Contributions of mortality changes by age group and selected causes of death to the increase in Japanese life expectancy at birth from 1950 to 2000

The purpose of this study is to analyze contributions of mortality change by age group and selected causes of death to the increase in life expectancy at birth from 1950 to 2000 in Japan, which has the longest longevity in the world. Using mortality data from Japanese vital statistics from 1950 to 2000, we analyzed contributions of mortality change by age group and selected causes of death to the increase in life expectancy at birth by the method of decomposition of changes and calculated age-adjusted death rates for selected causes of death. Gastroenteritis, tuberculosis and pneumonia largely contributed to an increase in life expectancy in childhood and in the young in the 1950s and 1960s. The largest contributing disease changed from tuberculosis and pneumonia in earlier decades to cerebrovascular diseases in the 1970s. The largest contributing age group also shifted to older age groups. Age-adjusted death rate for cerebrovascular diseases in 2000 was one fifth of the 1965 level. Cerebrovascular diseases contributed to an increase in life expectancy at birth of 2.9years in males and 3.1 years in females from 1970 to 2000. In the 1990s, the largest contributing age group, both among males and among females, was the 75–84 age group. Of the selected causes of death, heart diseases other than ischemic heart disease became the largest contributor to the increase in life expectancy at birth. Unlike cerebrovascular diseases, cancer and ischemic heart disease contributed little to change in life expectancy at birth over the past 50years. In conclusion, although mortality from ischemic heart disease has not increased since 1970 and remained low compared with levels in western countries, mortality from cerebrovascular diseases has dramatically decreased since the mid-1960s in Japan. This gave Japan the longest life expectancy at birth in the world. It is necessary to study future trends in life expectancy at birth in Japan.     

Trends in infant/child mortality and life expectancy in Indigenous populations in Yunnan Province, China

OBJECTIVE: The 2000 Census in China registered 55 groups of Indigenous population, including 104.49 million people, making up 8.1% of China's total population. Yunnan Province, located in Southwest China, is the only province where all 55 Indigenous nationalities are represented (14.15 million), making up 33.4% of Yunnan's total population. This study aimed to examine trends in infant and child mortality and life expectancy at birth of the 22 largest Indigenous nationalities and compared these trends with those of the majority Han Chinese in Yunnan and China as a whole. METHODS: Data sources of mortality and socioeconomic status came from the population censuses of China (1953, 1964, 1982, 1990, and 2000) and Yunnan (1990-2000) and from the Provincial Health Department (1990, 1995, 1996 and 2000). Weighted linear regression analysis was used to examine the associations between infant/child mortality and life expectancy at birth, socioeconomic indicators and the use of preventive health services. RESULTS: In 2000, the infant mortality rate was 26.90 for China and 53.64 for Han Chinese in Yunnan per 1,000 live birth versus 77.75 for the 22 largest minority nationalities in Yunnan, despite improvements in health status indicators since 1990. The inequalities in life expectancy at birth between China as a whole and some minority nationalities remained striking in 2000 (57.18 versus 71.40). Literacy, prenatal examination, hospital deliveries, economic development were important predictors of these health indicators. IMPLICATIONS: Efforts to continue to improve these intermediate proximate determinants and to target the most disadvantaged Indigenous groups are likely to further reduce health disparities between the Chinese and Indigenous populations.     

Northern Territory indigenous life expectancy improvements, 1967-2004

OBJECTIVE: To assess the extent of changes in life expectancy at birth for the Indigenous population of the Northern Territory (NT) over the period 1967-2004, and to determine which age-specific mortality rates were mostly responsible for such change. METHODS: Life expectancy at birth figures were obtained via life table calculations using a high-quality and internally consistent dataset of NT Indigenous deaths and populations covering the period 1967-2004. A life expectancy at birth age decomposition technique was then applied. RESULTS: Indigenous life expectancy at birth has risen considerably in the NT, increasing from about 52 years for males and 54 years females in the late 1960s to about 60 years for males and 68 years for females in recent years. Significantly, for NT Indigenous females the gap with total Australian life expectancy has narrowed. CONCLUSIONS: In contrast to popular perception, Indigenous life expectancy in the Northern Territory has improved substantially from the late 1960s to the present. IMPLICATIONS: The widespread pessimism that surrounds Indigenous health and mortality is largely unfounded, at least for the NT. Although much remains to be done to reduce Indigenous mortality, the results in this paper demonstrate that improvements are occurring and that sustained and increased effort is worthwhile and will succeed.     

