The economic burden of childhood invasive pneumococcal diseases and pneumonia in Taiwan: Implications for a pneumococcal vaccination program.

Invasive pneumococcal disease (IPD) and pneumonia are the major causes of morbidity and deaths in children in the world. The management of IPD and pneumonia is an important economic burden on healthcare systems and families. The aim of this study was to assess the economic burden of IPD and pneumonia among younger children in Taiwan. We used a cost-illness approach to identify the cost categories for analysis in this study according to various perspectives. We obtained data of admission, outpatient, and emergency department visit data from the National Health Insurance Research (NHIR) database for children <5 y of age between January 2008 and December 2008. A prospective survey was administered to the families of patients to obtain detailed personal costs. All costs are presented in US dollars and were estimated by extrapolating 2008 cost data to 2013 price levels. We estimated the number of pneumococcal disease cases that were averted if the PCV-13 vaccine had been available in 2008. The total annual social and hospital costs for IPD were US $4.3 million and US $926,000, respectively. The total annual social and hospital costs for pneumonia were US $150 million and US $17 million, respectively. On average, families spent US $653 or US $218 when their child was diagnosed with IPD or pneumonia, respectively. This cost is approximately 27%-81% of the monthly salary of an unskilled worker. In conclusion, a safe and effective pediatric pneumococcal vaccine is needed to reduce the economic burden caused by pneumococcal infection.

Definitions

Invasive pneumococcal disease (IPD) was defined as an acute illness associated with the isolation of pneumococcus from a normally sterile body site (e.g., blood, cerebrospinal fluid, synovial fluid, pericardial fluid, pleural fluid, lung tissue, or peritoneal fluid).

Pneumonia was defined as an acute illness with the presence of new or progressive infiltrates on chest radiograph, plus at least 2 of the following symptoms: fever, cough, dyspnea, or pleuritic chest pain. Blood culture-negative pneumonias were divided into 2 subgroups according to the chest radiograph results, the white blood cell (WBC) counts, and the amount of C-reactive protein (CRP) for the purpose of determining the relative likelihood that S. pneumoniae was the causative organism. The pneumococcal infection group presented lobar/focal (unilateral) consolidation on chest radiographs and ≥15 × 109 WBC/liter (with <60% neutrophils) or ≥8 mg/l CRP. The possible pneumococcal infection group had either lobar/focal or unilateral consolidation on chest radiograph and <15 × 109 WBC/l (or ≥15 × 109 WBC/liter with <60% neutrophils) and ≥8 mg/l CRP or patchy or widespread, bilateral consolidation on chest radiograph and ≥15 × 109 WBC/l (with ≥60% neutrophils) or ≥8 mg/l CRP.

Introduction

Streptococcus pneumoniae is an important cause of bacterial pneumonia, meningitis, and sepsis in children in developed and developing countries. In 2000, approximately 14.5 million cases of serious pneumococcal disease occurred. Cases with pneumococcal infection were responsible for approximately 826,000 deaths in children 1–59 months of age, of which 91,000 deaths occurred in HIV-positive children and 735,000 deaths (with estimates ranging from 519,000–825,000) occurred in HIV-negative children. Of the deaths in HIV-negative children, over 61% occurred in 10 African and Asian countries. Pneumococcal disease is associated with substantial morbidity and mortality. Furthermore, it results in numerous hospitalizations, outpatients, and antibiotic prescriptions and leads to productivity losses for parents and other informal caregivers. The 7-valent pneumococcal conjugate vaccine (PCV-7) was first approved in the United States (US) in 2000 to prevent diseases due to Streptococcus pneumoniae in infants and young children. In 2007, the World Health Organization (WHO) recommended incorporating the vaccine into their own national childhood immunization programs. In 2009, 10-valent (PCV-10) and 13-valent (PCV-13) pneumococcal conjugate vaccines with extended serotype coverage were also introduced. Since their introduction, the PCV-7 vaccine has been replaced by these newer vaccines gradually. The PCV-10 is a mixture of conjugates of 10 capsular polysaccharides (CP) to the non-typable Haemophilus influenza carrier protein, whereas the PCV-13 is a mixture of conjugates of each of 13 CPs to the same carrier protein (CRM197) as that of PCV-7. To encourage introduction of the PCV-10 or PCV-13 vaccine, cost-effectiveness analysis has been conducted in many different countries. In general, these studies have given the results that vaccination with the PCV-10 or PCV-13 vaccine is cost-effective or cost-saving compared with the PCV-7 vaccine in the prevention of diseases with S. pneumonia infection. In Taiwan, the PCV-7 vaccine was adopted in October 2005. The coverage rate of PCV-7 vaccination for Taiwanese infants is considered to be markedly low (approximately 10%) because vaccination costs must be paid out of pocket.

