Official Statistics

Weekly all-cause mortality surveillance (week 37 report, up to week 33 2024 data)

Updated 19 December 2024

This report includes details of the weeks in which observed deaths from all causes were higher than an expected number, which is calculated using a European-wide algorithm called EuroMOMO. It can be used to identify weeks when factors such as infectious disease activity or extreme temperature may have caused higher mortality rates than expected and requires further investigation.

This report covers the UK. Analysis is stratified by age and region in England, and by all deaths combined in Northern Ireland, Scotland and Wales.

Main points

The main messages of this report are:

  • in week 33 of 2024, no signal of high mortality above the baseline was seen in England using all ages combined
  • mortality did not go over the expected number in England for those aged under 5 years, aged 5 to 14 years, aged 15 to 64 years, and aged 65 years and over, or in any region
  • no signal of high mortality above the baseline was seen in Northern Ireland, Scotland or Wales using all ages combined

Identifying signals of high all-cause mortality in subpopulations, UK

This analysis uses all-cause deaths by week of death occurrence with a correction for delays from death to registration using the standardised EuroMOMO algorithm. The algorithm used also produces a baseline estimate and z-score thresholds, with results above 2 z-scores regarded as a high mortality signal.

Figure 1 shows the number of deaths for England using all ages combined and demonstrates the main circulating influenza subtypes and recent SARS-CoV-2 periods which align with high death rates. Last season was a mixed A/H1N1pdm09 and A/H3N2 season.

In England, aggregated death registrations are provided to UK Health Security Agency (UKHSA) by the General Register Office (GRO). Mortality by week of death occurrence above the 2 z-score threshold was not seen overall in the week ending 8 September 2024 (week 33), nor in any age group or region. The weeks where a high mortality signal was identified (since week 40 of 2023) are shown in tables 1 and 2.

In the devolved administrations, data is based on GRO data for Wales, National Records of Scotland (NRS) data for Scotland, and Northern Ireland Statistics and Research Agency (NISRA) data for Northern Ireland. No signal of high all-cause mortality above the baseline for all ages was observed in Northern Ireland, Scotland or Wales in the week ending 8 September (week 33) applied by week of death occurrence (Table 2).

Note that the data is provisional because of the time delay in registration, so numbers may vary from week to week. Data presented in this week’s report supersedes data presented in reports from previous weeks.

Figure 1. Weekly observed and expected number of all-cause deaths in all ages, with the dominant circulating respiratory virus, England, 2017 to week 33 of 2024

Note: the recent weeks’ data are estimates which may be subject to registration delay corrections and therefore should be interpreted with caution. These estimates may differ in future reports as more deaths are registered.

Table 1. Weeks with a high mortality signal by age group, England [note 1]

Age group (years) Signal in week 33 2024? Weeks with a signal since week 40 2023
Under 5 No Weeks 41, 49, 50, 5, 6
5 to 14 No Weeks 4, 16, 21
15 to 64 No Weeks 49, 1
65 and over No None

[note 1]: Signal is defined as being above the 2 z-score threshold by the EuroMOMO algorithm.

Table 2. Weeks with a high mortality signal by UK country, for all ages [note 1]

Country Signal in week 33 2024? Weeks with a signal since week 40 2023
England No None
Wales No None
Northern Ireland No None
Scotland No Weeks 51, 52, 1, 3, 4

[note 1]: Signal is defined as being above the 2 z-score threshold by the EuroMOMO algorithm.

Glossary

Z-score

A z-score is a statistical measure of how many standard deviations above the baseline threshold the number of deaths was. For example, a z-score of 2 means that the number of deaths was 2 standard deviations above the baseline threshold. Chance signals using a 2 z-score threshold are expected about 2.5% of the time.

Data sources and methodology

The baseline shown in Figure 1 comes from the standardised EuroMOMO algorithm which aims to show expected mortality in the absence of a serious event that may increase mortality. Such events include when influenza circulation is high, or extreme temperatures. The algorithm uses 5 baseline years and incorporates a trend and seasonality. Note that the COVID-19 pandemic period from March 2020 to March 2022 is excluded from the baseline calculation.

This weekly mortality surveillance aims to provide timely detection and reporting of signals that mortality is above baseline seasonal levels. These signals support public health risk assessment, which may include investigation of possible causes.

High mortality is defined as a statistically significant (above the upper 2 z-score threshold) number of deaths reported over the expected number of deaths for a given point in the year. This definition allows for weekly variation in the number of deaths.

The aim is not to assess general mortality trends or estimate the deaths attributable to different factors. Attribution of above-baseline mortality is done using more detailed analyses, incorporating information on possible causes such as temperature and influenza rates (for example, annual influenza surveillance and heat mortality monitoring reports).

Background information

Seasonal variation in deaths is seen each year, with a higher number of deaths in winter months compared with the summer. Additionally, peaks of mortality above this expected higher level typically occur in winter, most commonly the result of factors such as cold snaps and increased circulation of respiratory viruses, in particular influenza. In summer, peaks can arise because of heatwaves.

A graphical z-score-only version of the EuroMOMO output is available for England, Wales, Scotland, Northern Ireland and across Europe from the EuroMOMO hub using data provided to the hub by each country. The hub produces a Europe-wide aggregated output and results from 28 countries for comparison of signals across Europe using a standard method.

Other assessments of all-cause mortality include the provisional number of weekly deaths registered in England and Wales is published online by the Office for National Statistics (ONS). Estimates of excess mortality are also published by the ONS using a method that compares deaths by week of registration to a baseline calculated using multi-year trends in the mortality rate, stratified by week, age, region and sex.

The Office for Health Improvement and Disparities (OHID) also produces the Excess mortality within England report, which provides estimates of expected deaths by month of registration for population subgroups and by cause of death.

The different methods used in the UK for mortality assessment, and their varied purposes, are discussed in more detail in Measuring excess mortality: a guide to the main reports.

Further information and contact details

Feedback and contact information

To provide feedback on this report, please email [email protected]

Official statistics

Our statistical practice is regulated by the Office for Statistics Regulation (OSR). OSR sets the standards of trustworthiness, quality and value in the Code of Practice for Statistics that all producers of Official Statistics should adhere to. You are welcome to contact us directly by emailing [email protected] with any comments about how we meet these standards. Alternatively, you can contact OSR by emailing [email protected] or via the OSR website.

UKHSA is committed to ensuring that these statistics comply with the Code of Practice for Statistics. This means users can have confidence in the people who produce UKHSA statistics because our statistics are robust, reliable and accurate. Our statistics are regularly reviewed to ensure they support the needs of society for information.