Research ArticleCommentary

Acting on climate change for a healthier future

Critical role for primary care in Canada

Edward Xie, Courtney Howard, Sandy Buchman and Fiona A. Miller
Canadian Family Physician October 2021; 67 (10) 725-730; DOI: https://doi.org/10.46747/cfp.6710725

In 2018, the Declaration of Astana on primary health care renewed the principles established more than 40 years earlier in another Kazakh city, once known as Alma-Ata. Much of the new vision was familiar, with a notable addition: a warning that, without immediate action, “the health impacts of climate change” will continue to end lives prematurely.1

Despite strong and consistent evidence, measures to address the links between climate change, health, and health care have not been proportionate to the urgency and severity of the problem.2 The Canadian public is increasingly concerned about the negative consequences.3 In an address to the 2020 World Health Assembly, the World Health Organization director-general announced that we “cannot afford repeated disasters on the scale of COVID-19 [coronavirus disease 2019], whether they are triggered by the next pandemic, or from mounting environmental damage.”4 To prevent even greater harm from climate change, a renewed focus on primary care values can be a healing shift in practice.

Health impacts of climate change in Canada

Climate change describes deviations of long-term weather patterns leading to increased frequency, severity, or duration of extreme events.5 These events interact in complex ways with the physical world and our social systems, contributing to negative health outcomes already evident today and projected to accelerate in the future.6,7 Notwithstanding this complexity, the Intergovernmental Panel on Climate Change, representing global scientific consensus, found that health outcomes will be overwhelmingly negative, with “very high confidence.”8 Human activities are a major driver of climate change and also exacerbate the related problem of air pollution.9 Along with releasing greenhouse gases (GHGs), the combustion of fossil fuels contributed to an estimated 17 574 avoidable deaths in Canada owing to air pollution in 2015—more than all causes of injury, accidents, and trauma combined.10,11

Pathways to the health impacts of climate change are commonly grouped into 3 categories: direct effects from weather events, indirect effects from natural systems, and indirect effects mediated through human systems.8 Examples in Canada include links to vector-borne disease, disruption of health services, mental illness, population migration, and mortality (Figure 1).12-19 Just as shutdowns due to COVID-19 have broken medical supply chains, the increasing social, economic, and environmental effects of climate change present major risks to health and care delivery.9,20,21

Figure 1.
Figure 1.

Simplified examples of pathways linking climate change exposures with health outcomes and Canadian examples: Direct and indirect effects are mediated through natural and human systems.

A number of factors promote resilience to climate change in Canada, such as high national income, high levels of public concern and education, and universal health coverage. Yet no one is immune, and people living with poverty or chronic illness are among those most likely to be affected.8,17,22 Many First Nations, Metis, and Inuit experience persistent health disparities and intergenerational socioeconomic marginalization.19,23 By virtue of close relationships with the land, Indigenous peoples are often the first to experience health effects of environmental degradation. Taken together, climate change will disproportionately harm people who have contributed least to, and benefited least from, climate-altering activities.7,22

How does health care contribute to climate change?

The Canadian health care system is a major contributor to GHG emissions, rivalling those of large economic sectors such as aviation.24 Medication is the largest polluting category, comprising more than a quarter of all health sector GHGs.24 Emissions from pharmaceuticals may be owing to high consumption, especially for commonly prescribed drugs, or because of potent climate-altering effects in the atmosphere, such as those caused by drug propellants.25 For example, delivery devices for inhaled bronchodilators can have dramatically different carbon footprints (Figure 2).25,26

Figure 2.
Figure 2.

Estimated GHG emissions from dry-powder inhalers, metered-dose inhalers, and car travel

Compared with countries with similar health outcomes, Canada’s health care system also has high per capita carbon dioxide emissions (Figure 3).27,28 Differences are partly explained by electricity sources, population density, and measurement variations: factors not directly modifiable by the health sector.27 However, some health systems are making concerted efforts to reduce emissions within their control.29 Notably, England’s national public health service improves sustainability through innovative models of care, technology, and behaviour change. Between 2007 and 2017, the institution reduced carbon dioxide emissions by 18.5% despite increasing clinical activity.30

Figure 3.
Figure 3.

