Preventable causes of death explained

Preventable causes of death are causes of death related to risk factors which could have been avoided.[1] The World Health Organization has traditionally classified death according to the primary type of disease or injury. However, causes of death may also be classified in terms of preventable risk factors—such as smoking, unhealthy diet, sexual behavior, and reckless driving—which contribute to a number of different diseases. Such risk factors are usually not recorded directly on death certificates, although they are acknowledged in medical reports.

Worldwide

It is estimated that of the roughly 150,000 people who die each day across the globe, about two thirds—100,000 per day—die of age-related causes. In industrialized nations the proportion is much higher, reaching 90 percent.[2] Thus, albeit indirectly, biological aging (senescence) is by far the leading cause of death. Whether senescence as a biological process itself can be slowed, halted, or even reversed is a subject of current scientific speculation and research.[3]

2001 figures

Risk factors associated with the leading causes of preventable death worldwide as of the year 2001, according to researchers working with the Disease Control Priorities Network (DCPN):[4] [5]

CauseNumber of deaths resulting (millions per year)
Hypertension7.8
Smoking tobacco5.4
Alcohol use disorder3.8
Sexually transmitted infections3.0
Poor diet2.8
Overweight and obesity2.5
Physical inactivity2.0
Malnutrition1.9
Indoor air pollution from solid fuels1.8
Unsafe water and poor sanitation1.6

By contrast, the World Health Organization (WHO)'s 2008 statistics list only causes of death, and not the underlying risk factors.

In 2001, on average 29,000 children died of preventable causes each day (that is, about 20 deaths per minute). The authors provide the context:

Western societies

In 2017, The Lancet published a large study by Swiss epidemiologist Silvia Stringhini and her collaborators, analysing the impact of the most important causes of preventable death in Western societies.[6] They estimated the number of years of life lost for each risk factor at the individual level and its contribution to preventable death at the societal level (PAF = Population Attributable Fraction).

The multicohort study and meta-analysis used individual-level data from 48 independent prospective cohort studies with information on socioeconomic status, high alcohol consumption, physical inactivity, current smoking, hypertension, diabetes and obesity, and mortality, for a total population of 1,751,479 from seven high-income WHO member countries.

A limitation of many studies of health risk factors is confounding bias: many risk factors are interrelated and cluster together in high-risk populations. For example: Low physical activity and obesity go hand in hand. People who are physically inactive tend to gain weight, and people who are severely obese have difficulty exercising. The unique advantage of the huge amount of individual data in the Stringhini study is that it allows (estimation of) the relative contribution of each separate risk factor.

As shown in summary Table 2, at an individual level, smoking is the single greatest risk of avoidable death, followed by diabetes and high alcohol consumption. At the population level, diabetes and high alcohol consumption have a low prevalence. Physical inactivity, smoking and low socioeconomic status (SES) are then the top three preventable causes of early death. Smoking, physical inactivity and low SES account for almost two thirds of all avoidable deaths.

Risk factor
Hazard RatioLive-Years Lost

between Ages

40 and 85 Years

PrevalencePercentage of

Deaths who

Died Prematurely

(PAF)

Physical inactivity1,592,3043,7%24,5%
Current smoking (reference is never smoking)2,084,6023,3%24,0%
Low Socio-Economic Status (reference high SES)1,382,0635,4%17,2%
Diabetes1,793,999,0%6,5%
High alcohol (reference moderate alcohol intake)1,620,486,8%3,7%
Hypertension1,291,5434,0%8,8%
Obesity (reference is normal BMI)1,110,6820,9%Small
A puzzling finding is the small contribution of obesity as a cause of avoidable premature death. There are two reasons why obesity is not an important independent risk factor, as is often assumed.

First, being overweight is a risk for early death without correcting for confounding risk factors. Overweight is usually measured by the body mass index (BMI = kg/m2), which is much easier to measure than physical activity. Most studies only measured BMI, not physical activity, and did not correct for confounding.

