https://orcid.org/0000-0001-8348-7077
ABSTRACT
Initial observations showed that people with chronic noncommunicable diseases were at heightened risk of severe COVID-19 and adverse outcomes. Subsequently, data from various countries have revealed obesity as an independent and significant factor, with people who are overweight/have obesity significantly more likely to be hospitalized, require ICU treatment, and to die. Notably, this additional risk applies to younger people relative to the general COVID-19 risk profile. This paper sets out the evidence of greater risk of poor COVID outcomes for people who are overweight/have obesity, indication of reduced treatment and support for obesity self-management where it existed prior to COVID-19, and highlights the dearth of specific guidance and measures to mitigate the impacts of COVID-19 upon people with obesity. We identify the health, social and economic impacts that this specific vulnerability creates relative to COVID-19 outcomes. Reduced national and global pandemic resilience due to high obesity prevalence should spur governments and funders to provide urgent specific protection and support for people with overweight/obesity, and to commission rapid research to identify effective prevention and reduction measures. We set out priorities for action on obesity to begin compensating for years of underfunding and inadequate policy attention in the face of escalating obesity across countries of all income groups and world regions.
Responsible Editor Peter Byass, Umeå University, Sweden
Background
Insufficient action to address global obesity over decades is now being ruthlessly exposed by the COVID-19 pandemic. High obesity levels amplify the pressures the pandemic imposes on health systems. There is an urgent need to strengthen obesity prevention and self-management to strengthen longer-term health system resilience and reduce population health impacts, especially among the most vulnerable.
The bigger picture from the pre-COVID-19 landscape clearly demonstrates that the economic, social, and health costs of obesity are growing and are increasingly a development challenge [Citation1,Citation2]. Efforts to build evidence on effective ways to reduce and prevent obesity have been neglected for decades, according obesity lower priority within health plans and budgets. Obesity has often been politically de-prioritized with the issue cast as a failing of individuals rather than a result of social and economic factors and a collective responsibility [Citation3]. Political will to address obesity has further been undermined by the influence of commercial interests, such as ultra-processed food and drink businesses, as well as the challenges of reshaping the built environment to create urban spaces that enbable active living.
We set out the case for governments, researchers, and funders to act to better protect people who have obesity during the COVID-19 pandemic and to lay foundations to reduce this population vulnerability in the years after. We suggest specific priorities for action within pandemic constraints.
Globally, obesity has nearly tripled since 1975. By 2016 almost 2 billion adults were overweight (including 650 million with obesity) [Citation4]. The issue spans all regions and income groups, with nearly two-thirds of people with overweight/obesity living in low- and middle-income countries [Citation5]. The COVID-19 pandemic is also global. Early data emphasized the vulnerability of people living with noncommunicable diseases, such as cardiovascular disease, diabetes, and chronic respiratory disease, as being at substantially greater risk of developing severe COVID-19, being hospitalized, requiring critical care, and dying [Citation6]. Obesity is a risk factor for all those diseases. Most countries therefore include large numbers of people who are vulnerable to the severe impacts of COVID-19. In 2016, 67.5% of US adults were overweight, 63.5% in Egypt, and 32% in China [Citation7]. Prior to the escalation in COVID-19 cases in Latin America, Cuevas et al. warned of the sub-continent’s vulnerability due to high obesity prevalence [Citation8].
