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. 2016 Feb 18;114(7):813–818. doi: 10.1038/bjc.2016.9

Long working hours and cancer risk: a multi-cohort study

Katriina Heikkila 1,2,*, Solja T Nyberg 2, Ida E H Madsen 3, Ernest de Vroome 4, Lars Alfredsson 5,6, Jacob J Bjorner 3, Marianne Borritz 7, Hermann Burr 8, Raimund Erbel 9, Jane E Ferrie 10,11, Eleonor I Fransson 6,12,13, Goedele A Geuskens 4, Wendela E Hooftman 4, Irene L Houtman 4, Karl-Heinz Jöckel 14, Anders Knutsson 15, Markku Koskenvuo 16, Thorsten Lunau 17, Martin L Nielsen 18, Maria Nordin 13,19, Tuula Oksanen 2, Jan H Pejtersen 20, Jaana Pentti 2, Martin J Shipley 10, Andrew Steptoe 10, Sakari B Suominen 21,22,23, Töres Theorell 13, Jussi Vahtera 2,21,24, Peter J M Westerholm 25, Hugo Westerlund 13, Nico Dragano 17, Reiner Rugulies 3,26, Ichiro Kawachi 27, G David Batty 10,28, Archana Singh-Manoux 10,29, Marianna Virtanen 2, Mika Kivimäki 2,10,30; for the IPD-Work Consortium
PMCID: PMC4984872  PMID: 26889978

Abstract

Background:

Working longer than the maximum recommended hours is associated with an increased risk of cardiovascular disease, but the relationship of excess working hours with incident cancer is unclear.

Methods:

This multi-cohort study examined the association between working hours and cancer risk in 116 462 men and women who were free of cancer at baseline. Incident cancers were ascertained from national cancer, hospitalisation and death registers; weekly working hours were self-reported.

Results:

During median follow-up of 10.8 years, 4371 participants developed cancer (n colorectal cancer: 393; n lung cancer: 247; n breast cancer: 833; and n prostate cancer: 534). We found no clear evidence for an association between working hours and the overall cancer risk. Working hours were also unrelated the risk of incident colorectal, lung or prostate cancers. Working ⩾55 h per week was associated with 1.60-fold (95% confidence interval 1.12–2.29) increase in female breast cancer risk independently of age, socioeconomic position, shift- and night-time work and lifestyle factors, but this observation may have been influenced by residual confounding from parity.

Conclusions:

Our findings suggest that working long hours is unrelated to the overall cancer risk or the risk of lung, colorectal or prostate cancers. The observed association with breast cancer would warrant further research.

Keywords: Breast cancer, colorectal cancer, lung cancer, prostate cancer, working hours

Epidemiological research suggests that working long hours has a detrimental effect on health. Extended working hours have been reported as being associated with an increased incidence of coronary heart disease and stroke (Kang et al, 2012; Virtanen et al, 2012; Kivimaki et al, 2015a) pre-term delivery (van Melick et al, 2014) and, in manual occupations, type 2 diabetes (Kivimaki et al, 2015b), as well as a high prevalence of anxiety, depression, sleeping difficulties and accidental injuries at work. (Dembe et al, 2005; Bannai and Tamakoshi, 2014). The relationship between long working hours and cancer, however, is unclear.

Long working hours could impact on cancer risk via their association with lifestyle-related exposures. Observational evidence suggests that working longer than recommended hours is linked to many behavioural cancer risk factors, such as excessive alcohol intake (Virtanen et al, 2015) and physical inactivity (Kirk and Rhodes, 2011; Angrave et al, 2015), possibly because individuals feel that they lack time to exercise because they spend extensive time at work (Escoto et al, 2012). As far as we are aware, the association between long working hours and incident cancer has been examined in only one previous investigation, which had inconclusive findings: in that prospective cohort study the association between working 45 h or longer per week and breast cancer was imprecisely estimated (hazard ratio (HR): 0.93, 95% confidence interval (CI): 0.54, 1.58) and no other cancer outcomes were examined (Nielsen et al, 2008).

To address this evidence gap, we examined the relationship between weekly working hours and the overall incident cancer as well as incident colorectal, lung, breast and prostate cancers using individual participant data from 116 000 men and women from 12 prospective cohort studies from six European countries.

