1. Main points

  • There were 111,849 deaths registered in England between 1 July and 30 September 2017, fewer than in the same period in 2016 but more than in 2015 and the five-year average.

  • The number of deaths registered in the year-to-date (1 January to 30 September 2017) is higher than the same period in the years 2012, 2013, 2014 and 2016, but is 1,274 fewer than in 2015 (a particularly high year).

  • The age-standardised mortality rate for the latest four-quarter period was 1,107.7 deaths per 100,000 for males and 830.5 per 100,000 for females; this has changed very little since the four-quarter period ending Quarter 1 2016.

  • Males aged 90 and over had the highest age-specific mortality rates in the latest rolling four-quarter period.

  • There were two periods in Quarter 3 where the number of deaths that occurred was higher than the five-year average (5 to 7 July and 13 to 29 September); however, these days did not coincide with any periods of extreme weather.

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2. Things you need to know about this release

The purpose of this report is to provide timely surveillance of mortality in England. This report serves as a snapshot of deaths that were registered within the most recent quarter using the best available data. Through comparative analyses with previous quarters and with the use of rolling four-quarter totals, it aims to inform patterns of change in mortality; specifically whether mortality has increased, remained stable or decreased.

This report includes data up to and including Quarter 3 (July to September) 2017, which covers the period 1 July to 30 September 2017. In addition to reporting on deaths that were registered in Quarter 3 we also report quarterly rolling four-quarter death counts and mortality rates that encompass all quarters of the year. The most recent rolling four-quarter period is Quarter 4 2016 to Quarter 3 2017 (October 2016 to September 2017).

In keeping with the Quarter 2 (April to June) report, this edition will primarily be based on death registrations with a section on death occurrences. Death occurrences report the number of deaths that occurred within a reference period to allow period-specific comparisons and thereby aim to enable timely judgements on the direction and magnitude of change. We can only know when a death occurred once it has been registered. However, due to registration delays, death occurrences data can often be incomplete, especially towards the end of the quarter.

Death registrations data for 2017 are provisional; however, we would only expect very small changes to death registration counts once data are made final. A provisional extract of death registrations and death occurrences data for Quarter 3 (1 July to 30 September) 2017 was created on 30 October 2017, roughly four weeks after the end of the reporting period.

The quarterly populations used in the rate calculations here are adjusted using mid-year population estimates or a combination of mid-year population estimates (2001 to 2016) and population projections (2017) to estimate what the likely population would have been at the mid-point of the quarter. More detail is provided in the technical notes at the end of this report.

The statistics reported here are Experimental Statistics and allow us to demonstrate to users some of the analyses possible in the future and to seek feedback to inform the future presentation of timely mortality data. We welcome feedback from users on this report at mortality@ons.gov.uk.

This publication was produced with support from Public Health England and Department of Health.

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3. England registers 111,849 deaths in Quarter 3 2017

From 1 July to 30 September 2017 there were 111,849 deaths registered in England. This is higher than the same quarter in both 2015 and the average of the previous five years but 383 lower than the number of deaths registered in the same quarter in 2016 (Table 1a).

An expected number of deaths in Quarter 3 (July to Sept) 2017 can be calculated by applying the mortality rate for earlier periods to the 2017 population (Table 1b). Despite the relatively high number of observed deaths, there were fewer deaths registered in Quarter 3 2017 than we would have expected. For example, there were 3,141 fewer deaths in Quarter 3 2017 than would be expected based on the Quarter 3 2012 to 2016 average mortality rate.

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4. Deaths registered so far this year exceed five-year average

To assess how the number of deaths registered in 2017 so far compares with recent years, Figure 1 shows the number of deaths that have been registered in Quarters 1, 2 and 3 (the period January to September) combined, for the years 2012 to 2017. As shown in Figure 1, the number of deaths registered so far in 2017 (373,199 deaths) was higher than in 2012, 2013, 2014 and 2016 but lower than 2015 (a particularly high year), with 1,274 fewer deaths in 2017 than in 2015. There were 15,086 more deaths in Quarters 1 to 3 in 2017 than the average of the same period over the previous five years.

However, as shown in Table 3 of the accompanying datasets, there were fewer deaths than were expected in 2017 Quarters 1 to 3 combined if based on the 2012 to 2016 five-year average mortality rate.

The table also shows that there were 718 more deaths than were expected in 2017 Quarters 1 to 3 based on the mortality rate over the same period in 2016. This is 0.2% more than anticipated given the rate for 2016. However, there were fewer deaths than expected in 2017 Quarters 1 to 3 based on the mortality rate over the same period in 2015.

The high number of deaths registered in 2017 so far appears to be driven by higher than average numbers of deaths in the winter period as shown in the Quarterly Mortality Report for Quarter 1 (Jan to Mar) and the excess winter mortality report. The number of deaths registered in Quarters 2 and 3 of 2017 are much closer to the five -year average than those registered in Quarter 1.

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5. Number of deaths registered consistently higher in females than in males

There were 497,177 deaths registered in England between October 2016 and September 2017 (the latest rolling four-quarter period). An overall decrease in the number of deaths registered in rolling four-quarter periods was observed for both males and females from 2001 to 2011 (Figure 2a). However, for both sexes the trend since 2011 has been more volatile. The latest rolling four-quarter period had a higher number of deaths than the same period in 2015 to 2016 but a lower number of deaths than the same period in 2014 to 2015.