Widening socioeconomic inequalities in US life expectancy, 1980-2000

BACKGROUND: This study examines changes in the extent of inequalities in life expectancy at birth and other ages in the United States between 1980 and 2000 by gender and socioeconomic deprivation levels. METHODS: A factor-based deprivation index consisting of 11 education, occupation, wealth, income distribution, unemployment, poverty, and housing quality indicators was used to define deprivation deciles, which were then linked to the US mortality data at the county-level. Life expectancy estimates were developed by age, gender, and deprivation levels for three 3 year time periods: 1980-82, 1989-91, and 1998-2000. Inequalities in life expectancy were measured by the absolute difference between the least-deprived group and each of the other deprivation deciles. Slope indices of inequality for each gender and time period were calculated by regressing life expectancy estimates on deprivation levels using weighted least squares models. RESULTS: Those in less-deprived groups experienced a longer life expectancy at each age than their counterparts in more-deprived groups. In 1980-82, the overall life expectancy at birth was 2.8 years longer for the least-deprived group than for the most-deprived group (75.8 vs 73.0 years). By 1998-2000, the absolute difference in life expectancy at birth had increased to 4.5 years (79.2 vs 74.7 years). The inequality indices also showed a substantial widening of the deprivation gradient in life expectancy during the study period for both males and females. CONCLUSIONS: Between 1980 and 2000, those in higher socioeconomic groups experienced larger gains in life expectancy than those in more-deprived groups, contributing to the widening gap.     

Mortality trends in Australian Aboriginal peoples and New Zealand Māori

Background

The health status of Indigenous populations of Australia and New Zealand (NZ) Māori manifests as life expectancies substantially lower than the total population. Accurate assessment of time trends in mortality and life expectancy allows evaluation of progress in reduction of health inequalities compared to the national or non-Indigenous population.

Methods

Age-specific mortality and life expectancy (at birth) (LE) for Indigenous populations (Australia from 1990 and NZ from 1950); and all Australia and non-Māori NZ (from 1890), males (M) and females (F), were obtained from published sources and national statistical agency reports. Period trends were assessed for credible estimates of Indigenous LE, and the LE gap compared to the total population for Australia, and non-Māori for NZ. Period trends in premature adult mortality, as cumulative probability of dying over 15–59 years, were assessed similarly. The relative contribution of differences in age-specific mortality to the LE gap between Indigenous and the all-Australia population, and the non-Māori NZ, was estimated for each country by sex for the most recent period: 2010–2012 for Australia, 2012–2014 for NZ.

Results

LE increased for all populations, although LE gaps between Indigenous and all Australia showed little change over time. LE gaps between NZ Māori and non-Māori increased significantly from the early 1980s to the mid-1990s, and since then have fallen again. Recent LE gaps in Australia (M 12.5; F 12.0 years in 2010–2012) were larger than in NZ (M 7.3; F 6.8 years in 2012–2014). Premature adult mortality (15–59 years) improved for all populations, but mortality ratios show little change since 2000, with Indigenous at 3½-4 times that of all Australians, and Māori 2–3 times that of non-Māori. Using decomposition analysis, the age interval contributing most strongly to differences in LE between Indigenous and all Australia was 35–59 years, but between Māori and non-Māori it was 60–74 years.

Conclusion

In Australia and NZ, Indigenous LE and adult mortality are improving in absolute terms, but not relative to the entire or non-Indigenous populations, causing gaps in life expectancy to persist.

     

The effect of revised populations on mortality statistics for the United States, 2000.