Materials and Methods

Studies

The 12 studies in our analyses were conducted between 1992 and 2004 in Denmark, Finland, Germany, Sweden, The Netherlands and UK. All were a part of the Individual-Participant-Data Meta-analysis of Working Populations (IPD-Work) Consortium, a collaborative research effort to investigate the health impact of work-related exposures (Kivimaki et al, 2012). Details of each study's design, recruitment of participants, data collection and ethics committee approval are provided in Supplementary eAppendix 1.

Participants

Our analyses were based on 116 462 men and women who were working and free of cancer at study baseline, whose records were linked to register-based information on incident cancers and who had complete data available on covariates (Supplementary eAppendix 1 and Supplementary Table S1).

Exposures and outcomes

Weekly working hours were ascertained from baseline self-report questions on usual weekly working hours and defined as the total number of hours in the main job and any secondary jobs (Supplementary eAppendix 2 and Supplementary Table S2).

Cancer events were identified from national cancer, hospitalisation and death registers in all studies apart from one (for details, see Supplementary eAppendix 2). The date of the cancer event was defined as the date of diagnosis or hospital admission due to cancer, whichever was earlier. Cancer cases were categorised according to the type and time of diagnosis of their first cancer. We excluded individuals whose first cancer record came from their death certificate (n=10), as the date of diagnosis for these cancers was uncertain. Codes for the incident cancer events were harmonised using ICD-10 (International Classification of Diseases, version 10) as any cancer (ICD-10 codes C00-C97), colorectal (C18-C20), lung (C34), female breast (C50) and prostate (C61) cancers.

Potential confounders and mediators

Details of the selection and ascertainment of the covariates included in our models are provided in Supplementary eAppendix 2. Briefly, potential confounders were age, sex, socioeconomic position, shift work and night-time work. Potential mediators were smoking, alcohol intake and body mass index (BMI). All covariates, measured at baseline, were harmonised across the studies as reported previously (Heikkila et al, 2012; Heikkilä et al, 2012; Nyberg et al, 2012, 2014).

Statistical analysis

Weekly working hours were analysed as a categorical exposure: <35 h, 35–40 h (reference category: standard working hours for the majority of the workforce in Europe), 41–48 h (the upper limit for the European Union Working Time Directive), 49–54 h and ⩾55 h. Incident cancers (any cancer, colorectal, lung, female breast and prostate cancers) were analysed as binary outcomes. Each participant was followed-up from the date of their baseline assessment to the earliest of the following: incident cancer, death or the end of the registry follow-up. We modelled the associations between working hours and each cancer outcome in each study using Cox proportional hazards regression with the participant's age (i.e., time since birth) as the time scale in the model. Study-specific results were combined using random effects meta-analyses. All statistical analyses were conducted using Stata MP 13 (Stata Corporation, College Station, TX, USA) bar the study-specific analyses in the Danish studies, which were conducted using SAS 9.3 (SAS Institute Inc., Cary, NC, USA) and POLS, which were conducted using SPSS 20.0 (SPSS Inc., Chicago, IL, USA).

Results

The characteristics of the 116 462 participants are summarised in Table 1. Overall, these men and women were aged 15–73 at baseline and the majority worked a standard 35–40 h per week, with the study-specific proportions varying from 31 to 71%. During a follow-up ranging from 4 to 22 years (median of study-specific medians: 10.8), 4371 individuals were diagnosed with cancer. Of these, 393 men and women had colorectal cancer and 247 had lung cancer; 833 women developed breast cancer and 534 men prostate cancer.

Table 1. Participant characteristics.

