In the United States, there were far more occupational injury deaths among men than women. In 2023, there were ***** male occupational injury deaths in the United States, compared to *** deaths among women.

In 2023/24, 138 workers died due to fatal injuries at their workplace in Great Britain, more than in the previous year but fewer than there were in 2020/21. During the provided time period, there has been a noticeable decline in the number of workplace fatalities in Britain.

Between 2008 and 2022, the number of workplace fatalities reported by the press in Italy fluctuated. According to the data, in 2022 the number of deaths in the workplace amounted to 453, the highest figure since 2012.

Ensuring social data's reliability is essential in accurately evaluating social and economic impacts across geographical locations, economic sectors and stakeholder categories. Yet, the MRIO model utilized in our research (EXIOBASE) was hindered by out-of-date or significantly proxy fatality statistics, causing potential inaccuracies in our findings. We have comprehensively revised EXIOBASE fatality data to address this shortcoming, incorporating detailed, nation-specific, and up-to-date data. The update includes work-related fatal occupational injuries as well as fatalities associated with occupational exposure to a variety of 17 hazardous substances and conditions such as asbestos, arsenic, benzene, beryllium, cadmium, chromium, diesel engine exhaust, formaldehyde, nickel, polycyclic aromatic hydrocarbons, silica, sulfuric acid, trichloroethylene, asthmagens, particulate matter, gases and fumes, noise and ergonomic factors. Our methodological process is built on three pillars: data acquisition, raw data processing, and computation of fatal injuries by country, gender, year, and EXIOBASE economic sector.

Data were sourced from the World Health Organization (WHO) (Pega et al., 2021) and Eurostat databases (Publications Office of the European Union, 2013). The WHO data was carefully screened based on specific criteria such as age above 15 years, gender, and fatal injuries only. Eurostat data provided granular information on work-related fatalities, classified by economic activities in the European Community (or NACE Rev.2 (Eurostat, 2008)). The WHO provided aggregate fatality data for 2010 and 2016. The strategy for allocating these deaths across Eurostat categories depended on the countries' geographical location, with different methods applied to European and non-European nations.

For European nations, fluctuations in fatality numbers within a NACE Rev.2 sector mirrored the changes registered by Eurostat. For non-European countries, fatality figures were proportionally allocated across economic sectors split according to the NACE Rev.2 classification, reflecting the workforce size associated with each economic sector. Due to the scarcity of data for nations within Asia, America, or Africa, we adopted a regional approach, computing fatality ratios over each NACE Rev.2 category for each region by integrating data for available countries over a reference year. For 2010 and 2016, the aggregate fatality figures for nations within these three zones were established. Due to the temporal proximity of both reference years, we postulated a linear trend in the fatality count between these two years. The number of fatalities for a specific country, year, and per NACE Rev.2 activity was then calculated by applying the previously mentioned fatality ratio to the total number of deaths for that nation. Last, we applied the European annual ratios to their total mortality figures for the few countries that could not be classified as European or belonging to one of the aforementioned zones.

The result is a comprehensive database that includes the number of fatalities (expressed in the number of deaths for work-related fatal occupational injuries and in Disability-adjusted life years (DALYs), for fatalities associated with occupational exposure to a specific risk factor), detailed at the country, gender, and NACE Rev.2 sector levels from 2008 to 2019, providing insights into work-related fatal injuries across different health effects and geographical regions.

Nomenclature

Archives:

• Concordance_ISIC_Exiobase.xlsx : Concordance between the International Standard Industrial Classification (ISIC) and the exiobase sectors
• Concordance_ISO3_EXIO3.xlsx - Concordance between the ISO3 code and the Exiobase regions
• Workforce_by_ISO3.csv - Number of active persons per Country (ISO3 code), per Statistical Classification of Economic Activities in the European Community (NACE), Sex, Year (from 1991 to 2021)
• Workforce_by_EXIO3.csv - Number of active persons per Exiobase region (EXIO3 code), per Statistical Classification of Economic Activities in the European Community (NACE), Sex, Year (from 1991 to 2021)
• Death_ISO3.csv - Number of death per Country (ISO3 code), per Statistical Classification of Economic Activities in the European Community (NACE), Sex, Estimate (point, lower, upper), Year (from 2009 to 2019)
• Death_EXIO3.csv - Number of death per Exiobase Region (EXIO3 code), per Statistical Classification of Economic Activities in the European Community (NACE), Sex, Estimate (point, lower, upper), Year (from 2009 to 2019)
• Death_EXIO3_region_exiobase_sector.csv - Number of death per Exiobase Region (EXIO3 code), exiobase sector, Sex, Estimate (point, lower, upper), Year (from 2009 to 2019)
• Injuries_ISO3.zip - Archive of DALY per Country (ISO3 code), Exiobase Sector, Sex, Estimate (point, lower, upper), Type of Exposure, Year (from 2009 to 2019)
• Injuries_EXIO3.zip - Archive of DALY per Exiobase Region (EXIO3 code), Exiobase Sector, Sex, Estimate (point, lower, upper), Type of Exposure, Year (from 2009 to 2019)
• Workforce_EXIO3_sector_exiobase.xlsx - Number of active persons per Exiobase region (EXIO3 code), per exiobase sector, Sex, Year (from 1991 to 2021).
  This file is available here : Berthet, Etienne and Lavalley, Julien and Anquetil-Deck, Candy and Ballesteros, Fernanda and Stadler, Konstantin and Soytas, Ugur and Hauschild, Michael and Laurent, Alexis, Assessing the Social and Environmental Impacts of Critical Mineral Supply Chains for the Energy Transition in Europe. Available at SSRN: https://ssrn.com/abstract=4610350 or http://dx.doi.org/10.2139/ssrn.4610350

Content of Injuries_*.zip:

• arsenic_*.csv
• asbestos_*.csv
• asthmagens_*.csv
• benzene_*.csv
• beryllium_*.csv
• cadmium_*.csv
• chromium_*.csv
• diesel_*.csv
• ergonomic_*.csv
• formaldehyde_*.csv
• gases_*.csv
• nickel_*.csv
• noise_*.csv
• polycyclic_*.csv
• silica_*.csv
• sulfuric_*.csv
• trichloro_*.csv

The graph illustrates the annual fatalities among construction workers in the United States from 2018 to 2023. The x-axis displays the years, labeled with abbreviated two-digit numbers from '18 to '23, while the y-axis represents the total number of deaths recorded each year. Over this five-year span, the fatalities range from a low of 951 in 2021 to a high of 1,066 in 2019. The data shows fluctuations in annual deaths, with a decrease in fatalities in 2020 and 2021 followed by an increase in 2022. The graph provides a visual representation of the trends in construction worker fatalities during this period.

This report analyzes the annual number of fatal occupational injuries in the United States. Common causes of occupational fatalities include falls, machine-related incidents, motor vehicle accidents, electrocution, falling objects, homicides and suicides. Data is from the Bureau of Labor Statistics.

In 1995, there were 6,275 occupational injury deaths in the United States. By 2023, this number had decreased to 5,283 deaths. Occupational injury deaths reached a peak in 1994, with 6,632 deaths. The lowest number of occupational injury deaths recorded was in 2009, with 4,551 deaths.

Number of Fatal Workplace Injuries by Economic Sector 2025 (NACE Revision 2) These are provisional figures and are subject to change. .hidden { display: none }

In 2023/24, the most common cause of fatalities at work in Great Britain were falls from a height, which accounted for 50 fatalities in this reporting year.

