Open Access

The relationship between headache and religious attendance (the Nord-Trøndelag health study- HUNT)

  • Erling Tronvik1, 2, 10Email author,
  • Torgeir Sørensen3,
  • Mattias Linde1, 2,
  • Lars Bendtsen4, 5,
  • Ville Artto6,
  • Katarina Laurell7, 8,
  • Mikko Kallela6,
  • John-Anker Zwart9 and
  • Knut Hagen1, 2
The Journal of Headache and Pain201415:1

https://doi.org/10.1186/1129-2377-15-1

Received: 25 November 2013

Accepted: 27 December 2013

Published: 3 January 2014

Abstract

Background

Religious belief can be used as a pain coping strategy. Our purpose was to evaluate the relationship between headache and religious activity using prospective data from a large population-based study.

Methods

This longitudinal cohort study used data from two consecutive surveys in the Nord-Trøndelag Health Survey (HUNT 2 and 3) performed in 1995–1997; and 2006–2008. Among the 51,383 participants aged ≥ 20 years who answered headache questions at baseline, 41,766 were eligible approximately 11 years later. Of these, 25,177 (60%) completed the question in HUNT 3 regarding religious activity. Frequent religious attendees (fRA) (used as a marker of stronger religious belief than average) were defined as those who had been to church/prayer house at least once monthly during the last six months.

Results

In the multivariate analyses, adjusting for known potential confounders, individuals with headache 1–14 days/month in HUNT 2 were more likely to be fRA 11 years later than headache-free individuals. Migraine at baseline predisposed more strongly to fRA at follow-up (OR = 1.25; 95% CI 1.19-1.40) than did non-migrainous headache (OR = 1.13; 95% 1.04-1.23). The odds of being fRA was 48% increased (OR 1.48; 95% 1.19-1.83) among those with migraine 7–14 days/month at baseline compared to subjects without headache. In contrast, headache status at baseline did not influence the odds of being frequent visitors of concerts, cinema and/or theatre at follow-up 11 years later.

Conclusions

In this prospective study, headache, in particular migraine, at baseline slightly increased the odds of being fRA 11 years later.

Keywords

EpidemiologyReligionSpiritualityHeadacheMigraine

Background

A positive relationship between religiousness/spirituality and mental and physical health measures has been demonstrated mainly in cross-sectional studies [1]. Religious activity may be one of several pain coping strategies to manage suffering. This is illustrated by one study reporting that 40% of patients with different types of chronic pain reported that religion and spirituality had become more important in their lives, and that prayer had a beneficial effect on pain tolerance [2].

Headache can severely affect the quality of life and the socioeconomic costs to society [3]. To our knowledge, no previous studies have evaluated the relationship between headache and religious activity using a prospective study design.

The aim of the study was to evaluate whether headache at baseline influenced the occurrence of frequent religious activity at follow-up in a large prospective study.

Methods

The HUNT study

The Nord-Trøndelag Health Survey (HUNT) is a longitudinal cohort study in which all inhabitants ≥ 20 years old in Nord-Trøndelag were invited to participate. Subjects were examined three times; from 1984 to 1986 (HUNT 1), 1995 to 1997 (HUNT 2) and 2006 to 2008 (HUNT3). The surveys covered a large number of health-related items, and participants were also invited to clinical consultations, which included blood samples and measurements of blood pressure, height and weight. HUNT 2 included questions on headache, whereas HUNT 3 also included question on religious attendance.

Sampling frame

Nord-Trøndelag is one of 19 counties in Norway, and is fairly representative for the rest of the country. During HUNT 3, 89.7% of the inhabitants were members of the evangelical Lutheran Church, 2.1% were members of other Christian churches, and 0.4% belonged to other religions [4]. Norwegians are registered at baptism as members of the Church of Norway.

HUNT 2 questionnaire

In HUNT 2 each person completed extensive questionnaires eliciting information on health problems. Among a wide range of topics in the first questionnaire (Q1) were education, physical activity, smoking, and anxiety and depression (measured by the Hospital Anxiety and Depression Scale (HADS)). Details of the phrasing of these questions have been described previously [58]. Educational level was categorized according to duration: ≤9 years, 10–12 years, and ≥13 years. Cigarette smoking was categorized as “current daily smoking”, “previous daily smoking”, and “never daily smoking”. Reponses to questions on physical activity were categorized according to duration and intensity of exercise per week: ≥3 hours hard physical activity, 1–2 hours hard physical activity, ≥3 hours light physical activity, 1–2 hours light physical activity and physical inactivity (0 hours). BMI was subdivided into three groups: <25 kg/m2, 25–29.9 kg/m2 and ≥30 kg/m2.