As more effective PCV vaccines become available, policy makers will need to concern regarding the relative cost-benefit relationship of vaccination while also considering the clinical effectiveness of this prevention measure. Policy makers should take account of the economic burden of disease, the impact of vaccination on health and economic outcomes due to vaccination and the net benefit of vaccination. The costs of vaccination must be evaluated with respect to its health impacts. However, very rare data on pneumococcal disease and its economic burden is available to provide policy maker for making appropriate decisions regarding the implementation of a vaccination program in Taiwan. Therefore, we analyzed economic data on pneumococcal infections in Taiwan to investigate the direct cost of healthcare systems for pneumococcal infections and the indirect costs borne by individual patients in Taiwan.

Results

During January 2008 and December 2008, a total of 29,991 children <5 y of age with IPD or pneumonia were included in the study. Of these children, 15,389 (51%) were male and 14,602 (49%) were female. A total of 172 (0.6%) children were diagnosed with IPD, of which 5 (29%) died. A total of 29,819 children were diagnosed with pneumonia, of which 15,335 (51%) were hospitalized, 14,299 (48%) received outpatient treatment, and 185 died. We estimated the number of pneumococcal disease cases that were averted if the PCV-13 vaccine had been available in 2008. The incidence rates for IPD, hospitalized pneumonia, and outpatient pneumonia were 19.5 cases/100,000 individuals, 17.4 cases/1,000 individuals, and 16.2 cases/1,000 individuals, respectively. The fatality rates for IPD and pneumonia were 2.9 cases/100 individuals and 0.6 cases/100 individuals, respectively. The estimated cumulative incidence of pneumococcal infection was 3%. In other words, approximately 3 in 100 children were hospitalized or attended the OPD for pneumococcal infections by their fifth year of life.

We calculated the costs according to the various types of disease, which included a group of only IPD cases (n = 172) and a group of only pneumonia cases (n = 29,819). All costs are presented in US dollars and were estimated by extrapolating 2008 cost data to 2013 price levels. shows the overall cost of the 29,991 children with hospitalization. The total cost of medical care from January 2008 to December 2008 was estimated as US $925,535 for children with only IPD and $16,958,301 for children with only pneumonia. Furthermore, the indirect costs were US $3,416,658 for children with only IPD and $132,797,362 for children with only pneumonia.

Table 2.

Total social and private costs of IPD and pneumococcal pneumonia in Taiwan

	IPD	Pneumoniag	Total
Cost variables	(n = 172)	(n = 29,819)	(n = 29,991)
Direct costsa	925,535	16,958,301	17,883,836
Inpatient cost	799,112	9,169,345	9,968,457
Outpatient cost	18,060	1,520,769	1,538,829
Family cost paid to H/C	108,363	6,268,187	6,376,550
Indirect costs	3,416,658	132,797,362	136,214,020
Caregiver time costs	366,094	21,622,484	21,988,578
Total other family costsb	3,884	237,038	240,922
PMC	3,046,680	110,937,840	113,984,520
Total social costc	4,342,193	149,755,663	154,097,856
Total private costd	478,341	28,127,709	28,606,050
Total H/C coste	925,535	16,958,301	17,883,836
Total cost paid by familyf	112,247	6,505,225	6,617,472

Note: The data were estimated by extrapolating the 2008 cost data to 2013 price levels; Values indicate the total costs in US dollars; One US dollar equals 31.0 New Taiwan dollars; IPD: invasive pneumococcal disease; H/C: hospital/clinic; PMC: premature mortality cost.

