Reliability of cause of death coding: an international comparison

Antini, Carmen; Rajs, Danuta; Muñoz-Quezada, María Teresa; Mondaca, Boris Andrés Lucero; Heiss, Gerardo

doi:10.1590/0102-311X00099814

Abstracts

This study evaluates the agreement of nosologic coding of cardiovascular causes of death between a Chilean coder and one in the United States, in a stratified random sample of death certificates of persons aged ≥ 60, issued in 2008 in the Valparaíso and Metropolitan regions, Chile. All causes of death were converted to ICD-10 codes in parallel by both coders. Concordance was analyzed with inter-coder agreement and Cohen’s kappa coefficient by level of specification ICD-10 code for the underlying cause and the total causes of death coding. Inter-coder agreement was 76.4% for all causes of death and 80.6% for the underlying cause (agreement at the four-digit level), with differences by the level of specification of the ICD-10 code, by line of the death certificate, and by number of causes of death per certificate. Cohen's kappa coefficient was 0.76 (95%CI: 0.68-0.84) for the underlying cause and 0.75 (95%CI: 0.74-0.77) for the total causes of death. In conclusion, causes of death coding and inter-coder agreement for cardiovascular diseases in two regions of Chile are comparable to an external benchmark and with reports from other countries.

Mortality; Cause of Death; Clinical Coding; Reproducibility of Results

Este estudo avaliou a confiabilidade na codificação das causas de óbitos cardiovasculares entre um codificador no Chile e outro nos Estados Unidos, em uma amostra aleatória estratificada de declarações de óbito de pessoas ≥ 60 anos, emitidas em 2008 nas regiões de Valparaíso e Metropolitana do Chile. Todas as causas da morte foram convertidas em códigos CID-10 em paralelo por ambos os codificadores. A confiabilidade foi avaliada de acordo com o intercodificador e o coeficiente kappa de Cohen, segundo o nível de especificação do código CID-10 para a codificação de causa básica e para todas as causas de óbito. A concordância intercodificador foi de 76,4% para todas as causas de morte e 80,6% para a causa básica (acordo no nível de quatro dígitos), com diferenças por nível de especificação do código CID-10, linha da declaração de óbito, e por número de causas de morte por declaração de óbito. O coeficiente kappa foi 0,76 (IC95%: 0,68-0,84) para a causa básica e 0,75 (IC95%: 0,74-0,77) para todas as causas de óbito. Em conclusão, a codificação das causas de morte cardiovasculares e acordo intercodificador em duas regiões do Chile são comparáveis a uma referência externa e com os relatórios de outros países.

Mortalidade; Causas de Morte; Codificação Clínica; Reprodutibilidade de Resultados

Este estudio evalúa la concordancia en la codificación de causas de muerte cardiovasculares entre un codificador en Chile y otro en EEUU en una muestra aleatoria estratificada de certificados de defunción de personas ≥ 60 años, emitidos el 2008 en las Regiones de Valparaíso y Metropolitana de Chile. Todas las causas de muerte fueron convertidas a códigos CIE-10 en paralelo por ambas codificadoras. La concordancia se analizó con el acuerdo inter-codificador y el coeficiente kappa de Cohen, según nivel de especificación del código CIE-10 para la codificación de la causa básica y para el total de causas de muerte. El acuerdo inter-codificador fue 76,4% para el total de causas de muerte y 80,6% para la causa básica (acuerdo a nivel de cuatro dígitos), con diferencias según nivel de especificación del código CIE, línea del certificado y número de causas de muerte por certificado. El coeficiente kappa de Cohen fue 0,76 (IC95%: 0,68-0,84) para la causa básica y 0.75 (IC95%: 0.74-0.77) para el total de causas de muerte. En conclusión, la codificación de causas de muerte cardiovasculares y el acuerdo inter-codificador en dos regiones de Chile son comparables a una referencia externa y a informes internacionales.

Mortalidad; Causas de Muerte; Codificación Clínica; Reprodutibilidad de Resultados

Introduction

Mortality statistics are a cornerstone of health planning and research ¹1 Lu TH, Shau WY, Shih TP, Lee MC, Chou MC, Lin CK. Factors associated with errors in death certificate completion. A national study in Taiwan. J Clin Epidemiol 2001; 54:232-8. ^, ²2 Sibai AM. Mortality certification and cause-of-death reporting in developing countries. Bull World Health Organ 2004; 82:83. ^, ³3 Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8.. Their usefulness hinges on the quality of death certification and on the reliability of coding in line with the International Classification of Diseases – 10^th revision (ICD-10) ⁴4 World Health Organization. International statistical classification of disease and related health problems. Tenth revision. 4th Ed. Geneva: World Health Organization; 2010.. Despite extensive standardization efforts, the reliability of nosological coding of causes of death is often a cause for concern ³3 Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8. ^, ⁵5 Curb JD, Babcock C, Pressel S, Tung B, Remington RD, Hawkins CM. Nosological coding of cause of death. Am J Epidemiol 1983; 118:122-8. ^, ⁶6 Mackenbach JP, Van Duyne WM, Kelson MC. Certification and coding of two underlying causes of death in The Netherlands and other countries of the European Community. J Epidemiol Community Health 1987; 41:156-60..

Apart from possible errors associated with the medical certification of cause of death, a number of factors influence the quality of nosological coding of causes of death. Some derive from ambiguities and inconsistencies of the ICD-10, but arguably most relate to differences in training and skills, and the interpretation of the ICD guidelines by coders ³3 Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8. ^, ⁷7 Walker S. Capturing health information: a coding perspective. Bull World Health Organ 2006; 84:254-5. ^, ⁸8 Stausberg J, Lehmann N, Kaczmarek D, Stein M. Reliability of diagnoses coding with ICD-10. Int J Med Inform 2008; 77:50-7. ^, ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8.. Studies of intercoder agreement show varying levels of agreement in relation to code classification level, the number of causes of death recorded on the death certificate, and the age of the deceased ³3 Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8. ^, ⁷7 Walker S. Capturing health information: a coding perspective. Bull World Health Organ 2006; 84:254-5. ^, ¹⁰10 Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43..

