California State Health Assessment Core Module 2023 Update
Reporting data through 2021
Introduction
This annual State Health Assessment (SHA) Core Module provides a snapshot of the health status for the entire California population. The module is based upon a set of standard inputs, produced using an automated system, to assess population health across a range of health conditions, demographic characteristics, and other factors (e.g., disparities and inequities). The module is used to identify key findings that contribute to informing the State Health Improvement Plan.A range of data are used in this Core Module including data on deaths, hospitalizations, reportable diseases, emergency department visits, years lived with disability, social determinants of health, and population denominator sizes. Multiple types of data are essential for describing the state of health of the California population.
A majority of the charts and tables in this module are based on death data. Death data are a high quality, geographically and demographically granular, and consistent data source. Death data allow for objective comparisons over time and between groups, using a solid indicator of a hard outcome. The California Burden of Disease Condition List allows for investigation on a wide range of causes of death grouped into conditions related to clear clinical and clear public health programmatic areas.
There are certainly many conditions that have tremendous population health impact, such as mental health conditions, back and neck pain, and multiple sclerosis, which do not directly cause death. These are addressed to the degree possible with other measures (e.g., hospitalization, years lived with disability). There are also some very commonly occurring conditions, like sexually transmitted diseases, which rarely cause death or disability—some of these are reflected in the measure of reportable diseases.
As a key annual milestone in the ongoing State Health Assessment process, the Core Module provides a standard set of measures for comparative analysis. While maintaining this consistency, enhancements are incorporated each year along with relevant data sources as they become available. Additional detail and tools for further exploration of data are available through the California Community Burden of Disease Engine (CCB) and the Let’s Get Healthy California website.
A couple of key definitions and notes regarding conventions and interpretation of the data:
- All rates are per 100,000 population
- All rates are age-adjusted unless otherwise noted
- All data are for the state of California, except where noted for California counties or regions
- “All-cause” death rates (or numbers) refer to total from all causes of death combined. “Cause-specific” death rate (or number) refers to death from just one specific condition
Additional detailed information including definitions of many other terms in this document (e.g., “Years of Life Lost”), methods, and data sources, can be found in the Technical Notes section of this Core Module and in the technical notes section of the CCB. Additional data, including specific numbers and rates, for almost all death, hospitalization, and emergency department data in the Core Module can be found in the CCB. For comments, questions, or suggestions regarding this Core Module please email ccb@cdph.ca.gov.
1 Overall State of Health and Big Trends
1.1 Life Expectancy Summary for 2021 - By Race/Ethnicity and Sex
Life expectancy is a key summary measure of disparity, and succinctly summarizes differences in mortality between groups.
This chart shows Life Expectancy at Birth in 2021 for males and females, for each race/ethnic group. Calculation of life expectancy is complex, and requires use of assumptions applied to high-quality data.For all race/ethnic groups, females live longer than males. Among males, the life expectancy for Black males is 12.6 years less than for Asian males; among females the difference is 10.3 years. This difference is caused by a cascade of inequities in social determinants of health, and other systemic factors.
The red slashes at the bottom of the y-axis indicate that the scale of the y-axis is discontinuous. The y-axis does not start at 0, but rather at age 65, so that the important differences in life expectancy can be seen clearly.
1.2 Life Expectancy by Race/Ethnicity and Sex, by Year, 2000 to 2021
This chart shows the trends in Life Expectancy at Birth for the past 22 years by sex and race/ethnicity.
Life expectancy steadily increased for all groups over this period, until 2020. In 2020 there was a sharp drop for all groups due to the impact of COVID-19. From 2020 to 2021, life expectancy continued to decrease, albeit less sharply, for males of all race/ethnic groups, and for Latina females. Life expectancy increased in 2021 for Asian and Black females, and just slightly for White females.
Black males have had a substantially lower, and Asian females a substantially higher, life expectancy than all other groups in all years.
1.3a All-Cause Mortality Trend (2000-2021) by Race/Ethnicity and by Sex, and All-Cause Mortality County Rankings (2021)
The line charts show the trends in age-adjusted rate for mortality due to all causes, by race/ethnicity and by sex for the past 22 years. In a simple sense, all-cause mortality is the opposite of life expectancy—when all-cause mortality goes down, life expectancy goes up, and vice versa.
The bar chart displays county rates of age-adjusted mortality (and 95% confidence intervals) due to all causes. The counties listed have the highest rates, and a reference line is included for comparison with the state rate.The “Trends by Race/Ethnicity” chart demonstrates that all-cause mortality rates decreased substantially (between 18 and 25 percent) among all race-ethnicity groups in California from 2000 to 2019.
Starting around 2013-2015, mortality rates started to level off and even increase for all groups except for White individuals.
Rates then increased sharply for all groups in 2020, although much less so for White individuals. In 2021, rates continued to increase sharply for Native Hawaiian/Pacific Islander (NH/PI) and American Indian and Alaska Native (AI/AN) populations, and increased slightly for Latino, White, and Asian populations. In 2021, rates decreased slightly for Black individuals from the peak in 2020.
The very sharp and unprecedented increase among Latino individuals resulted in their all-cause death rate being higher in 2020 than any point in the past 20 years and, for the first time, higher than the rate among White individuals. The Latino population rate remained higher than the White rate in 2021.
The “Trend by Sex” chart shows that all-cause mortality rates decreased for both males and females over the 20 year period, until 2020.