OBJECTIVES: This report presents revised mortality statistics for the year 2000 based on April 1, 2000, population figures from the 2000 census. Death rates are presented by race, Hispanic origin, sex, age, and cause of death. Life expectancies are presented by race (white and black), sex, and age. The revised statistics are compared with previously published statistics that used July 1, 2000, postcensal population estimates based on the 1990 census. METHODS: Data in this report are based on information from all death certificates filed in the 50 States and the District of Columbia. The statistics presented in this report are computed on the basis of two sets of population figures provided by the U.S. Census Bureau. The first set includes July 1, 2000, postcensal population estimates based on the 1990 decennial census. The second set includes April 1, 2000, populations from the 2000 decennial census bridged to single race categories. RESULTS: Crude death rates were lower for all groups using the April 1, 2000, populations. Age-specific death rates were generally lower for most age groups, except for infants and the very old for which death rates were higher. Age-specific death rates for males were lower for most age groups, except infants and those 75 years and over. For females, with the exception of infants, age-specific death rates were lower. Race-specific pattems by age for the white and black populations were similar to all races combined. For the American Indian population, age-specific death rates were substantially lower for ages under 75 years. For ages 75 years and over, American Indian death rates were dramatically higher. Age-specific death rates for the Asian or Pacific Islander (API) population were higher for ages under 15 years; lower for ages 15-84 years, especially for the 15-34 year age group; and higher for those 85 years and over. For the Hispanic population, age-specific death rates were substantially lower for those age 15-34 years and higher for those age 55 years and over, especially for those age 85 years and over. For the total white and total black populations, the age-adjusted death rate was somewhat higher for males and lower for females. For API the pattern was reversed. For the American Indian and Hispanic populations, age-adjusted death rates were higher for both males and females. For the 15 leading causes of death, age-adjusted death rates based on the April 1, 2000, population figures were lower for heart disease, cancer, chronic liver disease, septicemia, diabetes, chronic lower respiratory diseases, unintentional injuries, homicide, suicide, and hypertension. Age-adjusted death rates were higher for pneumonitis, Alzheimer's disease, and stroke. Rates were unchanged for influenza and pneumonia and nephritis, nephrotic syndrome and nephrosis. Life expectancy at birth was higher for the entire population and both the white and black populations using the April 1, 2000, population figures. It was 0.1 year higher for the whole population as well as for the total white and total black populations. For the total male population, life expectancy at birth was 0.1 year higher while it was 0.2 years higher for the female population. The increase in life expectancy at birth was 0.1 year for both sexes within the white and black populations. This observed gain in life expectancy at birth based on the revised population figures is reversed for life expectancy at the oldest age groups for the whole population and for males. A similar pattern is observed for both white and black males; however, the magnitude of the decline in life expectancy at older ages is much greater among black males. Among females of both race groups and the total population, there is either no change or an increase in life expectancy in the oldest age groups. CONCLUSIONS: Revised death rates and life expectancies are, in many cases, significantly different from previously published mortality statistics calculated using 1990-based postcensal estimates for 2000. Thus, previously published mortality statistics for 2000 using the 1990-based populations will not be comparable to the corresponding statistics that will be published for 2001. The data in this report will provide comparable 2000 data. Efforts are also underway to revise previously published mortality tables for 2000 as well as previously published data for 1991-99.     

Lack of improvement of life expectancy at advanced ages in The Netherlands

BACKGROUND: Several countries have reported an increase in life expectancy at advanced ages. This paper analyses recent changes in life expectancy at age 60 and 85 in The Netherlands, a low mortality country with reliable mortality data. METHODS: We used data on the population and the number of deaths by age, sex and underlying cause of death for 1970-1994. Life expectancy at age 60 and 85 was estimated using standard life-table techniques. The contribution of different ages and causes of death to the change in life expectancy during the 1970s (1970/74-1980/84) and the 1980s (1980/84-1990/94) were estimated with a decomposition technique developed by Arriaga. RESULTS: Life expectancy at age 60 increased in the 1970s and 1980s, whereas life expectancy at age 85 decreased (men) and stagnated (women) in the 1980s, and has decreased in both sexes since 1985/89. The decomposition by age showed that constant mortality rates in women aged 85-89, and increasing mortality rates at ages 85+ (men) and 90+ (women) have caused this lack of increase in life expectancy. The decomposition by cause of death showed that smaller mortality reductions from other cardiovascular and cerebrovascular diseases, which contributed most to the increase in life expectancy at age 85 in the 1970s, and mortality increases from, amongst others, chronic obstructive pulmonary disease (COPD), mental disorders and diabetes mellitus produced the decrease (men) and plateau (women) in life expectancy at age 85. CONCLUSIONS: Life expectancy at advanced ages stopped increasing during the 1980s in The Netherlands due to mortality increases at ages 85+ (men) and 90+ (women). Cause-specific trends suggest that, in addition to (past) smoking behaviour in men, changes in the distribution of morbidity and frailty in the population might have contributed to this stagnation.     