Chile has made significant efforts in recent decades to improve the quality of its vital records ¹¹11 Nunez FM, Icaza NM. Calidad de las estadísticas de mortalidad en Chile, 1997-2003. Rev Med Chil 2006; 134:1191-6. and the international comparability of its causes of death statistics, but there is currently no information available on the quality of recent coding process in the country. The aim of this study was therefore to quantify the level of international agreement between a coder from Chile and a coder from the United States using a representative sample of death certificates issued in 2008 in the Valparaíso and Metropolitan regions, Chile.

Method

As part of a study on mortality due to heart failure, a stratified random sample was drawn from death certificates of people aged 60 years and over issued in the Valparaíso and Metropolitan regions in 2008 available in the Department of Health Statistics and Information (DEIS, acronym in Spanish) of the Chilean Ministry of Health (MINSAL, acronym in Spanish). These regions were selected because they account for approximately 50% of all annual deaths in the country.

Given the low prevalence of heart failure as an underlying cause of death (approximately 2% per year), the sample universe was restricted to the group of ICD-10 codes which corresponds to pathologies frequently associated with heart failure (see codes below) and which also accounts for 47% of the ICD-10 codes for cardiovascular disease (codes I00 to I52). This randomly selected study sample was stratified by sex, age (60 to 69 years, 70 to 79 years, 80 years and over) and place of death (hospital, home). Based on the age distribution of deaths due to heart failure ¹²12 Cowie MR, Mosterd A, Wood DA, Deckers JW, Poole-Wilson PA, Sutton GC, et al. The epidemiology of heart failure. Eur Heart J 1997; 18:208-25., the death certificates of individuals aged under 60 years were excluded from the analysis. Deaths due to external causes and those that occurred in a place of death listed as “other” (prisons, nursing homes, lodgings) were also excluded given the greater probability of misclassifications in such cases that could lead to selection bias. Given the significant variation in prevalence of heart failure by age ¹²12 Cowie MR, Mosterd A, Wood DA, Deckers JW, Poole-Wilson PA, Sutton GC, et al. The epidemiology of heart failure. Eur Heart J 1997; 18:208-25., a stratified random sampling design using Neyman optimal allocation was chosen, with similar sampling fractions that accurately reflect the prevalence of heart failure as the underlying cause of death in each age-sex stratum. Based on the total number of deaths (31,112) in the Valparaíso and Metropolitan regions, a prevalence of heart failure as the underlying cause of death of 6.5%, and a variance of 0.0195, the minimum sample size required to attain the precision target was 437 death certificates. The actual study sample for this analysis was made up of 515 certificates (α = 0,05; Z = 1,96; β = 80%; number of strata = 12).

Chile’s mortality database is maintained jointly by the National Statistics Institute, Civil and Identification Registry and the DEIS ¹¹11 Nunez FM, Icaza NM. Calidad de las estadísticas de mortalidad en Chile, 1997-2003. Rev Med Chil 2006; 134:1191-6.. These institutions collect and verify the information recorded on death certificates, which is standardized according to World Health Organization (WHO) ¹³13 World Health Organization. Certificación médica de causa de defunción: instrucciones para los médicos sobre el empleo del modelo internacional del certificado médico de causa de defunción. 1980. http://whqlibdoc.who.int/publications/924356062X.pdf (accessed on 14/Jan/ 2014).
http://whqlibdoc.who.int/publications/92... recommendations into two parts: Part I (Lines A, B and C), which records the sequence of diseases that led directly to death; and Part II, which includes all other morbid conditions that may have contributed to the death, but are unrelated to the underlying cause ⁴4 World Health Organization. International statistical classification of disease and related health problems. Tenth revision. 4th Ed. Geneva: World Health Organization; 2010. ^, ¹³13 World Health Organization. Certificación médica de causa de defunción: instrucciones para los médicos sobre el empleo del modelo internacional del certificado médico de causa de defunción. 1980. http://whqlibdoc.who.int/publications/924356062X.pdf (accessed on 14/Jan/ 2014).
http://whqlibdoc.who.int/publications/92... .

Based on the information recorded on the death certificate, the DEIS staff manually select and code the underlying cause of death based on the ICD-10 guidelines, translating the diagnostic terms recorded on the death certificate from words into alphanumeric code. The ICD code consists of a four-character string (with a letter in the first position and numbers in the second, third and fourth positions ¹⁰10 Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43.) and 21 chapters associated with the first character of the code (e.g., I – diseases of the cardiovascular system). The chapters are subdivided into homogeneous “blocks” of three-character categories (e.g., I50) that may represent a singular condition or group of diseases which have common features. Most blocks of three-character categories are subdivided by means of a fourth, numeric character after a decimal point (e.g., I50.9) ⁴4 World Health Organization. International statistical classification of disease and related health problems. Tenth revision. 4th Ed. Geneva: World Health Organization; 2010.. According to WHO recommendations, this fourth character is not required internationally ⁴4 World Health Organization. International statistical classification of disease and related health problems. Tenth revision. 4th Ed. Geneva: World Health Organization; 2010.. Therefore, a condition may be coded at the four-character, three-character or chapter (one-character) level ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8..

In accordance with the ICD-10 coding rules, each cause of death recorded on the death certificates was independently translated into ICD-10 codes by a coder from the DEIS and a certified nosological coding instructor from the United States. The analysis considered the frequency of non translation of causes of death into ICD coding by both coders. Demographic information about the deceased (age, sex, marital status, education level, region of residence, place of death) and the type of medical certifier (physician, pathologist, other doctors) was recorded.