The headache questions in the second questionnaire (Q2) were designed principally to determine whether or not each person had headache and, if so, its frequency, and to diagnose migraine according to a modified version of the first version of the International Classification of Headache Disorders (ICHD-I) [9] when headache was reported. Subjects who answered “yes” to the screening question “Have you suffered from headache during the last 12 months?” were classified as having headache. Mutually exclusive diagnoses were made for migraine and non-migrainous headache [10]. Chronic daily headache (CDH) was defined as headache occurring on ≥ 15 days/month.

The validity of these questionnaire-based diagnoses was reported previously [6, 10]: for headache sensitivity was 85% and specificity 83% (kappa value 0.57); for migraine, sensitivity was 69% and specificity 89% (kappa value 0.59); for non-migraineurs, sensitivity was 61%, specificity 81% (kappa 0.43) and for CDH, sensitivity was 38%, specificity 97% (kappa 0.44).

HUNT 3 questionnaire

HUNT 3 was to a large extent a replication of HUNT 2 but included also a question on religious attendance (RA) in Q2 measured with the item “How often in the last 6 months have you been to church/prayer house?” with possible responses covering “never”, 1–6 times in the last 6 months”, “1-3 times/month”, and “more than 3 times/month”. In the prospective analysis, frequent religious attendees (fRA) were defined as those who answered “1-3 times/month” or “more than 3 times/month”. The individuals were also asked to respond to frequency of non-religious social activities using the question “How often in the last 6 months have you been to concerts, cinema and/or theatre” with similar response options. Frequent social activity attendees (fSA) were defined as those who answered “1-3 times/month” or “more than 3 times/month”.

The Q2 also included the same headache screening question that was used in HUNT 2. For the questionnaire-based status as a headache sufferer, a sensitivity of 88%, a specificity of 86%, and a kappa value of 0.70 were found [11].

Samples and procedures

In HUNT 2, 51,383 (56%) of 92,936 invited individuals answered the headache-related questions in Q2. Details of non-responders have been described previously [10]. In HUNT 3, 50,839 (54%) of the 94,194 invited adults answered Q1 and 37,383 (40%) answered the question in Q2 on RA. Details of non-responders have been described previously [11]. The mean time of follow-up was 11.3 (range 9–13) years. Among the 51,383 who answered the headache questions in HUNT 2, 6,608 had died and 3,009 had moved out of the county by the time of HUNT 3, leaving 41,766 eligible individuals for this analysis. Of these, 25,177 (60%) completed the questions regarding RA in HUNT 3 whereof 24,610 answered headache questions both in HUNT 2 and HUNT 3. The flow chart of participants in HUNT 2 and HUNT 3 is shown in Figure 1.
Figure 1

Flow diagram of the study population.

Statistical analysis

By multivariate analyses using logistic regression we estimated odds ratio (OR) with 95% confidence intervals (CI) evaluating the influence of headache status at baseline in HUNT 2 on the odds of being fRA in HUNT 3. The relationship between headache in HUNT 2 and the four RA categories was also evaluated, and these categories were treated as a single ordinal variable and incorporated in a two-sided test for trend to evaluate the probability of a linear relationship between RA categories and headache. The trend test was considered statistically significant at p < 0.05. We also evaluated potential confounding factors identified previously [5, 6, 8, 1214]: in particular age (continuous variable), gender, education level, smoking status, physical activity, body mass index, chronic musculoskeletal complaints, systolic blood pressure (SBP) and anxiety and depression measured by total HADS score (continuous variable). Subjects with incomplete data for one or several variables were included (as a separate missing category) in all analyses to reduce the impact of response bias. In supplementary analyses, we evaluated the influence of headache status in HUNT 2 and HUNT 3 on the odds of being fRA in HUNT 3. Statistical analyses were performed with the Predictive Analytics SoftWare (PASW) Statistics version 17.0 by SPSS inc., an IBM Company (Chicago, IL).