Second, a major pitfall in many studies of weight and health is that 'normal' and 'healthy' are often confused. The WHO definition of 'normal' adult BMI (between 18.5 and 24.9 kg/m2) is based on a normal weight and height distribution of US citizens in the 1960s, not on the associated risk of death in 2023.[7] [8] A meta-analysis of the association between BMI and mortality in 230 cohort studies with 3.74 million deaths among 30.3 million participants found that the risk of death in adults is not increased between 23 and 30 kg/m2 (see Figure 2).[9] An adult BMI of 18.5 kg/m2, considered 'normal' by WHO criteria, is associated with a 30% increase in all-cause mortality.

United States

The three risk factors most commonly leading to preventable death in the population of the United States are smoking, high blood pressure, and being overweight.[10] Pollution from fossil fuel burning kills roughly 200,000 per year.https://academic.oup.com/cardiovascres/article/116/11/1910/5770885

Annual number of deaths and causes

Table 3: Avoidable causes and numbers of death per year.

Cause of Death Number Percent of total Notes
Adverse events in hospitals in low- and middle-income countries 2.6 million deaths[11] "one of the 10 leading causes of death and disability in the world"
435,000[12] 18.1%
Obesity111,900[13] 4.6% There was considerable debate about the differences in the numbers of obesity-related diseases.[14] The value here reflects the death rate for obesity that has been found to be the most accurate of the debated values.[15] Note, however, that being overweight but not obese was associated with fewer deaths (not more deaths) relative to being normal weight.
85,0003.5%
Infectious diseases 75,0003.1%
55,0002.3%
Traffic collisions 43,0001.8%
Preventable colorectal cancers 41,400 1.7% Colorectal cancer (bowel cancer, colon cancer) caused 51,783 deaths in the US in 2011.[16] About 80 percent[17] of colorectal cancers begin as benign growths, commonly called polyps, which can be easily detected and removed during a colonoscopy. Accordingly, the tabulated figure assumes that 80 percent of the fatal cancers could have been prevented.
31,940[18] 1.3% Suicide

19,766; homicide: 11,101; accidents: 852; unknown: 822.

20,0000.8%
17,0000.7%

Among children worldwide

Various injuries are the leading cause of death in children 9–17 years of age. In 2008, the top five worldwide unintentional injuries in children are as follows:[19]

Table 4: Avoidable numbers of death among children

CauseNumber of deaths resulting
Traffic collision260,000 per year
Drowning175,000 per year
Viruses96,000 per year
Falls47,000 per year
Toxins45,000 per year

