultations as well as being easily accessible [35]. Private-sector health care, predominantly available in urban areas, requires payment. Other likely factors are greater rural recourse to herbal practitioners, while a lesser tendency to self-medication in rural areas may drive people to consult health professionals.
As anticipated, all indices of symptom severity were positive predictors of medical consultation. Only headache intensity and high frequency predicted consultation with specialists, but numbers in these analyses were small, while attack duration (also a factor in proportion of time in ictal state) tends to be unreliably reported [19, 22]. A point worthy of emphasis here is that these indices of symptom severity are, clearly, key indicators of need for headache services. We have previously shown that all symptom indices increase with altitude of dwelling across the range < 500 m to 2499 m [36], and this was reflected here in the greater use of medication by high-altitude dwellers. Clearly, this relative excess of need among high-altitude dwellers presents a major challenge to equitable provision of headache services in Nepal. But need is very high in Nepal [15, 16], so it needs to be done.

Strengths and limitations

The cross-sectional study from which our data were drawn used methods tested earlier in many countries, including India with a not dissimilar culture [9, 10]. Despite major logistic difficulties [15], it recruited a large, nationally representative sample through careful random selection, and minimized participation bias by achieving a participation proportion of > 99% [18]. These were strengths of the study.
Two limitations were inherent in population-based surveys. Enquiry into medical consultations was based on participants’ recall over the preceding year, with some degree of error expected. We were similarly dependent on participants’ truthfulness, although they had no reason to be evasive in this type of enquiry. Any errors that were introduced were more likely to be random than systematic [32, 37]. A third limitation was that no enquiry was possible into outcomes – in particular, satisfaction with care received as a result of consultation. This would have required much more detailed enquiry, beyond our resources. What is clear, since the burden of headache remains very high [16], is that needs in Nepal are largely unmet, despite the high proportion consulting HCPs.

Conclusions

While more than half of participants with headache had consulted a professional HCP within the previous year, this statistic reflects demand while saying nothing of the quality of care given. Neither the investigations reported nor the medications used offer reassurance, while high persistent burden more plainly indicates these consultations fall far short of meeting need. Health policy in Nepal would do well to recognise this: the consequences otherwise are costly – in lost health, in diminished productivity, and to the national economy. Importantly, capacity appears to exist at multiple levels within the Nepalese health system. With this to build upon, structured headache services in line with international recommendations appear to be achievable in Nepal, despite the obvious difficulties. The essential requirement is educational.

Acknowledgements

This study was performed as a project within the Global Campaign against Headache, which is led by the non-governmental organization Lifting The Burden in official relations with the World Health Organization, and with the support of Dhulikhel Hospital, Kathmandu University Hospital, Dhulikhel, Kavre, Nepal.

Funding

This study was funded by grants from Samarbeidsorganet, the Liaison Committee between the Central Norway Regional Health Authority and the Norwegian University of Science and Technology (NTNU).

Availability of data and materials

The data are held on file at Norwegian University of Science and Technology. Once analysis and publications are completed, they will, in line with Global Campaign policy, be freely available for non-commercial purposes to any person requesting access.
The study protocol was approved by the Nepal Health Research Council, the Institutional Review Committee of Kathmandu University School of Medical Sciences, Dhulikhel Hospital, and the Regional Committee for Health and Research Ethics in Central Norway.
All participants were informed of the nature and purpose of the study, and gave consent, recorded either by signature or by fingerprint in accordance with the requirements of these three committees.
Not applicable.

Competing interests

TJS is a Director and Trustee of Lifting The Burden. Otherwise, the authors declare that they have no competing interests.

Publisher’s Note

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Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://​creativecommons.​org/​licenses/​by/​4.​0/​), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
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Metadaten
Titel
Health-care utilization for headache disorders in Nepal: a population-based door-to-door survey
verfasst von
Kedar Manandhar
Ajay Risal
Mattias Linde
Timothy J. Steiner
Publikationsdatum
01.12.2018
Verlag
Springer Milan
Erschienen in
The Journal of Headache and Pain / Ausgabe 1/2018
Print ISSN: 1129-2369
Elektronische ISSN: 1129-2377
DOI
https://doi.org/10.1186/s10194-018-0942-3

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