Level of intercoder agreement (%) at the four-character, three-character or chapter (one-character) level was assessed. Cohen’s kappa coefficient and corresponding 95% confidence intervals (95%CI) were calculated. The chi-square test of independence was used to test whether differences reached nominal levels of statistical significance at p = 0.05. The data was analysed using SAS 9.2 software (SAS Inst., Cary, USA).

The study was approved by the Human Research Ethics Committee of the Faculty of Medicine at the University of Chile.

Results

The underlying causes of death recorded in within the group of ICD-10 codes assessed by this study accounted for 21% of the total deaths recorded at regional level. The study sample comprised 515 death certificates (women = 59.2%; men = 40.8%; age = 81 ± 9 years) (Table 1), which registered a total of 1,725 causes of death. The number of causes of death per death certificate ranged from one (5.8%) to eight (0.4%), and was higher among women (60.5%), the 80 to 105 years age group (55%), and on Line A (99.8%). Of the 1,725 causes of death, 97.2% were translated into ICD-10 codes by both coders, 2.3% were coded by only one coder, and 0.6% was not coded. Intercoder agreement was affirmed in a total of 1,715 causes of death.

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Table 1
Number of deaths recorded in Valparaíso and Metropolitan regions *, Chile, during 2008 and demographic characteristics of the study sample.

Underlying cause of death

Table 2 shows the underlying causes of death and intercoder agreement by code classification level. The most common ICD-10 codes used for the 515 underlying causes of death were I21.(0-9), I11.0 and I25.(0-9) (33.8%, 14% and 10.1%, respectively). The lowest level of agreement at the four-character level occurred with ICD-10 codes I50.(0-9) (50%), I42.(0-9) (68.4%) and E11.(0-9) (60%). Level of agreement was also low for codes I09.(1-9) (50%), but frequency was also low.

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Table 2
Underlying causes of death among the study sample and level of intercoder agreement (%) by ICD-10 code classification level. Valparaíso and Metropolitan regions, Chile, 2008.

Level of intercoder agreement with respect to the underlying cause of death at the four-character, three-character and chapter (one-character) level was 80.6%, 86.6% and 94.1%, respectively, and was inversely related to the code classification level (Table 3). Differences were also observed in the number of causes of death per death certificate at the four (p < 0.01) and three-character (p < 0.01) level. The lowest level of agreement (73.7%) occurred at the four-character level in certificates with four or more causes of death, while the highest level of agreement (96.7%) was observed at the chapter-level in certificates with a single cause of death. In general, level of agreement decreased with increasing code classification level, from 80.6% at the four-character level, to 94.2% at the chapter level. No difference in level of agreement was found across age categories in any of the code classification levels. Cohen’s kappa coefficients of coding of underlying cause of death at the four-character, three-character and chapter level were 0.77 (95%CI: 0.75-0.79), 0.84 (95%CI: 0.82-0.86) and 0.76 (95%CI: 0.73-0.79), respectively.

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Table 3
Underlying cause of death: level of intercoder agreement (%) by ICD-10 code classification level by age and sex of deceased and number of reported causes of death per death certificate. Valparaíso and Metropolitan regions, Chile, 2008 (n = 515).

Total causes of death

Level of intercoder agreement for the total causes of death coded by at least one of the coders at the four-character, three-character and chapter level was 76.4%, 81.7% and 86%, respectively (Table 4), with differences depending in the line of the death certificate (p < 0.01). The lowest level of agreement across all code classification levels was in Line A (53.3%, 63.1% and 67.25%, respectively) and the highest level of agreement was in Part II of the death certificate (89.3%, 91.4% and 95.9%, respectively). Cohen’s kappa coefficients of the nosological coding of the total causes of death at the four-character, three-character and chapter level were 0.75 (95%CI: 0.75-0.77), 0.81 (95%CI: 0.80-0.82) and 0.76 (95%CI: 0.74-0.79), respectively.

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Table 4
Level of intercoder agreement (%) by ICD-10 code classification level based on the line of the death certificate and total causes of death coded in the study sample *. Valparaíso and Metropolitan regions, Chile, 2008 (n ** = 1,715).

A pattern of intercoder differences was observed for three pairs of codes on Line A: codes J96.9 vs. R06.8 were assigned the term “respiratory failure” (3.1%); codes I50.0 vs. I50.9 were used for “decompensated heart failure” (9.7%); and R99 vs. I46.9 were assigned the term “cardiac arrest” (26.6%). No pairs of codes with noteworthy frequency were found for the remaining lines.

Discussion

The results show that the level of agreement in cause of death coding between the Chilean coder and the coding instructor from the United States was adequate. With respect to underlying cause of death, intercoder agreement was inversely related to the number of causes of death per certificate and to the code classification level (4-character, 3-character and chapter level), while in the case of total causes of death, agreement varied according to code classification level and line of the death certificate. Cohen’s kappa coefficient values that demonstrate strength of agreement were considered “moderate” to “almost perfect” ¹⁴14 Landis JR, Koch GG. The measurement of observer agreement for categorical data. Biometrics 1977; 33:159-74..