Ethics

The Norwegian Data Inspectorate, the Norwegian Board of Health, and the Regional Committee for ethics in Medical Research had approved all HUNT studies, and the Regional Committee also approved the present analysis.

Results

Demographic and clinical characteristics at baseline in HUNT 2 are given in Table 1 separated by frequency of RA in HUNT 3. Individuals who visited church/prayer house 1–3 times/month or more than 3 times/month were older than those with less frequent visits. For both sexes differences between groups were found regarding e.g. education, depression as measured by HADS, BMI and SBP. Adjustments for all these potential confounding factors were made in the multivariate analyses.
Table 1

Baseline data for the different church attendance frequencies

Variables

Never

1-6 times/last 6 months

1-3 times / month

More than 3 times/month

p

Men

     

n

4171

5249

1083

377

 

Mean age, year (SD)

46.4 (12.8)

47.0 (12.4)

54.4 (12.4)

52.4 (12.4)

P < 0.001

HADS-Aa (SD) (missingf = 770)

3.8 (3.1)

3.8 (2.9)

3.8 (3.0)

4.0 (3.0)

P = 0.612

HADS-Db (SD) (missingf = 430)

3.5 (3.0)

3.4 (2.8)

3.7 (2.9)

3.7 (2.9)

P = 0.001

HADS-totalc (SD)

7.2 (5.3)

7.2 (4.9)

7.3 (5.1)

7.6 (5.2)

P = 0.351

SBPd mean (SD) (missingf = 40)

137.5 (16.6)

136.9 (16.0)

140.7 (18.2)

138.3 (17.9)

P < 0.001

Education > 12 years (%)

24.3

24.6

18.5

24.9

P < 0.001

Physical inactivity (%)

5.2

3.8

3.9

5.8

P < 0.001

BMIe, mean (SD) (missingf = 13)

26.4 (3.4)

26.4 (3.1)

26.7 (3.2)

26.5 (3.2)

P = 0.014

Smoking (%)

27.3

21.4

17.6

16.2

P < 0.001

Women

     

n

5141

6930

1672

554

 

Mean age, year (SD)

44.4 (13.1)

45.0 (13.0)

53.5 (13.1)

52.6 (13.2)

P < 0.001

HADS-Aa (SD) (missingf = 1592)

4.4 (3.4)

4.3 (3.2)

4.4 (3.3)

4.3 (3.4)

P = 0.46

HADS-Db (SD) (missingf = 707)

3.1 (3.0)

3.0 (2.8)

3.5 (2.9)

3.2 (2.8)

P < 0.001

HADS-totc (SD)

7.4 (5.7)

7.2 (5.3)

7.8 (5.5)

7.4 (5.5)

P = 0.005

SBPd mean (SD) (missingf = 24)

130 .1 (19.7)

129.8 (18.9)

137.5 (21.7)

135.7 (22.6)

P < 0.001

Education > 12 years (%)

22.9

25.5

17.7

30.7

P < 0.001

Physical inactivity (%)

4.4

2.6

3.5

6.1

P < 0.001

BMIe, mean (SD) (missingf = 41)

25.7 (4.2)

25.8 (4.2)

26.7 (4.3)

26.9 (4.7)

P < 0.001

Smoking (%)

33.7

23.8

17.2

10.8

P < 0.001

aHospital Anxiety and Depression Scale – Anxiety score bHospital Anxiety and Depression Scale – Depression score cHADS total score (HADS-A + HADS-D) dsystolic blood pressure (mm Hg) ebody mass index fNumber of individuals with missing values are given if different from zero.

Individuals who suffered from headache at baseline in HUNT 2 were more likely to be fRA at follow-up 11 years later than headache-free (OR = 1.13, 95% CI 1.05-1.22). This relationship was more evident among men (OR = 1.18; 95% CI 1.04-1.34) than women (OR 1.11; 95% CI 1.00-1.22) (Table 2), and more evident for migraine (OR = 1.25; 95% CI 1.19-1.40) than non-migrainous headache (OR = 1.13; 95% CI 1.04-1.23).
Table 2

Odds ratio (OR) # of frequent religious attendance (FRA) in HUNT 3 according to headache status at baseline in HUNT 2

 

Total

Both genders

Men

Women

25,177

n

OR (95% CI)

n

OR (95% CI)

n

OR (95% CI)

No headache

14,510

2166

1.00 (Ref.)