              Working hours Incident cancer
Study Baseline Year Country N Participantsa Follow-up (years) Median N (%) Men Age Mean (s.d.) Category N (%) Type N
WOLF Stockholm 1992 Sweden 5363 14.8 3117 (58.1) 41.3 (11.0) <35 35–40 41–48 49–54 ⩾55 281 (6.2) 2397 (52.7) 1666 (36.6) 152 (3.3) 55 (1.2) Any Colorectal Lung Breast Prostate 468 51 28 61 83
Whitehall II 1992–1993 UK 7341 22.6 5096 (69.4) 48.8 (5.7) <35 35–40 41–48 49–54 ⩾55 229 (3.1) 3865 (52.7) 1458 (19.9) 1057 (14.4) 732 (10.0) Any Colorectal Lung Breast Prostate 953 96 38 146 175
WOLF Norrland 1996 Sweden 4551 11.8 3838 (84.3) 43.9 (10.2) <35 35–40 41–48 49–54 ⩾55 527 (9.8) 2614 (48.7) 1611 (30.0) 385 (7.2) 226 (4.2) Any Colorectal Lung Breast Prostate 255 32 18 17 66
IPAW 1996–1997 Denmark 1989 14.0 661 (33.2) 41.1 (10.4) <35 35–40 41–48 49–54 ⩾55 648 (32.6) 1244 (62.5) 77 (3.9) 14 (0.7) 6 (0.3) Any Colorectal Lung Breast Prostate 142 12 18 38 8
COPSOQ-I 1997 Denmark 1788 13.1 928 (51.9) 40.5 (10.6) <35 35–40 41–48 49–54 ⩾55 342 (19.1) 974 (54.5) 249 (13.9) 113 (6.3) 110 (6.2) Any Colorectal Lung Breast Prostate 105 11 7 24 4
HeSSup 1998 Finland 15 888 8.0 7151 (45.0) 39.5 (10.2) <35 35–40 41–48 49–54 ⩾55 1882 (11.9) 8511 (53.6) 2912 (18.3) 1176 (7.4) 1407 (8.9) Any Colorectal Lung Breast Prostate 401 25 9 109 39
PUMA 1999 Denmark 1740 11.1 307 (17.6) 42.6 (10.1) <35 35–40 41–48 49–54 ⩾55 557 (32.0) 1013 (58.2) 120 (6.9) 33 (1.9) 17 (1.0) Any Colorectal Lung Breast Prostate 105 12 10 30 6
DWECS 2000 Denmark 5439 10.5 2924 (53.8) 41.6 (11.0) <35 35–40 41–48 49–54 ⩾55 884 (16.3) 3002 (55.2) 788 (14.5) 330 (6.1) 435 (8.0) Any Colorectal Lung Breast Prostate 227 21 19 49 23
FPS 2000 Finland 42 794 4.5 8528 (19.9) 44.4 (9.4) <35 35–40 41–48 49–54 ⩾55 3413 (8.0) 30 475 (71.2) 6108 (14.3) 1440 (3.4) 1358 (3.2) Any Colorectal Lung Breast Prostate 860 37 27 310 44
HNR 2000 Germany 1833 9.2 1074 (58.6) 53.5 (5.1) <35 35–40 41–48 49–54 ⩾55 473 (25.8) 559 (30.5) 289 (15.8) 206 (11.2) 306 (16.7) Any Colorectal Lung Breast Prostate 150 8 17 21 25
POLS 1997–2002 Netherlands 24 417 9.9 14 382 (58.9) 38 (11.1) <35 35–40 41–48 49–54 ⩾55 8253 (33.8) 12 331 (50.5) 1001 (4.1) 1001 (4.1) 1831 (7.5) Any Colorectal Lung Breast Prostate 624 79 49 10 58
COPSOQ-II 2004 Denmark 3319 6.0 1585 (47.7) 42.6 (10.2) <35 35–40 41–48 49–54 ⩾55 528 (15.9) 1748 (52.7) 658 (19.8) 212 (6.4) 173 (5.2) Any Colorectal Lung Breast Prostate 81 9 7 18 3
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Abbreviations: COPSOQ-I=Copenhagen Psychosocial Questionnaire I; COPSOQ-II=Copenhagen Psychosocial Questionnaire II; DWECS=Danish Work Environment Cohort Study; FPS=Finnish Public Sector Study; HeSSup=Health and Social Support Study; HNR=Heinz-Nixdorf Recall Study; IPAW=Intervention Project on Absence and Well-being; POLS=Permanent Onderzoek Leefsituatie; WOLF=Work, Lipids and Fibrinogen.

a

With complete data on weekly working hours, cancer outcomes, age and sex, and free of cancer at study baseline and within the first year of follow-up.