Inpatient cost + outpatient cost + family cost paid to H/C.

Total costs of co-pay for other hospital/clinic paid by the family, travel costs, and additional costs, such as nonprescription medications.

Total direct cost + total indirect cost.

Family cost paid to H/C + caregiver time costs + total other family cost + premature mortality costs.

Total inpatient cost + total outpatient cost + total family H/C cost of copayment.

Family H/C cost + total other family costs.

The data were estimated by extrapolating the representative sample (400) cost data to 29,819 price levels.

A breakdown of the costs at the single patient level is showed in . The costs of medical care per child from January 2008 to December 2008 were US $5,381 (1,156) for children with only IPD and $568 (304) for children with only pneumonia. Furthermore, the indirect costs were US $611,487 (128,716) for children with only IPD and $600,397 (78,616) for children with only pneumonia. For patients with IPD, the mean (SD) total social cost was US $616,868 (123,276), which was derived from a mean (SD) total direct cost of US $5,381 (1,156) and a mean (SD) total indirect cost of US $611,487 (128,716). The mean (SD) total medical cost for patients with IPD was US $5,381 (1,156), and the mean total cost paid by family was US $653 (400). Therefore, up to 12% (US $653) of the costs for medical care was the family expenditure. This value is approximately 81% of the monthly salary (US $806) of an unskilled worker. For patients with pneumonia, the mean (SD) total social cost was US $600,965 (77,812), which was derived from a mean (SD) total direct cost of US $568 (304) and a mean (SD) total indirect cost of US $600,397 (78,616). The mean (SD) total medical cost for patients with pneumonia was US $568 (304), and the mean total cost paid by family was US $218 (134). Therefore, up to 38% (US $218) of the total costs for medical care was the family expenditure. This value is approximately 27% of the monthly salary of an unskilled worker.

Table 3.

Mean social and private costs of IPD and pneumococcal pneumonia in Taiwan

Cost variables	IPD	Pneumoniag
Direct costsa	5,381 (1,156)	568 (304)
Inpatient cost	4646 (1,053)	307 (51)
Outpatient cost	105 (57)	51 (3)
Family cost paid to H/C	630 (390)	210 (130)
Indirect costs	611,487 (128,716)	600,397 (78,616)
Caregiver time costs	2,128 (1,688)	725 (552)
Total other family costsb	23 (14)	8 (5)
PMC	609,336 (121,867)	599,664 (75,958)
Total social costc	616,868 (123,276)	600,965 (77,812)
Total private costd	612,117 (122,570)	600,607 (77,512)
Total H/C coste	5,381 (1,156)	568 (304)
Total cost paid by familyf	653 (400)	218 (134)
Length of stay, mean (SD), days	14.4 (3.3)	7.2 (3.5)

Note: The data were estimated by extrapolating the 2008 cost data to 2013 price levels; Values indicate the total mean (SD) in US dollars; One US dollar equals 31.0 New Taiwan dollars; IPD: invasive pneumococcal disease; H/C: hospital/clinic; PMC: premature mortality cost.

Inpatient cost + outpatient cost + family cost paid to H/C.

Total costs of copayment for other hospital/clinic paid by the family, travel costs, and additional costs, such as nonprescription medications.

Total direct cost + total indirect cost.

Family cost paid to H/C + caregiver time costs + Total other family cost + premature mortality costs.

Total inpatient cost + total outpatient cost + total family H/C cost of copayment.

Family H/C cost + total other family costs.

The data were estimated by extrapolating the representative sample (400) cost data to 29,819 price levels.