Dataset from Ministry of Manpower. For more information, visit https://data.gov.sg/datasets/d_96415fe7d30b8f82f3628602f627a4fa/view

Here you will find an open data set with the Labour Inspection Authority’s statistics on occupational injury deaths per year for the last five-year period. The Working Environment Act & 5-2 requires employers to notify the Labour Inspection Authority of serious work-related personal injuries to their own employees. Occupational injury death means a work injury that causes the injured employee to die within one year of the accident. The Labour Inspection Authority provides statistics on occupational injury deaths occurring within the Labour Inspection Authority’s administrative area that is limited to the land-based labour market in Norway. Occupational injury deaths in aviation, shipping, fishing and capture, petroleum activities on the Norwegian continental shelf and the construction and operation of land-based petroleum facilities are followed up by other supervisory authorities. Occupational injury deaths in these industries are therefore not included in these statistics. Occupational injury deaths in military occupations are included, with the exception of deaths in war situations. For more information about the data set read here. The open data set consists of: Year (Ar), Gender (Kjonn), Number of occupational injury deaths (Number)

The spreadsheet contains confirmed work-related fatalities by calendar year and month.\r \r Breakdowns are provided by month and year, age and gender, industry, category and LGA. Details of each fatality are also provided.\r \r Access interactive visualisations of workplace fatalities data here.\r \r Data reflects a snapshot point in time and is subject to revision due to claims development i.e. injuries incurred but that have not yet been reported. Therefore historical published fatality counts can change.\r \r The way we report on lives lost in Victorian workplaces has changed. Previously, this reporting excluded some work-related deaths that were not attributable to duties or obligations under the Occupational Health and Safety Act 2004, such as those caused by transport accidents or occupational diseases.\r \r Now workers who die on the road, suicides attributable to work, industrial diseases such as silicosis, and workplace deaths resulting from a criminal act, are included.\r \r We implemented this change for reporting for the 2020-21 financial year, commencing 1 July 2020.

In the 2023/24 reporting year, there were 51 fatal injuries to construction workers in Great Britain, the most of any industry sector. The industry with the second-highest number of fatalities was agriculture, which had 23.

The Bureau of Labor Statistics (BLS) Census of Fatal Occupational Injuries (CFOI) produces comprehensive, accurate, and timely counts of fatal work injuries. CFOI is a Federal-State cooperative program that has been implemented in all 50 States and the District of Columbia since 1992. To compile counts that are as complete as possible, the census uses multiple sources to identify, verify, and profile fatal worker injuries. Information about each workplace fatal injury—occupation and other worker characteristics, equipment involved, and circumstances of the event—is obtained by cross-referencing the source records, such as death certificates, workers' compensation reports, and Federal and State agency administrative reports. To ensure that fatal injuries are work-related, cases are substantiated with two or more independent source documents, or a source document and a follow-up questionnaire. Data compiled by the CFOI program are issued annually for the preceding calendar year. More information and details about the data provided can be found at https://www.bls.gov/iif/oshfat1.htm

Background: The population of Chinese physicians is frequently threatened by abnormal death, including death by overwork or homicide. This is not only a health problem, but also a social problem that has attracted the attention of both hospitals and the government.Objective: This study aims to analyze the characteristics of abnormal death in physicians in Chinese hospitals from 2007 to 2020 and to investigate the relationship between abnormal death and physician workload, in order to provide information for policy makers and request improvement technologies.Methods: A mixed research method was used. In order to ensure accuracy and completeness, a relatively comprehensive search was conducted using multiple heterogeneous data sources on the abnormal death of physicians in Chinese hospitals from 2007 to 2020. The collected cases were then descriptively analyzed using the work-related overwork death risk concept framework and the deductive grounded theory approach. In addition, the workload of physicians was calculated between 2007 and 2019 based on three important workload indicators.Results: Between 2007 and 2020, 207 abnormal death events of physicians on the Chinese mainland were publicly reported. Among the 207 victims, the majority (~79%) died from overwork or sudden death. The number of victims who were men was 5.5 times higher than that of women, and victims were between the ages of 31–50 years. These physicians mainly belonged to the departments of surgery, anesthesiology, internal medicine, and orthopedics. Further analysis of the direct causes of death in cases of overwork death showed that 51 physicians (31.1%) died from cardiogenic diseases. Additionally, the per capita workload of physicians in China increased drastically by about 42% from 2007 to 2019, far exceeding physician workloads in Europe, Asia, and Australia (number of inpatients per physician in 2017: 72 vs. 55, 50, 45). The analysis revealed that there was a strong correlation between the number of abnormal deaths of physicians in China and the number of inpatients per physician (r = 0.683, P = 0.01).Conclusion: High-intensity working conditions may be positively correlated with the number of abnormal deaths among physicians. Smart hospital technologies have the potential to alleviate this situation.

