Epidemiology of respiratory syncytial virus in Japan: A nationwide claims database analysis

Respiratory syncytial virus (RSV) is a major cause of hospitalization for bronchiolitis and pneumonia among infants worldwide, and is the second leading cause of mortality, following malaria, among infants.1 Among children younger than 5 years of age, an estimated 3 million RSV-related hospitalizations and at least 60 000 deaths occur globally each year.2 Nearly half of these hospitalizations and deaths occur among children under 6 months of age.2

Respiratory syncytial virus can be spread through contact with respiratory droplets from infected individuals or contaminated surfaces and objects. It is highly communicable, and humans are the only known reservoir. Despite 50% of infants becoming infected during their first year of life and almost 100% by their second year, lifetime immunity is not achieved following these initial infections.3 The risk of severe or even fatal disease is higher among preterm children and children with chronic cardiac and respiratory conditions, immunodeficiency, or specific genetic abnormalities. However, most of the severe cases of RSV infection occur among full-term children and those without pre-existing diseases.4-8

In Japan, RSV infection is defined as a Category V infectious disease and is monitored under the National Epidemiology Surveillance of Infectious Diseases (NESID) program. Respiratory syncytial virus infection is reported from the pediatric sentinel surveillance system. The NESID program provides the Infectious Diseases Weekly Report (IDWR) and the Infectious Agents Surveillance Report (IASR) by the National Institute of Infectious Diseases (NIID). These reports contain information on the occurrence of RSV infections in the population covered by the approximately 3,000 pediatric sentinel sites across Japan, as well as some patient characteristics. Despite the existence of nationwide RSV surveillance,7 more granular data describing the burden of RSV, including clinical features, resource use, and outcomes are needed. This study describes the national epidemiology and clinical features of RSV infection among children in Japan using a nationwide healthcare claims database.

Methods Study design and population

This retrospective study described the incidence and seasonality of medically attended RSV episodes among Japanese children <2 years of age from January 1, 2017 through December 31, 2018. Among those with RSV, patient characteristics, resource use (e.g. hospitalization, mechanical ventilation, intensive care unit admission), and clinical outcomes (average length of stay and death) were described. Respiratory syncytial virus cases were identified using the Japanese Medical Data Center (JMDC) database. The JMDC database provides anonymized inpatient, outpatient, and pharmacy claims from health insurance associations in Japan,9 through a panel of approximately seven million beneficiaries since 2005 to the present,10 which accounts for about 5.5% of the entire Japanese population. Diagnosis codes used to identify RSV (B348, J121, J205, J210) and underlying conditions, and procedure codes for RSV-associated clinical outcomes, are provided in the supplementary material (Appendix Table S1-S4). Risk status for RSV infection was defined based on having at least one record with a diagnosis of any of five specified risk factors: prematurity, bronchopulmonary dysplasia (BPD), Down syndrome, congenital heart disease (CHD), or immunodeficiency. Associated diseases were also identified, and these included the five specified risk factors as well as other medical conditions frequently observed with RSV infections.11, 12

Ethics approval and informed consent

This study used de-identified claims data compiled by JMDC, which were classified as anonymously processed information under the Act on the Protection of Personal information.13

Statistical analysis

Patient characteristics, clinical outcomes, and resource use for patients with RSV were described using descriptive statistics. To describe seasonality of RSV infections, numbers of RSV cases in outpatient and inpatient settings were calculated per calendar month for each study period. Respiratory syncytial virus incidence was calculated per 1,000 person-years (PYs) with 95% confidence intervals. The incidence rate was defined as the number of patients with an RSV infection observed during the study period divided by the sum of time at risk of RSV infection. Time at risk for RSV infection was defined as the time to the first RSV infection, time until reaching age 2, or time until the end of the study period (based on whichever occurred first). End of follow up occurred at the first of any of the following: death, 23 months of age, loss to follow up, end of the study period.

Results

In the JMDC database, 9,711 and 8,509 RSV patients <2 years of age were identified in 2017 and 2018, respectively. Of these, 25% were hospitalized, Fifty-five percent of all RSV patients were male (Table 1). Most (90%) hospitalized patients did not have risk conditions for RSV. The two most frequent RSV risk factors for RSV hospitalization were prematurity (5%) and CHD (4%). On average, a hospital stay for RSV infection lasted 1 week, ranging from 6.1 to 7.4 days (Table 2). Nineteen percent of hospitalized patients experienced dehydration, and 12% had acute respiratory failure. Bronchial asthma, acute bronchitis, and asthmatic bronchitis were also consistently observed in the 10 most frequently occurring RSV-associated diseases (Appendix Tables S8 and S9).

