Verbal autopsy-based cause-specific mortality trends in rural KwaZulu-Natal, South Africa, 2000-2009

The Africa Centre for Health and Population Studies hosts a demographic surveillance program in the district of Umkhanyakude in the province of KwaZulu-Natal, South Africa [26]. Although it is largely rural, the demographic surveillance area (DSA), consisting of 435 square kilometers, also includes a township and periurban informal settlements. The population is characterized by high HIV prevalence [27] and incidence [28], but following the introduction of prevention of mother-to-child transmission of HIV infection (in 2001) and antiretroviral treatment and care (in 2004) programs, child [8] and adult [7] all-cause mortality have started to decline. The study population has comparatively high levels of cardiovascular risk factors [29] and high trauma-related mortality [30].

The approximately 12,000 households in the DSA were visited thrice annually by fieldwork teams and all deaths were notified. Upon death notification, a trained nurse conducted an interview with the closest caregiver (parent or grandparent, 26%; spouse, child, or grandchild, 25%; other relative, 20%; sibling, 14%) of the deceased on average six months after the death. The nurses recorded a narrative of the circumstances leading up to the death and completed a questionnaire based on the standard INDEPTH/WHO verbal autopsy questionnaire [31, 32]. Interviews were conducted in the local language and transcribed by the interviewer, after verbal consent. There were 228 (2%) refusals and 102 (0.9%) cases where a suitable interviewee could not be identified. A total of 13 nurses acted as interviewers over the course of the study; 80% of the interviews were conducted by six of these nurses. The majority of the nurses were graduate professional nurses; the remainder had two-year nursing diplomas. All were previously employed with local health services and received training in administering the verbal autopsy questionnaire.

Two methods were used to determine cause of death for each case: physician coding and an automated method using the InterVA v3 probabilistic verbal autopsy interpretation model. In the physician-coded method, two clinicians independently assigned cause of death on the basis of the information collected during the verbal autopsy and their clinical judgement. If consensus could not be reached between the physicians, the VA interview was refused, or no suitable interviewee could be found, the cause of death was recorded as "undetermined." A third clinician reviewed all cases and codified the causes of death using the International Classification of Diseases, 10^th revision (ICD-10)[33]. The ICD-10 codes were mapped into global burden of disease groups (Table 1) using the crosswalk in Lopez [34]. A total of 27 physicians were involved over the course of the study period (2000 to 2009) in assigning diagnoses, however, eight physicians were responsible for 79% of the recorded diagnoses. Complete cause of death coding for the physician-coded diagnoses was available for deaths between 2000 and the end of 2008.

The InterVA model is based on Bayesian calculations of probabilities that a particular death was due to particular causes, given a set of symptoms and circumstances associated with the death [25]. The verbal autopsy questionnaire data were converted into the 106 input indicators required by the InterVA probabilistic model using an SQL script. Cause of death categories were obtained by running InterVA in batch mode on the input indicators with malaria prevalence set to "low" and HIV prevalence set to "high." The 35 possible InterVA cause categories were mapped to the corresponding burden-of-disease codes to have cause categories comparable to the physician-coded diagnoses. InterVA produced up to three possible causes of death per case with a likelihood value between 0 and 1 for each cause. In cases where the likelihood values did not sum to 1 for a particular case, the difference between the sum of the likelihood values for the identified causes and 1 were allocated to the "indeterminate" cause. As recommended by the developers of InterVA, all identified causes were considered proportionate to their likelihood values in the rate calculations.

Deaths and person-years of observation were aggregated annually for the period from Jan. 1, 2000, to Dec. 31, 2009, for all individuals in the study population.

Individuals contributed to the person-years denominator from Jan. 1, 2000, or from any later date of birth or in-migration, until Dec. 31, 2009, and they ceased to contribute to the denominator at death, termination of household membership, household out-migration, or the last surveillance visit in which household membership was confirmed. Thus, individuals who were previous homestead residents continued to be followed when they became nonresidents for as long as they remained a member of (retained links with) the household under surveillance. Out-migrants continued to be followed as nonresident household members in 83% of emigrations over the duration of the study.

We stratified mortality analysis by five age groups (under 5, 5-14, 15-49, 50-64, and over 65 years). The age-group boundaries were chosen to separate groups of public health importance and different patterns of mortality. There were no major changes in age group composition over the course of the study, and age-standardized mortality rates did not differ significantly on a year-to-year basis, therefore crude mortality rates are reported throughout. Under-5 mortality rates were expressed as deaths per person-years observed, rather than the customary deaths per live births, for consistent comparison to the mortality rates in the other age groups. Exact Poisson confidence intervals were calculated for all-cause mortality rates and cause-specific mortality rates and fractions where those were based on the single-cause physician-coded causes [35]. Confidence intervals for cause-specific mortality rates and fractions in the case of the InterVA-coded causes were calculated with R [36] using bootstrapping. Cause-specific mortality rates and fractions were based on the InterVA-determined causes unless otherwise stated. The kappa analysis was done using STATA v11 [37].

Ethical approval for the Africa Centre Demographic Surveillance was provided by the University of KwaZulu-Natal Bio-Medical Research Ethics Committee.

