Microlife

A microlife is a unit of risk representing half an hour change of life expectancy. [1]

Introduced by David Spiegelhalter and Alejandro Leiva, microlives are intended as a simple way of communicating the impact of a lifestyle or environmental risk factor, based on the associated daily proportional effect on expected length of life. Similar to the micromort (one in a million probability of death) the microlife is intended for "rough but fair comparisons between the sizes of chronic risks".[1] This is to avoid the biasing effects of describing risks in relative hazard ratios, converting them into somewhat tangible units. Similarly they bring long-term future risks into the here-and-now as a gain or loss of time.

"A daily loss or gain of 30 minutes can be termed a microlife, because 1 000 000 half hours (57 years) roughly corresponds to a lifetime of adult exposure."[1]

The microlife exploits that for small hazard ratios the change in life expectancy is roughly linear.[2] They are by necessity rough estimates, based on averages over population and lifetime. Effects of individual variability, short-term or changing habits, and causal factors are not taken into account.

Graphic representation of microlives
Microlives gained/lost, based on estimated life expectancy effects of long term lifestyle and demographic risk factors, for men and women aged 35 years.[1]
Risk factor Men Women
Smoking
Smoking 1524 cigarettes 10 9
Alcohol intake
First drink (of 10 g alcohol) 1 1
Each subsequent drink (up to 6) ½ 1
Obesity
Per 5 units above body mass index of 22.5 each day 3 3
Per 5 kg above optimum weight for average height each day 1 1
Sedentary behaviour
2 hours watching television 1 1
Diet
Red meat, 1 portion (85 g, 3 oz) 1 1
Fruit and vegetable intake, =5 servings (blood vitamin C >50 nmol/L) 4 3
Coffee intake
2-3 cups 1 1
Physical activity
First 20 minutes of moderate exercise 2 2
Subsequent 40 minutes of moderate exercise 1 ½
Statins
Taking a statin 1 1
Air pollution
Per day living in Mexico City v London ½ ½
Sex
Per day being male v female 4
Geography
Per day being a resident of Russia v Sweden 21 9
Era
Per day living in 2010 v 1910 15 15
Per day living in 2010 v 1980 8 5

See also

References

  1. 1 2 3 4 David Spiegelhalter, Using speed of ageing and "microlives" to communicate the effects of lifetime habits and environment, BMJ, 345, December 2012, doi 10.1136/bmj.e8223 , as corrected by BMJ 2012;345:e8676
  2. Haybittle JL. The use of the Gompertz function to relate changes in life expectancy to the standardized mortality ratio. Int J Epidemiol1998;27:885-9.

Further reading

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