Associations between COVID-19 and obesity
Data from various countries indicate that people with obesity who contract COVID-19 are considerably more likely to become severely ill, require hospitalization and ICU treatment, and die compared to people with normal weight. The most frequently used metric is Body Mass Index (BMI) which has differing thresholds in different world regions. The consistent finding across studies is that patients measured as obese in their country are at far greater risk from COVID-19 than non-obese patients. Chinese studies found that hospitalized people with obesity (BMI≥25) had a three-fold greater risk of severe COVID-19 [Citation9], and patients with obesity in Shenzhen had 2.42 higher odds of severe pneumonia compared to normal weight patients [Citation10]. French patients with obesity were 50% more likely to require ICU admission during March compared to the same period in 2019 [Citation11]; and in the UK (March 2020), 72% of people who developed serious or fatal COVID-19 complications were overweight/had obesity, and severity of obesity was independently associated with higher COVID-19 mortality after correction for other risk factors [Citation12]. US data (March 2020) found that obesity was a factor among almost half (48.3%) of hospitalized COVID-19 patients and was the most prevalent condition among patients aged 18–49 years [Citation6]. Alarmingly, younger patients with obesity have been found to be at high risk of severe COVID-19 [Citation13].
Obesity is an independent risk factor for mortality [Citation14], yet this is often poorly reflected in health system data. The fact that hypertension and smoking were identified very early on as important COVID-19 risk factors, whereas it took months longer to identify the independent role of obesity, may partly reflect the need to disentangle the role of obesity from type 2 diabetes with which it frequently co-exists [Citation15,Citation16]. Less systematic obesity measurement in non-specialist settings and national surveys has also previously been highlighted [Citation16]. Even in high-income countries with electronic health records, non-recording of BMI among COVID cases has impeded a comprehensive picture of the extent and patterning of the association [Citation17].
COVID-19 has exposed fatal weaknesses in the most advanced health systems, leaving little room to address seemingly less urgent problems such as the ongoing burden of ill health due to obesity [Citation18]. Since the start of the pandemic, treatment and support for the chronic NCDs prevalent among people with obesity/overweight, such as diabetes and cardiovascular disease clinics, have receded [Citation19], exacerbating risk of strokes and ‘heart attacks’ and leaving NCD patients without guidance on symptoms and self-management, including weight. Help-seeking from primary care other than for urgent and COVID-19 needs has actively been deterred in many countries, while fear of infection has deterred help-seeking even where services remained open. This first line of support was therefore absent at a time when lockdowns created more challenging circumstances for weight self-management. Specialist weight services and structured patient programs did not exist in many countries prior to the pandemic [Citation20], and existing programs have been halted or reduced [Citation21], leaving a large population without support to manage their condition.
This compounds the pre-existing disadvantage that limits treatment provision and effectiveness for people with obesity, resulting from stigma, provider bias, inconsistent healthcare pathways, unaffordable insurance, and lack of equipment/processes to care effectively for people who have obesity [Citation22]. The current pandemic has highlighted the vulnerability of Black and Asian people and Minority Ethnic groups [Citation23,Citation24], who have experienced the highest COVID-19 mortality. The overlap between higher obesity among people of color and increased vulnerability to COVID-19 complications requires urgent attention. Worse COVID-19 outcomes among men compared to women have also been found [Citation25] and understanding how and why gender and obesity interact will be an important area for research.
Lockdowns and social isolation may exacerbate ‘root’ factors that contribute to obesity, particularly an obesogenic environment in which healthier food and activity patterns are more difficult to achieve [Citation26], and the impact that adverse life events and poor mental wellbeing can have upon weight [Citation27]. Authors from various countries and regions, including Egypt, Latin America, Romania, and the UK have highlighted the danger of high obesity prevalence being exacerbated by the pandemic [Citation8,Citation23,Citation28,Citation29]. The pandemic affects what people are eating and drinking, and reduces physical activity – effects that are likely to be magnified among people on lower incomes, due to more limited food choices as supply chains are disrupted, food price hikes occur, and people have less access to indoor or outdoor space. It has been suggested that misinformation about transmission risk may negatively impact on breastfeeding – an important protective factor against later life obesity [Citation8].
During the pandemic, attention is focused immediately upon reducing transmission, mitigating impact, and finding a treatment or vaccine. Nonetheless, high mortality and hospitalization statistics of people with obesity suggest the need to swiftly develop specific measures for COVID-19 prevention and obesity self-management. These are summarized in .