Table 1. Demographic and clinical characteristics for RSV patients <2 years of age in the JMDC population 2017 2018

All RSV patients†

(n = 9,711)

Only outpatients‡

(n = 7,238)

Inpatients§

(n = 2,473)

All RSV patients†

(n = 8,509)

Only outpatients‡

(n = 6,426)

Inpatients§

(n = 2,083)

Male (n, %) 5,347 (55.1) 3,967 (54.8) 1,380 (55.8) 4,654 (54.7) 3,487 (54.3) 1,167 (56.0) Any RSV risk factor (n, %) 651 (6.7) 422 (5.8) 229 (9.3) 621 (7.3) 407 (6.3) 214 (10.3) Prematurity (n, %) 356 (3.7) 233 (3.2) 123 (5.0) 327 (3.8) 215 (3.3) 112 (5.4) BPD (n, %) 12 (0.1) 6 (0.1) 6 (0.2) 10 (0.1) 6 (0.1) 4 (0.2) Down syndrome (n, %) 25 (0.3) 13 (0.2) 12 (0.5) 31 (0.4) 17 (0.3) 14 (0.7) CHD (n, %) 275 (2.8) 177 (2.4) 98 (4.0) 269 (3.2) 176 (2.7) 93 (4.5) Immunodeficiency (n, %) 47 (0.5) 27 (0.4) 20 (0.8) 59 (0.7) 30 (0.5) 29 (1.4) †All RSV patients: patients with only outpatient visit or hospitalization. ‡Only outpatients: patients with only outpatient visit. §Inpatients: patients with hospitalization. BPD: bronchopulmonary dysplasia; CHD: congenital heart disease; JMDC: Japan Medical Data Center; RSV: respiratory syncytial virus. Table 2. Length of hospital stay among RSV inpatients in the JMDC population Age group (months) 0–2 3–5 6–11 12–23 2017 2018 2017 2018 2017 2018 2017 2018 Total RSV inpatients† 514 481 474 426 576 472 979 771 Number of hospitalizations‡ 516 484 447 398 569 467 979 774 Length of hospital stay (days) Mean 7.4 7.0 6.2 6.7 6.5 6.8 6.1 6.5 Median 6 6 5 5 6 6 5 6 †Total RSV inpatients: the number of inpatients diagnosed with RSV. ‡Number of hospitalizations: the number of times patients were hospitalized due to RSV. JMDC: Japan Medical Data Center; RSV: respiratory syncytial virus.

Among hospitalized children, 0.1% were admitted into the ICU and 7% required artificial respiration or mechanical ventilation (Table 3). Infants <6 months of age accounted for 41% of RSV-related hospitalizations among those <2 years (Fig. 1). Of those who required mechanical ventilation, approximately half (52% in 2017; 50% in 2018) were <6 months old. The peak of hospitalizations occurred at age 2 months, with this age group accounting for 10% of all hospitalized patients (Fig. 1).

Table 3. RSV-associated clinical outcomes in the JMDC population 2017 2018 Age (months) All (0–23) 0–2 3–5 6–11 12–23 All (0–23) 0–2 3–5 6–11 12–23 RSV hospitalization (%) 2,473 (100.0) 518 (20.9) 447 (18.1) 565 (22.8) 943 (38.1) 2,083 (100.0) 488 (23.4) 395 (19.0) 453 (21.7) 747 (35.9) ICU admissions (%) 3 (0.1) 1 (0.2) 0 (0.0) 0 (0.0) 2 (0.2) 1 (0.0) 1 (0.2) 0 (0.0) 0 (0.0) 0 (0.0) Ventilator use (%) 164 (6.6) 46 (8.9) 40 (8.9) 52 (9.2) 26 (2.8) 168 (8.1) 39 (8.0) 45 (11.4) 60 (13.2) 24 (3.2) RSV mortality 0 0 0 0 0 0 0 0 0 0 ICU: intensive care unit; JMDC: Japan Medical Data Center; RSV: respiratory syncytial virus. image Number of RSV patients in the JMDC population by age in months and care setting for 2018 and 2017. JMDC: Japan Medical Data Center; RSV: respiratory syncytial virus; All RSV patients: patients with only outpatient visit or hospitalization; Only Outpatients: patients with only outpatient visit; Inpatients: patients with hospitalization. (image): All RSV patients; (■): Inpatients; (□): Outpatients only.

