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  • Written by Eyal Oren, Professor of Epidemiology, San Diego State University
Medical technologies have been central to US pandemic response – but social behaviors matter just as much

Before COVID-19, there was tuberculosis. Twentieth century British physician Thomas McKeown controversially proposed[1] that the sharp declines in infectious disease death rates in the late 1900s were due to improved economic and social conditions – not medical and public health measures like antibiotics and improved sanitation.

Graph showing mortality rate of tuberculosis in Massachusetts from 1861-1970 and in the US overall from 1900-2014
This graph shows the tuberculosis death rate in Massachusetts from 1861-1970 and in the U.S. overall from 1900-2014, using merged data from the U.S. Census Bureau and the Centers for Disease Control and Prevention. While not the same graph that McKeown used, it shows a similar trend that highlights the steep decrease in death rates that occurred before antibiotics and vaccination became available. Ljstalpers/Wikimedia Commons, CC BY-SA[2][3]

His theory was later partly discredited[4]. But the central question behind it – whether medical interventions or social factors make the biggest impact on infectious diseases – remains relevant in the current pandemic.

When COVID-19 first arrived in the U.S., the only tool public health officials had to stop its spread was behavior change through lockdowns[5], social distancing[6] and face masks[7]. With vaccines[8], the tide seemed to turn. But with new variants[9], waning immunity[10] and ongoing vaccine hesitancy[11], the pandemic is still far from over[12].

So which are more successful at driving down rates of disease and death – social behaviors or medical technologies?

As an infectious disease and social epidemiologist[13], I have been particularly interested in how new medical technologies affect existing health disparities. I believe that understanding the interplay between behavior and technology will be key to surviving the pandemic and emerging as a stronger society.

Do technologies help or make things worse?

Biomedicine has clearly played a critical role in mitigating COVID-19. Less than a year after discovering the virus that causes COVID-19, researchers were able to develop multiple vaccines that are highly effective[14] in preventing severe infection and transmission from most variants. They’re also likely to reduce the risk of long COVID-19[15], the ongoing symptoms that can persist for months after initial recovery. COVID-19 vaccines are estimated to have saved almost 140,000 lives in the U.S.[16] in the first five months of 2021.

There has also been remarkable medical progress in other arenas. Even though antivirals are notoriously difficult to manufacture[17], there are finally options for treating COVID-19[18]. Merck’s molnupiravir[19] cuts hospitalization risks for adults in half, and Pfizer’s paxlovid[20] has 89% efficacy at preventing hospitalization and death. Additional treatments are expected in the coming months[21].

A health care worker holds up a Moderna COVID-19 vaccine vial. Although currently available COVID-19 vaccines still provide protection against infection, ongoing vaccine hesitancy has made herd immunity increasingly unlikely as new variants emerge. Moch Farabi Wardana/Pacific Press/LightRocket via Getty Images[22]

Researchers have also developed and scaled up a variety of innovative diagnostic technologies. These range from using PCR tests[23] to predict the trajectory of the pandemic to implementing blood tests[24] that can simultaneously measure antibody levels against COVID-19 and other pathogens for quicker diagnosis.

Collaboration[25] across both public and private sectors has also been fairly unprecedented. Large-scale government funding has aided these efforts. The U.S. National Institutes of Health’s Rapid Acceleration of Diagnostics, or RADx[26], initiative, for example, has worked to contain outbreaks in schools[27] by providing COVID-19 test kits across the country.

Social factors as drivers of health

Despite these technological advancements, the COVID-19 pandemic has illuminated long-standing health disparities[28]. In 2020, Latino and Black people died from COVID-19 at a rate almost three times higher than white people.

Systemic structural and social inequities are some of the reasons behind these disparities in the U.S. For example, communities of color are disproportionately represented in essential[29] occupations that are at the front lines of potential COVID-19 exposure. In addition, Black and Hispanic Americans have higher rates of obesity, hypertension and type 2 diabetes[30], known risk factors for severe COVID-19 complications. Children in communities of color also experienced the death of a primary caregiver at a rate up to 4.5 times higher[31] than non-Hispanic white children.

People wearing face masks inside an outdoor market.
Communities of color and low-income populations are disproportionately burdened by COVID-19 hospitalizations and deaths. Mario Tama/Getty Images[32]

Technologies intended to improve health care can themselves exacerbate health disparities. This results in a digital divide[33] where certain populations continue to have poor health despite technological improvements. For example, the safety and convenience of remote videoconferencing is a privilege unavailable for those who need to go to public workspaces to access these technologies.

This divide extends to medical devices used in routine care. Oximeters[34] that measure oxygen levels in the blood tend to produce inflated results for people with darker skin because they were calibrated in clinical trials with mostly white participants. This racial bias may result in denial of care if someone with darker skin gets a normal reading despite actually having dangerously low oxygen levels.

Health disparities persist despite technology

These inequities are often derived from ongoing historical biases and discrimination.

Socioeconomic status, occupation and economic mobility are primary drivers of unequal health outcomes[35]. In 2020, 5.4 million laid-off workers became uninsured in just four months[36]. In 2019, 55% of retail and food workers[37] at large firms didn’t have access to paid sick leave. Many immigrants, whether undocumented or legal U.S. residents, are likely to avoid the health care system[38] due to fear of deportation and limited insurance coverage and public assistance.

Difficulty parsing through health information is another factor. In addition to abundant misinformation[39] about COVID-19, nearly 9 in 10 adults[40] struggle with health literacy. A July 2020 study[41] found that Black men were less likely to know about COVID-19 symptoms and how the virus spreads than white men. For some groups, limited English proficiency and cultural beliefs[42] are barriers to health communication.