1,002

1.00 (Ref)

1,164

1.00 (Ref)

Headache

10,667

1520

1.13 (1.05-1.22)

458

1.18 (1.04-1.34)

1,062

1.11 (1.00-1.22)

< 7 days/month

8,722

1,218

1.18 (1.09-1.28)

377

1.20 (1.05-1.37)

841

1.11 (1.00-1.23)

7-14 days/month

1406

217

1.30 (1.12-1.52)

52

1.17 (0.86-1.60)

165

1.24 (1.03-1.50)

> 14 days/month

539

85

1.17 (0.92-1.47)

29

1.11 (0.73-1.68)

56

1.41 (0.85-1.52)

Migraine

3,419

491

1.25 (1.19-1.40)

120

1.22 (0.99-1.50)

371

1.19 (1.04-1.36)

< 7 days/month

2,644

366

1.23 (1.10-1.38)

98

1.26 (1.04-1.53)

268

1.16 (1.01-1.44)

7-14 days/month

609

96

1.48 (1.19-1.83)

17

1.46 (1.00-2.23)

79

1.51 (1.11-1.87)

> 14 days/month

166

29

1.57 (1.08-2.28)

5

1.06 (0.44-2.57)

24

1.64 (1.08-2.48)

Non-migrainous headache

7,248

1029

1.13 (1.04-1.23)

338

1.16 (1.01-1.33)

691

1.06 (0.95-1.19)

< 7 days/month

6078

852

1.17 (1.07-1.28)

279

1.19 (1.02-1.37)

573

1.11 (0.99-1.25)

7-14 days/month

797

121

1.15 (0.93-1.41)

35

1.14 (0.79-1.66)

86

1.09 (0.83-1.37)

> 14 days/month

373

56

0.99 (0.74-1.34)

24

1.15 (0.73-1.81)

32

0.87 (0.59-1.29)

#Adjusted for age, gender, educational level and chronic musculoskeletal complaints. Other potential confounders were found to have little impact on the model.

As demonstrated by Table 2, having suffered from headache less than 15 days/month at baseline, in particular headache 7–14 days/month, predisposed to being fRA 11 years later (OR = 1.30; 95% CI 1.12-1.52). This relationship was more clearly demonstrated for migraine than non-migrainous headache. Thus, the odds of fRA was 48% increased (OR 1.48; 95% 1.19-1.83) among those with migraine 7–14 days/month at baseline, more evident for women (OR = 1.51; 95% CI 1.11-1.87) than for men (OR = 1.46; 95% CI 1.00-2.23). Individuals with non-migrainous headache < 7 days/month at baseline were more likely to be fRA at follow-up (OR = 1.17; 95% CI 1.07-1.28) than headache-free, evident for men (OR = 1.19; 95% CI 1.02-1.37) but not for women (OR = 1.11; 95% CI 0.99-1.25).

In the multivariate analyses, adjusting for known potential confounders, headache status at baseline did not influence the occurrence of being fSA (Table 3).
Table 3

Odds ratio (OR) # of frequency of visiting concerts, cinema and/or theatre (fSA) in HUNT 3 according to headache frequency at baseline in HUNT 2 (n = 25,111)

 

Total

Both genders

Men

Women

25,11

OR (95% CI)

OR (95% CI)

OR (95% CI)

No headache

14,510

1.00 (ref.)

1.00 (ref.)

1.0 (ref.)

Headache 1–6 days/month

8,722

1.09 (0.85-1.40)

0.78 (1.05-1.19)

1.28 (0.94-1.76)

Headache 7–14 days/month

146

1.08 (0.84-1.39)

0.80 (0.87-1.23)

1.25 (0.92-1.72)

Headache ≥ 15 days/month

539

1.02 (0.76-1.36)

0.80 (0.76-1.25)

1.18 (0.83-1.68)

#Adjusted for age, gender, body mass index, chronic musculoskeletal complaints, smoking, educational level, systolic blood pressure, physical activity and total HADS score.