1.3b All-Cause Mortality Map - California, Bay Area, and Los Angeles County, 2017-2021
These maps display all-cause mortality rates by location: statewide and regional views for the Bay Area and Los Angeles county (since these two regions are two large urban cores with dense populations). The rates are compared at the subcounty level using Medical Service Study Areas (MSSAs), an aggregation of census tracts, to demonstrate variation between communities within each county.
There are concentrations of high all-cause mortality rates within all counties and regions.
There are some concentrations of higher rates in the central part of the State.
2 Rankings of Leading Causes
2.1 Multiple Lenses - Top 5 Conditions based on Multiple Measures
This multi-chart emphasizes that there are many ways to view the health status of Californians. Public health looks across multiple measures to identify public health challenges.
The first four charts use measures relating to deaths (number, years of life lost (YLL), increase, and race/ethnicity disparity). The next four charts look at additional lenses of public health burden (hospitalizations, emergency department (ED) visits, reportable diseases, and disability). Definitions of these measures can be found in the technical notes section below. County-level versions of this same multi-chart and a downloadable document can be found here.Many conditions appear on more than one of these ranking measures, even though the measures assess very different levels of burden or impact:
In 2021, COVID-19 was the top cause for total number of deaths and YLL (1st), and a leading cause of hospitalizations (2nd). Ischemic heart disease is a leading cause in terms of numbers of deaths (2nd ) and YLL (3rd).
With the exception of COVID-19, deaths from drug overdoses have by far the largest increase from 2011 to 2021, are a leading cause of YLL (2nd), a leading racial/ethnic disparity (4th), and (based on “substance use disorders”) are a leading cause (4th) in terms of Years Lived with Disability (YLDs).
Alcohol-related conditions are a leading cause of YLL (5th) and a leading racial/ethnic disparity (2nd).
Mental health conditions are a leading cause for numbers of hospitalizations (4th) and YLDs (2nd).
Additional details on key findings for these measures are provided in later sections.
COVID-19 is excluded as a cause in comparisons that involve years before the COVID-19 pandemic.
*Conditions with fewer than 100 deaths in either period are excluded. Such conditions with large percent increases include:
Respiratory failure: 166.6% increase in age-adjusted death rate from 2011 (57 deaths) to 2021 (199 deaths)
Cardiac arrest: 103.5% increase in age-adjusted death rate from 2011 (40 deaths) to 2021 (103 deaths)
Poisonings (non-drug): 59.6% increase in age-adjusted death rate from 2011 (71 deaths) to 2021 (125 deaths)**The most recent year of data for STDs is 2020, for TB 2021, for vaccine preventable diseases 2020, and for other reportable infectious diseases 2021.
2.2 Broad Condition Groups (5) - Rankings of Number of Deaths and Years of Life Lost in 2021
This set of charts compares all causes of death using five broad condition groupings. These broad groupings are important for a very high-level understanding of the burden of death and disease, and these groupings (indicated by color) are used to frame the data in many of the charts that follow.
The top chart ranks the number of deaths in California in 2021 according to the five broad condition groupings. The bottom chart shows the ranking of YLL according to the five broad condition groupings. YLL weights conditions that impact younger people and is sometimes referred to as “premature death”.Cardiovascular diseases caused the most deaths in 2021, followed closely by Other Chronic disease. The Cardiovascular disease broad condition group includes ischemic heart disease, stroke, hypertensive heart disease, and others. The Other Chronic disease broad condition grouping includes Alzheimer’s disease, Chronic Obstructive Pulmonary Disease (COPD), kidney disease, and others.
Injuries caused by far the most years of life lost in 2021. This broad condition group includes drug overdose, alcohol-related conditions (including alcohol-related cirrhosis), suicide, homicide, falls, and road injury.
2.3 Public Health Condition Groupings - Top 15 Number of Deaths in 2021
These charts show a more detailed view of causes, disaggregated into what we call the Public Health Level groupings. This grouping is based on programmatic areas of public health and/or clinical aspects of the conditions to facilitate public health planning and action.
This chart shows the ranking of the top 15 causes based on numbers of deaths.At this Public Health Level, the conditions contributing the most deaths are COVID-19, ischemic heart disease, and Alzheimer’s disease. Note that three of the top five leading causes of death are in the Cardiovascular broad group.
COVID-19 is the only cause in the Communicable disease broad condition group which is ranked in the top 15 causes based on number of deaths.
2.4 Public Health Condition Groupings - Top 15 Years of Life Lost in 2021
This chart shows the ranking of the top 15 Public Health Level causes for years of life lost.
The leading contributors to years of life lost are COVID-19, drug overdose, and ischemic heart disease. Note that five of the top seven leading causes of years of life lost are in the Injury broad grouping.
In 2019, drug overdose deaths overtook ischemic heart disease as the top cause of years of life lost. This was the first time any cause ranked higher than ischemic heart disease for at least two decades. In both 2020 and 2021, drug overdose continued to rank higher than ischemic heart disease, but in 2021 COVID-19 was the top cause (1st). Due to the magnitude of deaths from ischemic heart disease, it has been a leading cause both in terms of numbers and years of life lost for the past 20 years.
