PQC: They do not want to touch on deaths by Governments and their Goons and Thugs a.k.a Police and Soldier, and in WAR: Democide

Causes of Death

by Hannah Ritchie and Max Roser

56 million people died in 2017.1 What caused their death? How did the causes of death change over time and differ between different countries and world regions? And what are the risk factors that lead to early death? These are the big questions we are answering here.

Summary

Definitions: Cause of death vs risk factors

It is important to understand what is meant by the cause of death and the risk factor associated with a premature death:

In the epidemiological framework of the Global Burden of Disease study each death has one specific cause. In their own words: ‘each death is attributed to a single underlying cause — the cause that initiated the series of events leading to death’.2

This is different from the deaths that happened due to risk factors. These deaths are an estimation of the reduction of the number of deaths that would be achieved if the risk factors to which a population is exposed would be eliminated (in the case of tobacco smoking, for example) or reduced to an optimal, healthy level (in the case of body-mass index). 

Below, in our section on Measurement, you find a more detailed explanation.

What do people die from?

56 million people died in 2017.3 What did they die from?

The Global Burden of Disease is a major global study on the causes of death and disease published in the medical journal The Lancet.4 These estimates of the annual number of deaths by cause are shown here. 

This is shown for deaths worldwide. But you can explore data on the annual number of deaths by cause for any country or region using the “change country” toggle.

Non-communicable diseases (NCDs) not only dominate mortality figures at a global level, but also account for the majority of deaths in high-income countries.

Deaths from causes such as infectious disease, malnutrition, nutritional deficiencies, neonatal and maternal deaths are common – and in some cases dominant – across low- and middle-income nations. In Kenya, for example, the leading cause of death remains diarrheal diseases. In South Africa and Botswana, the leading cause of death is HIV/AIDS. In high-income countries however the share of deaths caused by these is very low.

Using the timeline on the chart you can also explore how deaths by cause have changed over time.

Death rates related to disease, illness and other health factors tend to change relatively slowly over time. Whilst death rates may fall or decline from year-to-year as part of a general trend, dramatic changes in such deaths are typically rare. Natural disaster and terrorism-related deaths are an important exception to this rule, as they can vary significantly between countries. This can make the annual comparison of deaths and death rates between health-related factors and volatile events more challenging. Understanding the relative risk of these events can require a longer-term overview of high and low-mortality years. We cover discussion and analysis on this topic in a post here.

Related chart – Share of deaths by cause. This chart shows the breakdown of global deaths by cause, given as the share of annual deaths, rather than the absolute number.

Related research: We study the major differences in mortality across the world using country examples in our post here.

Number of deaths by cause, World, 2017
02 million6 million10 million16 millionCardiovascular diseases17.79 millionCancers9.56 millionRespiratory diseases3.91 millionLower respiratory infections2.56 millionDementia2.51 millionDigestive diseases2.38 millionNeonatal disorders1.78 millionDiarrheal diseases1.57 millionDiabetes1.37 millionLiver diseases1.32 millionRoad injuries1.24 millionKidney disease1.23 millionTuberculosis1.18 millionHIV/AIDS954,492Suicide793,823Malaria619,827Homicide405,346Parkinson disease340,639Drowning295,210Meningitis288,021Nutritional deficiencies269,997Protein-energy malnutrition231,771Maternal disorders193,639Alcohol use disorders184,934Drug use disorders166,613Conflict129,720Hepatitis126,391Fire120,632Poisonings72,371Heat (hot and cold exposure)53,350Terrorism26,445Natural disasters9,603CC BY

Causes of death by category

The share of deaths from infectious diseases are declining; a larger share is dying from NCDs

In the visualization we see the distribution of global deaths broken down by three broad categories:

This is shown for global deaths as the default, but can be viewed for any country or region using the “change country” toggle on the interactive chart.

At a global level we see that the majority of deaths are caused by non-communicable diseases (NCDs). Collectively NCDs account for more than 73% of global deaths. As the world is making progress in the fight against many infectious diseases, and as populations age, we expect that NCDs will become increasingly dominant as the cause of death.

Related chart – the death rate from causes of death. This chart shows the death rate from infectious diseases, non-communicable diseases and injuries over time.

Deaths by cause, World

Non-communicable diseases (NCDs) include cardiovascular disease, cancers, diabetes and respiratory disease.
Injuries include road accidents, homicides, conflict deaths, drowning, fire-related accidents, natural disasters and
suicides.
19901995200020052010201520170%20%40%60%80%100%Communicable,maternal, neonatal,and nutritionaldiseasesNon-communicablediseases (NCDs)InjuriesCC BY

1991
Communicable, maternal, neonatal, and nutritional diseases32.6%
Non-communicable diseases (NCDs)58.03%
Injuries9.36%
Total100%

Causes of death by age

Breakdown of deaths by age

Fewer people die at a young age

In this chart we see the breakdown of deaths by age bracket. Globally fewer and fewer people die at a young age.

In 2017, there were 56 million deaths globally; nearly half of these (49%) were people who were 70 years or older; 27% were between 50 and 69 years old; 14% were between 15 and 49; only 1% were older than 5 and younger than 14; and almost 10% were children under the age of 5.

The age at which people die has changed significantly since 1990. Fewer people die at a young age. In 1990 nearly one-quarter of all deaths were in children younger than 5. In 2017, this had declined to just under 10%. In contrast, the share of deaths in the over-70s age bracket has increased from a third to half of all deaths over this period.

It is possible to change this chart to any other country or region in the world. In countries with good health the share dying at a young age is very low. In Japan more than 83% are 70 years or older. Deaths by age, World

Total annual number of deaths from all causes, broken down by broad age categories.
19901995200020052010201520170%20%40%60%80%100%70+ years old50-69 years old15-49 years old5-14 years oldUnder-5sCC BY

Causes of deaths of children younger than 5

This chart shows the number of deaths in children under 5 years old by cause.