Box 1. Immediate response recommendations.
Beyond COVID-19 – reducing vulnerability ‘between pandemics’
Beyond the immediate, COVID-19 should be heard as a warning siren, rousing governments and multilateral agencies to lay foundations for concerted effective measures at scale to reduce and prevent obesity. Until now there has been chronic under-investment in building the evidence on effective ways to reduce and prevent obesity, and obesity has not been accorded sufficient priority within health plans and budgets to catalyse meaningful national level action. Policymakers and ministries of finance have often failed to appreciate that the health, social and economic costs of obesity far outstrip revenue from the manufacture, promotion and sale of unhealthy food and drink and the cost of re-modelling living environments, to promote active living. What has been changed by COVID-19? And how can meaningful action commence while combatting the pandemic?
COVID-19 has shown the significant vulnerability that the increasing unchecked prevalence of NCDs and their risk factors creates to infectious diseases on a scale previously unseen. This has illustrated the unsustainability of high obesity rates in terms of the risk it poses to social, economic and health systems. Foundations for effective action can be laid, even during the pandemic. These are outlined in . The pandemic offers yet another compelling reason to strengthen efforts to slow the global rise of obesity.
Box 2. Laying Foundations for Future Resilience –Recommendations.
Ethics and consent
Not applicable.
Paper context
Obesity has been found to be an independent factor for adverse COVID-19 outcomes. High obesity prevalence in many countries augments pandemic vulnerability with grave health, social and economic consequences. Yet guidance, treatment and support have been scarce or reduced during COVID-19; and follows years of underinvestment, de-prioritization, and inadequate national action. We identify immediate and forward-looking priorities for action for funders and governments to reduce obesity and strengthen resilience.
Acknowledgments
None.
Disclosure statement
No potential conflict of interest was reported by the authors.
Additional information
Funding
Notes on contributors
Angela M. Jackson-Morris
AJM and RN discussed initial concept with JR/JW/OBC (WOF). AJM and RN drafted outline and shared with for discussion and refining of key points by WOF contributors. AJM and RN completed edits and shared with the full group for further edit/approval.
References
- Wells JC, Sawaya AL, Wibaek R, et al. The double burden of malnutrition: aetiological pathways and consequences for health. Lancet. 2020;395:75–4.
- Nugent R, Levin C, Hale J, et al. Economic effects of the double burden of malnutrition. Lancet. 2020;395:156–164.
- Young R, Hinnant A, Leshner G. Individual and social determinants of obesity in strategic health messages: interaction with political ideology. Health Commun. 2016;31:903–910.
- Ng M, Fleming T, Robinson M, et al. Global, regional, and national prevalence of overweight and obesity in children and adults during 1980–2013: a systematic analysis for the Global Burden of Disease Study 2013. Lancet. 2014;384:766–781.
- World Health Organization. Obesity and overweight. Geneva: World Health Organization; 2020.
- Garg S, Kim L, Whitaker M, et al. Hospitalization rates and characteristics of patients hospitalized with laboratory-confirmed coronavirus disease 2019 — COVID-NET, 14 States, March 1–30, 2020. MMWR Morb Mortal Wkly Rep. 2020;69:458–464.
- World Health Organization. Global Health Observatory data: overweight and obesity. Geneva: World Health Organization; 2020.
- Cuevas A, Batz C. Coronavirus, obesity and undernutrition: the triple burden for Latin America. PLoS. 2020 May 26.
