key: cord-1038043-j3l8tsw7 authors: Bunthi, Charatdao; Rhodes, Julia; Thamthitiwat, Somsak; Higdon, Melissa M.; Chuananon, Somchai; Amorninthapichet, Tussanee; Paveenkittiporn, Wantana; Chittaganpitch, Malinee; Sawatwong, Pongpun; Hammitt, Laura L.; Feikin, Daniel R.; Murdoch, David R.; Deloria-Knoll, Maria; O’Brien, Katherine L.; Prosperi, Christine; Maloney, Susan A.; Baggett, Henry C.; Akarasewi, Pasakorn title: Etiology and Clinical Characteristics of Severe Pneumonia Among Young Children in Thailand: Pneumonia Etiology Research for Child Health (PERCH) Case–Control Study Findings, 2012–2013 date: 2021-08-25 journal: Pediatr Infect Dis J DOI: 10.1097/inf.0000000000002768 sha: d0b58ddefd93cb73d634dc6667e8f9791a13c7d6 doc_id: 1038043 cord_uid: j3l8tsw7 Pneumonia remains the leading cause of death among children <5 years of age beyond the neonatal period in Thailand. Using data from the Pneumonia Etiology Research for Child Health (PERCH) Study, we provide a detailed description of pneumonia cases and etiology in Thailand to inform local treatment and prevention strategies in this age group. METHODS: PERCH, a multi-country case–control study, evaluated the etiology of hospitalized cases of severe and very severe pneumonia among children 1–59 months of age. The Thailand site enrolled children for 24 consecutive months during January 2012–February 2014 with staggered start dates in 2 provinces. Cases were children hospitalized with pre-2013 WHO-defined severe or very severe pneumonia. Community controls were randomly selected from health services registries in each province. Analyses were restricted to HIV-negative cases and controls. We calculated adjusted odds ratios (ORs) and 95% CIs comparing organism prevalence detected by nasopharyngeal/oropharyngeal (NP/OP) polymerase chain reaction between cases and controls. The PERCH Integrated Analysis (PIA) used Bayesian latent variable analysis to estimate pathogen-specific etiologic fractions and 95% credible intervals. RESULTS: Over 96% of both cases (n = 223) and controls (n = 659) had at least 1 organism detected; multiple organisms were detected in 86% of cases and 88% of controls. Among 98 chest Radiograph positive (CXR+) cases, respiratory syncytial virus (RSV) had the highest NP/OP prevalence (22.9%) and the strongest association with case status (OR 20.5; 95% CI: 10.2, 41.3) and accounted for 34.6% of the total etiologic fraction. Tuberculosis (TB) accounted for 10% (95% CrI: 1.6–26%) of the etiologic fraction among CXR+ cases. DISCUSSION: More than one-third of hospitalized cases of severe and very severe CXR+ pneumonia among children 1–59 months of age in Thailand were attributable to RSV. TB accounted for 10% of cases, supporting evaluation for TB among children hospitalized with pneumonia in high-burden settings. Similarities in pneumonia etiology in Thailand and other PERCH sites suggest that global control strategies based on PERCH study findings are relevant to Thailand and similar settings. P neumonia remains the leading cause of death among children <5 years of age beyond the neonatal period, 1-3 accounting for 15.3% of deaths globally and 9.0% in Thailand in 2012. 4 Our understanding of childhood pneumonia etiology in the developing world largely comes from research studies in the 1970s through the 1990s. 5, 6 To estimate pneumonia burden and etiology, the Thailand Ministry of Public Health (MoPH) and United States Centers for Disease Control and Prevention conducted surveillance for acute lower respiratory tract infection (ALRI) among hospitalized cases in 2 provinces in Thailand from 2003 to 2014. 7 From this surveillance among childhood ALRI cases, we estimated the prevalence of pathogens such as influenza (8.2% 8 ) and respiratory syncytial virus (RSV) (19.5% 9,10 ). However, these reports were based on single tests like blood culture or polymerase chain reaction (PCR) on upper airway specimens which may lack sensitivity and specificity for bacteria. Analyses of data from this surveillance system did not take into account assay sensitivity and specificity or integrate the results from multiple tests in individual cases. 11 This classical analytic approach required assignment of etiology based on expert opinion when multiple tests were positive and precluded development of a probability-based etiology distribution, either at individual or population level. This surveillance system also did not apply World Health Organization (WHO) case definitions for childhood pneumonia limiting comparisons to other childhood pneumonia studies. The Pneumonia Etiology Research for Child Health (PERCH) Study offered an important opportunity to address these limitations and deepen our understanding of severe childhood pneumonia in Thailand and the region by employing highly standardized clinical and laboratory methods 12 and novel analytic approaches. The PERCH Study was a multisite, case-control study of hospitalized children 1-59 months of age with severe and very severe pneumonia conducted at 9 