2.5 Public Health Condition Groupings - Top 15 based on 10-, 5-, 2- and 1-year Percent Increases in Age-Adjusted Death Rates
This multi-chart shows the ranking of the top 15 Public Health Level causes based on percent increase in rates across several periods. The first two charts present increases in the “pre-pandemic period” for the greatest ten year increases from 2009 to 2019, and the greatest five year increases from 2014 to 2019. The next set of charts presents increases during the pandemic period beginning with the two year increases from 2019 to 2021 and then the most recent single year increases from 2020 to 2021. A detailed data table with these increases is included in Appendix A.1.
Deaths from drug overdoses increased more than any other condition both from 2009 to 2019 and 2014 to 2019; and continued to increase sharply from 2019 to 2021 and 2020 to 2021, second only to COVID-19 in these two periods.
Other than COVID-19 and drug overdoses, conditions that increased substantially in the pandemic period include homicide, alcohol-related, road injury, and endocrine, blood, immune disorders. The very large increase in homicides in the pandemic period is striking—except for COVID-19, drug overdoses, kidney disease and Parkinson’s disease, this is the largest increase seen compared to any other conditions in any of these periods.
These recent increases are concerning and need further exploration, including their relationships to the pandemic. More detail and information related to increase in the pandemic period can be seen in the CDPH Excess Mortality Data Brief. Of note, several of these conditions that have increased recently are in the “deaths of despair” category. The term “deaths of despair” was introduced by Case and Deaton in 2015 (Case & Deaton, 2015), and has generated substantial attention as an area of increasing deaths needing focused public health attention. Per Case and Deaton, “deaths of despair” include drug overdoses, suicides, and deaths due to alcoholic liver disease. Several behavioral health related conditions in this category may be influenced by interrelated drivers including stress and substance use. In their original work, they noted higher rates among younger, less educated White populations. In California, the deaths of despair drug overdoses are very high and increasing among younger and middle-aged AI/AN, Black, White, and NH/PI populations.
Other conditions that increased substantially in the pre-pandemic periods include kidney disease, Parkinson’s disease, congestive heart failure, other neurological conditions, hypertensive heart disease, Alzheimer’s disease and road injury.
The extremely large increase in “kidney disease” in the pre-pandemic period (along with the smaller, but important increase in the pandemic period) is striking. The specific reasons for this increase are not clear, but are being investigated and warrant investigation by others.
Note: Conditions with fewer than 100 deaths in all time periods are excluded.
2.6 Public Health Condition Groupings - Top 15 based on 10-year Percent Decreases in Age-Adjusted Death Rates, 2011 to 2021
This chart shows the ranking of the top 15 Public Health Level causes based on percent decrease in rates from 2011 to 2021.
Deaths from hepatitis decreased more than 60% over this 10-year time period. This decrease is likely due in large part to the tremendous advances in treating hepatitis C, and to a range of public health efforts.
Decreases from other conditions, like lung cancer, are also likely due to well-documented public health efforts. Many other decreases warrant further investigation.
*Conditions with fewer than 100 deaths in either period are excluded. Such conditions with large percent decreases include:
Influenza: 84.01% decrease in age-adjusted death rate from 2011 (151 deaths) to 2021 (29 deaths)
Meningitis: 42.21% decrease in age-adjusted death rate from 2011 (83 deaths) to 2021 (54 deaths)
3 Trends in Deaths
3.1 Trends in Broad Condition Groups - Age-Adjusted Death Rate, 2000-2021
This chart shows the age-adjusted death rate trends of the five broad condition groupings in California from 2000-2021.
Great progress has been made in the past 20 years, through 2019, with decreasing death rates for Cardiovascular disease, Cancer, and Communicable disease. In contrast, death rates for Other Chronic diseases and Injury increased somewhat over this period. The increase in Other Chronic is due in large part to increases in deaths from Alzheimer’s disease.
In 2020 and 2021, deaths increased very sharply for Communicable diseases due to COVID-19; and increased for Injury in both these years. From 2019 to 2020, deaths increased for the Cardiovascular and Other Chronic broad conditions groups, but then decreased for both in 2021. Deaths from Cancer continued the encouraging downward trend of the prior 20 years, in both 2020 and 2021.
3.2 Trends In Top Public Health Conditions (by Broad Condition Groups), 2000-2021
These charts provide a deeper look into the trends in cause of death by showing the age-adjusted death rate trends of the top 5 Public Health conditions within each broad condition group.
The previous chart showed good progress within the Cardiovascular and Cancer broad condition groups during the past couple of decades. These more detailed charts reveal the main drivers for those two downward trends, which are ischemic heart disease and lung cancer. (Ischemic heart disease decreased every year from 2000 to 2021, except for the slight increase in 2020. The reason for this reversal in trend in 2020 is not known and warrants investigation.) Furthermore, pneumonia deaths from the Communicable group also greatly declined since 2000. In contrast, Alzheimer’s disease in the Other Chronic group and drug overdoses in the Injury group have sharply increased since 2000.
The increase in Alzheimer’s disease appears to be driving the observed increase in the broader Other Chronic group. In contrast, COPD deaths have decreased substantially (but remain a leading cause of death).
In the Injury broad condition group, drug overdoses have more than quadrupled, and road injury is increasing after a previous decline. Alcohol-related deaths increased sharply in 2020 and again in 2021. Homicides, after many years of decreasing or level rates, increased sharply in 2020, and increased again in 2021.
Note: The y-axis scales for each chart are different.