Through the combination of neonatal (newborn infants less than 28 days old) disorders, infections and congenital (from birth) defects, we see that the largest share of deaths in under-5s arises from complications at birth or in the first few weeks of life. Under-5s are also highly susceptible to lower respiratory infections, infectious diseases, diarrheal infections, malnutrition and nutritional deficiencies.

This is shown for deaths worldwide. But you can explore data on the annual number of deaths by cause for any country or region using the “change country” toggle.

Death rates in under-5s are typically much lower in high-income countries, and the nature of these deaths is different from lower incomes. In the United Kingdom, for example, child deaths tend to be highly dominated by neonatal complications. Deaths from infectious and diarrheal diseases and malnutrition is very low. In contrast, infectious diseases and nutritional deficiencies are large causes of death in lower-income countries.


Child & Infant Mortality You can explore causes of death in children and our progress against them in our full article here. Causes of death in children under 5, World, 2017

Annual number of deaths by leading causes in children under 5 years old.
0100,000300,000500,000800,000Lower respiratory infections808,920Neonatal preterm complications649,439Diarrheal diseases533,768Neonatal asphyxia & trauma533,250Congenital birth defects501,764Malaria354,294Other neonatal disorders349,002Neonatal sepsis & infections203,013Meningitis153,058Nutritional deficiencies145,073Whooping cough86,091Measles83,439HIV/AIDS77,485Drowning59,835Tuberculosis57,370Cancers49,916Road accidents49,068Digestive diseases40,177Cardiovascular disease30,091Fire17,200Hepatitis13,943Kidney disease12,980Homicide11,815Liver disease7,808Heat-related deaths (hot or cold exposure)3,133Diabetes mellitus1,714Natural disasters649CC BY

Causes of deaths for children between 5 and 14

This visualization shows the causes of deaths of children who died between the age of 5 and 14 year.

Globally, deaths in the 5-14 year old age bracket account for a small percentage of the total (1-2%).

There are six dominant causes of deaths in this age category. The leading causes globally in 5-14 year olds are road accidents, cancers and malaria. Lower respiratory infections, HIV/AIDS, diarrheal diseases, and drowning are all dominant causes typically in the range of 40,000-50,000 deaths in 2017.

Again, this distribution varies by country. In the United States, for example, cancers are the leading cause of death. In India, it’s diarrheal diseases; in Bangladesh and China it’s drowning; and in South Africa HIV/AIDS. Causes of deaths for children between 5 and 14, World, 2017

Annual number of deaths – by cause – for children between 5 and 14 years old.
010,00020,00030,00040,00050,00060,000Road accidents62,412Cancers62,033Malaria54,342Drowning49,705HIV/AIDS44,769Diarrheal diseases44,523Lower respiratory infections43,942Digestive diseases20,385Cardiovascular disease15,630Tuberculosis13,699Homicide10,831Nutritional deficiencies8,535Liver disease8,407Suicide8,120Kidney disease8,047Protein-energy malnutrition7,286Respiratory disease6,818Hepatitis6,157Fire5,909Diabetes mellitus1,906Natural disasters1,235Heat-related deaths (hot or cold exposure)927CC BY

Causes of deaths for 15 to 49 year olds

This visualization shows the causes of deaths of those who died between the age of 15 and 49.

In the 15 to 49 years old category, we see that non-communicable diseases (NCDs) begin to become dominant. Globally the leading cause of death in this age group is cardiovascular disease, followed cancers which both account for more than one million deaths. Road accidents, HIV/AIDS and suicide are all significant within this group.

For some countries, such as South Africa, by far the dominant cause of death is HIV/AIDS in 15 to 49 year olds. In a number of countries (in particular across Latin America, including Brazil and Mexico), homicide is the dominant cause for 15-49 years old. Causes of deaths for 15 to 49 year olds, World, 2017

Annual number of deaths – by cause – for people aged 15 to 49 years old.
0200,000400,000600,000800,0001.2 millionCardiovascular disease1.26 millionCancers1.05 millionHIV/AIDS676,106Road accidents669,058Digestive diseases478,183Suicide453,770Tuberculosis371,698Liver disease332,131Homicide304,702Lower respiratory infections170,537Respiratory disease163,006Kidney disease162,600Diarrheal diseases128,155Diabetes mellitus113,785Malaria108,969Drowning99,222Drug overdose97,649Alcohol disorder82,234Hepatitis43,882Fire40,802Nutritional deficiencies16,892Heat-related deaths (hot or cold exposure)15,249Protein-energy malnutrition11,491Natural disasters4,421Dementia2,850Parkinson’s disease2,101CC BY

Causes of deaths for 50 to 69 year olds

This visualization shows the causes of deaths of those who died between the age of 50 and 69.

In 50 to 69 year olds, non-communicable diseases (NCDs) are strongly dominant — here cardiovascular disease, cancers, respiratory disease and diabetes are the top causes. With the exception of HIV/AIDS and tuberculosis which for some countries climb into the top causes, the global variability in death causes for 50-69 year olds is much lower than that of younger age categories. Causes of deaths for 50 to 69 year olds, World, 2017

Annual number of deaths – by cause – for people between 50 and 69 years.
01 million2 million3 million4 million5 millionCardiovascular diseases5.15 millionCancers3.96 millionRespiratory disease1 millionDigestive diseases884,065Liver disease592,200Tuberculosis429,672Lower respiratory infections405,835Kidney disease402,277Road accidents311,714Diarrheal diseases239,089Suicide213,121HIV/AIDS142,613Dementia138,261Alcohol disorder81,604Malaria71,239Homicide62,402Drowning48,849Drug disorder44,799Hepatitis38,186Parkinson’s disease36,931Nutritional deficiencies28,344Fire25,105Protein-energy malnutrition19,151Heat-related deaths (hot or cold exposure)18,340Natural disasters1,963CC BY

Causes of deaths for people who were older than 69 years

This visualization shows the causes of death of people who were 70 years and older at the time of their death.

