Life table

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2003 US mortality table, Table 1, Page 1 2003 US mortality table, Table 1, Page 1

In actuarial science, a life table (also called a mortality table or actuarial table) is a table which shows, for a person at each age, what the probability is that they die before their next birthday. From this starting point, a number of statistics can be derived and thus also included in the table:

  • the probability of surviving any particular year of age
  • remaining life expectancy for people at different ages
  • the proportion of the original birth cohort still alive.

Life tables are usually constructed separately for men and for women because of their substantially different mortality rates. Other characteristics can also be used to distinguish different risks, such as smoking-status, occupation, socio-economic class, and others.

Life tables are also used in biology, and as an alternative to the Pearl Index in studies of birth control effectiveness.

Insurance applications

In order to price insurance products, and ensure the solvency of insurance companies through adequate reserves, actuaries must develop projections of future insured events (such as death, sickness, disability, etc.). To do this, actuaries develop mathematical models of the causes of these events, as well as the amount and timing of the events. They do this by studying the incidence and severity of these events in the recent past, developing expectations about how the drivers of these past events will change over time (for example, whether the increase in life expectancy that has been experienced by most generations over prior generations will continue) and, accordingly, develop an expectation for what the timing and amount of such events will be into the future. These expectations usually take the form of tables of percentages indicating the number of such events that will occur in a population, usually based on the age or other relevant characteristics of the population. More specifically, they may be referred to as mortality tables (if they provide rates of mortality, or death), morbidity tables (if they provide rates of disability and recovery), or by other names if they cover other decrements.

The invention of computers and the proliferation of data gathering about individuals has led to fundamental changes in the way actuarial tables are computed for different uses, and a variety of emerging methods factor a range of non-traditional behaviors (e.g. gambling, debt load) into specialized calculations utilized by some institutions for evaluating risk.

The mathematics of life tables

To give an indication of how life tables are used, here are a few sample calculations. These samples may not be obvious to someone who has never studied probability theory, but are intended to introduce new ideas to people who have some understanding of discrete probability theory.

  • \,q_x: the probability that someone aged exactly \,x will die before their \,(x+1)th birthday
  • \,p_x: the probability of surviving from age \,x to age \,(x+1)
\,p_x = 1-q_x
  • \,l_x: the number of people who survive to age \,x
note that this is based on a starting point of \,l_0 lives, typically 100,000
\,l_{x + 1} = l_x \cdot (1-q_x) = l_x \cdot p_x
\,{l_{x + 1} \over l_x} = p_x
  • \,d_x: the number of people who die aged \,x
\,d_x = l_x-l_{x+1}
  • \,{}_tp_x: the probability that someone aged exactly \,x will survive for \,t more years, i.e. live up to at least age \,x+t years
\,{}_tp_x = {l_{x+t} \over l_x}

Life tables in biology

When biologists use life tables, they will normally also include fertility for each ages. The extra parameter used is

  • \,m_x: expected number of progeny for an individual aged \,x

Life tables as an alternative to the Pearl Index

When used to study birth control effectiveness, a life table calculates a separate effectiveness rate for each month of the study, as well as for a standard period of time (usually 12 months). Use of life tables eliminates time-related biases (i.e. the most fertile couples getting pregnant and dropping out of the study early, and couples becoming more skilled at using the method as time goes on), and in this way is superior to the more common Pearl Index.

In studies that use life tables, usually two kinds are created. Multiple-decrement life tables report net effectiveness rates which are useful for comparing competing reasons for couples dropping out of a study. Single-decrement life tables report gross effectiveness rates, which can be used to accurately compare one study to another.[1]

References

  1. ^ Kippley, John; Sheila Kippley (1996). The Art of Natural Family Planning, 4th addition, Cincinatti, OH: The Couple to Couple League. ISBN 0926412132, 140-141., which cites:
     

    Trussell J, Hatcher RA, Cates W, et al (1990). "A guide to interpreting contraceptive efficacy studies". Obstetrics and Gynecology 76: 558-567. PMID 2199875.
    Potter RG (1966). "Application of life table techniques to measurement of contraceptive effectiveness". Demography 3 (2): 297-304.
    Trussell J (1991). "Methodological pitfalls in the analysis of contraceptive failure". Statistics in medicine 10: 201-220. PMID 2052800.
    Trussell J, Grummer-Strawn L (1991). "Further analysis of contraceptive failure of the ovulation method". American Journal of Obstetrics and Gynecology 165: 2054-2059. PMID 1755470.
    Sheps MC (1966). "Characteristics of a ratio used to estimate failure rates: occurrences per person year of exposure". Biometrics 22: 310-321. PMID 5961447.
    Trussell J, Kost K (1987). "Contraceptive failure in the United States: A critical review of the literature". Studies in family planning 18: 237-282. PMID 3318006.
    Trussell J, Grummer-Strawn L (1990). "Contraceptive failure of the ovulation method of periodic abstinence". Family Planning Perspectives 22: 65-75. PMID 2189750.
    Trussell J, Strickler J, Vaughan B (1993). "Contraceptive efficacy of the diaphragm, the sponge and the cervical cap". Family Planning Perspectives 25: 100-105, 135. PMID 8354373.

See also

External links