The associations between weekly working hours and incident cancers are shown in Figure 1. The study-specific estimates are provided in Supplementary eAppendices 3–7. We observed no association between longer than recommended weekly working hours and overall cancer risk, although working <35 h per week was associated with a slightly reduced average risk of any incident cancer (multivariable-adjusted random effects HR: 0.86, 95% CI: 0.76, 0.98). Our meta-analyses provided no clear evidence for an association between weekly working hours and the risk of colorectal or lung cancers. Working hours were also generally unrelated to incident prostate cancer, though the risk was slightly elevated among men who worked 49–54 h per week (multivariable-adjusted HR: 1.39, 95% CI: 1.02, 1.89). There was negligible heterogeneity among the study-specific estimates for these cancer outcomes. Generally, adjustment for work-related factors (socioeconomic position, night-time work and shift work) or lifestyle factors (BMI, smoking or alcohol intake) had little impact on the estimates.

Figure 1.

Figure 1

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Associations of weekly working hours with incident cancer.

Working 55 h or longer was associated with an increased risk of female breast cancer in the age-adjusted analyses (HR: 1.54, 95% CI: 1.09, 2.18). This association remained after additional adjustment for socioeconomic position; night-time work, shift work (HR: 1.49, 95% CI: 1.05, 2.11) and BMI; smoking; and alcohol intake (HR: 1.60, 95% CI: 1.12, 2.29). The study-specific estimates were similar to one another in direction and magnitude (I2: <0%).

Discussion

In our study of over 116 000 European men and women and up to 4371 incident cancer cases, we found no evidence for an association between long weekly working hours and the overall cancer incidence, although those working <35 h per week had a slightly reduced risk. No evidence was observed for an association between weekly working hours and the risks of colorectal, lung or prostate cancers. Working 55 h or longer per week was associated with an increased breast cancer risk (multivariable-adjusted random effects HR: 1.60, 95% CI: 1.12, 2.29). Overall, there was little heterogeneity among the study-specific association estimates and adjustment for work characteristics, socioeconomic position, obesity and lifestyle factors did not markedly change these.

To our knowledge, ours is the largest investigation of this topic to-date and the first to examine the association of working hours with the overall cancer risk as well as the specific risks of common cancers. In the IPD-Work Consortium we have previously reported associations of work-related stress exposures with cardiovascular disease outcomes but not with incident cancers (Kivimaki et al, 2012; Heikkila et al, 2013; Nyberg et al, 2013; Nyberg et al, 2014; Fransson et al, 2015; Kivimaki et al, 2015a; Kivimaki et al, 2015b), findings that the current observations seem to support. Our findings are also in keeping with the only previous study of this topic. Working 45 h or longer per week was reported being unrelated to breast cancer risk among female Danish nurses aged 44 years and over (HR: 0.93, 95% CI: 0.54, 1.58) (Nielsen et al, 2008). The categorisation of weekly working hours as well as the reference category in this study were different from ours, and the estimates thus not directly comparable, but the previously published null-association is compatible with our estimates for similar exposure categories (41–48 h per week, HR: 0.94, 95% CI: 0.68, 1.31) and 49–54 h per week, HR: 0.78, 95% CI: 0.51, 1.18). As no other cancer outcomes were examined in the Danish Nurse Cohort study, we were unable to gauge the compatibility of the rest of our findings with previous research.

The association of working 55 h or longer per week with incident breast cancer should be interpreted with caution: no trend in risk was observed across the working-hour categories and this association could thus have been observed by chance or it could relate to the residual confounding. The observed association between these extensively long working hours and incident breast cancer was not markedly influenced by adjustment for lifestyle factors, shift work or night-time work, the latter of which has been suggested to increase breast cancer risk by disrupting the body's circadian rhythms and altering the nocturnal melatonin production, thus impacting on the development of hormone-related breast cancers. However, the evidence for the relationship between night-time work and breast cancer has been recently summarised in systematic reviews and meta-analyses, which showed that the associations reported in case–control studies were not corroborated by prospective evidence. (Ijaz et al, 2013; Jia et al, 2013; Kamdar et al, 2013; Wang et al, 2013). One important factor that could have a role in the relationship between working hours and breast cancer, and would merit further research, is parity (Ewertz et al, 1990; Collaborative Group on Hormonal Factors in Breast Cancer, 2002): it could be a confounder or a mediator, as women who work long hours may have fewer children because of childcare demands or cost, or women with children may restrict their working hours. Other potentially relevant exposures include age at first birth, menopausal status, use of hormone replacement therapy and sedentary behaviour at work (Schmid and Leitzmann, 2014). However, as we had no harmonised data on these factors, we were unable to investigate them further.