For the oldest age category (70 years and older), non-communicable diseases (NCDs) still dominate, however other death causes including Alzheimer’s/dementias, and diarrheal diseases also become dominant. Diarrheal diseases remain within the few leading causes of deaths in 70+ year olds for many low-income countries, despite being relatively low at higher incomes. Causes of deaths for people who were 70 years and older, World, 2017

Annual number of deaths – by cause – for people who were 70 years and older.
02 million4 million6 million8 million10 millionCardiovascular disease11.34 millionCancers4.43 millionRespiratory disease2.73 millionDementia2.37 millionLower respiratory infections1.13 millionDigestive diseases954,876Diabetes mellitus717,428Kidney disease644,264Diarrheal diseases624,021Liver disease382,322Tuberculosis311,233Parkinson’s disease301,607Road accidents150,815Suicide118,813Nutritional deficiencies71,153Protein-energy malnutrition53,561Drowning37,600Fire31,616Malaria30,982Hepatitis24,222Drug use disorders24,165Alcohol use disorders21,096Heat-related deaths (hot or cold exposure)15,701Homicide15,598HIV/AIDS13,519Natural disasters1,335CC BY

Risk factors for death

It is important to understand what is meant by the cause of death and the risk factor associated with a premature death:

In the epidemiological framework of the Global Burden of Disease study each death has one specific cause. In their own words: ‘each death is attributed to a single underlying cause — the cause that initiated the series of events leading to death’.

This is different from the deaths that happened due to risk factors. These deaths are an estimation of the reduction of the number of deaths that would be achieved if the risk factors to which a population is exposed would be eliminated (in the case of tobacco smoking, for example) or reduced to an optimal, healthy level (in the case of body-mass index). Risk factors can be grouped into four broad categories: behavioral risks, environmental risks, occupational risks, and metabolic risks.

All of these estimates are developed independently. This means that we cannot sum all ‘attributed deaths’ and conclude that this is the actual number of deaths. The attributed number of deaths by risk factor in many cases exceeds that of those by cause of death.

Below, in our section on Measurement, we describe in more detail how the epidemiologists of the Global Burden of Disease study attribute risk factors to mortality.

The number of deaths by risk factor

The estimates shown in this visualization show the numbers of deaths attributed to specific risk factors in 2017.

Here we see that there are several dominant risk factors for death: notably, those related to dietary and activity lifestyle factors (including blood pressure, physical activity, body-mass index, blood sugar, and dietary intake); smoking; air pollution (both outdoor and indoor); environmental factors including clean water and sanitation; and safe sex (for the prevention of HIV/AIDS).

This is shown for deaths worldwide. But you can explore data on the annual number of deaths by cause for any country or region using the “change country” toggle. The contribution of specific risk factors varies significantly by country.

For most high-income countries, the dominant risk factors are those related to healthy diets, smoking and alcohol intake. Other risk factors such as clean water, sanitation, and child wasting or stunting are very low. In low-income countries the inverse is true: in Sierra Leone for example, the top risk factors include child wasting, household air pollution, unsafe water source, poor sanitation, and the lack of access to handwashing facilities. For countries where HIV/AIDS is a major health burden, such as South Africa and Kenya, unsafe sex is the top risk factor.

The data here is measured across all age groups and both sexes — figures for specific age groups are detailed below. Number of deaths by risk factor, World, 2017

Total annual number of deaths by risk factor, measured across all age groups and both sexes.
02 million4 million6 million8 million10 millionHigh blood pressure10.44 millionSmoking7.1 millionHigh blood sugar6.53 millionAir pollution (outdoor & indoor)4.9 millionObesity4.72 millionOutdoor air pollution3.41 millionDiet high in sodium3.2 millionDiet low in whole grains3.07 millionAlcohol use2.84 millionDiet low in fruits2.42 millionDiet low in nuts and seeds2.06 millionIndoor air pollution1.64 millionDiet low in vegetables1.46 millionDiet low in seafood omega-3 fatty acids1.44 millionLow physical activity1.26 millionUnsafe water source1.23 millionSecondhand smoke1.22 millionLow birth weight1.1 millionChild wasting1.08 millionUnsafe sex1.03 millionDiet low in fiber873,408Poor sanitation774,241No access to handwashing facility707,248Drug use585,348Diet low in legumes534,767Low bone mineral density327,314Vitamin-A deficiency232,777Child stunting220,678Diet low in calcium184,760Non-exclusive breastfeeding160,983Iron deficiency59,882Zinc deficiency28,595Diet high in red meat24,833Discontinued breastfeeding10,012CC BY

Risk factors for death by age

Cause by cause

Cardiovascular diseases

Cardiovascular disease (CVD) is a term used to refer to the range of diseases which affect the heart and blood vessels. These include hypertension (high blood pressure); coronary heart disease (heart attack); cerebrovascular disease (stroke); heart failure; and other heart diseases.

Cardiovascular disease is the top cause of death globally.

In the map we see death rates from cardiovascular diseases across the world.

Overall we see a strong East-West divide in CVD death rates. Rates across North America and Western/Northern Europe tend to be significantly lower than those across Eastern Europe, Asia and Africa. Across most of Latin America, these rates are moderate. In France, for example, the age-standardized rate was around 86 per 100,000 in 2017; across Eastern Europe this rate was around 5 times higher at 400-500 per 100,000. At the highest end of the scale, Uzbekistan had a rate of 724 per 100,000. Death rate from cardiovascular disease, 2017

The annual number of deaths from cardiovascular diseases per 100,000 people.
0No data0100150200300400500600800CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Additional information

Cancers

Cancers are defined by the National Cancer Institute as a collection of diseases in which abnormal cells can divide and spread to nearby tissue. Cancers can arise in many parts of the body – leading to a range of cancer types, as shown below – and in some cases spread to other parts of the body through the blood and lymph systems.

In the map we see cancer death rates across the world. Cancers You can explore global, regional and country-level data on cancer prevalence, deaths, and survival rates in our full article here. Death rate from cancer, 2017

The annual number of deaths from all cancers per 100,000 people.
0No data050100125150175200250500CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Dementia

Dementia comprises several forms — the most common being Alzheimer’s disease — is an illness which results in a deterioration of cognitive capacity and function beyond what is expect from the normal ageing process. It can occur either in a chronic or progressive form. It affects several cognitive functions including memory, comprehension, judgement, language and learning capacity.