3.3 Trends in Age-Adjusted Rates for Top 15 Public Health Level Conditions (log-y-axis), 2000-2021
This chart offers a different perspective than the previous charts by looking at trends over the past two decades for public health-level conditions overall, regardless of the broader groups. These are the conditions with the top 15 age-adjusted death rates in 2021.
Age-adjusted death rates from ischemic heart disease, stroke, lung cancer and COPD decreased greatly over the past 20 years.
This very encouraging decrease in ischemic heart disease is likely due to increasing use of statins for treatment of high cholesterol, and due to healthier behaviors related to diet and exercise. The fantastic decrease in lung cancer is very likely due to decades-long widespread State and National tobacco control efforts. In contrast, Alzheimer’s disease has more than doubled since 2000, resulting in it having the second-highest rate from 2008 onward (except third highest in 2020 and 2021 because of COVID-19).
Also of note are drug overdoses and kidney diseases. While these conditions are lower on the list, their age-adjusted death rates have increased dramatically since 2000.
A logarithmic scale is used for the y-axis in order to be able to clearly see the trends for all these conditions on one chart. Also, on a logarithmic scale, lines are parallel if the relative changes (i.e., percent change) over a time period are the same.
4 Preliminary Data - 2022
4.1 2022 Preliminary Data: Leading Causes of Death, Monthly, January 2020 to December 2022
This chart displays the monthly (adjusted) death rate for all causes of death that were among the leading 4 causes in any month over this period.
COVID-19 emerged in March of 2020, and by April of 2020 was among the top leading causes of death. In July of 2020, COVID-19 was the leading cause of death in California. Extraordinary high rates were seen in December 2020 and January and February 2021 when it was by far the leading cause of death. At the peak in January 2021, it caused more deaths than any other condition had for any single month in the past decade, and likely many years prior to that. COVID-19 was again the leading cause in August and September of 2021, and in January and February of 2022.
The well-known pattern of increases and decreases of COVID-19 is due to multiple factors including preventative measures and evolving strains, including the “delta variant” surge in in the 3rd quarter of 2021 and the “omicron” surge in January 2022. (Specific data on the pattern of COVID-19 variants can be found here).
Chart excludes the “Ill-defined” condition group. This condition may appear to be a leading cause in one or more of the most recent months in these preliminary data, but almost all will eventually be reclassified with final data.
4.2 2022 Preliminary Data: All-Cause Mortality Quarterly Trend by Race/Ethnicity and Year, 2017 to 2022)
This chart shows, for race/ethnicity groups, all-cause age-adjusted quarterly mortality rates, from 2017 through 2022.
All-cause death rates started increasing sharply in Q2 of 2020 for Latino, American Indian and Alaska Native (AI/AN), and Black populations, and in subsequent quarters for all other groups. Rates peaked for all groups in Q1 2021, followed by a sharp decrease in Q2 2021, a subsequent increase from Q3 2021 through Q1 2022, an encouraging decrease to pre-pandemic levels for all groups in Q2 2022, and then a slight increase in Q3 2022 and again in Q4 2022 for all groups except Native Hawaiian/Pacific Islanders (NH/PI) populations, among whom the increase was sharp in Q3 2022 followed by a decrease in Q4 2022.
Of note, the all-cause age-adjusted mortality rate was lower among Latino individuals than all groups except Asian individuals during the pre-pandemic period, but rose very sharply and surpassed the White and AI/AN population rates during the early pandemic period; and has returned to being the second lowest rate since 2021.
Persistent disparities are also seen with Black populations having higher all-cause age-adjusted mortality rates during all quarters, except for two quarters in the pandemic period when Native NH/PI populations had a higher rate (Q3 2021 and Q1 2022).
Assessment of these increases in excess mortality are carefully reviewed in Data Brief: 2020 and 2021 Increases in Deaths in California.
4.3 2022 Preliminary Data: Top 5 Causes of Death and Years of Life Lost
This chart shows leading causes of death and the leading causes of YLL in 2022.
Ischemic heart disease was the leading cause of death (1st) and a leading cause of YLL (2nd) in 2022; Alzheimer’s disease was a leading cause of death (2nd). Drug overdoses were the leading cause of YLL (1st) in 2022. Stroke was a leading cause of death (3rd) and road injury was a leading cause of YLL (3rd). Of note, while COVID-19 was the leading cause of death and YLL in 2021, in 2022 it fell to the 4th leading cause of death and off the top five list of causes of YLL.
5 Detailed Focus on Age and Race/Ethnicity
5.1 Race/Ethnicity Age-Specific All-Cause Death Rate Ratio with White Population as Referent Group, 2019-2021
This chart shows the ratio of age-specific AI/AN, Asian, Black, Latino, and NH/PI population rates to the corresponding age-specific White population rates (White individuals are used as the reference group since they have historically been the largest group in the State, and are, on average, relatively advantaged).
A rate ratio of 1.0 means that the rates are the same for both groups.
Appendix Table A.2 shows the numbers of deaths and rates that are the basis for the rate ratios in the chart.Of the many observations that can be seen in this chart, one especially important observation is seen in the “Black:White” rate ratio column. In the 0-4 year old age group, the death rate is over 3 times higher for Black infants/toddlers than for White infants/toddlers. For children/teens/early 20’s and 35-44 age group, the rates are over 2 times higher for Black populations than White populations. In general, this disparity ratio decreases as age increases. Among the oldest age group, the rate among Black individuals is slightly less than the rate among White individuals. This difference likely reflects the outcome of disparities in death rates earlier in the life course (with more deaths among the Black population at younger ages), leaving only a smaller number of relatively healthy Black people in the oldest age group.