It is unclear what the slightly reduced overall cancer risk among men and women working fewer than 35 h per week relates to (multivariable-adjusted HR: 0.86, 95% CI: 0.75, 0.98). As the association between working hours and incident prostate cancer was not consistent across the exposure categories, we suspect that the slightly elevated risk observed in men who worked 49–54 h per week is a chance finding.

As our investigation was based on previously unpublished data, the findings presented here have not been influenced by publication bias. Our analyses were based on a relatively large number of participants from several countries, and with occupations ranging from manual labour to managerial positions, making our findings widely generalisable to the working populations in the Northern and Western Europe. However, at the same time this limits the generalisability of our observations to other continents or low-income countries.

In conclusion, our findings suggest that long working hours are unlikely to be associated with the overall cancer risk or the specific risks of colorectal, lung or prostate cancers. The observed association between very long working hours and increased breast cancer risk should be interpreted cautiously and would warrant further research.

Acknowledgments

We thank Ross J Harris, from Public Health England, for help and advice with Stata graphics. This work was supported by the European Union New OSH ERA research programme; the Finnish Work Environment Fund, Finland; Swedish Research Council for Health, Working Life and Welfare, Sweden; the German Social Accident Insurance, Germany (the AeKo-Project); Danish National Research Centre for the Working Environment, Denmark; the Academy of Finland; the BUPA Foundation (grant 22094477); and the Ministry of Social Affairs and Employment, The Netherlands. Mika Kivimaki is supported by the Medical Research Council (K013351) and Economic and Social Research Council, UK, and the US National Institutes of Health (R01HL036310; R01AG034454) and NordForsk, the Nordic Programme on Health and Welfare. Details of the funding bodies for each participating study are provided on each study's website. The funders had no role in the study design, data collection and analysis, decision to publish or preparation of the manuscript.

The authors declare no conflict of interest.

Footnotes

Supplementary Information accompanies this paper on British Journal of Cancer website (http://www.nature.com/bjc)

Supplementary Material

Supplementary Information
Click here for additional data file. (965.5KB, pdf)