Comparison of emissions attributed to national health sectors in 2014

Compared with Canada and the United Kingdom, many low- and middle-income countries have fewer resources for adaptation to climate change yet are experiencing some of the strongest impacts. Globally, heat exposure, food insecurity, and vector-borne diseases threaten hundreds of millions of people.12 Climate-related changes in global migration and disease patterns, alongside disruptions to labour productivity, transport, supply chains, and land use, may also have large-scale indirect effects on health and health care in higher-income countries, including Canada.9,12 Examining this unequal access to the full enjoyment of health in the context of primary care values can offer insights into strategies for change.

Our responsibility to act

Social accountability has become a recognized duty of primary care providers and all health professions to meet the changing needs and emerging challenges facing people in Canada.31 In conflict with goals of promoting and protecting health, health system GHG emissions are associated with preventable and growing downstream harms.30 Since the environmental side effects of care also affect work force, infrastructure, and personal health, managing health care–related pollution serves the full breadth of personal, professional, and societal interests.

Primary care, and the health care system in general, has the capacity to drive action through deep connections to people’s lives, large-market participation in hiring and purchasing, and a trusted position of leadership in agenda setting.7 Although mandates and resources for action from governing bodies are not yet fully in place, we already possess the ability to act rapidly through existing structures while advocating for necessary policy solutions and tools. Failing to meaningfully act on climate change threatens the viability of high-quality health services through economic and infrastructure disruption.12,22 Whether we deliberately address these challenges or not, our health systems are both contributing to the problem of climate change and are poised to suffer its consequences.

The complex relationships between climate change and health necessitate a multifaceted and adaptive approach. While government actions, including carbon pricing, regulation, and investments in renewable energy, can be powerful interventions to limit further warming, they must be complemented by efforts from critical actors, including health institutions and professionals, to alleviate existing and expected harms (Figure 4).12,30 Some policies, such as phasing out coal, can have real-time health benefits.12 Depending on the manner of implementation, these approaches could require additional resources, involve reorienting existing resources, or be cost saving. Taking health gains into account, mitigating climate change would likely result in a large net benefit overall.32

Figure 4.
Figure 4.

Conceptual model of primary care in health system sustainability

Primary care, as the largest medical work force, with a holistic commitment to the health of patients across the complete life cycle, has a distinctive interest in the pursuit of health co-benefits, the prevention of harm, and interventions to support well-being beyond medical services.33 Potential roles of primary care in achieving an impact on climate change can be examined using a “macro, meso, micro” framework of social accountability.31

Macro: policies to take advantage of co-benefits

Advocating for health-in-all approaches to public policy can address the interconnected roots of both poor health and climate change.34 Shifting to prevention or management earlier in the illness process can lower the intensity of care required to maintain or restore health. For example, dietary habits recommended in Canada’s Food Guide or policies to encourage active transport are likely to prevent chronic disease and premature mortality, while also lowering GHG emissions.7,35 Targeting the social and structural determinants of health is necessary to limit the unequal impacts of climate change, including prioritizing the needs of populations at greatest risk, addressing historical and ongoing injustices, supporting just economic transitions, and reducing health inequities.23,36,37 Advocacy and policy change must be carried out in partnership with groups at highest risk, many of whom already contribute critical knowledge and leadership.31

Meso: emphasize sustainability in education and health promotion

Health professionals, and especially primary care providers, are trusted sources of information to their communities and experienced with discussing complex issues.38 Framing climate change in terms of health is known to be an effective communication strategy to help patients and health professionals conceptualize climate change as salient to their lives.39 Most people recognize that climate change is a threat but do not appreciate its risks to their own health; describing health effects can close this psychological gap.40 To that end, medical schools across Canada are beginning to introduce climate change into curricula.41 As a next step, family medicine academic programs can integrate concepts into training and continuing development that address sustainability-promoting practice changes.