In the map we see death rates from dementia across the world. Note that these rates have been age-standardized which aims to correct for differences in the age structure of a population (which are different between countries and change over time). This therefore allows us to compare the likelihood that any given individual will die from dementia across countries and through time.

Across most countries, the death rate from dementia-related illness is below 55 per 100,000 individuals. Dementia rates in some countries have changed slightly since 1990, but significantly less so than other disease burdens. Death rate from Alzheimer & other dementia, 2017

The annual number of deaths from Alzheimer’s disease and other forms of dementia per 100,000 people.
0No data025354045556065708085CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Additional information

Diarrheal diseases

Diarrheal diseases are caused primarily by viral and bacterial pathogens. They are particularly dominant at lower incomes where there is poor access to safe sanitation, drinking water and hygiene facilities. Diarrheal diseases are a leading cause of death in children.

In the map we see death rates from diarrheal diseases across the world. Diarrheal diseases You can explore global, regional and country-level data on diarrheal diseases in our full article here. Death rate from diarrheal diseases, 2017

The annual number of deaths from diarrheal diseases per 100,000 people.
0No data05255075100150200250300CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Tuberculosis

Tuberculosis (TB) is an illness caused by the ingestion of bacteria (Mycobacterium tuberculosis) which affects the lungs. The World Health Organization (WHO) estimate that up to one-quarter of the global population has latent TB, meaning they have been infected with the disease but are not ill with the disease (although this does not inhibit it from becoming active in the future).

People with compromised immune systems, such as those suffering from malnutrition, diabetes, or are smokers are more likely to become ill with TB. There is a strong link between HIV/AIDS and TB: those infected with HIV are 20-30 times more likely to develop active tuberculosis.

In the map we see death rates from tuberculosis across the world.

Across most countries, the death rate from TB is below 5 per 100,000. Rates in 2017 across Eastern Europe were slightly higher, between 5-10 per 100,000. Across South Asia, these reach 25-50 per 100,000, with highest rates across Sub-Saharan Africa ranging from 50 to over 250 per 100,000. Death rate from tuberculosis, 2017

The annual number of deaths from tuberculosis per 100,000 people.
0No data0510255075100125150200>250CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Additional information

Malnutrition

Malnutrition arises in various forms, with the broad definition capturing undernourishment, micronutrient deficiencies and obesity. In this case, we refer to ‘protein-energy malnutrition‘ (PEM) which refers to energy or protein deficiency caused by insufficient food intake. Protein-energy deficiency can also be exacerbated by infection or disease, which can have the effect of increasing nutritional needs, and/or reducing the body’s ability to retain energy or nutrients. You can find more information on hunger and undernourishment in our entry.

In the map we see death rates from protein-energy malnutrition across the world.

The highest rates are seen across across Sub-Saharan Africa, which are typically in the range of 10-100 per 100,000 individuals. For most countries, this rate is below 5 per 100,000. In North Korea during its famine period, rates reached over 400 per 100,000. Death rate from malnutrition, 2017

Deaths from protein-energy malnutrition per 100,000 people.
0No data05102550100150200300400>450CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Additional information

HIV/AIDS

An infection with HIV (human immunodeficiency virus) can lead to AIDS (acquired immunodeficiency syndrome). AIDS results in a gradual and persistent decline and failure of the immune system, resulting in heightened risk of life-threatening infection and cancers.

In the majority of cases, HIV is a sexually-transmitted infection. However, HIV can also be transmitted from a mother to her child, during pregnancy or childbirth, or through breastfeeding. Non-sexual transmission can also occur through the sharing of injection equipment such as needles.

In the map we see death rates from HIV/AIDS across the world.

Most countries have a rate of less than 10 deaths per 100,000 – often much lower, below 5 per 100,000. Across Europe the death rate is less than one per 100,000.

Across Sub-Saharan Africa the rates are much higher. Most countries in the South of the region had rates greater than 100 per 100,000. In South Africa and Mozambique, it was over 200 per 100,000. HIV/AIDS You can explore global, regional and country-level data on HIV prevalence, deaths, and treatment in our full article here. Death rate from HIV/AIDS, 2017

The annual number of deaths from HIV/AIDS per 100,000 people.
0No data0102550100200>250CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Malaria

Malaria is a disease that is transmitted from person to person by infected mosquitoes. The bite of an infected Anopheles mosquito transmits a parasite that enters the victim’s blood system and travels into the person’s liver where the parasite reproduces. There the parasite causes a high fever that involves shaking chills and pain. In the worst cases malaria leads to coma and death.

In the map we see death rates from malaria across the world. Malaria You can explore global, regional and country-level data on malaria prevalence, deaths, and treatments in our full article here. Death rate from malaria, 2017

The annual number of deaths from malaria per 100,000 people.
0No data02.551020406080>100CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Smoking

Tobacco smoking is not a direct cause of death, but it nonetheless one of the world’s largest health problems.

Smoking is one of the world’s leading risk factors for premature death. Tobacco a risk factor for several of the world’s leading causes of death, including lung and other forms of cancer, heart disease, and respiratory diseases. 

In the map we see death rates from tobacco smoking across the world. Smoking You can explore global, regional and country-level data on the prevalence of smoking, its health impacts and attributed deaths in our full article here. Death rate from smoking, 2017

The annual number of deaths attributed to smoking per 100,000 people.
0No data0255075100150>200CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Suicide

Every suicide is a tragedy. With timely, evidence-based interventions, suicides can be prevented.6

In the map we see death rates from suicide across the world. Suicide You can explore global, regional and country-level data on deaths from suicide in our full article here. Death rate from suicides, 2017

The annual number of deaths from suicide per 100,000 people.
0No data051015204050100CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Homicides

Intentional homicides are defined as “an unlawful death deliberately inflicted on one person by another person”.7 Civilian and military deaths during interstate warscivil wars and genocides are not counted as homicides – but Our World in Data presents the evidence on deaths in the linked articles.

