BACKGROUND Cause specific research on death certification in chronic disease has rarely involved cerebral palsy.
AIMS To evaluate cause of death information in people known to have cerebral palsy by: describing the cause of death distribution; determining case ascertainment using death certification as the data source; and analysing the choice of wording and its arrangement in the “cause of death statement”.
STUDY CASES AND SETTING People with early or late impairment cerebral palsy who died by 30 June 1998, on the population based Mersey Cerebral Palsy Register born 1966–91 to mothers resident locally.
STUDY DESIGN Descriptive study of the multiply coded cause of death statements from National Health Service Central Register flagging.
RESULTS Death certificate copies were acquired for all 282 (13.4%) of the 2102 registered cases who died. Cerebral palsy was the most common “underlying cause of death” (95 of 282; 33.7%) and was mentioned in a further 61 cases. The underlying cause of death was more likely to be cerebral palsy with increasingly severe disability and was derived from Part II in 16 of 95 cases.
CONCLUSIONS The potential of death certification for case ascertainment of cerebral palsy is important, but limited, even with multiple cause coding. Mortality data need careful interpretation as a proxy source for examining trends and patterns in cerebral palsy.
- cerebral palsy
- death certification
- disease registration
- underlying cause of death
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In England and Wales, mortality data from the Office for National Statistics are the only published routine data source on cerebral palsy, and are derived predominantly from the certificate for deaths over 28 days of life. This is because cerebral palsy is unlikely to be diagnosed until after the neonatal period. Mortality data are generally useful for monitoring the public’s health, but require careful interpretation for two main reasons.
First, the degree to which cause specific mortality reflects cause specific morbidity is variable. The “epidemiological transition” is used to explain the large reduction in mortality rates and consequent large reduction in birth rates with industrialisation.1The cause of death pattern changes from being dominated by communicable disease (“age of pestilence and famine”), particularly in young people, to chronic disease and injury, particularly in older people.1 In Western industrialised countries—for example, this transition has taken over a century. Nevertheless, even though most morbidity is now attributable to chronic diseases, its cause specific distribution will not be mirrored closely by mortality data because of the effect of co-morbidities.
Second, the “underlying cause of death” is difficult to certify with “accuracy”.2 This accuracy has both diagnostic and semantic (the choice of terms and their arrangement) components.2 Research has focused on expert review of the diagnostic accuracy of the underlying cause of death from clinical information, with or without necropsy information,3-11 in adults; usually describing patterns across broad disease categories. Certifiers often write the “cause of death statement” without understanding the pragmatic convention of single cause coding of mortality data (in which, despite death being multifactorial, only one cause, the underlying cause of death, is derived and coded from the statement).2 12 In the evidence base, however, the way that certifiers write the cause of death statement (the choice of words and their arrangement) has received less attention than has diagnostic accuracy.2 12-14
The morbidity to mortality data relation and the accuracy of the certified underlying cause of death are both affected by characteristics of the certifier, the certificate, the deceased, and the causes of death.15 Chronic diseases might not be, or might not be certified as, the underlying cause of death for reasons that have yet to be investigated systematically. Cause specific research on death certification in chronic disease has tended to focus on—for example, diabetes mellitus16 17 and rheumatoid disease.18 Only Evans and Alberman have studied death certification in people with cerebral palsy19; although the pattern of cause of death might be changing as that of birth prevalence changes20 21 and survival increases.22 Consequently, the aim of our study was to evaluate cause of death information in people known to have cerebral palsy by: (1) describing the cause of death distribution; (2) determining the potential case ascertainment, using death certification as the data source, and determining whether this changes over time or with severity; and (3) analysing the choice of terms and their arrangement on the cause of death statement.
The population based Mersey Cerebral Palsy Register (MCPR), covering approximately 2.4 million people, was started in 1980, approved and funded initially by the former Mersey Regional Health Authority research committee. Subsequently, the MCPR has been maintained, using multiple sources of ascertainment (including death certification), through eclectic funding of one researcher.23 Registered “cases” are people with cerebral palsy born since 1 January 1966 to mothers resident in the counties of Merseyside and Cheshire. On the MCPR, cerebral palsy is recorded if a clinical diagnosis has been made (which fulfils the Bax definition24). It is then categorised according to the probable timing of cerebral impairment, as follows:
Early impairment cerebral palsy—prenatally or within the first 28 days of life
Late impairment cerebral palsy—over 28 days of life.
The impairment is assumed to be early unless evidence is found to allocate it to the late category.