The incidence rate of medically attended RSV among Japanese children <2 years of age was 85.2 per 1,000 person-years. The incidence rate of RSV hospitalization in children <2 years was 23.2 per 1,000 person-years, which increased to 35.4 per 1,000 person-years for infants <6 months (Table 4). Regarding seasonality of RSV infections, 2017 and 2018 seasonality patterns were similar. The highest number of RSV cases, for both 2017 and 2018, was in September (Fig. 2).

Table 4. RSV incidence in the JMDC population per 1000 by age group and setting of care for 2017 to 2018 Age (months) 0–2 3–5 6–11 12–23 0–5 0–11 0–23 All† No. of RSV infections 1,845 3,052 4,489 3,160 4,897 9,386 12 546 Total PY 29 121 28 099 45 016 44 947 57 220 102 236 147 183 Incidence per 1,000 PY (95% CI) 63.4 (60.5–66.3) 109.0 (104.8–112.5) 100.0 (96.8–102.6) 70.0 (67.9–72.8) 85.6 (83.2–88.0) 91.8 (90.0–93.7) 85.2 (83.8–86.7) Outpatients‡ No. of RSV infections 1,543 2,941 4,376 3,010 4,484 8,860 11 870 Total PY 29 143 28 186 45 211 45 265 57 329 102 540 147 805 Incidence per 1,000 PY (95% CI) 52.9 (50.3–55.6) 104.3 (100.6–108.1) 96.8 (93.9–99.7) 66.5 (64.1–68.9) 78.2 (75.9–80.5) 86.4 (84.6–88.2) 80.3 (78.9–81.8) Inpatients§ No. of RSV infections 1,087 953 850 693 2,040 2,890 3,583 Total PY 29 146 28 446 47 049 49 533 57 592 104 641 154 174 Incidence per 1,000 PY (95% CI) 37.3 (35.1–39.5) 33.5 (31.4–35.6) 18.1 (16.9–19.3) 14.0 (13.0–15.0) 35.4 (33.9–37.0) 27.6 (26.6–28.6) 23.2 (22.5–24.0) †All: patients with outpatient visit only or hospitalization. ‡Outpatient: patients with any outpatient visits – i.e. outpatient visits only and outpatients who were subsequently hospitalized. §Inpatients: patients with any hospitalization – i.e. hospitalization only and outpatients after hospitalization. CI: confidence interval; JMDC: Japan Medical Data Center; PY: person-years; RSV: respiratory syncytial virus. image

Numbers of RSV cases (<2 years) in the JMDC population for 2018 and 2017 by calendar month. JMDC: Japan Medical Data Center; RSV: respiratory syncytial virus; Outpatient Only: patients with only outpatient visit; Inpatient: patients with hospitalization; (■): Inpatients; (□): Outpatients only.

Discussion

This study confirms the high burden of RSV infection among infants and young children in Japan. Extrapolating the number of patients with JMDC into the Japanese population suggests that an estimated 119 000 to 138 000 RSV-related diagnoses occur in Japan among children <2 years of age each year. Roughly one-fourth of all RSV patients <2 years were hospitalized (Appendix Table S5). Although certain conditions do put infants at increased risk of RSV disease,6, 14 this study showed that 90% of children <2 years of age hospitalized with RSV infection did not have an underlying risk condition for RSV infection. This underscores that RSV can cause serious disease among all young children. This finding is consistent with previous reports in Japan15, 16 and the USA.14

Regarding associated diseases, 47% of RSV all patients had acute bronchitis and 7.5% had dehydration. These disorders were frequently reported in all age groups (0–23 months of age). In addition, 7% of all RSV patients aged 0–2 months had acute respiratory failure (Appendix Table S8). On the other hand, 19% of RSV hospitalized patients had dehydration and 12% had respiratory failure. These disorders were frequently reported in all age groups (0–23 months of age; Appendix Table S9). On average, patients stayed for about 1 week in the hospital across age groups. This result is consistent with other reports in the Japanese setting16-19 and highlights the impact of RSV on patients and the health system. Although <1% were admitted to the ICU, 7% required artificial respiration or mechanical ventilation. The proportion of ICU admissions in a previous report was slightly higher but this difference may be due to the data source for the previous study being tertiary hospital-based, which tends to involve more severe cases.16

Extrapolating the number of RSV patients in the JMDC by month of age to the Japanese population by month of age described the same tendency as in Appendix Figure S1 (Appendix Tables S6 and S7).