In the map we see homicide rates across the world. Homicides You can explore global, regional and country-level data on homicides in our full article here. Homicide rate, 2016

Number of intentional homicide deaths per 100,000 people.
0No data012510203050100150CC BY

Note: Intentional homicides are estimates of unlawful homicides purposely inflicted as a result of domestic disputes, interpersonal violence, violent
conflicts over land resources, intergang violence over turf or control, and predatory violence and killing by armed groups.

Natural disasters

Natural disasters can occur in many forms – ranging from earthquakes and tsunamis, to extreme weather events, and heatwaves.

The largest disaster events are often infrequent, but high-impact meaning there is significant variability in deaths from year-to-year.

In the the map we see death rates from natural disasters across the world. Natural disasters You can explore data on the number, costs and deaths from natural disasters in our full article here. Death rate from natural disasters, 2017

The annual number of deaths from all forms of natural disaster per 100,000 people.
0No data00.010.050.10.515101001,0002,300CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Road incidents

Road incident deaths include those of drivers – motor vehicles and motorcyclists – in addition to cyclists and pedestrian deaths.

In the map we see death rates from road incidents across the world.

Death rates are typically lowest across Western Europe and Japan, with less than 5 deaths per 100,000 individuals. Across the Americas, rates are typically slightly higher at 5 to 20; most countries in Asia lie between 15 and 30; and rates are typically highest across Sub-Saharan Africa with over 25 per 100,000. Death rate from road accidents, 2017

The annual number of deaths from road accidents per 100,000 people.
Deaths include those from drivers and passengers, motorcyclists, cyclists and pedestrians.
0No data051015202530405060>70CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Additional information

Drowning

The World Health Organization (WHO) emphasises that drowning is one of the most overlooked, preventable causes of death across the world.8 For every country in the world, drowning is among the top 10 killers for children. In some countries, such as Bangladesh, it is the top mortality cause for children under 15 years old.

In the map we see death rates from drowning across the world.

In 2016, death rates were highest in Papua New Guinea and Seychelles, between 10 to 16 deaths per 100,000. Rates were also high in countries such as Bangladesh, Central African Republic, Vietnam, and Haiti.

If we look at death rates we see a significant decline since 1990 — especially in low to middle-income countries. In Bangladesh and China, for example, rates have fallen by more than two-thirds over this period. Death rate from drowning, 2017

The annual number of deaths from drowning per 100,000 people.
0No data012.557.5101520253035CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Additional information

Fire

In the map we see death rates from fire across the world.

Most countries across the Americas, Western Europe, East Asia and Oceania average death rates below 2 per 100,000. Rates across other regions are typically higher at 2-6 per 100,000. When viewed through time we see a notable decline in fire death rates, particularly across Sub-Saharan Africa and Eastern Europe.  Death rate from fires and burns, 2017

The annual number of deaths due to fire, heat and hot substances per 100,000 people.
0No data012468101214CC BY

Note: To allow comparisons between countries and over time this metric is age-standardized.

Additional information

Terrorism

Terrorism is defined in the Oxford Dictionary as “the unlawful use of violence and intimidation, especially against civilians, in the pursuit of political aims.” We quickly see that this definition is unspecific and subjective.9 In our full article on Terrorism we look at adopted definitions, and how it’s distinguished from other forms of violence.

In the map we see death rates from terrorism across the world. Terrorism You can explore data on the number of terrorist attacks and deaths in our full article here. Deaths from terrorism, 2017

Confirmed deaths, including all victims and attackers who died as a result of the incident.
0No data02550751002505001,0005,00010,00015,000CC BY

Note: The Global Terrorism Database is the most comprehensive dataset on terrorist attacks available and recent data is complete. However, we
expect, based on our analysis, that longer-term data is incomplete (with the exception of the US and Europe). We therefore do not recommend this
dataset for the inference of long-term trends in the prevalence of terrorism globally.

Deaths by animal

Mosquitoes are by far the world’s deadliest animal

Around 1.5 million people are killed by animals every year.

More than half a million are killed by other humans – in warhomicides, and terrorism. And close to a million people are killed by other animals in any given year.10 

Mosquitoes are, by far, the world’s deadliest animal for humans: at estimated 780,000 died from the transmission of disease from mosquitoes in 2016. Mosquito deaths are the sum of deaths (in order, highest to lowest) from: Malaria, Dengue fever, Japanese encephalitis, Yellow fever, Zika virus, Chikungunya, West Nile virus, and Lymphatic filariasis, for which it is the vector.

Deadliest animals 01
Estimated number of global human deaths by animal, either from direct contact/attack or transmission of disease.

Does the news reflect what we die from?

One of the primary motivations for our work at Our World in Data is to provide a fact-based overview of the world we live in — a perspective that includes the persistent and long-term changes that run as a backdrop to our daily lives. We aim to provide the complement to the fast-paced reporting we see in the news. The media provides a near-instantaneous snapshot of single events; events that are, in most cases, negative. The persistent, large-scale trends of progress never make the headlines.

But is there evidence that such a disconnect exists between what we see in the news and what is reality for most us?

One study attempted to look at this from the perspective of what we die from: is what we actually die from reflected in the media coverage these topics receive?11

To answer this, Shen and his team compared four key sources of data:

For each source the authors calculated the relative share of deaths, share of Google searches, and share of media coverage. They restricted the considered causes to the top 10 causes of death in the US and additionally included terrorism, homicide, and drug overdoses. This allows for us to compare the relative representation across different sources.12

What we die from; what we Google; what we read in the news

So, what do the results look like? In the chart below I present the comparison.

The first column represents each cause’s share of US deaths; the second the share of Google searches each receives; third, the relative article mentions in the New York Times; and finally article mentions in The Guardian.