Micro: innovation in quality improvement and care delivery

Innovative models of care can respond to unmet needs while also reducing unnecessary resource use. During the COVID-19 pandemic, a rapid shift to virtual care is expanding a model that can address challenges with geographic distribution and inequities of access for remote communities.42 Other interventions may combine patient-centredness with improved integration between clinical and community supports. For example, “social prescribing” is an emerging practice of linking patients with community activities such as volunteering, addiction support groups, and nature experiences.43,44 Early projects have shown promise for improving wellness while shifting patients away from higher intensity care, and are opportunities for further research to evaluate effectiveness. Finally, quality improvement initiatives to avoid wasteful or unnecessary resource use are already well recognized. National recommendations for family physicians, nurse practitioners, and patients include imaging, prescribing, and laboratory testing that should not be performed.45 If followed, these practices inherently promote financial and environmental sustainability, saving time, money, and emissions.

Conclusion

Just as there is no “safe” level of COVID-19 spread, there is also no safe level of global warming. The burden of inaction on climate change will be disastrous for health and health systems.12 Few delegates in Astana would have anticipated the global tragedy of COVID-19, but the profound and “virtually certain” suffering from climate change is clearly on the horizon. As the largest segment of medical professionals in Canada and the health care providers with the closest connections to patients, primary care providers can play a pivotal role in preventing, reducing harm from, and treating the damaging health effects of climate change.

Footnotes

  • Competing interests

    Dr Edward Xie has received financial compensation as Faculty Co-Lead of Climate Change and Health in the Department of Family and Community Medicine at the University of Toronto. Dr Courtney Howard is a board director of the Canadian Medical Association and the Global Climate and Health Alliance. She has received financial compensation from the Lancet Countdown. Dr Sandy Buchman has no financial competing interests. Dr Fiona A. Miller directs the Centre for Sustainable Health Systems, an academic unit that leverages evidence to support sustainable practices and policies, and CASCADES, a national initiative funded by Environment and Climate Change Canada to support climate action and awareness in health care.

  • The opinions expressed in commentaries are those of the authors. Publication does not imply endorsement by the College of Family Physicians of Canada.

  • This article is eligible for Mainpro+ certified Self-Learning credits. To earn credits, go to www.cfp.ca and click on the Mainpro+ link.

  • La traduction en français de cet article se trouve à www.cfp.ca dans la table des matières du numéro d’octobre 2021 à la page e269.