- Gao F, Zheng KI, Wang X-B, et al. Obesity is a risk factor for greater COVID-19 severity. Diabetes Care. 2020 May;dc200682. doi:10.2337/dc20-0682
- Qingxian C, Chen F, Fang L, et al. Obesity and COVID-19 severity in a designated hospital in Shenzhen, China. SSRN. 2020. DOI:10.2139/ssrn.3556658
- Simonnet A, Chetboun M, Poissy J, et al. High prevalence of obesity in severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) requiring invasive mechanical ventilation. Obesity. doi:10.1101/2020.05.06.20092999
- The OpenSAFELY Collaborative; Williamson E, Walker AJ, Bhaskaran K, et al. OpenSAFELY: factors associated with COVID-19-related hospital death in the linked electronic health records of 17 million adult NHS patients. DOI:10.1101/2020.05.06.20092999
- Kass DA, Duggal P, Cingolani O. Obesity could shift severe COVID-19 disease to younger ages. Lancet. 2020 May 16;395:1544–1545. Epub 2020 May 4. PMID: 32380044; PMCID: PMC7196905.
- Afshin A, Forouzanfar MH, Reitsma MB, et al. The GBD 2015 Obesity Collaborators. Health effects of overweight and obesity in 195 countries over 25 years. N Engl J Med. 2017;377:13–27.
- Malavazos AE, Corsi Romanelli MM, Bandera F, et al. Targeting the adipose tissue in COVID-19. Obesity, 28: 1178–1179. doi:10.1002/oby.22844.
- Bray GA, Kim KK, Wilding JPH. Obesity: a chronic relapsing progressive disease process. A position statement of the World Obesity Federation. Obes Rev. 2017;18(7):715–723. doi:10.1111/obr.12551
- Pineda E, Sanchez-Romero LM, Brown M, et al. Forecasting future trends in obesity across Europe: the value of improving surveillance. Obes Facts. 2018;11:360–371.
- Sattar N. COVID-19 and obesity: research, risks and realities. Usher Institute Webinar, The University of Edinburgh; 2020 June 19.
- Yamey G, Wenham C. The U.S. and U.K. Were the two best prepared nations to tackle a pandemic—what went wrong? Time. 2020 Jun. Available from: https://time.com/5861697/us-uk-failed-coronavirus-response/
- World Health Organisation. Department of non-communicable diseases. Rapid assessment of service delivery for non-communicable diseases during the COVID-19 pandemic. Geneva: WHO Department of Noncommunicable diseases. 2020 June 11.
- Mauro M, Taylor V, Wharton S, et al. Barriers to obesity treatment. Eur J Intern Med. 2008;19:173–180.
- Rubino F, Cohen RV, Mingrone G, et al. Bariatric and metabolic surgery during and after the COVID-19 pandemic: DSS recommendations for management of surgical candidates and postoperative patients and prioritisation of access to surgery. Lancet Diabetes Endocrinol. 2020;8:640–648.
- Jackson Leach R, Powis J, Baur LA, et al. Clinical care for obesity: A preliminary survey of sixty-eight countries. Clin Obes. 2020;10:e12357.
- Gross CP, Essien UR, Pasha S, et al. Racial and ethnic disparities in population level Covid-19 mortality. MedRxiv. 2020.
- Aldridge RW, Lewer D, Katikireddi SV, et al. Black, Asian and Minority Ethnic groups in England are at increased risk of death from COVID-19: indirect standardisation of NHS mortality data. Wellcome Open Res. 2020;5:88.
- Gebhard C, Regitz-Zagrosek V, Neuhauser HK, et al. Impact of sex and gender on COVID-19 outcomes in Europe. Biol Sex Differ. 2020;11:29. Published 2020 May 25.
- Tan M, He FJ, McGregor G. Obesity and covid-19: the role of the food industry. BMJ. 2020;369:m2237.
- Fiorillo A, Gorwood P. The consequences of the COVID-19 pandemic on mental health and implications for clinical practice. Eur Psychiatry. 2020;63:e32.
- Abbas AM, Fathy SK, Fawzy AT, et al. The mutual effects of COVID-19 and obesity. Obes Med. 2020;19:100250.
- Hâncu A, Florin M. Two pandemics coalition: Covid-19 and obesity. Int Med. 2020;17:37–45.