In analyses evaluating the influence of headache status in HUNT 2 and HUNT 3, headache complaints in HUNT 2 was more important than headache status in HUNT 3 on the association with fRA (both genders merged, Table 4). Among men those with headache in both surveys were more likely to be fRA (OR = 1.22; 95% CI 1.03-1.44) than headache-free in both surveys. In addition, there was a trend of increasing headache prevalence in HUNT 2 with increasing frequency of RA, evident for both genders merged and for men (Table 5).
Table 4

Odds ratio (OR) # of frequent religious attendance (fRA) according to headache status in HUNT 2 and HUNT 3 (n = 24,610 * )

   

Frequent religious attendance (fRA)

Headache

Total number*

Number

OR

(95% CI)§

HUNT 2

HUNT 3

    

Overall

No

No

12,058

1,845

1.00

Reference

No

Yes

2,212

259

1.05

(0.91-1.21)

Yes

No

4,255

652

1.18

(1.06-1.30)

Yes

Yes

6,085

780

1.18

(1.07-1.30)

Men

No

No

6,385

866

1.00

Reference

No

Yes

975

113

1.13

(0.91-1.40)

Yes

No

1,536

216

1.16

(0.98-1.37)

Yes

Yes

1,818

221

1.22

(1.03-1.44)

Women

     

No

No

5,673

979

1.00

Reference

No

Yes

1,237

146

0.97

(0.80-1.17)

Yes

No

2,719

436

1.12

(0.98-1.27)

Yes

Yes

4,267

559

1.09

(0.96-1.23)

#Adjusted for age, gender, chronic musculoskeletal complaints and education. Other potential confounders were found to have little impact on the model.

§CI denotes confidence interval.

*Missing data: Incomplete headache data in HUNT-3 in 567 individuals.

Table 5

The relationship between headache in HUNT 2 and church attendance frequency in HUNT 3 (n = 25,073) #

Church attendance frequency

Total

Both genders

Men

Women

25,073

OR (95% CI)

OR (95% CI)

OR (95% CI)

Never

9,276

1.00 (ref.)

1.00 (ref.)

1.0 (ref.)

1-6 times last six months

12,143

1.04 (0.98-1.10)

1.07 (0.97-1.17)

1.01 (0.94-1.09)

1-3 times/month

2727

1.10 (1.00-1.21)

1.14 (0.97-1.33)

1.08 (0.96-1.22)

More than 3 times/month

927

1.27 (1.09-1.47)

1.41 (1.12-1.78)

1.19 (0.98-1.43)

P trend

 

P < 0.001

0.003

0.07

#Adjusted for age, gender, body mass index, smoking, educational level, systolic blood pressure, physical activity and total HADS score.

Discussion

To the best of our knowledge, this is the first population-based follow-up study evaluating the relationship between headache and RA, demonstrating that headache, in particular migraine, at baseline slightly increased the likelihood for being fRA 11 years later.

Previous studies evaluating the relationship between headache and RA are lacking. However, it may be of some relevance that a greater reduction in the number of headaches has been found in migrainours who practiced spiritual meditation compared to those practicing secular meditation or muscle relaxation exercises [15]. There are studies reporting that religious activities may be a coping strategy among patients with unspecified chronic pain [16]. In one study, 40% of patients with chronic pain reported that religion and spirituality had become more important in their lives [2]. Furthermore, previous research among older patients with chronic, non-cancer pain have listed analgesic medication (78%), exercise (35%), cognitive methods (37%), religious activities (21%) and activity restriction (20%) as the most common coping strategies [17]. In one small, uncontrolled study among patients with chronic pain secondary to sickle cell disease, church attendance was significantly associated with pain reduction [18]. Private religious activity (prayer/bible study) did, however, not show the same association. When both pain severity and tolerance were assessed, religious coping appeared to increase pain tolerance to a larger degree than the change in pain severity [19]. Interestingly, spirituality has in recent years established its role as a significant modulatory factor of pain transmission [20]. Using a cold pressor stress response test in healthy subjects, blood pressure, pulse and serum cortisol were less increased in religious subjects than in non-religious subjects when exposed to acute painful stress [21]. Further support of stress alleviation includes the association between RA and low blood pressure [22] and between spirituality and lower urinary cortisol excretion in chronic pain patients [23]. An interesting explanation of the association between migraine and RA may be the possibility that spirituality is a way to reduce the allostatic load (biological consequences of chronic exposure to repeated or chronic stress responses) that has been suspected in migraine and other pain conditions [24]. In support of this, weekly religious service attendance has been shown to lower the allostatic load among high-functioning elderly women, using different biomarkers in blood and urine samples [25].