References

  1. 1.
    Declaration of Astana. Geneva, Switz: World Health Organization; 2018. Available from: https://www.who.int/docs/default-source/primary-health/declaration/gcphc-declaration.pdf. Accessed 2021 Aug 26.
  2. 2.
    1. Miller F,
    2. Bytautas J,
    3. Feng P.
    Opportunities for engaging Canadian health systems in addressing the challenge of climate change. Rochester, NY: SSRN; 2018. Available from: https://ssrn.com/abstract=3167088. Accessed 2021 May 11.
  3. 3.
    New Ipsos survey shows health care is twice as important to Canadians as carbon tax. Ottawa, ON: Canadian Medical Association; 2019. Available from: https://www.cma.ca/new-ipsos-survey-shows-health-care-twice-important-canadians-carbon-tax. Accessed 2019 Aug 27.
  4. 4.
    WHO manifesto for a healthy recovery from COVID-19. Geneva, Switz: World Health Organization; 2020. Available from: https://www.who.int/news-room/feature-stories/detail/who-manifesto-for-a-healthy-recovery-from-covid-19. Accessed 2020 Jun 1.
  5. 5.
    1. Bush E,
    2. Lemmen DS
    , editors. Canada’s changing climate report. Ottawa, ON: Government of Canada; 2019.
  6. 6.
    1. Haines A.
    Health benefits of a low carbon economy. Public Health 2012;126(Suppl 1):S33-9.
    OpenUrl
  7. 7.
    1. Watts N,
    2. Adger WN,
    3. Agnolucci P,
    4. Blackstock J,
    5. Byass P,
    6. Cai W, et al.
    Health and climate change: policy responses to protect public health. Lancet 2015;386(10006):1861-914. Epub 2015 Jun 25.
    OpenUrlCrossRefPubMed
  8. 8.
    1. Smith KR,
    2. Woodward A,
    3. Campbell-Lendrum D,
    4. Chadee DD,
    5. Honda Y,
    6. Liu Q, et al.
    Human health: impacts, adaptation, and co-benefits. In: Field CB, Barros VR, Dokken DJ, Mach KJ, Mastrandrea MD, Bilir TE, et al., editors. Climate change 2014: impacts, adaptation, and vulnerability. Part A: global and sectoral aspects. Working Group II contribution to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press; 2014. p. 709-54.
  9. 9.
    1. Core Writing Team;
    2. Pachauri RK,
    3. Meyer L
    , editors. Climate change 2014: synthesis report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Geneva, Switz: Intergovernmental Panel on Climate Change; 2015.
  10. 10.
    1. Lelieveld J,
    2. Klingmüller K,
    3. Pozzer A,
    4. Burnett RT,
    5. Haines A,
    6. Ramanathan V.
    Effects of fossil fuel and total anthropogenic emission removal on public health and climate. Proc Natl Acad Sci U S A 2019;116(15):7192-7.
    OpenUrlAbstract/FREE Full Text
  11. 11.
    Deaths, by cause, chapter XX: external causes of morbidity and mortality (V01 to Y89). Ottawa, ON: Statistics Canada; 2019. Available from: https://www150.statcan.gc.ca/t1/tbl1/en/tv.action?pid=1310015601. Accessed 2020 May 17.
  12. 12.
    1. Watts N,
    2. Amann M,
    3. Arnell N,
    4. Ayeb-Karlsson S,
    5. Belesova K,
    6. Berry H, et al.
    The 2018 report of the Lancet Countdown on health and climate change: shaping the health of nations for centuries to come. Lancet 2018;392(10163):2479-514.
    OpenUrlCrossRefPubMed
  13. 13.
    1. Abel GJ,
    2. Brottrager M,
    3. Crespo Cuaresma J,
    4. Muttarak R.
    Climate, conflict and forced migration. Glob Environ Change 2019;54:239-49.
    OpenUrl
  14. 14.
    1. Vida S,
    2. Durocher M,
    3. Ouarda T,
    4. Gosselin P.
    Relationship between ambient temperature and humidity and visits to mental health emergency departments in Québec. Psychiatr Serv 2012;63(11):1150-3.
    OpenUrlPubMed
  15. 15.
    1. Gasmi S,
    2. Ogden NH,
    3. Lindsay LR,
    4. Burns S,
    5. Fleming S,
    6. Badcock J, et al.