Many complex factors interweave to create these disparities and patterns. The much higher rates of death among the Black population across most age groups are due in large part to the cascade of social determinants of health (e.g., discrimination/racism, poverty/wealth) and historical and structural inequities (e.g., housing, education, employment).
Among the Latino population, rates are better (lower) than, or very similar to, White individuals ages 25 and older, but worse (higher) between ages 0 and 24, with the greatest difference at the youngest (0-4) age level.
Among AI/AN and NH/PI individuals, the patterns are similar to the pattern described for Black individuals, and important for the same reasons. Because of the much smaller population sizes of these two groups, there is more variability in the numbers.
Among Asian individuals, the rates of death are lower than the rates among White individuals, likely reflecting the overall relative advantage of Asian populations with respect to SDOH and healthy behaviors. However, the overall low rates likely mask differences between different Asian subgroups, as noted in Section 9.3 below.
*Data are suppressed per the California Health and Human Services Agency Data De-Identification Guidelines
The black line at the end of each bar is the 95% confidence interval for the rate ratio, calculated with the rateratio function of the epitools package in R.
5.2 Change in Race/Ethnicity All-Cause Mortality Rate Disparity, 2000-2021
This chart presents information on trends in all-cause mortality by race using rate ratios.
This chart shows changes over time in the rate ratio of the other race/ethnic groups compared to White populations. It shows increasing differences from the White population rate for all groups starting in the early to mid-2010s, with a sharp acceleration in these disparities in 2020 due to the impact of COVID-19. This sharp acceleration continued for NH/PI and AI/AN populations, leveled off for Latino populations, and decreased slightly for Black and Asian populations. (The chart in section 1.3a serves as important background for this chart.)
5.3 Ranking of Race/Ethnic Disparities in Death Rate, 2019-2021
This chart ranks causes of death by racial/ethnic disparities. Disparities are measured using rate ratios, comparing the rate among the race/ethnic group with the highest rate to the rate among the race/ethnic group with the lowest rate for each cause of death. Data for 2019-2021 are combined for statistical stability.
A rate ratio near one means there is little difference between the groups with the highest and lowest rates.The bar size shows the rate ratio; the labels inside the bar show the group with the highest rate and the lowest rate (highest:lowest) for that cause.The top disparity in death rates is for homicide (1st), with the Black population rate almost 15 times the rate among the group with the lowest rate (Asian population).
The next leading disparity, alcohol-related conditions (2nd; 14 times), and another leading disparity, drug overdoses (4th; about 11 times), both have the highest rates among AI/AN individuals and the lowest rate among Asian individuals.
Another leading disparity is for HIV/STD (3rd), where the Black population rate is about 11 times higher than the Asian population rate.
An additional leading disparity is for tuberculosis (5th), with the Asian population rate more than 10 times higher than the rate among White individuals. (The high rate among Asian individuals in California is known to be associated with persons born outside of the United States. Report on Tuberculosis in California, 2019).
5.4a Top Ranking Causes by Crude Death Rate, 2019-2021
These next three charts look at deaths, hospitalizations, and ED visit data by race/ethnicity; showing all race groups, with the ranks sorted based on one selected race group.
These same charts, for all age groups and all California counties are also available in the California Community Burden of Disease Engine (CCB) in the “Ranks” section, in the “AGE RACE FOCUS” Tab.This chart is for deaths, ordered based on rates among AI/AN individuals, and indicates that leading causes of deaths among AI/AN individuals are drug overdoses (3rd) and alcohol-related conditions (4th). These two causes of death do not rank among even the top five causes of death for any other race/ethnic group.
5.4b Top Ranking Causes by Crude Hospitalization Rate, 2019-2021
- This chart is for Hospitalizations, ordered based on rates among Black individuals, and indicates that the leading causes of hospitalization for Black individuals are septicemia (1st) and mental health related causes (3rd and 4th).
The chart indicates that this is not the same ordering for all other race/ethnic groups. For example, among both Asian and Latino populations, “other complications of birth” is the second leading cause of hospitalization, which is only the eighth leading cause among Black populations.
5.4c Top Ranking Causes by Crude Emergency Department Rate, 2019-2021
- This chart is for Emergency Visits ordered based on rates among Black individuals, and indicates that for all race/ethnic groups, abdominal pain, chest pain, and upper respiratory infections are leading causes for ED visits.
The chart also shows that the rates of ED visits for many conditions are higher among Black persons than other groups. These differences are likely due to many factors, including reduced access to health care services leading to increased use of ED for “primary care” among Black populations; and to reduced access to care, and a cascade of many other factors, leading to a higher incidence of many of these conditions.
5.5a Leading Causes of Death Across the Life Course, 2019-2021
This chart shows the five leading causes of deaths across the “life course” for each age group. The chart shows the rank, the number of deaths, and is color coded for the broad condition group for each cause of death.
As expected, the number of deaths are much larger among the older age groups than the younger groups.
The youngest age group is most impacted by neonatal conditions and congenital anomalies.