Table 5 shows the level of agreement between expert coders and regular coders found by calibration studies of nosological coding based on automated systems ¹⁰10 Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43. ^, ¹⁵15 Bradshaw D, Groenewald P, Bourne DE, Mahomed H, Nojilana B, Daniels J, et al. Making COD statistics useful for public health at local level in the city of Cape Town. Bull World Health Organ 2006; 84:211-7. ^, ¹⁶16 Jougla E, Papoz L, Balkau B, Maguin P, Hatton F. Death certificate coding practices related to diabetes in European countries: the ‛EURODIAB Subarea C’ Study. Int J Epidemiol 1992; 21:343-51.. Our findings are similar to those with an agreement level above 80% across all code classification levels. Based on an earlier version of the ICD, Curb et al. ⁵5 Curb JD, Babcock C, Pressel S, Tung B, Remington RD, Hawkins CM. Nosological coding of cause of death. Am J Epidemiol 1983; 118:122-8. reported a level of agreement of 97.1% for the group relating to cardiovascular causes of death (ICD-8: 390-458, 746), which is slightly higher than our findings. Harteloh et al. ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8. reported lower levels of agreement for the codes ICD-10: I00-I99 relating to cardiovascular diseases at the four-character, three-character and chapter level (74.6%, 78.2% and 91.5%, respectively). These differences in level of agreement could be explained by the higher number of coders assessed by these studies which tends to lead to an increase in intercoder variability: Harteloh et al. ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8. assessed four coders, while Curb et al. ⁵5 Curb JD, Babcock C, Pressel S, Tung B, Remington RD, Hawkins CM. Nosological coding of cause of death. Am J Epidemiol 1983; 118:122-8. analysed three coders.

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Table 5
Level of intercoder agreement (%) in different studies addressing cause of death coding. Adapted from Harteloh et al. 9.

Some studies have reported to varying levels of intercoder agreement related to age, number of causes of death per death certificate, and code classification level ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8. ^, ¹⁰10 Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43.. Our results show variations only in relation to the last two variables, ranging from 73.7% in death certificates with four or more causes of death, to 86.7% in those with only one cause of death at the four-character level. A study of agreement between an expert coder and regular coder conducted in Taiwan ¹⁰10 Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43., which included deaths of all ages, reported agreement levels at the three-character and two-character level of 80.9% and 83.9%, respectively and showed that level of agreement was inversely related to the age of the deceased and the number of reported causes of death.

Considering the complexity of nosological coding of cause of death the WHO has developed rules to facilitate and standardize the classification process and make it more informative ¹⁷17 Anderson RN, Rosenberg HM. Disease classification: measuring the effect of the tenth revision of the International Classification of Diseases on cause-of-death data in the United States. Stat Med 2003; 22:1551-70. ^, ¹⁸18 Mathers CD, Fat DM, Inoue M, Rao C, Lopez AD. Counting the dead and what they died from: an assessment of the global status of cause of death data. Bull World Health Organ 2005; 83:171-7.. However, some critics have pointed out a number of ambiguities and inconsistencies in these rules ⁸8 Stausberg J, Lehmann N, Kaczmarek D, Stein M. Reliability of diagnoses coding with ICD-10. Int J Med Inform 2008; 77:50-7. ^, ¹⁶16 Jougla E, Papoz L, Balkau B, Maguin P, Hatton F. Death certificate coding practices related to diabetes in European countries: the ‛EURODIAB Subarea C’ Study. Int J Epidemiol 1992; 21:343-51. ^, ¹⁹19 Surjan G. Questions on validity of International Classification of Diseases-coded diagnoses. Int J Med Inform 1999; 54:77-95. ^, ²⁰20 Lindahl BI, Glattre E, Lahti R, Magnusson G, Mosbech J. The WHO principles for registering causes of death: suggestions for improvement. J Clin Epidemiol 1990; 43:467-74. and concerns about the quality of the coding process persist ⁵5 Curb JD, Babcock C, Pressel S, Tung B, Remington RD, Hawkins CM. Nosological coding of cause of death. Am J Epidemiol 1983; 118:122-8. ^, ⁶6 Mackenbach JP, Van Duyne WM, Kelson MC. Certification and coding of two underlying causes of death in The Netherlands and other countries of the European Community. J Epidemiol Community Health 1987; 41:156-60. given the observed influence of factors such as the coder’s skill level and the level and continuity of coder training. The literature also suggests that differences in interpretation of coding rules result in discrepancies in intercoder agreement ⁵5 Curb JD, Babcock C, Pressel S, Tung B, Remington RD, Hawkins CM. Nosological coding of cause of death. Am J Epidemiol 1983; 118:122-8. ^, ⁷7 Walker S. Capturing health information: a coding perspective. Bull World Health Organ 2006; 84:254-5. ^, ¹⁰10 Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43..

Although this investigation assessed coders from different countries, the level of agreement observed by this study was high, indicating comparable interpretation of the ICD-10 rules, in contrast to the findings of the European Community sponsored EURODIAB study ¹⁶16 Jougla E, Papoz L, Balkau B, Maguin P, Hatton F. Death certificate coding practices related to diabetes in European countries: the ‛EURODIAB Subarea C’ Study. Int J Epidemiol 1992; 21:343-51., which reported considerable differences between the interpretations of ICD rules across the nine countries included in the study. Another study which assessed nosological coding of underlying cause of death by a member of a research team and local coders showed a level of agreement of 55% at the three-character level ¹⁵15 Bradshaw D, Groenewald P, Bourne DE, Mahomed H, Nojilana B, Daniels J, et al. Making COD statistics useful for public health at local level in the city of Cape Town. Bull World Health Organ 2006; 84:211-7., which increased to 67% when the analysis was restricted to large groups of diseases. The authors explained this high level of disagreement due to a tendency by local coders to code the immediate cause of death instead of the underlying cause ¹⁵15 Bradshaw D, Groenewald P, Bourne DE, Mahomed H, Nojilana B, Daniels J, et al. Making COD statistics useful for public health at local level in the city of Cape Town. Bull World Health Organ 2006; 84:211-7.. As stated by Winkler et al. ³3 Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8., it could be argued that the ICD-10 has not achieved the desired improvements with respect to the reliability of the coding process. These authors compared the low levels of agreement with the findings of previous research ²¹21 Giersiepen K, Greiser E. Coding of cause of death for mortality statistics: a comparison with results of coding by various statistical offices of West Germany and West Berlin. Offentl Gesundheitswes 1989; 51:40-7. which reported levels of agreement at the three and four-character level of 67.7% and 61.5%, respectively. Winkler et al. ³3 Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8. reported levels of agreement at the three-character and four-character level of 56% and 46%, respectively, and a Cohen’s kappa coefficient of 0.69 (95%CI: 0.63-0.73) at the chapter level. One of the problems reported by this group was the limited information available on the death certificates, which adversely impacts the quality of nosological coding. Another problem concerns the quality of information on the death certificate. Ill-defined causes of death, modes of death or improper causal sequences, for example ²2 Sibai AM. Mortality certification and cause-of-death reporting in developing countries. Bull World Health Organ 2004; 82:83. ^, ⁸8 Stausberg J, Lehmann N, Kaczmarek D, Stein M. Reliability of diagnoses coding with ICD-10. Int J Med Inform 2008; 77:50-7. ^, ¹⁸18 Mathers CD, Fat DM, Inoue M, Rao C, Lopez AD. Counting the dead and what they died from: an assessment of the global status of cause of death data. Bull World Health Organ 2005; 83:171-7., negatively affect the coding process, since it involves the post hoc interpretation of a sequence of events that characterize the fatal outcome which often involves subjective judgments.