Fatal occupational injuries (unintentional and homicide), incidence rate (construction), New Jersey.

Rate: fatalities per 100,000 construction workers.

Definition: Number and incidence rate of fatal occupational injuries, when the injury occurred while the individual was working in a construction-related occupation, either on or off of the employer's premises.

Data Source: Occupational Health Surveillance Unit, New Jersey Department of Health

This dataset contains replication materials (data and code) for Replication Data for: Does ‘right to work’ imperil the right to health? The effect of labour unions on workplace fatalities.

Harmonised data on accidents at work are collected in the framework of the administrative data collection 'European Statistics on Accidents at Work (ESAW)', on the basis of a methodology developed first in 1990. European Statistics on Accidents at Work (ESAW) - Summary methodology - 2013 edition is the last version available.

An accident at work is defined as 'a discrete occurrence in the course of work which leads to physical or mental harm'. If the accident does not lead to the death of the victim it is called a 'non-fatal' (or 'serious') accident. The data include only fatal and non-fatal accidents involving more than 3 calendar days of absence from work.

A fatal accident at work is defined as an accident, which leads to the death of a victim within one year of the accident.

The variables collected on accidents at work include:

• Economic activity of the employer and size of the enterprise
• Employment status, occupation, age, sex and nationality of victim
• Geographical location, date and time of the accident
• Type of injury, body part injured and the severity of the accident (number of full calendar days during which the victim is unfit for work excluding the day of the accident, permanent incapacity or death within one year of the accident)
• Variables on causes and circumstances of the accident: workstation, working environment, working process, specific physical activity, material agent of the specific physical activity, deviation and material agent of deviation, contact - mode of injury and material agent of contact - mode of injury (mandatory 3 out of 9).

The national ESAW sources are the declarations of accidents at work, either to the accident insurance of the national social security system, a private insurance for accidents at work or to other relevant national authorities (labour inspection, health and safety authority, etc.). As an exception, when data from administrative sources are not available, survey data might be used to fill-in the data gaps.

Eurostat website has a structure that includes four folders with accidents at work data:

1. Accidents at work (ESAW, 2008 onwards) contains the most recent data. This folder has other three sections: 'Main Indicators', 'Details by economic sector (NACE Rev2, 2008 onwards) and 'Causes and circumstances of accidents at work'.

Depending on the table, data are broken down by: economic activity (NACE 'main sectors' (1 digit code) or more detailed NACE divisions (2 digit codes)); the occupation of the victim (ISCO-08 code); country; severity of the accident, sex, age, employment status, size of the enterprise, body part injured and type of injury. The unit of measure depends also on the table. The following units of measure are available: numbers, percentages, incidence rates and standardised incidence rates of non-fatal and fatal accidents at work.

2. Accidents at work (ESAW) – until 2007 contains back data covering the reference period 1993-2007, these data refer to the version 1.1 of the NACE classification (NACE Rev.1.1.).

3. Accidents at work and other work-related health problems (source LFS) – present the results of the LFS ad-hoc modules dedicated for health and safety, that are comparable, for the reference years when they have been conducted namely 2007, 2013 and 2020. They are presented in the form of tables that refer to accidents at work; work-related health problems and exposure to risk factors for physical and mental well-being.

4. Work related health problems and accidental injuries – LFS 1999 presents data collected with the LFS ad-hoc module dedicated to health and safety at work 1999. These are historical data, the comparability of the results with the waves 2007, 2013 and 2020 is limited, for this reason the results are presented separately.

Office for National Statistics (ONS) register of all deaths relating to Welsh residents, including those that died outside of Wales.

The data are collected from death registrations.

This dataset requires additional governance approvals from the data provider before data can be provisioned to a SAIL project.