From 15-24 to 35-44, the leading causes of death are mostly injury-related, such as deaths due to drug overdoses, road injuries (also the leading cause among 5-14), suicide/self-harm, etc. Drug overdose is the leading cause of death in these three age groups.
Ischemic heart disease starts to appear as a leading cause in the 45-54 age group and becomes the leading cause of death among Californians between the ages of 55 to 84.
Lung cancer appears as one of the leading causes of death between the ages of 55 to 74.
The top cause of death among the oldest Californians (85+) is Alzheimer’s disease.
In general, this “life course” chart shows a progression from multiple causes in the youngest age groups, to Injury causes in middle age groups, to Cardiovascular, Cancer, and Other Chronic diseases in older age groups; in addition to COVID-19 in middle and older age groups in the pandemic period.
5.5b Top Ranking Causes of Deaths, Hospitalization, and ED Visits, Age 15-24, 2019-2021
This set of three charts shows the leading causes of deaths, hospitalizations, and ED visits for a selected age group at different stages of the life course (starting with the 15-24 age group) using data from 2019 to 2021 combined.
These age groups have been selected to highlight different patterns in causes of deaths, hospitalizations, and ED visits at each stage.
Additional age groups, race/ethnicity, and county level views for these same ranked data can be seen in the California Community Burden of Disease Engine (CCB) in the “Ranks” section, in the “DEATH HOSP ED” Tab.This first chart is for the 15-24 year old age group, and shows that five of the top six leading causes of death, and many of the top causes of ED visits, are injury-related. The top causes of hospitalization are mental health and perinatal-related. Drug overdoses, road injury, homicide, and suicide are by far the leading causes of death in the age group.
5.5c Top Ranking Causes of Deaths, Hospitalization, and ED Visits, Age 45-54 , 2019-2021
- This next chart is for the 45-54 year old age group, and shows 1) the leading causes of death include COVID-19, injury (in particular drug overdoses and alcohol-related), and cardiovascular; 2) the leading cause of hospitalization in this group (and in many of the older age-groups) is septicemia, followed by schizophrenia and hypertension; and 3) ED visits are due to a wide range of conditions.
5.5d Top Ranking Causes of Deaths, Hospitalization, and ED Visits, Age 85+, 2019-2021
- This third chart is for the 85+ age group and indicates that, in this 2019-2021 time period, Alzheimer’s disease is the leading cause of death followed by Cardiovascular diseases (five of the next six leading causes), and COVID-19.
Septicemia is the leading cause of hospitalization; other leading causes include Cardiovascular diseases, fractures, urinary tract infections, and pneumonia.
Urinary tract infections are a leading cause of ED visits (2nd); three of the five leading causes, including the top cause, are Injuries.
6 Years Lived with Disability and Disability Adjusted Life Years
These charts present information about causes of Years Lived with Disability (YLDs) and risk factors associated with Disability Adjusted Life Years (DALYs). They are based on complex model estimates from the Institute for Health Metrics and Evaluation. They provide information for prioritizing public health resources and action based on assessing the prevalence of a wide range of behavioral and environmental risk factors, and the associations of these factors with specific conditions.
The most recent data available are from 2019. All rates shown are the respective value (YLDs or DALYs) per 100,000 population.
6.1 Causes of Years Lived with Disability
YLDs are defined as years of life lived with less than ideal health, either in the short- or long-term. YLDs are adjusted for disability severity.
These charts show a) the top 10 causes associated with the greatest number of YLDs in 2009 and in 2019, and b) the top causes by selected age groups in 2019.
6.1a Ranking of Conditions based on Associated Rate of Years Lived with Disability, , 2009 and 2019
- The top cause associated with the greatest number of YLDs spanning a decade is musculoskeletal disorders (low back pain, neck pain, and others). While the top four leading causes of disability have not changed between 2009 and 2019, diabetes and kidney diseases increased in rank (from 7th in 2009 to 5th in 2019), and unintentional injuries were not included in the top 10 in 2009, but were a leading cause (9th) in 2019.
6.1b Ranking of Conditions based on Associated Years Lived with Disability, by Selected Age Groups, 2019
- Musculoskeletal disorders were among the top five leading causes of YLD in all groups, and the leading cause in 15-49 and 70+ year olds (and in some other groups not shown). Mental disorders were the leading cause of YLD among the 5-14 group, a leading cause in the 15-49 group and overall (2nd; as seen in the chart above).
In addition, skin and subcutaneous diseases were a leading cause of YLDs in the 5-14 year age group, as were respiratory infections, which do not appear in the other age groups displayed here.
Substance use disorders were a leading cause of YLDs in the 15-49 year age group (3rd), and do not appear in the other age groups. In the 70+ year age group, cardiovascular diseases were a leading cause of YLDs.
6.2 Risks Associated with Disability Adjusted Life Years
These chart shows the top 10 risk factors associated with the largest number of DALYs a) in 2009 and in 2019, and b) by selected age groups in 2019.
DALYs are defined as the sum of years of life lost (YLLs) due to premature mortality and years lived with disability (YLDs). DALYs are one important way to assess the degree of health burden associated with health risks.
6.2a Ranking of Risk Factors based on Associated Disability Adjusted Life Years, 2009 and 2019
- Four of the six leading risk factors in 2009 and 2019 for the highest number of DALYs are related to healthy eating, exercise, and other factors associated with obesity and high blood pressure. Three of the top ten leading risk factors relate to substance use (i.e., tobacco, alcohol and drugs).