Anti-vaccine protesters holding up signs reading 'NO VAX MANDATE FOR KIDS' People with limited health literacy are especially vulnerable to misinformation about COVID-19. David Crane/MediaNews Group/Los Angeles Daily News via Getty Images[43]

Even more critical is distrust in the medical system. Historical unethical experimentation[44] and everyday racism[45] have led to a lack of confidence in scientists and clinicians among vulnerable populations. Two-thirds[46] of Black adults believe the government can rarely or never be trusted to look out for the interests of their community.

Conversely, that COVID-19 hospitalizations and deaths disproportionately affect lower-income populations and communities of color reinforces the need for greater diversity in clinical research participants. Over 80% of participants in the Pfizer-BioNTech COVID-19 vaccine trial identified as white[47]. Having clinical trials that reflect the patients who will be treated ensures that the drug will work for all and encourages confidence among those communities.

The importance of social factors in health

While technology has greatly improved U.S. pandemic response, broader societal ills continue to impede the nation’s ability to control COVID-19.

The McKeown debate exposes a common misconception that improving health is a binary: a choice between improving social conditions or developing new technologies and medicines. But a growing body of research shows that social factors[48], or the conditions where people live[49], work and play, are key to health outcomes.

There are numerous strategies[50] that can increase health equity in this time of crisis. These include tackling food insecurity, flexibility in work conditions, targeted vaccine initiatives[51] and culturally competent health care[52]. Engaging with communities[53] as partners in health also advances the nation’s ability to cope during a crisis.

Nobel prize-winning economist Amartya Sen[54] hypothesized that increases in life expectancy in the 20th century occurred in periods marked by a strong emphasis on social sharing and public provision of health care. To me, it’s clear that the time has come to invest not just in new technologies and medical treatments, but also in communities.

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References

  1. ^ controversially proposed (dx.doi.org)
  2. ^ Ljstalpers/Wikimedia Commons (commons.wikimedia.org)
  3. ^ CC BY-SA (creativecommons.org)
  4. ^ later partly discredited (doi.org)
  5. ^ lockdowns (dx.doi.org)
  6. ^ social distancing (graphics.reuters.com)
  7. ^ face masks (ballotpedia.org)
  8. ^ vaccines (www.fda.gov)
  9. ^ new variants (www.npr.org)
  10. ^ waning immunity (doi.org)
  11. ^ vaccine hesitancy (www.pewtrusts.org)
  12. ^ far from over (www.npr.org)
  13. ^ infectious disease and social epidemiologist (scholar.google.com)
  14. ^ highly effective (www.yalemedicine.org)
  15. ^ reduce the risk of long COVID-19 (doi.org)
  16. ^ saved almost 140,000 lives in the U.S. (doi.org)
  17. ^ notoriously difficult to manufacture (cen.acs.org)
  18. ^ options for treating COVID-19 (combatcovid.hhs.gov)
  19. ^ molnupiravir (www.merck.com)
  20. ^ paxlovid (www.statnews.com)
  21. ^ expected in the coming months (www.npr.org)
  22. ^ Moch Farabi Wardana/Pacific Press/LightRocket via Getty Images (www.gettyimages.com)
  23. ^ PCR tests (doi.org)
  24. ^ blood tests (www.cdc.gov)
  25. ^ Collaboration (www.csis.org)
  26. ^ Rapid Acceleration of Diagnostics, or RADx (www.nih.gov)
  27. ^ contain outbreaks in schools (www.nih.gov)
  28. ^ health disparities (doi.org)
  29. ^ essential (dx.doi.org)
  30. ^ higher rates of obesity, hypertension and type 2 diabetes (www.brookings.edu)
  31. ^ up to 4.5 times higher (doi.org)
  32. ^ Mario Tama/Getty Images (www.gettyimages.com)
  33. ^ digital divide (doi.org)
  34. ^ Oximeters (theconversation.com)
  35. ^ primary drivers of unequal health outcomes (doi.org)
  36. ^ in just four months (www.familiesusa.org)
  37. ^ 55% of retail and food workers (shift.hks.harvard.edu)
  38. ^ avoid the health care system (www.kff.org)
  39. ^ abundant misinformation (www.kff.org)
  40. ^ 9 in 10 adults (nnlm.gov)
  41. ^ July 2020 study (doi.org)
  42. ^ limited English proficiency and cultural beliefs (www.healthypeople.gov)
  43. ^ David Crane/MediaNews Group/Los Angeles Daily News via Getty Images (www.gettyimages.com)
  44. ^ unethical experimentation (www.cdc.gov)
  45. ^ everyday racism (www.covidcollaborative.us)
  46. ^ Two-thirds (www.covidcollaborative.us)
  47. ^ identified as white (www.kff.org)
  48. ^ social factors (doi.org)
  49. ^ conditions where people live (health.gov)
  50. ^ numerous strategies (doi.org)
  51. ^ targeted vaccine initiatives (publichealth.jhu.edu)
  52. ^ culturally competent health care (dx.doi.org)
  53. ^ Engaging with communities (covid19community.nih.gov)
  54. ^ Amartya Sen (www.penguinrandomhouse.com)
  55. ^ Sign up today (memberservices.theconversation.com)

Authors: Eyal Oren, Professor of Epidemiology, San Diego State University

Read more https://theconversation.com/medical-technologies-have-been-central-to-us-pandemic-response-but-social-behaviors-matter-just-as-much-171587

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