In the present study, headache 1–14 days/month, in particular migraine, was associated with fRA at end of follow-up. A similar tendency was found for migraine >14 days/month, but the level of significance was not met. This may be due to the low number of subjects in these subgroups. An alternative explanation may be that in these subjects the potential benefit of attending RAs is overshadowed by the strain of attending these ceremonies.

A possible explanation of the relationship between headache and fRA could be that headache patients visit church regularly due to access to a social network [26]. On the other hand, no relationship between headache and non-religious social activities was found. Attending church may be a way of coping with the pain, but other mechanisms may also be involved, like predisposing personality traits, underlying genetic susceptibility or other factors. Whether church attendance is the cause of headache or provides relief cannot be definitely determined in this study, but based on the previously mentioned literature on the subject, the latter is most likely.

Stratifying by gender (Table 2), men tended to have higher fRA compared to women. This is an interesting finding as in American research literature women normally are more religious active and also benefit more than men from this activity [26]. The former is also the picture in Norway regarding frequency distribution of RA [4], but women seem to have a kind of a durative approach to religious activity, maintaining the same level of religiousness independent of demanding events and/or illness. Norwegian men, on the other hand, tend to activate religiousness when demanding events and/or illness occur [27, 28].

Strengths and limitations of the study

The major strengths of this study are the prospective design, a follow-up period of 11 years and the large cohort recruited from the adult population of an entire county. Furthermore, we had validated the questionnaire-based headache diagnoses [10, 11], and evaluated the understanding of RA in the HUNT study [4]. In the multivariate analyses, we were able to adjust for a large number of potential confounding factors, but the possibility of residual confounding by an unrecognized factor cannot be ruled out. Some limitations should be considered. Firstly, information about RA at baseline was lacking. However, the typical way of defining a population at risk (never visiting church in HUNT 2) is probably not appropriate. Interestingly, we found that headache status in HUNT 2 had more impact on RA in HUNT 3 than headache status in HUNT 3. This may support the notion that RA is a coping strategy of headache complaints in HUNT 2. This may also be indicated by the fact that a dose-relationship was found between headache in HUNT 2 and frequency of RA in HUNT 3. Secondly, there was a relatively low participation rate (56%) at baseline in HUNT 2 and to the question regarding RA in HUNT 3 (60%) so that a selection bias cannot be ruled out. Despite this, the wide scope of the HUNT studies (they addressed a broad range of medical disorders) made biases with relevance to headache or RA unlikely. Thirdly, we had only one measure of religious attendance frequency. However, RA is used internationally as a measure of religiousness [29]. Fourthly, statistical power and capacity to detect significant differences, was lower for men than for women; and particularly for CDH due to the low number of subjects in these subgroups.

Conclusion

A relationship between headache at baseline and frequently attaining religious activities was demonstrated in a large population and the association was somewhat more evident for migraine than for non-migrainous headache.

Declarations

Acknowledgements

The Nord-Trøndelag Health Study (HUNT) is a collaboration between the HUNT Research Centre, Faculty of Medicine at the Norwegian University of Science and Technology (NTNU), the Norwegian Institute of Public Health and the Nord-Trøndelag County Council.

Authors’ Affiliations

(1)
Norwegian National Headache Centre, Trondheim University Hospital
(2)
Department of Neurosciences, Norwegian University of Science and Technology
(3)
MF Norwegian School of Theology
(4)
Department of Neurology, Danish Headache Centre, Glostrup Hospital
(5)
University of Copenhagen
(6)
Department of Neurology, Helsinki University Hospital
(7)
Department of Pharmacology and Clinical Neuroscience, Östersund Hospital
(8)
Umeå University
(9)
Department of Neurology and FORMI, Oslo University Hospital and University of Oslo
(10)
Department of Neurology, Trondheim University Hospital