Between 2009 and 2019, the leading risk for the most DALYs shifted from tobacco use (in 2009) to high body-mass index (in 2019).
6.2b Ranking of Risk Factors based on Associated Disability Adjusted Life Years, by Selected Age Groups, 2019
The leading risks associated with DALYs in the 5-14 year age group were child and maternal malnutrition, followed by childhood sexual abuse and bullying. Four of the leading risks in this age group were associated with an unsafe environment, and three relate to substance use.
In the 15-49 year age group, three of the leading risks for the highest number of DALYs—including the top-ranked risk—related to substance use, and half of the leading risks for the highest number of DALYs relate to healthy eating, exercise, and other factors relating to obesity and high blood pressure. Another leading risk was occupational risks (4th).
In the 70+ year age group, half of the leading risks for the highest number of DALYS related to healthy eating, exercise, obesity, and high blood pressure. Two of the leading risks were associated with substance use.
7 Additional Views For Selected Topics
- The following section provides a deeper-dive view on a set of selected topics. Information is presented on the overall trend, differences across race/ethnicity and age, as well as a ranking of the counties with the highest rates for the identified condition.
These topics were selected based on being among the leading causes for a particular measure: deaths, YLLs, increase, or race/ethnic disparities.
7.1 Ischemic heart disease
7.2 Alzheimer’s disease
7.3 Parkinson’s disease
7.4 Kidney diseases
7.5 Drug overdose
7.7 Road injury
7.8 Homicide
9 Exploratory
9.1 Mental Health
- This exploratory section examines mental health conditions, also sometimes referred to as mental illness. These conditions affect more than half of people in the United States over the course of their lifetime, one in five people every year and are contributing factors to worse overall health. Here, we have conducted analyses of emergency department visit and hospitalization rates for the broad mental health disorder categories of: 1) anxiety and related disorders (including trauma and stressor-related disorders such as post-traumatic stress disorder), 2) mood disorders, 3) schizophrenia and related disorders, and 4) all other mental health disorders not fitting into one of these three other categories. These data were then grouped by race and ethnicity, and further by age for mood disorders and for schizophrenia, to examine if disparities in rates of ED visits and hospitalizations exist and for which age groups.
Compared with overall prevalence of mental health conditions, and the number of ED visits and hospitalizations, the number of deaths due specifically and directly to mental health is quite low. As currently grouped, there were 227 deaths from mental health-related conditions in 2021, but we do not include information about those data in this initial and exploratory section because of the small numbers and because we need further assessment and clinical input regarding the proper and optimal use of these codes.
9.1a Hospitalizations and ED Visits for Broad Mental Health Conditions, 2021
This chart shows raw numbers of ED visits and hospitalizations for mental health-related conditions including anxiety and related disorders, mood disorders, schizophrenia and other related psychotic disorders, and other disorders.
Note that these data do not include some conditions associated with mental health including suicide/self-harm or accidental injury, such as vehicle accidents. Furthermore, developmental disorders, personality and behavioral disorders, physiological/physical behavioral syndromes, and physiologic-induced delirium are grouped into “Other” due to their overall small numbers.Anxiety and related disorders accounted for the highest number of ED visits, followed by schizophrenia and related disorders. Mood disorders accounted for the highest number of hospitalizations, followed by schizophrenia and related disorders.
9.1b Hospitalizations for Mental Health Conditions by Race/Ethnicity, 2021
This charts shows hospitalizations for mental health disorders grouped by race or ethnicity.
Schizophrenia was the leading cause of hospitalization for Black individuals, with a rate more than three times that of any other race or ethnicity, followed by mood disorders which also had a higher rate for Black individuals than for any other race or ethnicity.
Mood disorders were the leading cause of hospitalization for all races and ethnicities other than for Black individuals (for which it ranked second).
Asian individuals had the lowest rates of hospitalization for all mental health disorders relative to other races or ethnicities.
9.1c ED visits for Mental Health Conditions by Race/Ethnicity, 2021
This chart shows ED visits for mental health disorders grouped by race or ethnicity.
Schizophrenia was the leading cause of ED visits for Black individuals, with a rate more than three times that of any other race or ethnicity, followed by anxiety and related disorders then mood disorders, which both also had considerably higher rates (for Black populations) than for any other race or ethnicity.
Anxiety and related disorders were the leading cause of ED visits for all races and ethnicities other than Black populations.
Asian individuals had the lowest rates of ED visits for all mental health disorders relative to other races or ethnicities.
9.1d ED Visits for Mood Disorders by Race/Ethnicity and Age, 2021
This chart shows emergency department (ED) visits for mood disorders grouped by race or ethnicity and age.
ED visits for mood disorders were greatest for adolescents and young adults ages 15 to 24 for all races and ethnicities except for Black populations. Among Black people, the highest rate was in adults ages 25 to 34. However, ED visits for mood disorders were considerably higher for Black individuals across almost all age groups than for other races and ethnicities.
Although rates were lower among youth ages 5 to 14 compared to other age groups, Black youth had the highest rate of ED visits for mood disorders in this age group, consistent with the overall pattern seen.
Asian individuals had the lowest rates of ED visits for mood disorders relative to other races or ethnicities across all age groups.