We estimated the number of pneumococcal disease cases that were averted because of the PCV-13 vaccine. We estimated the number of sp-pneumococcal disease cases in Taiwan with serotypes that were covered by the PCV-13 vaccine. First, we assumed the serotype contained in the vaccine was 80% (95% CI 59–90%). The next step, we multiplied the cases with PCV-13 serotype coverage by the efficacy rate of the vaccine for pneumococcal disease, which was assumed to be 80% for IPD, 33% for pneumonia with hospitalization, and 9% for pneumonia using the 4-dose schedule (3 dose primary before 6 months of age plus a booster at 12 to 15 months of age). The estimated number of pneumococcal disease cases that were prevented by vaccination was equal to the serotype coverage rate multiplied by the efficacy rate multiplied by the estimated number of cases attributable to sp. Therefore, the estimated number of IPD cases that were prevented by vaccination was 110 (0.8 × 0.8 × 172 = 110). Vaccination prevented approximately 4,048 (0.8 × 0.33 × 15,335 = 4,048) pneumonia cases that would have required hospitalization. In addition, vaccination prevented approximately 1,029 (0.8 × 0.09 × 14,299 = 1,029) pneumonia cases that would have required outpatient treatment. There were 52 ([0.8 × 0.8 × 5] + [0.8 × 0.33 × 185] = 52) deaths from IPD and pneumonia prevented by vaccination.

Discussion

Healthcare systems primarily reduce morbidity and premature death due to pneumococcal diseases. Studies on the cost of these illness can provide insight into the characteristics and item spending for specific diseases, leading to important strategies to reduce the costs of therapy. In this study, we have extended our knowledge of the pneumococcal disease burden in Taiwan by evaluating the cost of pneumococcal infections and by promoting the application of a pneumococcal vaccine program. In Taiwan, the burden of pneumococcal disease burden is considerable: approximately 30,000 cases (15,502 hospitalizations and 14,299 OPD visits and 190 fatal cases) per year among children <5 y of age. In parallel, the healthcare costs of pneumococcal diseases are substantial. The total annual direct medical costs for admissions with IPD and pneumonia, including direct medical costs and direct non-medical costs (e.g., travel cost), were approximately US $4.3 million (NT $133.3 million) and US $149.8 million (NT $4.6 billion), which equates to approximately US $25,245/child and $5,021/child, respectively. The healthcare costs of IPD and pneumonia represent 79.1% and 15.7%, respectively, of the gross national income in 2008 ($31,900 per capita). In this study, we estimated the total social costs, the total indirect costs, and the total costs paid by family, which have not been estimated for cases of pneumococcal disease previously. These cost estimates demonstrate that most costs related to pneumococcal disease are indirect medical costs, which mainly consist of the cost of productivity loss (time cost of the caregivers and PMC).

In Taiwan, routine immunizations in children are funded by the government through a system of public health centers. Very few children receive their routine immunizations privately. The rationale for this study from the H/C perspective was that a substantial cost to the H/C, and therefore to the Taiwan government, would persuade the government to adopt a pneumococcal vaccine into the routine immunization schedule for children. In addition, we documented the extra expenditures incurred by the families of children with pneumococcal infections and who used the highly subsidized NHI system (i.e., the total cost paid by family). Our study demonstrate that the families incurred total costs of US $653 or US $218 when their child was diagnosed with IPD or pneumonia, respectively. The monthly salary for unskilled workers in Taiwan is US $806 (NT $25,000); therefore, IPD or pneumonia with hospitalization resulted in costs equivalent to approximately 80% and 30% of their monthly salary, respectively. However, this study only assessed the costs of IPD and pneumonia cases that required hospital admission or physician visits, and the costs associated with cases in children who were cared for in the home or who remained undiagnosed were not included.