Geographical variation in life expectancy at birth in England and Wales is largely explained by deprivation

STUDY OBJECTIVE: To describe the population mortality profile of England and Wales by deprivation and in each government office region (GOR) during 1998, and to quantify the influence of geography and deprivation in determining life expectancy. DESIGN: Construction of life tables describing age specific mortality rates and life expectancy at birth from death registrations and estimated population counts. Life tables were created for (a) quintiles of income deprivation based on the income domain score of the index of multiple deprivation 2000, (b) each GOR and Wales, and (c) every combination of deprivation and geography. SETTING: England and Wales.PATIENTS/ PARTICIPANTS: Residents of England and Wales, 1998. MAIN RESULTS: Life expectancy at birth varies with deprivation quintile and is highest in the most affluent groups. The differences are mainly attributable to differences in mortality rates under 75 years of age. Regional life expectancies display a clear north-south gradient. Linear regression analysis shows that deprivation explains most of the geographical variation in life expectancy. CONCLUSIONS: Geographical patterns of life expectancy identified within these data for England and Wales in 1998 are mainly attributable to variations in deprivation status as defined by the IMD 2000 income domain score.     

Post-1950 mortality trends and medical care: gains in life expectancy due to declines in mortality from conditions amenable to medical intervention in The Netherlands

In order to assess the impact of medical care innovations on post-1950 mortality in The Netherlands, we analysed trends in mortality from a selection of conditions suggested by Rutstein et al.'s lists of "unnecessary untimely mortality". This selection covers 11 types of innovation, and includes 35 conditions which have become amenable to medical care. Loglinear regression analysis shows that for most of these conditions mortality declined during each of two subperiods (1950-1968; 1969-1984). Mortality decline accelerated in the second subperiod for many conditions. Reductions in mortality from these conditions between 1950/54 and 1980/84 added 2.96 and 3.95 years to life expectancy at birth of Dutch males and Dutch females respectively. A priori evidence indicates that these mortality reductions are due to some extent to 'spontaneous' incidence declines. Although the exact contribution of medical care innovations to these changes in mortality thus cannot be determined, the impact of medical care on post-1950 mortality in The Netherlands could well have been substantial.     

Limited progress in closing the mortality gap for Aboriginal and Torres Strait Islander Australians of the Northern Territory

Objectives : To assess whether progress is being made towards reducing Aboriginal and Torres Strait Islander inequality in life expectancy and under‐five mortality in the Northern Territory. Methods : Life tables for five‐year periods from 1966–71 to 2011–16 were calculated using standard abridged life table methods with Aboriginal and Torres Strait Islander deaths and population estimates as inputs. The latter were calculated using reverse cohort survival. Results : In 2011–16, life expectancy at birth for the Aboriginal and Torres Strait Islander population was 68.2 years for females and 64.9 years for males. Limited progress in under‐five mortality rates has been made in recent years. Conclusions : Although Aboriginal and Torres Strait Islander life expectancy has increased in the long run, the gap with all‐Australian life expectancy has not narrowed. The gap in under‐five mortality rates is much lower than it was in the 1960s and 1970s, but progress has been limited over the past decade. Implications for public health : The ‘Closing the Gap’ target of halving the gap in under‐five mortality by 2018 will not be met in the Northern Territory, and there is no evidence yet of progress on the target to eliminate the gap in life expectancy by 2031.     

United States Life Tables, 2001.

This report presents period life tables for the United States based on age-specific death rates in 2001. Data used to prepare these life tables are 2001 final mortality statistics; July 1, 2001, population estimates based on the 2000 decennial census; and data from the Medicare program. Presented are complete life tables by age, race, and sex. In 2001 the overall expectation of life at birth was 77.2 years, representing an increase of 0.2 years from life expectancy in 2000. Between 2000 and 2001, life expectancy increased for both males and females and for both the white and black populations. Life expectancy increased by 0.3 years for black males (from 68.3 to 68.6) and black females (from 75.2 to 75.5). It increased by 0.1 year for white males (from 74.9 to 75.0) and white females (from 80.1 to 80.2).     

United States life tables, 2000.

This report presents period life tables for the United States based on age-specific death rates in 2000. Data used to prepare these life tables are 2000 final mortality statistics; July 1, 2000, population estimates based on the 1990 decennial census; and data from the Medicare program. Presented are complete life tables by age, race, and sex. In 2000 the overall expectation of life at birth was 76.9 years, representing an increase of 0.2 years from life expectancy in 1999. Between 1999 and 2000, life expectancy increased for both males and females and for both the white and black populations. Life expectancy increased by 0.4 years for black males (from 67.8 to 68.2) and by 0.2 years for white males (from 74.6 to 74.8). It increased by 0.2 years for black females (from 74.7 to 74.9) and by 0.1 year for white females (from 79.9 to 80.0).     