9.2 Rural Health in California
- This exploratory section examines how an important dimension of the places in which people live, rural/urban categories, may be impacting their health. This section should be considered preliminary.
Rural/urban categories are an important concept related to health. Nationally, data demonstrate that rural populations experience worse health outcomes than the rest of the population overall. Rural risk factors include geographic isolation, lower socioeconomic status, higher rates of health risk behaviors, limited access to care, and many others (see Rural Health Disparities Overview - Rural Health Information Hub).
Rural/urban categories are defined in different ways by different systems. One system used by the Federal Health Resources and Services Administration (HRSA) are Rural-Urban Commuting Area (RUCA) codes based on the same concepts used by the Federal Office of Management and Budget (OMB) to define county-level urban and rural areas, but at the census tract level. These codes are on a 21-level continuum to account for varying levels of rural/urban categories across the full continuum (see USDA ERS - Rural-Urban Commuting Area Codes). We have collapsed these codes into seven category classifications for all census tracts in California as follows:
- Urban Core, Low Commuting - Urban 1.0: Metropolitan
- Urban Core, High Commuting - Urban 1.1: Metropolitan
- Urban Area, High Commuting - Urban 2.0: Metropolitan
- Urban Area, Low Commuting - Urban 3.0: Metropolitan
- Large Rural Area - Large Rural: Micropolitan
- Small Rural Area - Small Rural
- Isolated Rural Area - Isolated Rural
9.2a Table – Descriptive Data for Each Rural/Urban Category Grouping, 2021
- This table shows the number of census tracts, deaths, population, percent of statewide deaths, and percent of the statewide population for each of the 7 rural/urban categories defined above using the RUCA coding system.
RUCA | Number of Tracts | Area (Square Mile) | % Area | 2021 Deaths | Population | % of Statewide Deaths | % of Statewide Population | Age-Adjusted Death Rate |
---|---|---|---|---|---|---|---|---|
Urban Core, Low Commuting | 6,869 | 12,929 | 11.1% | 272,528 | 34,000,790 | 82.6% | 86.6% | 740.5 |
Urban Core, High Commuting | 186 | 802 | 0.7% | 7,734 | 1,078,255 | 2.3% | 2.7% | 621.9 |
Urban Area, High Commuting | 316 | 18,730 | 16.0% | 11,999 | 1,408,487 | 3.6% | 3.6% | 751.6 |
Urban Area, Low Commuting | 51 | 3,804 | 3.3% | 2,358 | 276,763 | 0.7% | 0.7% | 793.6 |
Large Rural Area | 289 | 22,082 | 18.9% | 14,975 | 1,423,503 | 4.5% | 3.6% | 863.7 |
Small Rural Area | 76 | 13,189 | 11.3% | 3,806 | 371,812 | 1.2% | 0.9% | 846.9 |
Isolated Rural Area | 125 | 43,520 | 37.2% | 4,039 | 357,608 | 1.2% | 0.9% | 784.7 |
Missing Tract | NA | NA | NA | 11,743 | NA | 3.6% | NA | NA |
CALIFORNIA | 8,057 | 116,840 | 100.0% | 329,967 | 39,283,497 | 99.8% | 99.1% | 769.7 |
9.2b Map of Rural/Urban Categories in California
This map shows each census tract in California by the 7 rural/urban categories.
While most of California’s population resides in urban areas, much of the State’s land mass is made up of rural areas.
8 Social Determinants of Health and Place
The two selected social determinants are 1) community-level poverty rates (percent of community <150% of Federal poverty level) and 2) community-level educational attainment (percent of community with high-school education or less). These data are from the American Community Survey, using 5-year data, 2017-2021.
The unit of measure is ‘places’ rather than ‘persons’, as we compare the social determinant and health outcome context for these communities, grouped into quartiles. For the first chart and the table we look at the geographic level of “community”, based on the California Department of Health Care Access and Information’s (HCAI) Medical Service Study Areas (MSSAs), which are aggregations of census tracts.
The section lays the foundation for a wide range of more in-depth exploration of these associations, including for specific causes of death, additional social determinants, specific demographic groups, multiple geographies, and over time.
8.1 Life Expectancy (Mean) by Quartiles of Community Poverty and Community Educational Attainment, 2017-2021
These charts show the mean community life expectancy based on quartiles of community poverty and educational attainment.
Average life expectancy increases as poverty decreases and as education increases. Increased life expectancy is associated with lower rates of poverty and higher rates of education.
The red slashes at the bottom of the y-axis indicate that the scale of the y-axis is discontinuous. The y-axis does not start at 0, but rather at age 65, so that the important differences in life expectancy can be seen clearly.
8.2 Communities with Highest and Lowest Life Expectancy, 2017-2021
This table shows the communities (MSSAs) with the 10 highest and lowest levels of life expectancy in the State. It also presents the mortality rate, percent living in poverty and percent with educational attainment of high school graduation and below, as well as overall population.
This tabular view of the data highlights the strong community-level associations seen above, and emphasizes some extreme differences in life expectancy. The life expectancy in the “Clearlake /Clearlake Oaks” community in Lake County, with high levels of poverty and lower levels of education at 71.6 is over 16 years less than the life expectancy of 87.9 in the very advantaged community of “Bel Air /Beverly Glen /Beverly Hills /etc.” in Los Angeles County.
8.3 County Level Social Determinants and Life Expectancy, 2017-2021