References

  1. Rippentrop EA, Altmaier EM, Chen JJ, Found EM, Keffala VJ: The relationship between religion/spirituality and physical health, mental health, and pain in a chronic pain population. Pain 2005, 116(3):311–321. doi:10.1016/j.pain.2005.05.008 10.1016/j.pain.2005.05.008View ArticlePubMedGoogle Scholar
  2. Dezutter J, Wachholtz A, Corveleyn J: Prayer and pain: the mediating role of positive re-appraisal. J Behav Med 2011, 34(6):542–549. doi:10.1007/s10865–011–9348–2 10.1007/s10865-011-9348-2View ArticlePubMedGoogle Scholar
  3. Stovner LJ, Hagen K: Prevalence, burden, and cost of headache disorders. Curr Opin Neurol 2006, 19(3):281–285. doi:10.1097/01.wco.0000227039.16071.92 10.1097/01.wco.0000227039.16071.92View ArticlePubMedGoogle Scholar
  4. Sorensen T, Lien L, Holmen J, Danbolt LJ: Distribution and understanding of items of religiousness in the Nord-Trøndelag health study, Norway. Ment Health Relig Cult 2011, 2011: 1–15. doi:10.1080/13674676.2011.604868Google Scholar
  5. Aamodt AH, Stovner LJ, Hagen K, Brathen G, Zwart J: Headache prevalence related to smoking and alcohol use. The Head-HUNT Study. Eur J Neurol 2006, 13(11):1233–1238. 10.1111/j.1468-1331.2006.01492.xView ArticlePubMedGoogle Scholar
  6. Hagen K, Vatten L, Stovner LJ, Zwart JA, Krokstad S, Bovim G: Low socio-economic status is associated with increased risk of frequent headache: a prospective study of 22718 adults in Norway. Cephalalgia 2002, 22(8):672–679. 10.1046/j.1468-2982.2002.00413.xView ArticlePubMedGoogle Scholar
  7. Zwart JA, Dyb G, Hagen K, Odegard KJ, Dahl AA, Bovim G, Stovner LJ: Depression and anxiety disorders associated with headache frequency: the Nord-Trondelag health study. Eur J Neurol 2003, 10(2):147–152. 10.1046/j.1468-1331.2003.00551.xView ArticlePubMedGoogle Scholar
  8. Varkey E, Hagen K, Zwart JA, Linde M: Physical activity and headache: results from the Nord-Trondelag health study (HUNT). Cephalalgia 2008, 28(12):1292–1297. 10.1111/j.1468–2982.2008.01678.x 10.1111/j.1468-2982.2008.01678.xView ArticlePubMedGoogle Scholar
  9. Headache Classification Commitee of the International Headache Society: Classification and diagnostic criteria for headache disorders, cranial neuralgia and facial pain. Cephalalgia 1988, 8(7):1–96.Google Scholar
  10. Hagen K, Zwart JA, Vatten L, Stovner LJ, Bovim G: Head-HUNT: validity and reliability of a headache questionnaire in a large population-based study in Norway. Cephalalgia 2000, 20(4):244–251. 10.1046/j.1468-2982.2000.00049.xView ArticlePubMedGoogle Scholar
  11. Hagen K, Zwart JA, Aamodt AH, Nilsen KB, Brathen G, Helde G, Stjern M, Tronvik EA, Stovner LJ: The validity of questionnaire-based diagnoses: the third Nord-Trondelag health study 2006–2008. J Headache Pain 2010, 11(1):67–73. doi:10.1007/s10194–009–0174–7 10.1007/s10194-009-0174-7PubMed CentralView ArticlePubMedGoogle Scholar
  12. Tronvik E, Stovner LJ, Hagen K, Holmen J, Zwart JA: High pulse pressure protects against headache: prospective and cross-sectional data (HUNT study). Neurology 2008, 70(16):1329–1336. 10.1212/01.wnl.0000309222.79376.57View ArticlePubMedGoogle Scholar
  13. Tronvik E, Zwart JA, Hagen K, Dyb G, Holmen TL, Stovner LJ: Association between blood pressure measures and recurrent headache in adolescents: cross-sectional data from the HUNT-youth study. J Headache Pain 2011, 12(3):347–353. 10.1007/s10194–011–0304-x 10.1007/s10194-011-0304-xPubMed CentralView ArticlePubMedGoogle Scholar
  14. Zwart JA, Dyb G, Hagen K, Odegard KJ, Dahl AA, Bovim G, Stovner LJ: Depression and anxiety disorders associated with headache frequency: the Nord-Trondelag health study. Eur J Neurol 2003, 20(10):147–152.View ArticleGoogle Scholar