The number of deaths registered is consistently higher in females than in males; however, the difference in the number of deaths between males and females has decreased over time since 2001. For males, the number of deaths registered in the latest four-quarter period is higher than those registered in the four-quarter period ending Quarter 4 (Oct to Dec) 2001. For females, the number of deaths in the latest four-quarter period is lower than that observed in the period ending Quarter 4 2001.

Although numbers of deaths have increased over recent years the age-standardised mortality rates for both males and females decreased over time from 2001 to 2011, but have since been relatively flat (Figure 2b). The increase in the number of deaths is strongly influenced by the increasing size and age of the population.

Despite having higher numbers of deaths than males, females consistently have lower age-standardised mortality rates than males. For both sexes, following elevated age-standardised rates in 2015, there has been a slight decrease in mortality rates and since 2016 they have remained relatively stable.

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6. Mortality rates most volatile among females aged 90 and over

In both sexes the highest age-specific mortality rates were observed in the 90 and over age group. This group’s mortality pattern is more volatile and fluctuates considerably, showing no discernible trend over time since 2001 in comparison to the other age groups. However, care must be taken when interpreting the age-specific rates for the 90 and over age group as this includes deaths of all individuals aged 90 and over so will have the largest range of ages.

Age-specific mortality rates in females aged 90 and over are more volatile than those of males in the same age group.

For both males and females, age-specific mortality rates in those aged 0 to 74 have decreased over time up until 2011 and have remained stable in recent years. The rate of improvement observed between 2001 and 2011 has clearly halted for those aged 0 to 74.

Single year of age mortality rates for deaths registered in Quarter 3 (July to Sept) for those aged 75 and over can be found in the accompanying datasets. Caution must be used when interpreting these rates given birth cohort effects following World War 1.

All mortality rates and 95% confidence intervals can be found in the dataset accompanying this release.

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8. Quality and methodology

Deaths data sources

A provisional extract of death registrations and death occurrences data for Quarter 3 (1 July to 30 September) 2017 was created on 30 October 2017, roughly four weeks after the end of the reporting period. For this reason, we would expect death occurrences to increase, because of registration delays, which will not be accounted for by 30 October 2017. In exceptional circumstances there may also be changes to the number of registrations but these would be very small. Registrations data for years prior to 2017 are final, whereas occurrences data prior to 2016 are final.

Registration delays on occurrences

In England, deaths should be registered within five days of the death occurring, but there are some circumstances which result in the registration of the death being delayed. Deaths considered unexpected, accidental or suspicious will be referred to a coroner who may order a post-mortem or carry out a full inquest to ascertain the reasons for the death. The coroner can only register the death once any investigation is concluded and they are satisfied that the death was natural and that the cause of death has been certified correctly. If the coroner is not satisfied that the death was from natural causes then an inquest will normally be held to determine the cause of death. The time taken to investigate the circumstances of the death can often result in a death registration exceeding the five-day grace period and these are defined as registration delays. While delays are commonly only a few days, registration delays can extend into years, particularly for deaths from external causes when inquests are held. We are only aware of a death and able to include it in the statistics once it has been registered.

Those at younger ages are disproportionally affected by registration delays due to external causes of death being more common in these ages. However, in general, deaths at such ages are not very common and make up only a small percentage of all deaths.

The death occurrences dataset for 2017 will not hold all deaths that occurred in the quarter due to late registrations. Where death occurrences have been used in this report, deaths for previous years have been extracted using a similar extraction date as the 2017 occurrences data. This allows for control over registration delays.

Expected deaths methodology

For each respective year, single year of age mortality rates were calculated. These were then applied to the population projections for 2017 to calculate the number of expected deaths in each single year of age using the mortality rate from the respective year. From this we were able to calculate the difference between observed and expected deaths in 2017.

Quarterly population denominators

We publish the mid-year population estimates used for calculating rates. For 2017, our 2016-based national population projections were used.

Single year of age populations for the oldest ages (90 to 100 and over) for 2002 to 2016 were taken from the mid-year population estimates of the very old publication. For 2001 the population estimates for ages 90 and over were used and for 2017 the 2016-based national population projections were used.

Calculation of mortality rates for quarterly deaths requires adjustments to be made to annual population estimates in order to calculate rates that are comparable with annual rates.

We calculate an annual population centred on the mid-point of the quarter using two year’s worth of population estimates or projections. This is then multiplied by the proportion of the number of days within a quarter of the total number of days within that year. The output is used as the population denominator in calculations of age-standardised and age-specific morality rates.

Where m is the number of days from 1 July 2016 (the start of the mid-year for the population estimate) to the mid-point of the relevant quarter, inclusive, N is the number of days in Quarter 2 (Apr to June) 2017 and M is the number of days in 2017 and (i) is the age group.

This method is very similar to that used to calculate population denominators for quarterly conception rates.

The Mortality Quality and Methodology Information document contains important information on:

  • the strengths and limitations of the data and how it compares with related data

  • uses and users of the data

  • how the output was created

  • the quality of the output including the accuracy of the data

The User Guide to Mortality Statistics is also a useful resource when reporting mortality statistics.

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