The coverage in both newspapers here is strikingly similar. And the discrepancy between what we die actually from and what we get informed of in the media is what stands out:

  • around one-third of the considered causes of deaths resulted from heart disease, yet this cause of death receives only 2-3 percent of Google searches and media coverage;
  • just under one-third of the deaths came from cancer; we actually google cancer a lot (37 percent of searches) and it is a popular entry here on our site; but it receives only 13-14 percent of media coverage;
  • we searched for road incidents more frequently than their share of deaths, however, they receive much less attention in the news;
  • when it comes to deaths from strokes, Google searches and media coverage are surprisingly balanced;
  • the largest discrepancies concern violent forms of death: suicide, homicide and terrorism. All three receive much more relative attention in Google searches and media coverage than their relative share of deaths. When it comes to the media coverage on causes of death, violent deaths account for more than two-thirds of coverage in the New York Times and The Guardian but account for less than 3 percent of the total deaths in the US.

What’s interesting is that Americans search on Google is a much closer reflection of what kills us than what is presented in the media. One way to think about it is that media outlets may produce content that they think readers are most interested in, but this is not necessarily reflected in our preferences when we look for information ourselves.

[Clicking on the visualization will open it in higher resolution; The chart shows the summary for the year 2016, but interactive charts for all available years is available at the end of this blog.13]

Causes of death in usa vs. media coverage

How over- or underrepresented are deaths in the media?

As we can see clearly from the chart above, there is a disconnect between what we die from, and how much coverage these causes get in the media. Another way to summarize this discrepancy is to calculate how over- or underrepresented each cause is in the media. To do this, we simply calculate the ratio between the share of deaths and share of media coverage for each cause.

In this chart, we see how over- or underrepresented each cause is in newspaper coverage.14 Causes shown in red are overrepresented in the media; those in blue are underrepresented. Numbers denote the factor by which they are misrepresented.

The major standout here – I had to break the scale on the y-axis since it’s several orders of magnitude higher than everything else – is terrorism: it is overrepresented in the news by almost a factor of 4000.

Homicides are also very overrepresented in the news, by a factor of 31. The most underrepresented in the media are kidney disease (11-fold), heart disease (10-fold), and, perhaps surprisingly, drug overdoses (7-fold). Stroke and diabetes are the two causes most accurately represented.

[Clicking on the visualization will open it in higher resolution].

Over and underrepresentation of deaths in media

Should media exposure reflect what we die from?

From the comparisons above, it’s clear that the news doesn’t reflect what we die from. But there is another important question: should these be representative?

There are several reasons we would, or should, expect that what we read online, and what is covered in the media wouldn’t correspond with what we actually die from.

The first is that we would expect there to be some preventative aspect to information we access. There’s a strong argument that things we search for and gain information on encourages us to take action which prevents a further death. There are several examples where I can imagine this to be true. People who are concerned about cancer may search online for guidance on symptoms and be convinced to see their doctor. Some people with suicidal thoughts may seek help and support online which later results in an averted death from suicide. We’d therefore expect that both intended or unintended exposure to information on particular topics could prevent deaths from a given cause. Some imbalance in the relative proportions therefore makes sense. But clearly there is some bias in our concerns: most people die from heart disease (hence it should be something that concerns us) yet only a small minority seek [possibly preventative] information online.

Second, this study focused on what people in the USA die from, not what people across the world die from. Is media coverage more representative of global deaths? Not really. In another blog post, ‘What does the world die from?‘, I looked in detail at the ranking of causes of death globally and by country. The relative ranking of deaths in the USA is reflective of the global average: most people die from heart disease and cancers, and terrorism ranks last or second last (alongside natural disasters). Terrorism accounted for 0.06 percent of global deaths in 2016. Whilst we’d expect non-US events to feature in the New York Times, global news shouldn’t substantially affect representative coverage of causes.

The third relates to the very nature of news: it focuses on events and stories. Whilst I am often critical of the messages and narratives portrayed in the media, I have some sympathy for what they choose to cover. Reporting has become increasingly fast-paced. As news consumers, our expectations have quickly shifted from daily, to hourly, down to minute-by-minute updates of what’s happening in the world. Combine this with our attraction to stories and narratives. It’s not surprising that the media focuses on reports of single (inadvertently negative) events: a murder case or a terrorist attack. The most underrepresented cause of death in the media was kidney disease. But with an audience that expects a minute-by-minute feed of coverage, how much can possibly be said about kidney disease? Without conquering our compulsion for the latest unusual story, we cannot expect this representation to be perfectly balanced.

How to combat our bias for single events

Media and its consumers are stuck in a reinforcing cycle. The news reports on breaking events, which are often based around a compelling story. Consumers want to know what’s going on in the world we are quickly immersed by the latest headline. We come to expect news updates with increasing frequency, and media channels have clear incentives to deliver. This locks us into a cycle of expectation and coverage with a strong bias for outlier events. Most of us are left with a skewed perception of the world; we think the world is much worse than it is.15

The responsibility in breaking this cycle lies with both media producers and consumers. Will we ever stop reporting and reading the latest news? Unlikely. But we can all be more conscious of how we let this news shape our understanding of the world.

And journalists can do much better in providing context of the broader trends: if reporting on a homicide, for example, include context of how homicide rates are changing over time.16

As media consumers we can be much more aware of the fact that relying on the 24/7 news coverage alone is wholly insufficient for understanding the state of the world. This requires us to check our (often unconscious) bias for single narratives and seek out sources that provide a fact-based perspective on the world.

This antidote to the news is what we try to provide at Our World in Data. It should be accessible for everyone, which is why our work is completely open-access. Whether you are a media producer or consumer, feel free to take and use anything you find here.

Additional information

Definitions & Measurement

In this article we rely largely on the estimates presented in the Global Burden of Disease (GBD) studies that are produced under the leadership of the Institute for Health Metrics and Evaluation. The study is published in The Lancet at TheLancet.com/GBD and is the most regularly updated; comprehensive; and most in-depth analysis and synthesis of the causes and risk factors of death worldwide.

Estimating the causes of death

The IHME’s Global Burden of Disease (GBD) has developed a standardized approach to the attribution of deaths to specific causes.17

Their methodology states that “each death is attributed to a single underlying cause — the cause that initiated the series of events leading to death—in accordance with ICD principles”.18 Data to estimate the causes of deaths is far from complete, particularly in poorer countries, and for this estimation the researchers therefore need to rely on various sources. These sources include vital registration (VR); verbal autopsy (VA); surveillance, census and survey data; cancer registries; and police records. GBD then develops a data standardization and processing methodology within which they define data quality and completeness scores, and where necessary adjust completeness to 100% using cause fractions for a given location-age-sex-year and estimated all-cause mortality for that location-age-sex-year.