World health inequality: convergence, divergence, and development

Recent studies characterize the last half of the twentieth century as an era of cross-national health convergence, with some attributing welfare gains in the developing world to economic growth. In this study, I examine the extent to which welfare outcomes have actually converged and the extent to which economic development is responsible for the observed trends. Drawing from estimates covering 195 nations during the 1955-2005 period, I find that life expectancy averages converged during this time, but that infant mortality rates continuously diverged. I develop a narrative that implicates economic development in these contrasting trends, suggesting that health outcomes follow a "welfare Kuznets curve." Among poor countries, economic development improves life expectancy more than it reduces infant mortality, whereas the situation is reversed among wealthier nations. In this way, development has contributed to both convergence in life expectancy and divergence in infant mortality. Drawing from 674 observations across 163 countries during the 1980-2005 period, I find that the positive effect of GDP PC on life expectancy attenuates at higher levels of development, while the negative effect of GDP PC on infant mortality grows stronger.     

Cambios en las diferencias por sexo en la esperanza de vida en España (1980-2012): descomposición por edad y causa

Objective

To calculate and analyse the contributions of changes in mortality by age groups and selected causes of death to sex differences in life expectancy at birth in Spain from 1980 to 2012.

Demographic aspects of population aging in developed countries

There has been a dramatic growth of the elderly (aged 60+) population in the developed countries since 1950. By the year 2000, roughly 20% of the population in these countries will belong to the aged. Women far outnumber men among the elderly due to differential mortality trends between the sexes. Male life expectancy at age 60 varies from 19.1 years in Japan to 14.6 years in Hungary. Among females, the range is from 23.2 years (Canada) to 18.4 years (Romania). Mortality rates have declined dramatically in several countries since 1970 due primarily to declines in death rates from ischaemic heart disease and stroke.     

The contribution of medical care to changing life expectancy in Germany and Poland

This paper assesses the impact of medical care on changes in mortality in east Germany and Poland before and after the political transition, with west Germany included for comparison. Building upon Rutstein's concept of unnecessary untimely deaths, we calculated the contribution of conditions considered responsive to medical care or health policy to changes in life expectancy between birth and age 75 [e(0-75)] for the periods 1980/1983-1988 and 1991/1992-1996/1997.Temporary life expectancy, between birth and age 75, has been consistently higher in west Germany, intermediate in east Germany and lowest in Poland. Although improving in all three regions between the early 1980s and the late 1990s, the pace of change differed between countries, resulting in a temporary widening of an initial east-west gap by the late 1980s and early 1990s. In the 1980s, in east Germany, 50-60% of the improvement was attributable to declining mortality from conditions responsive to medical care (west Germany: 30-40%). A net positive effect was also observed in Poland, although counterbalanced by deterioration in ischaemic heart disease mortality.In the former communist countries, improvements attributable to medical care in the 1980s were due, largely, to declining infant mortality. In the 1990s, they benefited also adults, specifically those aged 35+ in Poland and 55+ in Germany. A persisting east-west gap in temporary life expectancy in Germany was due, largely, to higher mortality from avoidable conditions in the east, with causes responsive to health policy contributing about half, and medical care 16% (men) to 24% (women) to the differential in 1997.The findings indicate that changes in the health care system related to the political transition were associated with improvements in life expectancy in east Germany and, to a lesser extent, in Poland. Also, differences in the quality of medical care as assessed by the concept of "unnecessary untimely deaths" appear to contribute to a persisting east-west health gap. Especially in Poland and the former German Democratic Republic there remains potential for further progress that would narrow the health gap with the west.     

Bridging the gap in life expectancy of the aborigines in Taiwan

BACKGROUND: Similar to the general population in Taiwan, the health of aborigines has steadily improved over the last 30 years, but the gap remains wide, especially in males, despite an infusion of substantial medical resources. The objectives of this study are to quantify the contribution of major causes of death to the gap in life expectancy and to propose initiatives to bridge the health gap between aborigines and the general population. METHODS: This study included residents (slightly over 200000) from 30 'aboriginal townships' in Taiwan. The gap in life expectancy between aborigines and the general population was analysed by decomposing these gaps according to major causes of deaths. This analysis quantifies the contribution of different causes of deaths to the gap in life expectancy between the two populations. RESULTS: The overall mortality of aborigines in these townships was approximately 70% higher than the respective male and female general populations over the past 30 years. Mortality from infectious disease, cirrhosis of the liver, accidents, and suicide are substantially higher than the general population. The gap in life expectancy at birth in males was 8.5 years during 1971-1973, increasing to 13.5 years by 1998-2000, however, the gap in females remained relatively stable (8.0 years and 8.4 years, respectively). Of the 13.5-year difference in life expectancy in males, the differential mortality from diseases of the digestive system (mainly due to cirrhosis of the liver), accidents (from both motor vehicle and non-motor vehicle accidents), and infectious and parasitic disease contributed half (50%) of the gap in life expectancy. In females, the above primarily preventable causes of deaths accounted for 41% of the life expectancy gap. CONCLUSIONS: Based on the findings of this study, we suggest that future focus should be in the area of primary prevention in order to reduce the incidence of infectious and parasitic diseases, liver cirrhosis, and accidents.     