References

  1. Angrave D, Charlwood A, Wooden M (2015) Long working hours and physical activity. J Epidemiol Community Health 69: 738–744. [DOI] [PubMed] [Google Scholar]
  2. Bannai A, Tamakoshi A (2014) The association between long working hours and health: a systematic review of epidemiological evidence. Scand J Work Environ Health 40: 5–18. [DOI] [PubMed] [Google Scholar]
  3. Collaborative Group on Hormonal Factors in Breast Cancer (2002) Breast cancer and breastfeeding: collaborative reanalysis of individual data from 47 epidemiological studies in 30 countries, including 50302 women with breast cancer and 96973 women without the disease. Lancet 360: 187–195. [DOI] [PubMed] [Google Scholar]
  4. Dembe AE, Erickson JB, Delbos RG, Banks SM (2005) The impact of overtime and long work hours on occupational injuries and illnesses: new evidence from the United States. Occup Environ Med 62: 588–597. [DOI] [PMC free article] [PubMed] [Google Scholar]
  5. Escoto KH, Laska MN, Larson N, Neumark-Sztainer D, Hannan PJ (2012) Work hours and perceived time barriers to healthful eating among young adults. Am J Health Behav 36: 786–796. [DOI] [PMC free article] [PubMed] [Google Scholar]
  6. Ewertz M, Duffy SW, Adami HO, Kvale G, Lund E, Meirik O, Mellemgaard A, Soini I, Tulinius H (1990) Age at first birth, parity and risk of breast cancer: a meta-analysis of 8 studies from the Nordic countries. Int J Cancer 46: 597–603. [DOI] [PubMed] [Google Scholar]
  7. Fransson EI, Nyberg ST, Heikkila K, Alfredsson L, Bjorner JB, Borritz M, Burr H, Dragano N, Geuskens GA, Goldberg M, Hamer M, Hooftman WE, Houtman IL, Joensuu M, Jokela M, Knutsson A, Koskenvuo M, Koskinen A, Kumari M, Leineweber C, Lunau T, Madsen IE, Hanson LL, Nielsen ML, Nordin M, Oksanen T, Pentti J, Pejtersen JH, Rugulies R, Salo P, Shipley MJ, Steptoe A, Suominen SB, Theorell T, Toppinen-Tanner S, Vahtera J, Virtanen M, Vaananen A, Westerholm PJ, Westerlund H, Zins M, Britton A, Brunner EJ, Singh-Manoux A, Batty GD, Kivimaki M (2015) Job strain and the risk of stroke: an individual-participant data meta-analysis. Stroke 46: 557–559. [DOI] [PubMed] [Google Scholar]
  8. Heikkila K, Nyberg ST, Fransson EI, Alfredsson L, de Bacquer D, Bjorner JB, Bonenfant S, Borritz M, Burr H, Clays E, Casini A, Dragano N, Erbel R, Geuskens GA, Goldberg M, Hooftman WE, Houtman IL, Joensuu M, Jöckel K-H, Kittel F, Knutsson A, Koskenvuo M, Koskinen A, Kouvonen A, Leineweber C, Lunau T, Madsen IE, Magnusson Hanson LL, Marmot MG, Nielsen ML, Nordin M, PENTTI J, Salo P, Rugulies R, Steptoe A, Siegrist J, Suominen S, Vahtera J, Virtanen M, Väänänen A, Westerholm P, Westerlund H, Zins M, Theorell T, Hamer M, Ferrie JE, Singh-Manoux A, Batty GD, Kivimäki M (2012) Job strain and alcohol intake: a collaborative meta-analysis of individual-participant data from 140 000 men and women. PLoS One 7: e40101. [DOI] [PMC free article] [PubMed] [Google Scholar]
  9. Heikkilä K, Nyberg ST, Fransson EI, Alfredsson L, de Bacquer D, Bjorner JB, Bonenfant S, Borritz M, Burr H, Clays E, Casini A, Dragano N, Erbel R, Geuskens GA, Goldberg M, Hooftman WE, Houtman IL, Joensuu M, Jöckel K-H, Kittel F, Knutsson A, Koskenvuo M, Koskinen A, Kouvonen A, Leineweber C, Lunau T, Madsen IE, Magnusson Hanson LL, Marmot MG, Nielsen ML, Nordin M, Pentti J, Salo P, Rugulies R, Steptoe A, Siegrist J, Suominen S, Vahtera J, Virtanen M, Väänänen A, Westerholm P, Westerlund H, Zins M, Theorell T, Hamer M, Ferrie JE, Singh-Manoux A, Batty GD, Kivimäki M (2012) Job strain and tobacco smoking: an individual-participant data meta-analysis of 166 130 adults in 15 European studies. PLoS One 7: e35463. [DOI] [PMC free article] [PubMed] [Google Scholar]