The GBD assessment is strongly tied to the mortality cause categories as defined within the International Classification of Diseases (ICD) codes, as used by the World Health Organization (WHO).

An important step in the GBD methodology standardization is in reallocating deaths attributed within ICD classifications without an underlying cause of death (for example, senility) which can be an intermediate but not final cause of death. These categories are termed as ‘garbage codes’. GBD redistribute these garbage codes using a methodology explained in detail in Naghavi et al. (2010).19 Note that this redistributing of ‘garbage codes’ in some cases explains the difference in estimates between IHME and WHO, such as for road accident deaths (compared here).

Death and death rate analyses are then carried out by the GBD researchers across all locations, all ages, both sexes and for the period from 1990 onwards based on its Cause of Death Ensemble model (CODEm). The full description of GBD methodology can be found here.

Estimating the deaths attributed to risk factors

Estimating the risk factors associated with millions of deaths around the world is a complex task — particularly when risk factors can compound and collectively influence the likelihood of disease and, eventually, death.

The Global Burden of Disease (GBD) studies – on which we largely rely on in this article – provide one of, if not the, most in-depth analysis and synthesis of relative risk factors.20

The GBD groups risk factors into four broad categories: behavioral risks, environmental risks, occupational risks, and metabolic risks.

The central tool to estimate the impact of various risk factors is the Comparative Risk Assessment (CRA) conceptual framework21 which details how various risk factors affect health outcomes and ultimately death. For example, there is evidence of links between a higher body mass index (BMI) and the risk of multiple non-communicable diseases (NCDs) including cardiovascular disease, ischemic stroke and some cancers.22

Such risk-outcome pairs (e.g. high BMI and ischemic stroke) are formed based on evidence from cohort studies, randomized trials, and case-control studies.

A key point to emphasise is that attributing deaths to risk factors necessarily implies making assumptions about the magnitude of the causal impact that each factor has on the probability of death, everything else equal. Establishing causal impacts this way is difficult. The GBD studies rely on state-of-the-art evidence from cohort, case studies and trials, but extrapolating from this evidence still requires making assumptions, with an implied margin of error. As scientific research advances, new evidence becomes available – the estimates from the GBD studies adapt, and become more precise when new academic research emerges.

The risk factor estimates presented in this entry represent the ‘attributable burden’

Once a risk-outcome pair has been identified, how does IHME begin to quantify the disease burden or number of deaths attributed to each risk?

The CRA can be used for two different types of assessment, attributable burden and avoidable burden:

  • The avoidable burden represents the potential burden avoided in the future if population exposure to a risk factor was to shift to a counterfactual level of exposure (for example, from its current level to a future scenario where tobacco smoking was eliminated).
  • The attributable burden is an estimation of the reduction of the number of deaths that would have been achieved if the risk factors to which a population is exposed had been eliminated (in the case of tobacco smoking, for example) or reduced to an optimal, healthy level (in the case of body-mass index). It estimates the number of deaths associated with a risk factor as the difference between a hypothetical ideal world with no exposure to relevant risk factors with the actual exposure to risk factors. This methodology can be applied for the current number of deaths associated with different risk factors and in historical analyses of the past. The data presented in this article here is that of the attributable burden.

The estimation of the attributable burden effectively answers the question: “What would be the number of deaths from a specific cause of death – e.g. stroke or a specific cancer – if everyone’s body-mass index (BMI) was reduced to a optimal, healthy level?” This healthy/optimal level is defined as the ‘theoretical minimum risk exposure level (TMREL)‘. Cohort, case studies and trials of established risk-exposure relationships between BMI and ischemic stroke allow for the calculation of the reduction in deaths which would have occurred if BMI was reduced to a healthy level across the population distribution. This relationship can be established by specific demographic groups, such as by sex or age. The difference between the number of deaths from ischemic stroke which would have occurred at the TMREL and at the actual BMI distribution is given as the number of deaths attributed to high BMI from ischemic stroke.

By completing this process for all risk-outcome pairs, IHME can sum to estimate the total number of deaths attributed to high BMI, and replicated for all risk factors using their individual risk-outcome exposure curves.

The number of deaths attributed to different risk factors can not be summed up

Note that this process of estimation is not additive; in other words, these risk-specific relationships do not account for the compounding effects of multiple risk factors. High BMI, for example, may likely be present with other lifestyle factors such as low physical activity levels, high blood pressure, low fruit and vegetable intake. All of these estimates are developed independently. We cannot therefore sum all ‘attributed deaths’ and conclude that this is the actual number of deaths. The attributed number of deaths by risk factor in many cases exceeds that of those by cause of death.

For example, the chart here shows the risk factors for cardiovascular diseases. 18 million people died from cardiovascular diseases in 2017. However, if you sum the deaths attributable to individual risk factors they will add up to more that 18 million. The reason is because these risk factors are calculated individually and the measurement does not account for the compounding effects of multiple risk factors. E.g. people who eat less grains and fruits are also likely to have diets with higher proportion of processed fatty acids and lower proportion of fiber.

The full methodological explanation of the IHME’s approach to risk factor attribution can be found here.