The level intercoder agreement was lower for Line A of the death certificate (53.3%) than for the other two lines and Part II, where level of agreement was over 80%. This difference was attributable to three pairs of discordant codes (J96.9 – R06.8), (I50.0 – I50.9) and (R99 – I46.9). In this respect, although ICD guidelines emphasise that the mechanism of death does not constitute a cause of death ²⁰20 Lindahl BI, Glattre E, Lahti R, Magnusson G, Mosbech J. The WHO principles for registering causes of death: suggestions for improvement. J Clin Epidemiol 1990; 43:467-74., physicians often record the former on Line A ¹⁷17 Anderson RN, Rosenberg HM. Disease classification: measuring the effect of the tenth revision of the International Classification of Diseases on cause-of-death data in the United States. Stat Med 2003; 22:1551-70.. Further, nosological coding relies on the coder’s interpretation of the ICD rules to resolve such errors. In the first pair of discordant codes mentioned above (I50.0 – I50.9) disagreement occurs at the fourth-character level. According to Surján et al. ¹⁹19 Surjan G. Questions on validity of International Classification of Diseases-coded diagnoses. Int J Med Inform 1999; 54:77-95., a poor level of agreement at the fourth-character level is considered less severe than in the whole code. Since both codes have high-order semantic relations, this discrepancy should not have a major effect on causes of death statistics. Our findings corroborate the results of studies that show that ambiguities at the four-character level are particularly common in coding deaths due to diabetes mellitus ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8. ^, ¹⁰10 Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43. ^, ¹⁶16 Jougla E, Papoz L, Balkau B, Maguin P, Hatton F. Death certificate coding practices related to diabetes in European countries: the ‛EURODIAB Subarea C’ Study. Int J Epidemiol 1992; 21:343-51.. The other two pairs of discordant codes (R99 – I46.9 and J96.9 – R06.8) are not semantically related and therefore affect agreement as well as the quality of mortality data. It should be noted that the examples described here reflect errors in certification of causes of death involving the use of modes of death instead of independent nosological entities.

One of the limitations of this study is that it only evaluated agreement between two coders, as opposed to agreement among several coders, or agreement between repeated coding of the same material, precluding an examination of intra and intercoder variability. A possible constraint to the generalizability of our results was, in contrast with other countries, the lack of an automated coding system, which meant that agreement was assessed based on manual coding. Given the impact of nosological coding on mortality statistics, and therefore on international comparisons, we chose coders from different countries in order to provide for a wider interpretation of the ICD-10 coding rules. To our knowledge, this is the first study of this kind in Chile.

Furthermore, the fact that this study was restricted to a particular group of ICD-10 codes could also affect the generalizability of our findings. However, it is important to note that the leading cause of death in Chile is cardiovascular disease and, as mentioned in Methods section, the codes included in our study account for almost half of this large group of diseases and around a quarter of the total deaths recorded in Valparaíso and Metropolitan regions in 2008.

Despite these limitations, our findings provide important information that was previously unavailable in Chile and scarce in other Latin American countries. It also raises a number of important new questions concerning the assessment of intra and intercoder agreement among coders in Chile and coders of other Latin American countries, and the assessment of agreement in ICD-10 coding process relating to deceased of all ages. Health policies rely in large part on vital statistics ²²22 Hernandez B, Ramirez-Villalobos D, Romero M, Gomez S, Atkinson C, Lozano R. Assessing quality of medical death certification: concordance between gold standard diagnosis and underlying cause of death in selected Mexican hospitals. Popul Health Metr 2011; 9:38.. Reliable, valid and timely information is one of the keys to improving the health care and epidemiological research ²³23 Naghavi M, Makela S, Foreman K, O’Brien J, Pourmalek F, Lozano R. Algorithms for enhancing public health utility of national causes-of-death data. Popul Health Metr 2010; 8:9.. A greater understanding of the quality of the nosological coding process contributes to the accurate interpretation and comparison of mortality statistics ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8..

Cause-of-death coding procedures should be modernized, since system automation has a positive impact on the quality of vital statistics ²⁴24 Lu TH, Tsau SM, Wu TC. The Automated Classification of Medical Entities (ACME) system objectively assessed the appropriateness of underlying cause-of-death certification and assignment. J Clin Epidemiol 2005; 58:1277-81. ^, ²⁵25 Lu TH. Using ACME (Automatic Classification of Medical Entry) software to monitor and improve the quality of cause of death statistics. J Epidemiol Community Health 2003; 57:470-1. because it reduces human intervention. However, the efficiency and accuracy of automated systems also depends on the quality of medical death certification, as reflected in the need to manually code between 15% and 20% of all death certificates, which in turn results in variability in the coding process ⁹9 Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8. ^, ²⁴24 Lu TH, Tsau SM, Wu TC. The Automated Classification of Medical Entities (ACME) system objectively assessed the appropriateness of underlying cause-of-death certification and assignment. J Clin Epidemiol 2005; 58:1277-81. ^, ²⁵25 Lu TH. Using ACME (Automatic Classification of Medical Entry) software to monitor and improve the quality of cause of death statistics. J Epidemiol Community Health 2003; 57:470-1.. Thus, improving training in medical certification of cause of death is critical to the integrity of vital statistics.