  10. Heikkila K, Nyberg ST, Theorell T, Fransson EI, Alfredsson L, Bjorner JB, Bonenfant S, Borritz M, Bouillon K, Burr H, Dragano N, Geuskens GA, Goldberg M, Hamer M, Hooftman WE, Houtman IL, Joensuu M, Knutsson A, Koskenvuo M, Koskinen A, Kouvonen A, Madsen IE, Magnusson Hanson LL, Marmot MG, Nielsen ML, Nordin M, Oksanen T, Pentti J, Salo P, Rugulies R, Steptoe A, Suominen S, Vahtera J, Virtanen M, Vaananen A, Westerholm P, Westerlund H, Zins M, Ferrie JE, Singh-Manoux A, Batty GD, Kivimaki M (2013) Work stress and cancer risk: a meta-analysis of 5700 incident cancer events in 116 000 European men and women. BMJ 346: f165. [DOI] [PMC free article] [PubMed] [Google Scholar]
  11. Ijaz S, Verbeek J, Seidler A, Lindbohm ML, Ojajarvi A, Orsini N, Costa G, Neuvonen K (2013) Night-shift work and breast cancer – a systematic review and meta-analysis. Scand J Work Environ Health 39: 431–447. [DOI] [PubMed] [Google Scholar]
  12. Jia Y, Lu Y, Wu K, Lin Q, Shen W, Zhu M, Huang S, Chen J (2013) Does night work increase the risk of breast cancer? A systematic review and meta-analysis of epidemiological studies. Cancer Epidemiol 37: 197–206. [DOI] [PubMed] [Google Scholar]
  13. Kamdar BB, Tergas AI, Mateen FJ, Bhayani NH, Oh J (2013) Night-shift work and risk of breast cancer: a systematic review and meta-analysis. Breast Cancer Res Treat 138: 291–301. [DOI] [PubMed] [Google Scholar]
  14. Kang MY, Park H, Seo JC, Kim D, Lim YH, Lim S, Cho SH, Hong YC (2012) Long working hours and cardiovascular disease: a meta-analysis of epidemiologic studies. J Occup Environ Med 54: 532–537. [DOI] [PubMed] [Google Scholar]
  15. Kirk MA, Rhodes RE (2011) Occupation correlates of adults' participation in leisure-time physical activity: a systematic review. Am J Prev Med 40: 476–485. [DOI] [PubMed] [Google Scholar]
  16. Kivimaki M, Jokela M, Nyberg ST, Singh-Manoux A, Fransson EI, Alfredsson L, Bjorner JB, Borritz M, Burr H, Casini A, Clays E, de Bacquer D, Dragano N, Erbel R, Geuskens GA, Hamer M, Hooftman WE, Houtman IL, Jockel KH, Kittel F, Knutsson A, Koskenvuo M, Lunau T, Madsen IE, Nielsen ML, Nordin M, Oksanen T, Pejtersen JH, Pentti J, Rugulies R, Salo P, Shipley MJ, Siegrist J, Steptoe A, Suominen SB, Theorell T, Vahtera J, Westerholm PJ, Westerlund H, O'Reilly D, Kumari M, Batty GD, Ferrie JE, Virtanen M IPD-Work Consortium (2015. a) Long working hours and risk of coronary heart disease and stroke: a systematic review and meta-analysis of published and unpublished data for 603,838 individuals. Lancet 386: 1739–1746. [DOI] [PubMed] [Google Scholar]
  17. Kivimaki M, Nyberg ST, Batty GD, Fransson E, Heikkila K, Alfredsson L, Bjorner JB, Borritz M, Burr H, Casini A, Clays E, de Bacquer D, Dragano N, Ferrie JE, Geuskens GA, Goldberg M, Hamer M, Hooftman WE, Houtman IL, Joensuu M, Jokela M, Kittel F, Knutsson A, Koskenvuo M, Koskinen A, Kouvonen A, Kumari M, Madsen I, Marmot MG, Nielsen ML, Nordin M, Oksanen T, Pentti J, Rugulies R, Salo P, Siegrist J, Singh-Manoux A, Suominen S, Väänänen A, Vahtera J, Virtanen M, Westerholm J, Westerlund H, Zins M, Steptoe A, Theorell T IPD-Work Consortium (2012) Job strain as a risk factor for future coronary heart disease: collaborative meta-analysis of 2358 events in 197,473 men and women. Lancet 380: 1491–1497. [DOI] [PMC free article] [PubMed] [Google Scholar]
  18. Kivimaki M, Virtanen M, Kawachi I, Nyberg ST, Alfredsson L, Batty GD, Bjorner JB, Borritz M, Brunner EJ, Burr H, Dragano N, Ferrie JE, Fransson EI, Hamer M, Heikkila K, Knutsson A, Koskenvuo M, Madsen IE, Nielsen ML, Nordin M, Oksanen T, Pejtersen JH, Pentti J, Rugulies R, Salo P, Siegrist J, Steptoe A, SUOMINEN S, Theorell T, Vahtera J, Westerholm PJ, Westerlund H, Singh-Manoux A, Jokela M (2015. b) Long working hours, socioeconomic status, and the risk of incident type 2 diabetes: a meta-analysis of published and unpublished data from 222 120 individuals. Lancet Diabetes Endocrinol 3: 27–34. [DOI] [PMC free article] [PubMed] [Google Scholar]