Socioeconomic studies have several limitations, and caution must be exercised in interpreting these results. The cost per unit of service and the value of resources used in the treatment of pneumococcal disease may be difficult to accurately quantify. Information regarding all major direct expenditures and indirect costs are required for calculating the cost of an illness. Only costs for hospitalized patients, outpatient care and mortality were estimated in this study. Costs from the sequelae of meningitis and encephalitis were not included in the study. In addition, although otitis media is one of the important pneumococcal disease, it was not included in the study due to their diagnosis was unspecific to pneumococal infection. The absence of such data was a weakness of the current study. These data may represent a conservative estimate of the overall costs. To the best of our knowledge, this study is the first to evaluate the economic burden of childhood pneumococcal disease in Taiwan.

The findings of this study extend the results of previous research on the economic burden of pneumococcal infection. Several cost-of-illness studies have been conducted in other countries; however, direct comparisons between these studies and the present study are difficult. The estimated burden of IPD (19.5 cases/100,000 individuals) and hospitalized pneumonia (17.4 cases/1,000 individuals) in this study is similar to reported rates in Hong Kong (23.7 cases/100,000 individuals and 931.6 cases/100,000 individuals, respectively) and Japan (11.7 cases/100,000 individuals and 17.6 cases/1,000 individuals, respectively). A comparison between the present study in Taiwan and studies in Japan may be feasible because of them have similar socioeconomic environments and approaches to healthcare delivery in these countries. In this study, the estimated costs, including direct and indirect costs, were derived from data on the disease burden of pneumococcal infection with hospitalization according to detailed cost data. The annual direct costs associated with pneumococcal infection were estimated to be US $42.1 million for hospitals based on a birth cohort of 480,000 new born babies and assumed rates of 19.6 cases and 1,854.2 cases per 100,000 general pediatric hospitalizations related to IPD and pneumonia, respectively. For a cohort with population of 220,000 new born babies, the equivalent admission costs were approximately US $15.1 million. Our hospital costs (US $9.9 million) were much lower than the estimates of admission costs in Japan. The main reason is due to the differences in the estimates of direct cost. In children with pneumococcal infection-associated illnesses, hospitalizations accounted for the most costs to the healthcare system; therefore, it will be important to evaluate the effect of a pneumococcal vaccine on the admission rate when more data become available.

The implementation of a national pneumococcal vaccination program for children in Taiwan would prevent approximately 64% (110/172) of IPD, 17% (5,077/29,819) of pneumonia, and 27% (52/190) of deaths due to pneumococcal infection. Pneumococcal infection imposes a significant economic burden in Taiwan. The adoption of a safe and effective PCV vaccine may not prevent all cases with pneumococcal infection; however, a vaccine would be expected to result in significant cost savings for both the society and families.

Methods

Data on the disease burden

The Taiwanese government implemented a mandatory national health insurance program in 1995. By 1999, approximately 96% of the population in Taiwan was covered by the program. The program provides comprehensive coverage. It covers admission care, ambulatory care, laboratory tests, prescription drugs and certain nonprescription drugs, dental services, traditional Chinese medicine, and certain preventative services. A co-payment is required for ambulatory care, inpatient care, and pharmaceuticals. No co-payment is required for low-income households and veterans or for services associated with catastrophic diseases, childbirth, or preventative healthcare. In addition, medical services in specific mountain areas or on offshore islands are exempt from co-payments. To obtain a national estimate of the mean number of invasive pneumococcal disease (IPD) and pneumonia cases that required care, we collected the data for children less than 5 y of age from the Taiwan National Health Insurance Research (NHIR) database between January 2008 and December 2008.

The eligible study population was selected from NHIR database in 2008 according to the International Classification of Disease, Ninth Revision, and Clinical Modification (ICD-9-CM) diagnosis (ICD-9 CM easy coder 2002). Classifications for major pneumococcal disease include pneumococcal meningitis (ICD-9-CM code, 320.1), streptococcal meningitis (ICD-9-CM code, 320.2), streptococcal septicemia (ICD-9-CM code, 038.0), pneumococcal septicemia (ICD-9-CM code, 038.2), unspecified septicemia (038.9), bacteremia (ICD-9-CM code, 790.7), and pneumonia (ICD-9-CM codes, 481–486). All pneumococcal disease events were considered discrete cases, even when patients were treated for a pneumococcal infection on more than one occasion. The sum of the cases of pneumococcal septicemia (code 038.2) and pneumococcal meningitis (code 320.1) was used to estimate the rates of IPD. Although otitis media is one of the important pneumococcal disease, it was not included in the study due to their diagnosis was unspecific to pneumococal infection.