In conclusion, our results show that the level of agreement in coding causes of death due to cardiovascular disease in a representative sample of death certificates from two regions in Chile was adequate and that level of agreement was inversely related to the number of causes of death per death certificate and ICD-10 code classification level.

Acknowledgments

We would like to thank the staff at the Department of Health Statistics and Information of the Chilean Ministry of Health, for their valuable contribution to this research.

References

¹
Lu TH, Shau WY, Shih TP, Lee MC, Chou MC, Lin CK. Factors associated with errors in death certificate completion. A national study in Taiwan. J Clin Epidemiol 2001; 54:232-8.
²
Sibai AM. Mortality certification and cause-of-death reporting in developing countries. Bull World Health Organ 2004; 82:83.
³
Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8.
⁴
World Health Organization. International statistical classification of disease and related health problems. Tenth revision. 4^th Ed. Geneva: World Health Organization; 2010.
⁵
Curb JD, Babcock C, Pressel S, Tung B, Remington RD, Hawkins CM. Nosological coding of cause of death. Am J Epidemiol 1983; 118:122-8.
⁶
Mackenbach JP, Van Duyne WM, Kelson MC. Certification and coding of two underlying causes of death in The Netherlands and other countries of the European Community. J Epidemiol Community Health 1987; 41:156-60.
⁷
Walker S. Capturing health information: a coding perspective. Bull World Health Organ 2006; 84:254-5.
⁸
Stausberg J, Lehmann N, Kaczmarek D, Stein M. Reliability of diagnoses coding with ICD-10. Int J Med Inform 2008; 77:50-7.
⁹
Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8.
¹⁰
Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43.
¹¹
Nunez FM, Icaza NM. Calidad de las estadísticas de mortalidad en Chile, 1997-2003. Rev Med Chil 2006; 134:1191-6.
¹²
Cowie MR, Mosterd A, Wood DA, Deckers JW, Poole-Wilson PA, Sutton GC, et al. The epidemiology of heart failure. Eur Heart J 1997; 18:208-25.
¹³
World Health Organization. Certificación médica de causa de defunción: instrucciones para los médicos sobre el empleo del modelo internacional del certificado médico de causa de defunción. 1980. http://whqlibdoc.who.int/publications/924356062X.pdf (accessed on 14/Jan/ 2014).
» http://whqlibdoc.who.int/publications/924356062X.pdf
¹⁴
Landis JR, Koch GG. The measurement of observer agreement for categorical data. Biometrics 1977; 33:159-74.
¹⁵
Bradshaw D, Groenewald P, Bourne DE, Mahomed H, Nojilana B, Daniels J, et al. Making COD statistics useful for public health at local level in the city of Cape Town. Bull World Health Organ 2006; 84:211-7.
¹⁶
Jougla E, Papoz L, Balkau B, Maguin P, Hatton F. Death certificate coding practices related to diabetes in European countries: the ‛EURODIAB Subarea C’ Study. Int J Epidemiol 1992; 21:343-51.
¹⁷
Anderson RN, Rosenberg HM. Disease classification: measuring the effect of the tenth revision of the International Classification of Diseases on cause-of-death data in the United States. Stat Med 2003; 22:1551-70.
¹⁸
Mathers CD, Fat DM, Inoue M, Rao C, Lopez AD. Counting the dead and what they died from: an assessment of the global status of cause of death data. Bull World Health Organ 2005; 83:171-7.
¹⁹
Surjan G. Questions on validity of International Classification of Diseases-coded diagnoses. Int J Med Inform 1999; 54:77-95.
²⁰
Lindahl BI, Glattre E, Lahti R, Magnusson G, Mosbech J. The WHO principles for registering causes of death: suggestions for improvement. J Clin Epidemiol 1990; 43:467-74.
²¹
Giersiepen K, Greiser E. Coding of cause of death for mortality statistics: a comparison with results of coding by various statistical offices of West Germany and West Berlin. Offentl Gesundheitswes 1989; 51:40-7.
²²
Hernandez B, Ramirez-Villalobos D, Romero M, Gomez S, Atkinson C, Lozano R. Assessing quality of medical death certification: concordance between gold standard diagnosis and underlying cause of death in selected Mexican hospitals. Popul Health Metr 2011; 9:38.
²³
Naghavi M, Makela S, Foreman K, O’Brien J, Pourmalek F, Lozano R. Algorithms for enhancing public health utility of national causes-of-death data. Popul Health Metr 2010; 8:9.
²⁴
Lu TH, Tsau SM, Wu TC. The Automated Classification of Medical Entities (ACME) system objectively assessed the appropriateness of underlying cause-of-death certification and assignment. J Clin Epidemiol 2005; 58:1277-81.
²⁵
Lu TH. Using ACME (Automatic Classification of Medical Entry) software to monitor and improve the quality of cause of death statistics. J Epidemiol Community Health 2003; 57:470-1.

Publication Dates

Publication in this collection
July 2015

History

Received
29 June 2014
Reviewed
17 Nov 2014
Accepted
21 Jan 2015

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
Lu TH, Shau WY, Shih TP, Lee MC, Chou MC, Lin CK. Factors associated with errors in death certificate completion. A national study in Taiwan. J Clin Epidemiol 2001; 54:232-8.

[2] ²
Sibai AM. Mortality certification and cause-of-death reporting in developing countries. Bull World Health Organ 2004; 82:83.