United States life tables, 2003.

This report presents period life tables for the United States based on age-specific death rates in 2003. Data used to prepare these life tables are 2003 final mortality statistics; July 1, 2003, population estimates based on the 2000 decennial census; and data from the Medicare program. Presented are complete life tables by age, race, and sex. In 2003, the overall expectation of life at birth was 77.5 years, representing an increase of 0.2 years from life expectancy in 2002. Between 2002 and 2003, life expectancy increased for males and females and for both the white and black populations. Life expectancy increased by 0.3 years (from 77.7 to 78.0) for the white population and by 0.4 years (from 72.3 to 72.7) for the black population. Both males and females in each race group experienced increases in life expectancy between 2002 and 2003. The greatest increase was experienced by black females with an increase of 0.5 years (from 75.6 to 76.1). Life expectancy increased by 0.2 years for black males (from 68.8 to 69.0), white males (from 75.1 to 75.3), and for white females (from 80.3 to 80.5).     

Life expectancy among Japanese of different smoking status in Japan: NIPPON DATA80

BACKGROUND: The life expectancy is an important measure for describing health status among population. Several studies from the United States and Europe showed the harm of smoking by describing the life expectancies with different smoking status. No such study is examined in Japan, the country with the world's highest life expectancy irrespective of high smoking rate among men. METHODS: The abridged life table method was applied to calculate the life expectancies of men and women among different smoking status from age 40 until age 85. Age-specific mortality rates stratified by different smoking status were obtained from follow-up data from random sample in Japanese population (NIPPON DATA80). RESULTS: Proportion of current smokers was 62.9% in men and 8.8% in women at the baseline survey in 1980. The life expectancies of 40-year-old never smokers, ex-smokers and current smokers were 42.1, 40.4, and 38.6 years in men and 45.6, 45.9, and 43.4 years in women. The life expectancy of 40-year-old men who smoked less than one pack per day was 39.0 and was longer than that of those who smoked one or two packs (38.8) and more than two packs (38.1). CONCLUSION: Life expectancy decreased gradually as the grade of smoking increased in the Japanese population.     

Health for all: the dream and the reality

What has become clear in the 10 years since Alma-Ata is the global split between the health of the "haves" and the "have nots". This split is not a clean one and there are a number of countries spread out along the line from poorest to richest. Many of these countries are progressing along this line at a speed measurable with familiar indicators: increases in per capita income and literacy, decreases in maternal and under-5s mortality rates. Progress is uneven: 64 countries (40% of the world's population) experience more than 80% of the world's under-5s deaths and more than 90% of the maternal mortality. Although under-5s mortality is projected to be much lower by the year 2000, Africa and southern Asia are predicted to have unacceptably high rates of 100 deaths/1000 live births. Even though solutions are available to fundamental health problems, the progress has been slow. In the industrial countries an important step has been the creation of a European region-wide strategy for health for all. In 1980 the 33 European Member States of WHO set 38 targets and designated 65 indicators for systematic and routine monitoring by countries. An evaluation in 1985 revealed that European members had made strong efforts to monitor progress and a number of countries had formulated national strategies in line with the regional one. Canada and the US have also taken steps in adopting national strategies: Canada has made strides in organization of health services, the US in recognizing the inequities in the availability of health services to low income populations. In developing countries a few countries have made significant progress beyond what had been expected, especially Costa Rica, Sri Lanka, and Kerala State in India as measured in reduced infant mortality rates. An analysis by Caldwell showed that these countries had a number of conditions in common: reasonable level of female education and female autonomy, a politically active community, and easy access to health services promoting maternal and child care, immunization, family planning, home visits and food availability. The poorest countries have lacked these conditions and their progress has been slow and painful.