See also

Notes and References

  1. Danaei. Goodarz. Ding. Eric L.. Mozaffarian. Dariush. Taylor. Ben. Rehm. Jürgen. Murray. Christopher J. L.. Ezzati. Majid. 2009-04-28. The Preventable Causes of Death in the United States: Comparative Risk Assessment of Dietary, Lifestyle, and Metabolic Risk Factors. PLOS Medicine. 6. 4. e1000058. 10.1371/journal.pmed.1000058. 1549-1277. 2667673. 19399161 . free .
  2. Aubrey D.N.J . de Grey . Aubrey de Grey . Life Span Extension Research and Public Debate: Societal Considerations . Studies in Ethics, Law, and Technology . 1 . 1, Article 5 . 2007 . 10.2202/1941-6008.1011 . August 7, 2011 . 10.1.1.395.745 . 201101995 . https://web.archive.org/web/20190212132207/http://www.sens.org/files/pdf/ENHANCE-PP.pdf . February 12, 2019 . dead .
  3. Web site: SENS Foundation . 2012-10-10 . 2019-05-27 . https://web.archive.org/web/20190527073423/https://www.sens.org/ . live .
  4. Web site: DCP3. washington.edu. dead. https://web.archive.org/web/20130128022124/http://globalhealth.washington.edu/project/4236. 2013-01-28.
  5. Lopez AD, Mathers CD, Ezzati M, Jamison DT, Murray CJ . Global and regional burden of disease and risk factors, 2001: systematic analysis of population health data . Lancet . 367 . 9524 . 1747–57 . May 2006 . 16731270 . 10.1016/S0140-6736(06)68770-9 . 22609505 .
  6. Stringhini . Silvia . Carmeli . C . Jokela . M . Avendaño . M . Muennig . P . Guida . F . ...LIFEPATH consortium . 2017 . Socioeconomic status and the 25 × 25 risk factors as determinants of premature mortality: a multicohort study and meta-analysis of 1·7 million men and women. . The Lancet . 389 . 10075 . 1229–1237. 10.1016/S0140-6736(16)32380-7 . 28159391 . 5368415 .
  7. Keys . A . Fidanza . F . Karvonen . MJ . Kimuru . N . Taylor . HL . 1972 . Indices of relative weight and obesity . Journal of Chronic Diseases . 25 . 6 . 329–343 . 10.1016/0021-9681(72)90027-6 . 4650929 . (Reprinted in Int J Epidemiol 2014: 43(3): 655-665).
  8. Web site: WHO – World Health Organization . 6 May 2010 . A healthy lifestyle - WHO recommendations . 18 June 2023 . WHO-World Health Organization.
  9. Aune . Dagfinn . Sen . A . Prasad M . M . Norat T . T . Janszky . I . Tonstad . S . Romundstad . P . Vatten . LJ . 4 May 2016 . BMI and all cause mortality: systematic review and non-linear dose-response meta-analysis of 230 cohort studies with 3.74 million deaths among 30.3 million participants . British Medical Journal . 353 . i2156. 10.1136/bmj.i2156 . 27146380 . 4856854 .
  10. Danaei . Ding . Mozaffarian . Taylor . Rehm . Murray . Ezzati . The preventable causes of death in the United States: comparative risk assessment of dietary, lifestyle, and metabolic risk factors . PLOS Medicine . 2009 . 6 . 4 . e1000058 . 10.1371/journal.pmed.1000058. 19399161 . 2667673 . free .
  11. News: Patient Safety . 16 June 2022 . WHO . 13 September 2019.
  12. Mokdad AH, Marks JS, Stroup DF, Gerberding JL . Actual causes of death in the United States, 2000 . JAMA . 291 . 10 . 1238–45 . March 2004 . 15010446 . 10.1001/jama.291.10.1238 . 2008-08-28 . 2019-06-20 . https://web.archive.org/web/20190620213829/http://www.csdp.org/research/1238.pdf . live .
  13. Flegal, K.M., B.I. Graubard, D.F. Williamson, and M.H. Gail. . Obesity . Journal of the American Medical Association . 293 . 15 . 1861–67 . 2005 . 15840860 . 10.1001/jama.293.15.1861.
  14. Flegal . Katherine M. . The obesity wars and the education of a researcher: A personal account. . Progress in Cardiovascular Diseases . 2021 . 67. 75–79 . 10.1016/j.pcad.2021.06.009 . 34139265 . 235470848 .
  15. Web site: Controversies in Obesity Mortality: A Tale of Two Studies . RTI International . 2014-02-21 . 2016-03-03 . https://web.archive.org/web/20160303230927/http://www.rti.org/pubs/IssueBrief_1.pdf . live .
  16. Web site: Centers for Disease Control and Prevention . Colorectal Cancer Statistics . January 12, 2015 . May 27, 2019 . https://web.archive.org/web/20190527025433/https://www.cdc.gov/cancer/colorectal/statistics/ . live .
  17. Web site: Carol A. Burke . Laura K. Bianchi . Colorectal Neoplasia . Cleveland Clinic . January 12, 2015 . October 4, 2018 . https://web.archive.org/web/20181004192452/http://www.clevelandclinicmeded.com/medicalpubs/diseasemanagement/gastroenterology/colorectal-neoplasia/ . live .
  18. Web site: Deaths: Preliminary Data for 2011 . CDC . 2014-02-21 . 2014-02-02 . https://web.archive.org/web/20140202154454/http://www.cdc.gov/nchs/data/nvsr/nvsr61/nvsr61_06.pdf . live .
  19. News: BBC News | Special Reports | UN raises child accidents alarm . BBC News . May 8, 2010 . December 10, 2008 . July 5, 2018 . https://web.archive.org/web/20180705093413/http://news.bbc.co.uk/2/hi/in_depth/7776127.stm . live .