sites in 7 countries, including 2 sites in Thailand. [13] [14] [15] PERCH sought to advance our understanding of childhood pneumonia etiology in the context of economic development, improvements in health status, and pneumonia-specific interventions 16 ; therefore, it included sites that would collectively be representative of the future epidemiologic environments. The Thailand site represents a setting expected to become more common as more countries advance in their development. Our study is a Thailand-specific analysis that provides a more detailed description of the pneumonia cases and etiology beyond the overall PERCH study findings 15 that informs and has implications for local treatment and prevention strategies. Thailand is an upper middle-income country with higher gross national income per capita 17 than most other PERCH sites, 13 although incomes in the study provinces are lower than incomes of Thailand overall; 2012 GDPs were approximately US $2000 in study provinces compared with >US $14,000 in Bangkok. 18 Thailand's health status indicators were better than other PERCH sites, including lower under 5 mortality (13.90/1000 live births) 19 and lower HIV incidence [0. 16 (0.15-0.18) per 1000 population all ages in 2012 20 ], achieved in part through a successful program for prevention of mother-to-child HIV transmission, which has virtually eliminated HIV among infants. 21 Primary health care services, including vaccination, are free for all Thais. 22 Thailand's National Vaccination Program did not include pneumococcal conjugate vaccine (PCV) or Haemophilus influenzae type b (Hib) conjugate vaccine during the study period. In 2010, Thailand's Advisory Committee on Immunization Practice expanded its influenza vaccination recommendations to include children 6-months-old to 2-years-old 23 and those with chronic illness, although vaccine uptake in young children has been limited. 24 PERCH enrollment in Thailand was conducted from 2012 to 2014 at Sa Kaeo Crown Prince Hospital (382 beds) and Nakhon Phanom Hospital (356 beds), each serving as a referral hospital for its province. Sa Kaeo and Nakhon Phanom border Cambodia and Lao PDR, respectively, have approximately 40,000 children <5-years-old each and consist of largely rural populations. We defined cases as children 1-59 months of age hospitalized with pre-2013 WHO defined severe or very severe pneumonia. 25, 26 Severe pneumonia was defined as having cough or difficulty breathing and lower chest wall indrawing; very severe pneumonia was defined as cough or difficulty breathing and at least one of the following: central cyanosis, difficulty breastfeeding/drinking, vomiting everything, convulsions, lethargy, unconsciousness or head nodding. Cases were excluded for hospitalization within the previous 14 days, having been discharged as a PERCH case within the past 30 days, not residing in the study catchment area or resolution of lower chest wall indrawing following bronchodilator therapy for those with wheeze. PERCH research nurses trained on standardized clinical assessments 27 performed case screening 24 hours per day/7 days per week. Community controls were randomly selected from comprehensive lists of children 1-59 months of age drawn from health services registries, which include virtually all children in each province. Controls were enrolled year-round and frequency matched to the age-group distribution of the cases on a monthly basis. We enrolled controls regardless of respiratory symptoms but excluded children with severe or very severe pneumonia; we chose not to exclude children with respiratory symptoms to have controls that are most representative of the general population and the least subject to selection bias. 28 We aimed to enroll 38 controls monthly (25 in Nakhon Phanom and 13 in Sa Kaeo) to ensure at least a 1.5:1 control:case ratio based on projected case enrollment. PERCH study staff at all sites underwent a standardized training in the clinical assessment of the child with cough or difficulty breathing, techniques for collection of NP/OP swabs and anthropometry. 27 Cases underwent a standardized clinical examination at admission and at 24 and at 48 hours. Controls were similarly assessed at enrollment. Malnutrition was defined as WHO weight-for-age Z score < −3 (severe) and ≥ −3 to < −2 (moderate). 