    Surveillance for Lyme disease in Canada: 2009–2015. Can Commun Dis Rep 2017;43(10):194-9.
    OpenUrlCrossRef
  16. 16.
    1. Ng V,
    2. Rees E,
    3. Lindsay LR,
    4. Drebot MA,
    5. Brownstone T,
    6. Sadeghieh T, et al.
    Could exotic mosquito-borne diseases emerge in Canada with climate change? Can Commun Dis Rep 2019;45(4):98-107.
    OpenUrl
  17. 17.
    1. Lamothe F,
    2. Roy M,
    3. Racine-Hamel SÉ.
    Enquête épidémiologique: vague de chaleur à l’été 2018 à Montréal. Montreal, QC: Gouvernement de Québec; 2019.
  18. 18.
    1. Mazer-Amirshahi M,
    2. Fox ER.
    Saline shortages—many causes, no simple solution. N Engl J Med 2018;378(16):1472-4.
    OpenUrlCrossRefPubMed
  19. 19.
    1. Cunsolo A,
    2. Ellis NR.
    Ecological grief as a mental health response to climate change-related loss. Nat Clim Chang 2018;8:275-81.
    OpenUrlCrossRef
  20. 20.
    Pharmaceutical industry profile. Ottawa, ON: Government of Canada. Available from: https://www.ic.gc.ca/eic/site/lsg-pdsv.nsf/eng/h_hn01703.html. Accessed 2019 Oct 3.
  21. 21.
    1. Keellings D,
    2. Hernández Ayala JJ.
    Extreme rainfall associated with Hurricane Maria over Puerto Rico and its connections to climate variability and change. Geophys Res Lett 2019;46(5):2964-73.
    OpenUrlCrossRef
  22. 22.
    COP24 Special Report: health and climate change. Geneva, Switz: World Health Organization; 2018. Available from: https://www.who.int/publications/i/item/cop24-special-report-health-climate-change. Accessed 2021 May 12.
  23. 23.
    1. Wuttke S,
    2. Carter V,
    3. Williamson ASR.
    Factum of the Intervener, the Assembly of First Nations. Ottawa, ON: Assembly of First Nations; 2012. Available from: https://sasklawcourts.ca/wp-content/uploads/2021/05/CAcacv3239aofn.pdf. Accessed 2021 Sep 7.
  24. 24.
    1. Eckelman MJ,
    2. Sherman JD,
    3. MacNeill AJ.
    Life cycle environmental emissions and health damages from the Canadian healthcare system: an economic-environmental-epidemiological analysis. PLoS Med 2018;15(7):e1002623.
    OpenUrlPubMed
  25. 25.
    Patient decision aid. Inhalers for asthma. London, UK: National Institute for Health and Care Excellence; 2020. Available from: https://www.nice.org.uk/guidance/ng80/resources/inhalers-for-asthma-patient-decision-aid-pdf-6727144573. Accessed 2021 Aug 25.
  26. 26.
    Fuel consumption ratings. Ottawa, ON: Government of Canada; 2020. Available from: https://open.canada.ca/data/en/dataset/98f1a129-f628-4ce4-b24d-6f16bf24dd64. Accessed 2020 May 17.
  27. 27.
    1. Pichler PP,
    2. Jaccard IS,
    3. Weisz U,
    4. Weisz H.
    International comparison of health care carbon footprints. Environ Res Lett 2019;14(6):064004.
    OpenUrlCrossRef
  28. 28.
    Healthy life expectancy (HALE): data by country. Geneva, Switz: World Health Organization. Available from: http://apps.who.int/gho/data/node.main.HALE?lang=en. Accessed 2019 Aug 20.
  29. 29.
    1. Sustainable Development Unit
    . Carbon update for the health and care sector in England, 2015. Cambridge, UK: National Health Service; 2016.
  30. 30.
    1. Karliner J,
    2. Slotterback S,
    3. Boyd R,
    4. Ashby B,
    5. Steele K.
    Health care’s climate footprint. How the health sector contributes to the global climate crisis and opportunities for action. Health Care Without Harm; 2019. Available from: https://noharm-global.org/sites/default/files/documents-files/5961/HealthCaresClimateFootprint_092319.pdf. Accessed 2021 May 12.
  31. 31.
    1. Buchman S,
    2. Woollard R,
    3. Meili R,
    4. Goel R.
    Practising social accountability. From theory to action. Can Fam Physician 2016;62:15-8 (Eng), 24-7 (Fr).
    OpenUrlFREE Full Text
  32. 32.