Population figures from the 2008 census by the Statistics Department, Interior Ministry, Taiwan were used in all of the calculations. The number of children younger than 5 y of age was 880,000. Age was defined as the number of complete years since birth.

Because discharge coding is known to be imprecise, data from the Notifiable Diseases Surveillance System (NNDSS) were used to assess the sensitivity of the coding data as a surrogate for IPD and to obtain the proportion of radiological pneumonia diagnosed under code 486, which indicates unspecific pneumonia. Since 1990, the National Notifiable Diseases Surveillance System (NNDSS) has been developed in Taiwan described in the literature previously. In 2007, the reporting system for invasive pneumococcal disease (IPD) was established. Physicians are required by law to report all cases of IPD to the Taiwan CDC within one week of case identification using Taiwan CDC-developed software. After these reports are received by the CDC, a public health workers is assigned to verify the diagnosis, collect patient information, and traced the contacts. We cross-checked these data on IPD with those in the NHIR database to confirm the reporting accuracy. All cases with IPD had been reported to both Taiwan CDC and NHI program. The reporting accuracy was 100%.

Institutional Review Board approval for this study was obtained from of National Cheng Kung University Hospital.

Data on cost

Cost and wages published before 2008 were updated according to the consumer price index. Future disease costs and IPD and pneumonia cases were modeled to decrease at an annual discount rate of 3%. The medical costs of IPD and pneumonia cases over a 5-year period were calculated according to the age-specific incidence estimates for each outcome. Pneumonia mortality and the productivity costs of IPD were estimated using the average life expectancy of a child younger than 5 y of age. All of the costs were estimated by extrapolating the 2008 US dollars to 2013 price levels. The monetary value in New Taiwan dollars (NT$) was converted into United States dollars (US$) based on the average exchange rate in 2013 (1 US$ = 31.0 NT$).

We obtained hospitalization, outpatient, and emergency department visit data from the National Health Insurance Research (NHIR) database from 2008. The NHIR database contains every medical claim record (inpatient and outpatient care) for patients, including the patient ID number, gender, birth date, date of visit, and length of hospital stay (LOS). The direct medical costs for patients were collected from the NHRI database. The NHIR database contains records of every medical claim (inpatient and outpatient care).

Indirect costs were collected from all cases of IPD and a representative sample of cases with pneumonia. Taiwan was divided into 4 regions including Northern, Central, Southern and Eastern region. In 2008, 100 patients in NHIR data bank were randomly selected in each region as the patient sample. The inclusion criteria were the patient who aged <5 y of age and diagnosed with pneumonia in 2008. Informed consent was obtained from participating families. Information of demographic characteristics, clinical picture, and costs related to pneumococcal infection was collected by a case report form designed by authors. Information on the costs associated with each IPD or pneumonia episode in each child was completed by the families, and the families were to fill the form and return within 7 d of study recruitment. The public health worker demonstrated how to complete the case report form, which included all of the costs relevant to the illness episode, extra travel costs; the other additional costs (e.g., food supplements or nonprescription drugs); time off work due to the illness; and the salary lost was estimated by hour, day, week, or month and the length of stay (LOS) in hospital; visits to other hospitals or clinics. The indirect costs were estimated by extrapolating the sample cost data to study population price levels.

Data analysis

The cost analysis incorporated both monetary and time costs when applicable. Pneumococcal infection-related costs include direct expenditures for medical care and medical costs. In direct expenditures for medical care included costs and charges (as proxy for cost) for hospitalization, outpatient services and medication. Information on drugs that were not directly related to pneumococcal infection (e.g., treatment for fungus infection) was difficult to obtain and was therefore not considered. Indirect costs included the cost of time lost from work by caretakers due to the illness of pneumococcal infections.