  15. Wachholtz AB, Pargament KI: Migraines and meditation: does spirituality matter? J Behav Med 2008, 31(4):351–366. doi:10.1007/s10865–008–9159–2 10.1007/s10865-008-9159-2View ArticlePubMedGoogle Scholar
  16. Baetz M, Bowen R: Chronic pain and fatigue: associations with religion and spirituality. Pain Res Manag 2008, 13(5):383–388.PubMed CentralPubMedGoogle Scholar
  17. Barry LC, Kerns RD, Guo Z, Duong BD, Iannone LP, Reid MC: Identification of strategies used to cope with chronic pain in older persons receiving primary care from a veterans affairs medical center. J Am Geriatr Soc 2004, 52(6):950–956. doi:10.1111/j.1532–5415.2004.52263.x 10.1111/j.1532-5415.2004.52263.xView ArticlePubMedGoogle Scholar
  18. Harrison MO, Edwards CL, Koenig HG, Bosworth HB, Decastro L, Wood M: Religiosity/spirituality and pain in patients with sickle cell disease. J Nerv Ment Dis 2005, 193(4):250–257. 10.1097/01.nmd.0000158375.73779.50View ArticlePubMedGoogle Scholar
  19. Wachholtz AB, Pearce MJ, Koenig H: Exploring the relationship between spirituality, coping, and pain. J Behav Med 2007, 30(4):311–318. doi:10.1007/s10865–007–9114–7 10.1007/s10865-007-9114-7View ArticlePubMedGoogle Scholar
  20. Sulmasy DP: A biopsychosocial-spiritual model for the care of patients at the end of life. Gerontologist 2002, 42(3):24–33.View ArticlePubMedGoogle Scholar
  21. Mulligan T, Skidmore FM: Religiosity may alter the cold pressor stress response. Explore 2009, 5(6):345–346. doi:10.1016/j.explore.2009.08.002 10.1016/j.explore.2009.08.002View ArticlePubMedGoogle Scholar
  22. Sorensen T, Danbolt LJ, Lien L, Koenig HG, Holmen J: The relationship between religious attendance and blood pressure: the HUNT study, Norway. Int J Psychiatry Med 2011, 42(1):13–28. 10.2190/PM.42.1.bView ArticlePubMedGoogle Scholar
  23. Carrico AW, Ironson G, Antoni MH, Lechner SC, Duran RE, Kumar M, Schneiderman N: A path model of the effects of spirituality on depressive symptoms and 24-h urinary-free cortisol in HIV-positive persons. J Psychosom Res 2006, 61(1):51–58. doi:10.1016/j.jpsychores.2006.04.005 10.1016/j.jpsychores.2006.04.005View ArticlePubMedGoogle Scholar
  24. Borsook D, Maleki N, Becerra L, McEwen B: Understanding migraine through the lens of maladaptive stress responses: a model disease of allostatic load. Neuron 2012, 73(2):219–234. doi:10.1016/j.neuron.2012.01.001 10.1016/j.neuron.2012.01.001View ArticlePubMedGoogle Scholar
  25. Maselko J, Kubzansky L, Kawachi I, Seeman T, Berkman L: Religious service attendance and allostatic load among high-functioning elderly. Psychosom Med 2007, 69(5):464–472. doi:10.1097/PSY.0b013e31806c7c57 10.1097/PSY.0b013e31806c7c57View ArticlePubMedGoogle Scholar
  26. Koenig HGKD, Carson VB: Handbook of Religion and Health. 2nd edition. New York: Oxford University Press; 2012.Google Scholar
  27. Sorensen T, Dahl AA, Fossaa SD, Holmen J, Lien L, Danbolt LJ: Seeking God’s Help Associated with Life Satisfaction and Disease-spesific Quality of Life in Cancer Patients? The HUNT Study. Norway: Archive for the Psychology of Religion Accepted for publication; 2012.Google Scholar
  28. Sorensen T, Danbolt LJ, Holmen J, Koenig HG, Lien L: Does death of a family member moderate the relationship between religious attendance and depressive symptoms? the HUNT study, Norway. Depress Res Treat 2012, 2012: 396347. doi:10.1155/2012/396347PubMed CentralPubMedGoogle Scholar
  29. Hill PC, Pargament KI: Advances in the conceptualization and measurement of religion and spirituality: Implications for physical and mental health research. Am Psychol 2003, 58(1):64–74.View ArticlePubMedGoogle Scholar

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