    1. Scovronick N,
    2. Budolfson M,
    3. Dennig F,
    4. Errickson F,
    5. Fleurbaey M,
    6. Peng W, et al.
    The impact of human health co-benefits on evaluations of global climate policy. Nat Commun 2019;10(1):2095.
    OpenUrl
  33. 33.
    Primary health care in Canada. A chartbook of selected indicator results, 2016. Ottawa, ON: Canadian Institute for Health Information; 2016. Available from: https://www.cihi.ca/en/primary-health-care. Accessed 2021 May 12.
  34. 34.
    1. Tonelli M,
    2. Tang KC,
    3. Forest PG.
    Canada needs a “health in all policies” action plan now. CMAJ 2020;192(3):E61-7.
    OpenUrlFREE Full Text
  35. 35.
    1. Afshin A,
    2. Sur PJ,
    3. Fay KA,
    4. Cornaby L,
    5. Ferrara G,
    6. Salama JS, et al.
    Health effects of dietary risks in 195 countries, 1990-2017: a systematic analysis for the Global Burden of Disease Study 2017. Lancet 2019;393(10184):1958-72.
    OpenUrlPubMed
  36. 36.
    1. Howard C,
    2. Rose C,
    3. Rivers N.
    Lancet Countdown 2018 report: briefing for Canadian policymakers. Lancet Countdown on Health and Climate Change; 2018.
  37. 37.
    1. United Nations General Assembly
    . United Nations Declaration on the Rights of Indigenous Peoples: A/RES/61/295. New York, NY: United Nations; 2007. Available from: https://undocs.org/pdf?symbol=en/a/res/61/295. Accessed 2021 May 12.
  38. 38.
    1. Maibach EW,
    2. Kreslake JM,
    3. Roser-Renouf C,
    4. Rosenthal S,
    5. Feinberg G,
    6. Leiserowitz AA.
    Do Americans understand that global warming is harmful to human health? Evidence from a national survey. Ann Glob Health 2015;81(3):396-409.
    OpenUrl
  39. 39.
    1. Amelung D,
    2. Fischer H,
    3. Herrmann A,
    4. Aall C,
    5. Louis VR,
    6. Becher H, et al.
    Human health as a motivator for climate change mitigation: results from four European high-income countries. Glob Environ Change 2019;57:101918.
    OpenUrl
  40. 40.
    1. Mildenberger M,
    2. Howe P,
    3. Lachapelle E,
    4. Stokes L,
    5. Marlon J,
    6. Gravelle T.
    The distribution of climate change public opinion in Canada. PLoS One 2016;11(8):e0159774.
    OpenUrl
  41. 41.
    1. Hackett F,
    2. Got T,
    3. Kitching GT,
    4. MacQueen K,
    5. Cohen A.
    Training Canadian doctors for the health challenges of climate change. Lancet Planet Health 2020;4(1):e2-3.
    OpenUrl
  42. 42.
    1. Holmner A,
    2. Ebi KL,
    3. Lazuardi L,
    4. Nilsson M.
    Carbon footprint of telemedicine solutions—unexplored opportunity for reducing carbon emissions in the health sector. PLoS One 2014;9(9):e105040.
    OpenUrlCrossRefPubMed
  43. 43.
    1. Mulligan K,
    2. Hsiung S,
    3. Bhatti S,
    4. Rehel J,
    5. Rayner J.
    Social prescribing in Ontario. Final report. Toronto, ON: Alliance for Healthier Communities; 2020. Available from: https://issuu.com/aohc_acso/docs/rxcommunity_final_report_mar2020_fullweb. Accessed 2020 Jun 1.
  44. 44.
    1. Grant C,
    2. Goodenough T,
    3. Harvey I,
    4. Hine C.
    A randomised controlled trial and economic evaluation of a referrals facilitator between primary care and the voluntary sector. BMJ 2000;320(7232):419-23.
    OpenUrlAbstract/FREE Full Text
  45. 45.
    Recommendations. Toronto, ON: Choosing Wisely Canada. Available from: https://choosingwiselycanada.org/recommendations/. Accessed 2020 May 17.
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Acting on climate change for a healthier future
Edward Xie, Courtney Howard, Sandy Buchman, Fiona A. Miller
Canadian Family Physician Oct 2021, 67 (10) 725-730; DOI: 10.46747/cfp.6710725
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