There were 11,281 deaths over 784,274 person years of observation of 125,658 individuals between Jan. 1, 2000 and Dec. 31, 2009 (Table 2). All causes of death were coded using InterVA; the 10,267 deaths between Jan. 1, 2000 and Dec. 31, 2008, were physician-coded as well. All-cause age-standardized mortality (SMR) for the total population changed from 139 (95% CI: 130, 148) deaths per 10,000 person-years observed (PYO) in 2000 to a maximum of 174 (95% CI: 165, 183) in 2003 and then declined to 116 (95% CI: 109, 123) in 2009 (Figure 1). HIV-related causes were responsible for 50% of the deaths over the period from 2000 to 2009, followed by indeterminate causes at 18% and lifestyle-related noncommunicable diseases at 15% of all deaths. HIV-related causes were responsible for a maximum 56% of deaths in 2002, declining to a minimum of 39% of deaths in 2009. Indeterminate causes were responsible for a minimum of 14% of deaths during 2000, rising to a maximum of 25% in 2009.

The largest proportion (52%) of deaths occurred in the 15-49 age group followed by the 65 and older age group at 18%. The under-5 age group contributed 20% of the deaths in 2000, but this declined to between 9% and 11% from 2007 to 2009. Overall, 82% of all deaths occurred before the age of 65 years, declining from a high of 85% in 2000 to 79% in 2009 (Figure 2).

The under-5 all-cause SMR peaked at 217 (95% CI: 189, 245) deaths per 10,000 PYO in 2002 and then declined rapidly to 103 (95% CI: 83,103) in 2009 (Figure 3). This is greater than a twofold decline in mortality. HIV-related mortality (Table 3) in this age group had a high in 2000 of 101 deaths per 10,000 PYO (95% CI: 86,115), plateaued at around 37 deaths per 10,000 PYO between 2004 and 2007, and then declined further to a low of 12 (95% CI: 6, 17) in 2009. Other communicable disease SMR varied between 31 (95%: CI 22, 38) in 2004 and 65 (95% CI: 54, 76) deaths per 10,000 PYO in 2002. Mortality due to indeterminate causes was high in this age group varying around 41 deaths per 10,000 PYO and peaked around 60 deaths per 10,000 between 2003 and 2005. The cause-specific mortality fraction (CSMF) due to HIV-related causes declined from 51% (95% CI: 44, 58) in 2000 to 12% (95% CI: 6, 17) in 2009. As a result of the overall decline in the mortality rate in this age group, the CSMF for other communicable diseases increased from 22% (95% CI: 17, 27) in 2000 to 50% (95% CI: 42, 57) in 2009. The all-cause SMR for the 5-14 age group peaked at 22 (95% CI: 16, 28) deaths per 10,000 PYO in 2004 and then declined to 10 (95% CI: 6, 15) in 2009 (Figure 4).

The all-cause SMR for the 15-49 age group peaked at 190 (95% CI: 176, 203) deaths per 10,000 PYO in 2003 and then declined to 109 (95% CI: 100, 119) in 2009 (Figure 5). HIV-related mortality peaked in 2003 at 140 (95% CI: 135, 145) deaths per 10,000 PYO and then declined to 61 (95% CI: 56, 65) in 2009 (Table 3). The CSMF for HIV-related causes declined from 74% (95% CI: 71, 78) in 2000 to 55% (95% CI: 52, 59) in 2009. This decline in HIV-related CSMF appears to be at the expense of an increase in indeterminate CSMF, which increased over the same period from 8% (95% CI: 7, 10) to 21% (95% CI: 19, 24).

There was no discernible trend in all-cause mortality in the 50-64 age group (Figure 6). HIV-related causes constituted the largest CSMF at 42% for the entire period, followed by lifestyle-related noncommunicable diseases at 27% and indeterminate causes at 19%. There was no significant trend in HIV-related mortality and the highest mortality rates observed occurred in 2005 (180 (95% CI: 156, 206)) and 2007 (154 (95% CI: 129, 179)) after the introduction of an antiretroviral therapy (ART) program in the area in 2004 (Table 3). Lifestyle-related noncommunicable mortality remained stable at around 88 deaths per 10,000 PYO.

Age-standardized mortality in the over-65 age group appeared to increase in the early part of the decade, rising from 453 (95% CI: 377, 528) deaths per 10,000 in 2000 to a peak of 721 (95% CI: 631,812) in 2002 and plateauing off to remain stable at around 611 deaths per 10,000 PYO (Figure 7). Noncommunicable diseases were responsible for the largest CSMF at 50%, with lifestyle-related CSMF at 45%. Indeterminate (26%) and HIV-related (16%) causes were also important.

There was substantial agreement (79% kappa = 0.68 (95% CI: 0.67, 0.69)) between physician coding and InterVA coding at the burden of disease group level. This agreement varied significantly among age groups (Table 4), with the lowest agreement in the under-5 age group (kappa = 0.44 (95% CI: 0.41, 0.47)) and the over-65 age group (kappa = 0.50 (95% CI: 0.48, 0.52)), with the remaining age groups around the overall agreement level. There were no significant changes in agreement over time (Table 5).