All cases are routinely flagged with the National Health Service Central Register (NHSCR). If a patient on the MCPR dies, this allows the NHSCR to notify the MCPR and provide a copy of the cause of death statement with each entry coded to the four digit level of the international classification of disease (ICD) ninth revision.25 All elements of Parts I (immediate, intermediate, and underlying cause of death) and II (contributory cause(s) of death) are coded. The cause of death statement in England and Wales is in the internationally agreed format25; the underlying cause of death is therefore the lowermost completed line in Part I: “the disease or injury which initiated the train of morbid events leading directly to death”, with more recent conditions above it in the sequence, as appropriate. Contributory causes of death in Part II comprise: “other significant conditions contributing to the death, but not related to the disease or condition causing it”.
An MCPR dataset was extracted containing all cases born between 1966 and 1991 (that is, including the most recent year for which ascertainment was unlikely to be substantially improved), and with vital status recorded as at the end of June 1998. The main variables comprised: age, sex, type and severity of cerebral palsy, vital status, date of death, coded entries in Parts I and II of the cause of death statement (including underlying cause of death), birth weight, and gestational age.
Focusing on those cases known to have died, the main analyses comprised:
The frequency tabulation of the underlying cause of death at the three digit coding level, grouping those accounting for small numbers
The frequency with which cerebral palsy was mentioned in the cause of death statement, and the ratio of “mentioned anywhere” to underlying cause. (Conditions with a high case fatality rate, such as gastric cancer, will have a ratio close to 1 because they will be mentioned most often as the underlying cause of death. For diabetes mellitus, the ratio was around 4 in both sexes in 199726)
Cross tabulation of whether cerebral palsy was the underlying cause of death or not with severity of disability and timing of death, respectively
The frequency with which the underlying cause of death, when it was cerebral palsy, had to be derived from Part II (as an indicator of poorer quality completion of the cause of death statement).
For the cause of death statements, cerebral palsy was defined as: ICD 343, “infantile cerebral palsy”; and ICD 344, “other paralytic syndromes”, which include quadriplegia, paraplegia, diplegia, and monoplegia.
Disability was characterised using three modalities,22namely: mental—for which an intelligence quotient of ⩽ 50 indicated severe disability; manual—for which the inability to feed or dress unaided indicated severe disability; and ambulatory—for which wheelchair dependent mobility indicated severe disability.
Yates corrected χ2 and χ2 for trend were calculated to compare relevant proportions for unordered and ordered categorical data, respectively.
Of 2102 cases of cerebral palsy flagged with the NHSCR (1203 male, 893 female, six of unknown sex), the MCPR had already received death certificate copies for 282 (13.4%). These came from 227 of 1828 (12.4%) cases of early impairment cerebral palsy and 55 of 274 (20.1%) cases of late impairment cerebral palsy. All certificates were for deaths over 28 days of life. Of the deceased, 178 of 282 (63.1%) were male, and 104 (36.9%) were female; 70 of 251 (27.9%) had been low birth weight (⩽ 2500 g) and 55 of 238 (23.1%) had been born preterm (< 37 weeks).
The most common underlying cause of death (95 of 282; 33.7%) was cerebral palsy (table 1). The second most common cause was pneumonia (13.1%). There was no subsequent pattern in late impairment cerebral palsy. However, in early impairment cerebral palsy, other respiratory conditions (mostly inflammatory; 8.8%), and a comparable proportion for combined “other cerebral degenerations”/“other congenital anomalies of nervous system” (both including hydrocephalus), were jointly the next most common underlying cause of death (table 1). There was no significant difference between the sexes in whether or not cerebral palsy was the underlying cause of death (p = 0.7).
Of the 187 cases (66.3%) in which cerebral palsy was not the underlying cause of death, it was still mentioned elsewhere on the cause of death statement in 61 (32.6%) (table 2), giving a ratio of mentioned anywhere/underlying cause of death of 156 to 95 (1.6). Where cerebral palsy was the underlying cause of death, it was derived from Part II in 16.8%.
Most of those who died were severely disabled in all three disability modalities (mental, manual, ambulatory) (61.3%), but 38% of these still had no mention of cerebral palsy in the cause of death statement. Nevertheless, cerebral palsy was statistically very significantly more likely to be certified as the underlying cause of death with increasingly severe disability (table 3). Information was missing on at least one of the disability modalities in a further 22.7% of cases. This was usually because the child died before the severity of the disability could be assessed.
There was a suggestion that a smaller proportion of the cause of death statements omitted cerebral palsy by the 1990s compared with the 1970s and 1980s (table 4). There was, however, no significant trend in the likelihood of cerebral palsy being the certified underlying cause of death over the four decades.