Data Sources

Institute of Health Metrics and Evaluation (IHME), Global Burden of Disease (GBD)
  • Data: Death rates, absolute number of premature deaths and DALYS across all risk factors and causes
  • Geographical coverage: Global, across all regions and countries
  • Time span: Most metrics available from 1990 onwards
  • Available at: Online here

World Health Organization (WHO) Global Health Observatory (GHO)
  • Data: Causes-specific mortality by age and sex
  • Geographical coverage: Global, by region and by country
  • Time span: Most metrics available from 2000 onwards in 5-year incrememnts
  • Available at: Online here

Global Terrorism Database (GTD)
  • Data: Terrorist attacks with 45-120 variables for each, including number of fatalities, injuries, weapons used, and perpetrators
  • Geographical coverage: Global by country
  • Time span: 1970 onwards
  • Available at: http://www.start.umd.edu/gtd/

Amnesty International

References

  1. The number of deaths globally can be seen in this chart.
  2. GBD 2016 Mortality Collaborators (2017) – Global, regional, and national age-sex specific mortality for 264 causes of death, 1980–2016: a systematic analysis for the Global Burden of Disease Study 2016. In The Lancet. Published:September 16, 2017DOI:https://doi.org/10.1016/S0140-6736(17)32152-9
  3. The number of deaths globally can be seen in this chart.
  4. The latest study can be found at the website of the Lancet here: TheLancet.com/GBD The 2017 study was published as in the following publication: “Roth, G. A., Abate, D., Abate, K. H., Abay, S. M., Abbafati, C., Abbasi, N., … & Abdollahpour, I. (2018). Global, regional, and national age-sex-specific mortality for 282 causes of death in 195 countries and territories, 1980–2017: a systematic analysis for the Global Burden of Disease Study 2017. The Lancet, 392(10159), 1736-1788″, and is online here.
  5. Spoorenberg, T., & Schwekendiek, D. (2012). Demographic changes in north Korea: 1993–2008. Population and Development Review38(1), 133-158. Available online.
  6. World Health Organization. (2014). Preventing suicide: A global imperative. World Health Organization.
  7. OECD (2011) – How’s Life? Measuring Well-being: Measuring Well-being.
  8. World Health Organization. (2014). Global report on drowning: preventing a leading killer. World Health Organization. Available online.
  9. Teichman, J. (1989). How to define terrorism. Philosophy64(250), 505-517.
  10. Mosquito deaths are the sum of deaths (in order, highest to lowest) from: Malaria, Dengue fever, Japanese encephalitis, Yellow fever, Zika virus, Chikungunya, West Nile virus, and Lymphatic filariasis, for which it is the vector. Snake and scorpion deaths are based on IHME fatality estimates from venomous animal contact. Dog deaths are the sum of deaths from rabies and estimates of dog attacks. Deaths by shark and crocodile are summarised annually in updated databases. Figures from remaining animals (without an attributed disease) are typically not recorded annually, but are provided as average estimates from sources including the UN FAO, National Geographic, WWF and Gates Notes. Deaths from humans is defined as the sum of homicide, conflict and terrorism deaths.
  11. Shen et al. (2018). Death: Reality vs Reported. Available at: https://owenshen24.github.io/charting-death/.
  12. All values are normalized to 100% so they represent their relative share of the top causes, rather than absolute counts (e.g. ‘deaths’ represents each cause’s share of deaths within the 13 categories shown rather than its share of total deaths; the 13 categories here account for approximately 88% of total US deaths).
  13. The authors calculated this data annually from 1999 to 2016 (due to data availability, from 2004 onwards for Google Trends).
  14. Note here that these ratios are calculated based on the average of annual trends over the period 1999 to 2016 rather than the year 2016 alone.
  15. There are many results which show we have a negative bias of global progress. Factfulness, published by the Roslings, is packed with public survey results of Gapminder’s Ignorance Test. The test shows that the vast majority of people get the most basic questions on global development wrong (nearly always thinking the world is in a worst state than it is).
  16. In many countries they have been falling.
  17. GBD 2017 Mortality Collaborators (2018) – Global, regional, and national age-sex-specific mortality and life expectancy, 1950–2017: a systematic analysis for the Global Burden of Disease Study 2017. In The Lancet, Vol. 392, No. 10159 Published: November 10, 2018. DOI: https://doi.org/10.1016/S0140-6736(18)31891-9
  18. GBD 2016 Mortality Collaborators (2017) – Global, regional, and national age-sex specific mortality for 264 causes of death, 1980–2016: a systematic analysis for the Global Burden of Disease Study 2016. In The Lancet. Published:September 16, 2017DOI:https://doi.org/10.1016/S0140-6736(17)32152-9
  19. Naghavi, M., Makela, S., Foreman, K., O’Brien, J., Pourmalek, F., & Lozano, R. (2010). Algorithms for enhancing public health utility of national causes-of-death data. Population health metrics8(1), 9. Available online.
  20. Iburg, K. M. (2017). Global, regional, and national comparative risk assessment of 84 behavioural, environmental and occupational, and metabolic risks or clusters of risks, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016. Lancet390(10100), 1345-1422. Available online.
  21. Murray, C. J., & Lopez, A. D. (1999). On the comparable quantification of health risks: lessons from the Global Burden of Disease Study. Epidemiology-Baltimore10(5), 594-605. Available online.
  22. Romero-Corral, A., Montori, V. M., Somers, V. K., Korinek, J., Thomas, R. J., Allison, T. G., … & Lopez-Jimenez, F. (2006). Association of bodyweight with total mortality and with cardiovascular events in coronary artery disease: a systematic review of cohort studies. The Lancet368(9536), 666-678. Available online. Wang, H. J., Si, Q. J., Shan, Z. L., Guo, Y. T., Lin, K., Zhao, X. N., & Wang, Y. T. (2015). Effects of body mass index on risks for ischemic stroke, thromboembolism, and mortality in Chinese atrial fibrillation patients: a single-center experience. PloS one10(4), e0123516. Available online. Bianchini, F., Kaaks, R., & Vainio, H. (2002). Overweight, obesity, and cancer risk. The Lancet Oncology3(9), 565-574. Available online.

Citation

Our articles and data visualizations rely on work from many different people and organizations. When citing this entry, please also cite the underlying data sources. This entry can be cited as:

Hannah Ritchie and Max Roser (2020) - "Causes of Death". Published online at OurWorldInData.org. Retrieved from: 'https://ourworldindata.org/causes-of-death' [Online Resource]

BibTeX citation

@article{owidcausesofdeath,
    author = {Hannah Ritchie and Max Roser},
    title = {Causes of Death},
    journal = {Our World in Data},
    year = {2020},
    note = {https://ourworldindata.org/causes-of-death}
}