[3] ³
Winkler V, Ott JJ, Becher H. Reliability of coding causes of death with ICD-10 in Germany. Int J Public Health 2010; 55:43-8.

[4] ⁴
World Health Organization. International statistical classification of disease and related health problems. Tenth revision. 4^th Ed. Geneva: World Health Organization; 2010.

[5] ⁵
Curb JD, Babcock C, Pressel S, Tung B, Remington RD, Hawkins CM. Nosological coding of cause of death. Am J Epidemiol 1983; 118:122-8.

[6] ⁶
Mackenbach JP, Van Duyne WM, Kelson MC. Certification and coding of two underlying causes of death in The Netherlands and other countries of the European Community. J Epidemiol Community Health 1987; 41:156-60.

[7] ⁷
Walker S. Capturing health information: a coding perspective. Bull World Health Organ 2006; 84:254-5.

[8] ⁸
Stausberg J, Lehmann N, Kaczmarek D, Stein M. Reliability of diagnoses coding with ICD-10. Int J Med Inform 2008; 77:50-7.

[9] ⁹
Harteloh P, de Bruin K, Kardaun J. The reliability of cause-of-death coding in The Netherlands. Eur J Epidemiol 2010; 25:531-8.

[10] ¹⁰
Lu TH, Lee MC, Chou MC. Accuracy of cause-of-death coding in Taiwan: types of miscoding and effects on mortality statistics. Int J Epidemiol 2000; 29:336-43.

[11] ¹¹
Nunez FM, Icaza NM. Calidad de las estadísticas de mortalidad en Chile, 1997-2003. Rev Med Chil 2006; 134:1191-6.

[12] ¹²
Cowie MR, Mosterd A, Wood DA, Deckers JW, Poole-Wilson PA, Sutton GC, et al. The epidemiology of heart failure. Eur Heart J 1997; 18:208-25.

[13] ¹³
World Health Organization. Certificación médica de causa de defunción: instrucciones para los médicos sobre el empleo del modelo internacional del certificado médico de causa de defunción. 1980. http://whqlibdoc.who.int/publications/924356062X.pdf (accessed on 14/Jan/ 2014).
» http://whqlibdoc.who.int/publications/924356062X.pdf

[14] ¹⁴
Landis JR, Koch GG. The measurement of observer agreement for categorical data. Biometrics 1977; 33:159-74.

[15] ¹⁵
Bradshaw D, Groenewald P, Bourne DE, Mahomed H, Nojilana B, Daniels J, et al. Making COD statistics useful for public health at local level in the city of Cape Town. Bull World Health Organ 2006; 84:211-7.

[16] ¹⁶
Jougla E, Papoz L, Balkau B, Maguin P, Hatton F. Death certificate coding practices related to diabetes in European countries: the ‛EURODIAB Subarea C’ Study. Int J Epidemiol 1992; 21:343-51.

[17] ¹⁷
Anderson RN, Rosenberg HM. Disease classification: measuring the effect of the tenth revision of the International Classification of Diseases on cause-of-death data in the United States. Stat Med 2003; 22:1551-70.

[18] ¹⁸
Mathers CD, Fat DM, Inoue M, Rao C, Lopez AD. Counting the dead and what they died from: an assessment of the global status of cause of death data. Bull World Health Organ 2005; 83:171-7.

[19] ¹⁹
Surjan G. Questions on validity of International Classification of Diseases-coded diagnoses. Int J Med Inform 1999; 54:77-95.

[20] ²⁰
Lindahl BI, Glattre E, Lahti R, Magnusson G, Mosbech J. The WHO principles for registering causes of death: suggestions for improvement. J Clin Epidemiol 1990; 43:467-74.

[21] ²¹
Giersiepen K, Greiser E. Coding of cause of death for mortality statistics: a comparison with results of coding by various statistical offices of West Germany and West Berlin. Offentl Gesundheitswes 1989; 51:40-7.

[22] ²²
Hernandez B, Ramirez-Villalobos D, Romero M, Gomez S, Atkinson C, Lozano R. Assessing quality of medical death certification: concordance between gold standard diagnosis and underlying cause of death in selected Mexican hospitals. Popul Health Metr 2011; 9:38.

[23] ²³
Naghavi M, Makela S, Foreman K, O’Brien J, Pourmalek F, Lozano R. Algorithms for enhancing public health utility of national causes-of-death data. Popul Health Metr 2010; 8:9.

[24] ²⁴
Lu TH, Tsau SM, Wu TC. The Automated Classification of Medical Entities (ACME) system objectively assessed the appropriateness of underlying cause-of-death certification and assignment. J Clin Epidemiol 2005; 58:1277-81.

[25] ²⁵
Lu TH. Using ACME (Automatic Classification of Medical Entry) software to monitor and improve the quality of cause of death statistics. J Epidemiol Community Health 2003; 57:470-1.

	Valparaíso and Metropolitan regions		Study sample
	Total (n ** = 31,112)		Total (n *** = 515)		Men (n *** = 210)		Women (n *** = 305)
	n	% ^#	n	% ^#	n	%^##	n	% ^##
Age (years)
60-69	6,375	20.5	67	13.0	37	55.2	30	44.8
70-79	9,791	31.5	164	31.8	79	48.2	85	51.8
80 and over	14,941	48.0	284	55.2	94	33.1	190	66.9
Marital status
Single	8,067	25.9	155	30.1	43	27.7	112	72.3
Married	21,550	69.3	334	64.9	158	47.3	176	52.7
Widowed	1,451	4.7	25	4.8	8	32.0	17	68.0
Unknown	44	0.1	1	0.2	1	100.0	-	-
Area of residence
Urban	30,148	96.9	514	99.8	210	40.8	304	59.4
Rural	964	3.1	1	0.2	-	-	1	100.0
Education level
Tertiary	1,424	4.6	17	3.3	12	70.6	5	29.4
Secondary	10,224	32.9	134	26.0	64	47.8	70	52.2
Primary	17,665	56.8	333	64.7	125	37.5	208	62.5
No education	1,792	5.8	31	6.0	9	29.0	22	71.0
Medical certifier
Physician	10,096	32.5	143	27.8	58	40.6	85	59.4
Forensic pathologist	674	2.2	18	3.5	8	44.4	10	55.6
Other doctors	20,299	65.2	354	68.7	144	40.7	210	59.3
Witness	43	0.1	-	-	-	-	-	-
Place of death
Hospital	14,202	45.6	200	38.8	89	44.5	111	55.5
Home	16,910	54.4	315	61.2	121	38.4	194	61.6