Japanese children aged <6 months accounted for 41% of RSV-related hospitalizations among children <2 years of age. This is similar to findings in other developed countries,2, 14, 20 and another study previously conducted in Japan14 where the inpatient burden is disproportionately shifted towards the very young. The peak of hospitalization for RSV infection occurred at 2 months of age, consistent with previous reports in multiple settings highlighting that most hospitalizations occur in the first 90 days of life.6, 14, 21 Infants <6 months also had more severe disease. For example, while only 7% of children hospitalized for <24 months for RSV infection required mechanical ventilation, roughly 50% of all mechanical ventilation occurred in infants <6 months old. This further highlights the disproportionate burden of RSV in very young patients.

Among children <2 years of age in the JMDC population, the rate of RSV was 85 per 1,000. The rate of hospitalized RSV decreased as age increased from 37 per 1,000 among infants <2 months of age to 14 per 1,000 among children 12–23 months of age. Rates found in this study were consistent with those in the US20 and developed countries globally2 and in other Japanese studies (e.g., Tochigi prefecture).22

Current peaks of RSV infections, for both 2017 and 2018, were in September. This is consistent with the NIID sentinel report (IASR 2018).7 While the majority of studies covering previous years indicated December as the peak for cases in Japan,18, 23-27 these data suggest an evolution of the epidemiology of RSV infection with cases occurring earlier in the year and not being confined to the winter months.

Recently, high-risk children have been receiving palivizumab prophylactically during the RSV season, which has also been reported in surveys evaluating patient information in Japanese hospitals.28, 29 However, many children are still hospitalized for RSV infection given that – as seen in this study – the vast majority of hospitalizations are in children without underlying medical conditions. Furthermore, some patients are still hospitalized even after receiving prophylactic palivizumab during the peak of the RSV season.29 Thus, new and broader preventive strategies for RSV infections in young children are needed, including licensure of new vaccines and monoclonal antibodies in the future or administration of palivizumab, which is currently available, earlier in the year prior to the start of the RSV season.29, 30

This study has limitations. The definition of RSV infection in this study was based on ICD10 codes and thus not necessarily test-confirmed RSV positivity. Recent studies in other developed settings found RSV ICD-10 code specificity to be very high (>99%), although there was inconsistency in sensitivity estimates suggesting that study results could underestimate the RSV burden.20, 31, 32 Moreover, JMDC database includes employees and their family members from only medium- to large-scale companies and does not include employees of small companies and public/government employees. This could also point to an underestimation of the RSV burden as a US study showed that rates were much higher among children who relied on government assistance programs.20 Despite these limitations, results on seasonality of RSV infections align with the data from the NESID program, which require stringent laboratory confirmation for inclusion. The number of hospital days from admission date was also truncated at the end of the study period and this could have underestimated the average length of hospital stay in some cases. Strengths of this study include the large number of patients, even among very young age groups, and the description of up-to-date, nationwide, and detailed information on patient characteristics, resource use, and clinical outcomes that have not been previously described.

Conclusions

Roughly one-fourth of all RSV patients <2 years were hospitalized. Ninety percent of children <2 years of age hospitalized with RSV infection did not have an underlying risk condition. This underscores that RSV can cause serious disease among all young children. Three to four out of every 100 Japanese children aged <6 months were hospitalized for RSV, and this age group accounted for approximately 40% of all RSV-associated hospitalizations. Novel and broad-based prevention strategies against RSV infection, especially those targeting young infants, are needed.

Acknowledgments

The authors acknowledge Dr Bennett Lee (Pfizer Japan Inc) for his useful advice on this study.

The JMDC provided the claims data and aggregation service. Medical writing support was provided by Jihen Mahjoub MS and Ver Bilano PhD, from Creativ-Ceutical.

Disclosures

This study was sponsored by Pfizer Japan Inc. All authors are employees of Pfizer Japan Inc. and Pfizer Inc. Dr Togo and Mr Kobayashi report personal fees from Pfizer Japan Inc., stock from Pfizer Inc., during the conduct of the study. Dr McLaughlin and Dr Agosti report personal fees and stock from Pfizer Inc. during the conduct of the study.

Authors contributions

Y.K conceptualized and designed the study, instructed the data analysis, and drafted the initial manuscript. K.T. conducted statistical analysis and critically reviewed and revised the manuscript. J.M. and Y.A. contributed significantly to the interpretation of the data and revised the manuscript for important intellectual content. All authors read and approved the final manuscript.

留言 (0)

沒有登入
gif