29 For cases, a follow-up visit or phone interview was conducted 30 days postadmission (within a window of 21-90 days) to determine vital status. Chest Radiographs (CXRs) were obtained from cases at enrollment and interpreted by 2 members of a panel of radiologists and pediatricians trained in the WHO method 30, 31 and blinded to site and clinical factors. CXRs were classified as consolidation, other infiltrate, both, normal or uninterpretable; children with consolidation, other infiltrate or both were defined as having CXR+ pneumonia. Specimen collection procedures, laboratory testing methods and determination of pathogen-specific density thresholds have been described separately. [32] [33] [34] [35] [36] [37] In brief, blood and nasopharyngeal/ oropharyngeal (NP/OP) specimens were collected from cases and controls. A 33-pathogen multiplex quantitative PCR (FTD Resp-33, Fast Track Diagnostics, Sliema, Malta) and cultures were used to test NP/OP swabs (of cases and controls; cultures were done for Streptococcus pneumoniae alone). Blood samples were tested for S. pneumoniae by PCR for cases and controls and cultures were performed for cases only. All cases were tested for HIV by serum antibody assay, followed by PCR testing for antibody-positive cases <18 months of age. Due to the low prevalence of HIV in Thailand, controls were not tested for HIV. A single-induced sputum specimen was obtained from each case for Mycobacterium tuberculosis (MTB) culture. 12 Antibiotic use before specimen collection was determined by serum antibiotic activity, 38 by documented administration at study hospital or elsewhere, and by parental report. In general, pathogen positivity was determined according to the presence or absence of the pathogen, but for 4 pathogens with similar prevalence in cases and controls, positivity was defined using quantitative PCR density thresholds; these included S. pneumoniae (≥2.2 log 10 copies/mL) from whole blood 34, 35, 37 and S. pneumoniae (≥6.9 log 10 copies/mL), 35, 37 H. influenzae (≥5.9 log 10 copies/ mL), 34 cytomegalovirus (CMV, ≥4.9 log 10 copies/mL), Pneumocystis jirovecii (≥4 log 10 copies/mL) 34 from NP/OP and (CMV threshold analysis available from authors). 34, 35, 37 NP/OP PCR between cases and controls. ORs for the NP/OP prevalence of individual pathogens were also adjusted for the presence of the other pathogens detected (ie, to compare persons who are otherwise similar with respect to the other measured pathogens) because pathogens can be associated with each other and the presence of one can be influenced by the presence/absence of another. We also present results from the PERCH Integrated Analysis (PIA), the methods of which are described in detail elsewhere. 39 In brief, the PIA uses Bayesian latent variable analysis to estimate the etiologic distribution of pneumonia and the etiologic probability distribution of each individual case. The PIA integrates the results of blood cultures, pneumococcal whole blood PCR, TB tests and NP/OP PCR, while accounting for the specimen-and test-specific sensitivities and specificities and for the reduced sensitivity due to prior antibiotic use. 40, 41 In the PERCH study, the specificity of blood cultures and TB were assumed to be 100% and their sensitivity estimates were specified as a range. The sensitivity of TB was assumed to be 10%-30% and the sensitivity for blood culture for all other bacteria ranged from 5% to 50% (see reference 15 , Appendix Section III.B.6). The specificity of NP/OP PCR was estimated in the PIA model using the control prevalence; the sensitivity prior specified for all NP/OP PCR pathogens was the range 50%-90%, except for Salmonella species and Legionella species, which were 0.5%-90%. The sensitivity of whole-blood pneumococcal PCR was assumed to be 12%-65%. For every case, each pneumonia pathogen was assigned a probability for being the cause of the severe/very severe pneumonia episode with all probabilities adding to 1. The population-level estimate for each pathogen is the average of the individual case probabilities and has a 95% credible interval (95% CrI), the Bayesian analogue of the CI. The PIA assumes that a pneumonia event is caused by a single pathogen. For cases with multiple pathogens detected in silver standard measurements (blood cultures, lung aspirates or pleural fluid), the model cannot distinguish which one is the dominant cause and distributes the etiology probability equally across the pathogens detected. For cases who are negative by silver standard measurements, the cause is distributed across multiple pathogens according to the strength of evidence for each pathogen from other measurements (whether the pathogen was detected in multiple samples from the individual, the pathogen's prevalence among cases, the pathogen's OR and a priori assumptions regarding sensitivity and etiology). Analyses were performed using SAS 9.4 (SAS Institute, Cary, NC), R Statistical Software (The R Development Core Team, Vienna, Austria) and BAKER for the PIA analysis. 