The premature mortality cost (PMC) was calculated as follows: the human capital approach equates productivity lost to the wage rate of an individual and is based on the assumption that an individual produces a stream of output over a working lifetime, which is cut short by premature death. Years of potential productive life lost (YPLL) were calculated by multiplying the number of pneumococcal infection-specific deaths for a given age group (<1, 1–2, 3–4 y) by the expected productive life years that remained at the mid-point for each age group. Expected productive life years were derived from a standard modeled life table with a retirement age of 65. On average, the monthly salary for unskilled workers in Taiwan was US $806 (NT $25,000) in 2008.

presents the flow chart of estimated costs. The costs were estimated social costs (total direct costs + total indirect costs) and private costs (total indirect costs + total costs paid by family). The individual cost was calculated as followings:

Figure 1.

Flow chart of estimated costs.

Total direct costs included total hospital/clinic (H/C) costs and total costs paid by family:

Total H/C costs = hospitalization costs + outpatient costs + ward visit costs in hospitalization.

Hospitalization costs = (total LOS [days]) × (cost of bed/day), where hospital calculates bed costs using full-cost estimates (). Costs of medications and diagnostic tests, were included in the per diem cost.

Table 1.

Hospital and clinic healthcare costs per visit used to calculate the social and private costs of pneumococcal infection in Taiwan

Cost variables	Paid by NHISa	Paid by family
General pediatric bed per day (4 patients per room)	15 (512)	0
General pediatric bed per day (2 patients per room)	15 (512)	55 (1,700)
Ward follow-up	10 (352)	0
General outpatient services	7 (250)	10 (310)

Note: Values are expressed in US dollars (New Taiwan dollars). One US dollar equals 31.0 New Taiwan dollars; NHIS: National Health Insurance System.

The data were obtained from the National Health Insurance Bureau (December 2013) and estimated by extrapolating the 2008 cost data to 2013 price levels.

Costs of outpatient cost = (number of outpatient department (OPD) visits × official fee /OPD visit) + (number of Accident & Emergency [A&E] visits × official fee/A&E visit). The OPD cost included all visits related to the same episode of pneumococcal disease that required hospitalization.

Costs of ward visit in hospitalization = (number of ward visits) × (official fee/ward visit).

The total costs paid by family included all co-payments made by the family to the hospitals or clinics (family H/C costs) and the total other family costs. This parameter was estimated as followings:

Family H/C costs = (total LOS [days]) × (official fee of co-pay for a bed/day paid by the family) + (number of ward visits) × (official fee of co-pay per ward visit paid by the family) + (number of OPD visits × official fee of co-pay per OPD visit paid by the family) + (number of A&E visits × official fee of co-payment per A&E visit paid by the family).

Total other family costs = family “other hospital or clinic” cost + family travel costs + family “other associated with pneumococcal illness” costs.

Family “other H/C” costs = actual cost of co-payment for any other H/C costs including consultation fees and medications.

Family travel costs = cost of bus fare, taxi, or mileage to visit H/C related to pneumococcal illness of child.

Family other costs associated with child's pneumococcal disease = costs for extra nutrient supplements and nonprescription drugs + costs for additional day care + costs for miscellaneous items.

Total indirect costs were estimated as the parent's time cost + other caretaker's time cost, where parent's time cost = (hours/days off work) (parent's estimated hour/day salary), and other caretaker's time cost = (hours/days off work) (other's estimated hour/day salary).

Statistical analysis

The cost data are presented as the total and mean (SD). The costs were classified as the following types of disease: only IPD cases, only pneumonia cases, and total cases. All costs are presented in US dollars and were estimated by extrapolating 2008 cost data to 2013 price levels. We estimated the number of pneumococcal disease cases that were averted if the PCV-13 vaccine had been available in 2008.