ICD-10 codes	Number of deaths * (n = 515)		Level of intercoder agreement
ICD-10 codes	n	%	4-character level (%)	3-character level (%)	Chapter of ICD-10 (%)
B57.2	1	0.2	100.0	100.0	100.0
E11.(0-9)	28	5.4	60.0	80.0	92.0
I05.(0-9)	3	0.6	100.0	100.0	100.0
I08.(0-9)	4	0.8	100.0	100.0	100.0
I09.(1-9)	2	0.4	50.0	100.0	100.0
I10	32	6.2	-	78.1	87.5
I11.0	72	14.0	83.3	87.5	93.8
I13.(0-2)	6	1.2	80.0	80.0	80.0
I21.(0-9)	174	33.8	92.0	95.4	97.7
I25.(0-9)	52	10.1	76.1	76.1	91.3
I34.(0-9)	3	0.6	100.0	100.0	100.0
I35.(0-9)	6	1.2	75.0	75.0	75.0
I42.(0-9)	20	3.9	68.4	79.0	100.0
I48	24	4.8	-	77.3	81.8
I50.(0-9)	49	9.5	57.1	77.6	98.0
I51.7	2	0.4	100.0	100.0	100.0
J44.9	37	7.2	78.4	89.2	97.3

Variable	ICD-10 code classification level
	4-character level			3-character level			Chapter ICD-10 (1-character level)
	n *	% (95%CI)	Kappa (95%CI)	n *	% (95%CI)	Kappa (95%CI)	n *	% (95%CI)	Kappa (95%CI)
Total	415	80.6 (77.2-84.2)	0.77 (0.75-0.79)	446	86.6 (83.7-89.5)	0.84 (0.82-0.86)	485	94.2 (92.2-96.2)	0.76 (0.73-0.79)
Sex
Male	176	83.8 (78.8-88.8)		188	89.5 (85.4-93.6)		198	94.3 (91.2-97.4)
Female	239	78.4 (73.8-83)		258	84.6 (80.5-88.7)		287	94.1 (91.5-96.7)
Age (years)
60-69	59	88.1 (80.3-95.9)		61	91.0 (84.1-97.9)		65	97.0 (92.9-100.0)
70-79	135	82.3 (76.5-88.1)		143	87.2 (82.1-92.3)		154	93.7 (90.0-97.4)
80-105	221	77.8 (73.0-82.1)		242	85.2 (81.1-89.3)		266	94.2 (91.5-96.9)
Number of causes of death per death certificate
1	26	86.7 (74.5-98.9)		27	90.0 (79.3-100.0)		29	96.7 (90.3-100.0)
2-3	229	85.4 (81.2-89.6)		243	90.7 (87.2-94.2)		256	95.5 (93.0-98.0)
≥ 4	160	73.7 (67.8-79.6)		176	81.1 (75.9-86.3)		200	92.2 (88.6-95.8)

Line of the death certificate	Total causes of death coded by at least one of the coders (n = 1,715)	n **	Level of intercoder agreement
			4-character level		3-character level		Chapter of ICD-10 (1-character level)
	n ***		% ^#	Kappa (95%CI)	%	Kappa (95%CI)	%	Kappa (95%CI)
Line A	525	280	53.3	0.50 (0.48-0.52)	63.1	0.59 (0.57-0.61)	67.2	0.46 (0.41-0.51)
Line B	487	420	86.2	0.86 (0.84-0.88)	90.4	0.89 (0.86-0.92)	95.3	0.88 (0.82-0.93)
Line C	292	243	83.2	0.82 (0.79-0.85)	87.0	0.86 (0.83-0.89)	90.8	0.82 (0.76-0.89)
Part II	411	367	89.3	0.87 (0.85-0.89)	91.4	0.90 (0.89-0.93)	95.9	0.95 (0.90-0.99)
Parts I and II	1,715	1,310	76.4	0.75 (0.74-0.77)	81.7	0.81 (0.80-0.82)	86.0	0.76 (0.74-0.79)

Saúde Pública

Saúde Pública

Reliability of cause of death coding: an international comparison

Concordancia en la codificación de causas de muerte: una comparación internacional

Confiabilidade de codificação das causas de óbito: uma comparação internacional

Abstracts

Introduction

Method

Results

Underlying cause of death

Total causes of death

Discussion

Acknowledgments

References

Publication Dates

History

ICD-10 code classification level	Present study, Chile ^,* (n = 515)	Winkler et al. ³, Germany, 2010 ***^,#(n = 126)	Harteloh et al. ⁹, Netherlands, 2010 ^##,###(n = 3,522)	Bradshaw et al. ¹⁵, South Africa, 2006 ^§,§§(n = 33)	Lu et al. ¹⁰, Taiwan, 2000 ^§§§,†(n = 632)	Curb et al. ⁵, USA, 1983 ^{††,†††}(n = 446)
ICD-10 code classification level	%	%	%	%	%	%
4-character	80.6		74.6
3-character	86.6	72.8	78.2		85.8
Chapter(1 digit)	94.2		91.5
Large group of disease of ICD				76.0 ^‡		97.1