  19. Nielsen NR, Stahlberg C, Strandberg-Larsen K, Kristensen TS, Zhang ZF, Hundrup YA, Gronbaek M (2008) Are work-related stressors associated with diagnosis of more advanced stages of incident breast cancers? Cancer Causes Control 19: 297–303. [DOI] [PubMed] [Google Scholar]
  20. Nyberg ST, Fransson EI, Heikkila K, Ahola K, Alfredsson L, Bjorner JB, Borritz M, Burr H, Dragano N, Goldberg M, Hamer M, Jokela M, Knutsson A, Koskenvuo M, Koskinen A, Kouvonen A, Leineweber C, Madsen IE, Magnusson Hanson LL, Marmot M, Nielsen ML, Nordin M, Oksanen T, Pejtersen JH, Pentti J, Rugulies R, Salo P, Siegrist J, Steptoe A, Suominen S, Theorell T, Vaananen A, Vahtera J, Virtanen M, Westerholm PJM, Westerlund H, Zins M, Batty GD, Brunner E, Ferrie JE, Singh-Manoux A, Kivimaki M (2014) Job strain as a risk factor for type 2 diabetes: a pooled analysis of 124,808 men and women. Diabetes Care 37: 2268–2275. [DOI] [PMC free article] [PubMed] [Google Scholar]
  21. Nyberg ST, Fransson EI, Heikkila K, Alfredsson L, Casini A, Clays E, de Bacquer D, Dragano N, Erbel R, Ferrie JE, Hamer M, Jockel KH, Kittel F, Knutsson A, Ladwig KH, Lunau T, Marmot MG, Nordin M, Rugulies R, Siegrist J, Steptoe A, Westerholm PJ, Westerlund H, Theorell T, Brunner EJ, Singh-Manoux A, Batty GD, Kivimaki M (2013) Job strain and cardiovascular disease risk factors: meta-analysis of individual-participant data from 47,000 men and women. PLoS One 8: e67323. [DOI] [PMC free article] [PubMed] [Google Scholar]
  22. Nyberg ST, Heikkila K, Fransson EI, Alfredsson L, de Bacquer D, Bjorner JB, Bonenfant S, Borritz M, Burr H, Casini A, Clays E, Dragano N, Erbel R, Geuskens GA, Goldberg M, Hooftman WE, Houtman IL, Jockel KH, Kittel F, Knutsson A, Koskenvuo M, Leineweber C, Lunau T, Madsen IE, Hanson LL, Marmot MG, Nielsen ML, Nordin M, Oksanen T, Pentti J, Rugulies R, Siegrist J, Suominen S, Vahtera J, Virtanen M, Westerholm P, Westerlund H, Zins M, Ferrie JE, Theorell T, Steptoe A, Hamer M, Singh-Manoux A, Batty GD, Kivimaki M (2012) Job strain in relation to body mass index: pooled analysis of 160 000 adults from 13 cohort studies. J Intern Med 272: 65–73. [DOI] [PMC free article] [PubMed] [Google Scholar]
  23. Schmid D, Leitzmann MF (2014) Television viewing and time spent sedentary in relation to cancer risk: a meta-analysis. J Natl Cancer Inst 106. [DOI] [PubMed]
  24. van Melick MJ, van Beukering MD, Mol BW, Frings-Dresen MH, Hulshof CT (2014) Shift work, long working hours and preterm birth: a systematic review and meta-analysis. Int Arch Occup Environ Health 87: 835–849. [DOI] [PubMed] [Google Scholar]
  25. Virtanen M, Heikkila K, Jokela M, Ferrie JE, Batty GD, Vahtera J, Kivimaki M (2012) Long working hours and coronary heart disease: a systematic review and meta-analysis. Am J Epidemiol 176: 586–596. [DOI] [PMC free article] [PubMed] [Google Scholar]
  26. Virtanen M, Jokela M, Nyberg S, Madsen I, Lallukka T, Ahola K, Alfredsson L, Batty G, Bjorner J, Borritz M, Burr H, Casini A, Clays E, de Bacquer D, Dragano N, Erbel R, Ferrie J, Fransson E, Hamer M, Heikkilä K, Jöckel K-H, Kittel F, Knutsson A, Koskenvuo M, Ladwig K-H, Lunau T, Nielsen M, Nordin M, Oksanen T, Pejtersen J, Pentti J, Rugulies R, Salo P, Schupp J, Siegrist J, Singh-Manoux A, Steptoe A, Suominen S, Theorell T, Vahtera J, Wagner G, Westerholm P, Westerlund H, Kivimäki M (2015) Long working hours and alcohol use: systematic review and meta-analysis of published studies and unpublished individual participant data. BMJ 350: g7772. [DOI] [PMC free article] [PubMed] [Google Scholar]
  27. Wang F, Yeung KL, Chan WC, Kwok CC, Leung SL, Wu C, Chan EY, Yu IT, Yang XR, Tse LA (2013) A meta-analysis on dose-response relationship between night shift work and the risk of breast cancer. Ann Oncol 24: 2724–2732. [DOI] [PMC free article] [PubMed] [Google Scholar]

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