In our study, although cerebral palsy was the most common underlying cause of death, this only accounted for approximately one third of deaths. Consequently, mortality data need careful interpretation when used as a proxy source for examining trends and patterns in cerebral palsy. Admittedly, the diagnostic validity of the certified compared with the “true” underlying cause of death cannot be assessed without systematic expert review of clinical and postmortem information, and this would be an area for further cause specific research. However, according to our study there might be considerable under recording of cerebral palsy in mortality data. For example, many of the deaths attributed to respiratory tract infection possibly merited having cerebral palsy recorded as theantecedent in the causal sequence. Nevertheless, this discussion is also affected by the caveat that, for deaths between 1984 and 1992, the Office for National Statistics applied a wider interpretation of the ICD coding rule 3 than prevailed internationally.27 Rule 3 states that: “If the condition selected . . . can be considered a direct sequel of another reported condition, whether in Part I or Part II, select this primary condition”.25 For 1984–92 deaths, however, even without noting a “direct causal” relation, the Office for National Statistics interpreted the rule to allow the selection of immobilising, disabling, and debilitating conditions from Part II when terminal conditions, such as bronchopneumonia, were alone in Part I. The Office for National Statistics reverted to the narrower, international interpretation of rule 3 when its cause coding was automated, for deaths from 1993 onwards, because the coding software from the USA included this interpretation.
The potential case ascertainment achievable through death certification is important, but limited, even with multiple cause coding of causes of death. Cerebral palsy was not mentioned at all in the cause of death statement of 45% of those who died, but was more likely to be the underlying cause of death with increasingly severe disability. There was no clear time trend in the pattern of certifying cerebral palsy, but more time needs to elapse to confirm if there really was a more recent, increasing tendency to include cerebral palsy in the cause of death statement. (Because the register only started with births in 1966, relatively few deaths could be expected in the remainder of that decade.)
Assessing the quality of the cause of death statement by the choice of terms and their arrangement, the underlying cause of death should be the condition triggering the causal sequence leading to death—the lowermost entry in Part I. In well constructed sequences for single cause coding of mortality data, the “general rule” of the international coding rules selects the entry from this position. To derive the underlying cause of death, supplementary coding rules are only applied if the causal sequence is incorrectly constructed. The frequency with which the underlying cause of death is obtained from Part II is, therefore, one indicator of the quality of death certification. In our study, of the 95 cases with cerebral palsy as the underlying cause of death, one sixth were obtained from Part II, indicating a lapse in the quality of death certification. The ratio of 1.6 for mentioned anywhere/underlying cause in cerebral palsy compares with 1.6 and 2.1 for male, and 1.8 and 1.9 for female patients, for code 343, in England and Wales, in 1985 and 1997, respectively (C Rooney, Office for National Statistics, personal communication, 1999).
The findings reported here are similar to those reported from the South East Thames Register of Cerebral Palsy, covering 73 deaths in 732 children with cerebral palsy (born 1970–79, followed up to 1989).19 Cerebral palsy was reported to be the underlying cause of death in only 22%, defined as ICD code 343 (infantile cerebral palsy); but this increases to 26% by adding ICD code 344 (other paralytic syndromes) (compared with 34% in our study). Furthermore, 28%, compared with 59 of 282 (21%) in our study were attributed to the ICD “respiratory chapter”, mostly pneumonias.
For England and Wales, the Office for National Statistics (through its death certification advisory group) has been reviewing ways of improving the quality of death certification, focusing initially on the certificate for deaths after 28 days of life. The need for better educational materials, to guide death certificate completion and referral to the coroner, prompted the launch of an educational video cassette pack with pocket guidelines in 1996. “Death counts” was aimed at medical students, general practitioners, and junior hospital doctors.28 29 In 1996, the Deputy Chief Medical Statistician also wrote to all doctors via general practices and hospital consultants updating previous guidance from 1990.30 31 Since 1997, updated death certification instructions have been included in the death certification books. The format of this death certificate32 remains unchanged, however, and such efforts to improve death certification should continue to take effect for some years.
The important role of cerebral palsy registers in highlighting the changing prevalence of cerebral palsy is well documented. Our analysis of the certified causes of death in cerebral palsy has complemented the findings from another cerebral palsy register. It has also provided a rare cause specific insight into death certification quality from the perspective of choice of cause of death terms and their arrangement. Further research is needed into the diagnostic accuracy of death certification in cerebral palsy, and into the explanation for certifiers omitting cerebral palsy from the cause of death statement.
Cerebral palsy is the most common serious disability affecting children and might be at least a contributory cause of death more often than is currently certified. The lack of published routine data on cerebral palsy emphasises the crucial contribution of well maintained cerebral palsy registers to provide information that complements mortality data and can be extrapolated nationally.
The meticulous maintenance of the Mersey Cerebral Palsy Register by Theresa Cooke is gratefully acknowledged. Funding of the Mersey Cerebral Palsy Register (including the “flagging” of cases) has been provided from several sources: the former Mersey Regional Health Authority Research Committee; Children Nationwide; SCOPE; the former North West Regional Health Authority Research and Development scheme; and the National Health Service Executive (North West) Regional Office Research and Development scheme. The authors are most appreciative of these sources of funding.
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