39 Parents or legal guardians of participants provided written informed consent in Thai. The study was approved by (1) We screened 14,551 children <5 years of age with cough or difficulty breathing (Fig. 1) . Of 248 eligible patients, 23 (9.3%) refused enrollment, 1 died before consent could be obtained and 224 (90.3%) were enrolled. Among 224 enrolled cases, 147 were from Nakhon Phanom and 77 from Sa Kaeo. One case was HIV-positive; subsequent analyses were limited to HIV-negative cases. Of 1185 randomly selected potential controls, 738 (62.3%) were screened; of these, 98.1% were eligible, of whom 90.3% (n = 659) enrolled ( Fig. 1 ). Among 223 HIV-negative PERCH cases, 98 (43.8%) had radiographically confirmed pneumonia (CXR+) ( Table 1) . Over half (53.3%) of all cases were between 6-and 23-months-old. Case households had lower monthly income than control households (P = 0.003), but we found no substantial differences in household size or maternal education. Cases were less likely than controls to be fully vaccinated for age for DTP (diphtheria, pertussis and tetanus) vaccine (P = 0.001). Only 1 of 182 cases and 2 of 442 controls that met Thailand's recommended criteria for influenza vaccination were vaccinated (P = 0.99). Only 2 cases and no controls received one or more doses of PCV (P = 0.98, not shown); 9 (4.2%) cases and 19 (2.9%) controls had received one or more doses of Hib vaccine (P = 0.39, not shown). Malnutrition (WHO weight-for-age Z-score lower than −2), was more common among all cases (27.0%) compared with controls (7.0%, P value <0.001) Thirty percent of cases had evidence of antibiotic treatment before blood collection compared with <2% of controls (P < 0.001). Symptoms of respiratory tract infections (RTIs) were common among controls (38.5%), but only 1.5% (n = 10) met the WHO definition for nonsevere pneumonia (ie, cough or difficulty Presence of antibiotics by serum, antibiotics at the referral hospital, clinician report of antibiotics before blood collection or antibiotics before blood collection based on time of blood collection and time of antibiotic administration. Only criterion applicable to controls is serum. h Respiratory tract illness defined as (1) cough and/or runny nose or (2) at least 1 of ear discharge, wheezing or difficulty breathing in the presence of either a temperature of ≥38°C within past 48 hours or a history of sore throat. i Duration of illness defined as number of days of cough, fever, difficulty breathing or wheeze, whichever is longest prior to date of admission. j Oxygen saturation <92% on room air at admission or oxygen requirement (if no room air reading available). breathing and tachypnea). Many (45.0%) of the RTIs among controls were defined by runny nose only. Danger signs, the defining criteria for very severe pneumonia, were present in 22.9% of cases (20.4% among CXR+ cases) with convulsions being most common (10.3% of all cases). Of very severe cases, many (33.3%) did not have a CXR available; of those with a CXR, 35.3% (12/34) had normal findings. CXR+ cases were not easily identifiable by other clinical characteristics. Hypoxemia, fever and tachypnea were only slightly more common among CXR+ cases than among cases overall (Table 1) . Prior hospital admission for pneumonia (35.7%) and previous asthma diagnosis (20.3%) were common among cases. Comorbidities were documented in 24.2% of cases (33.7% among CXR+ cases). Over 20% of cases were born before <37 weeks gestation, exceeding the 8.1% of controls born prematurely. Approximately 20% of cases had evidence of persistent severity indicated by the need for antibiotic change, mechanical ventilation, oxygen saturation <90% or the presence of danger signs 48 hours postadmission or by death (Table 1 ). Of 220 cases with known vital status by the 30-day follow-up, 9 (4.1%) died (3 died in hospital and 6 died within 30 days after discharge). Six of these 9 children had no danger signs at admission, 7 had at least 1 comorbidity (5 had developmental delay, 3 heart disease, 2 severe malnutrition, and 1 thalassemia), 5 were CXR+ while 4 had a normal CXR and 5 were <6 months old ( Five (2.2%) of the 223 HIV-uninfected cases had positive blood cultures (2 of 98 CXR+), 2 of which (M. catarrhalis and S. pyogenes) were also NP/OP PCR positive for influenza B (Table 2) . Bacteremic cases accounted for 2 (22%) of the 9 deaths. The one HIV+ case, which was not included in other analyses, had nontyphoidal Salmonella serogroup D isolated by blood culture. Three cases (1.3%; all CXR-normal) and 5 controls (0.8%) had S. pneumoniae detected by PCR in whole blood specimens (OR 1.77; 95% CI: 0.42, 7.50); none of the cases were CXR+. Two cases, from Sa Kaeo province, had MTB confirmed by induced sputum culture: one was a 3-year-old with no underlying conditions and cough for 5 days; the other was a 4-year-old with Down syndrome, atrial septal defect, congenital hypothyroidism (on therapy) and cough for 3 days. Both had crepitation on chest auscultation, no danger signs, CXR+ and positive NP/OP specimens for another pathogen (Mycoplasma pneumoniae, RSV) uncommonly (≤3%) found in controls. Each child had a grandparent with presumptive pulmonary tuberculosis. Over 96% of both cases and controls had at least 1 pathogen detected by NP/OP PCR (Table 3) , and multiple detections were common with 2 or more pathogens detected in 86% of cases and 88% of controls ( After screening all children 1-59 months of age presenting at 2 provincial hospitals in Thailand over a 2-year period and enrolling >90% (n = 224) of eligible severe and very severe pneumonia cases, RSV accounted for the greatest fraction of disease followed by TB. We estimated 34.6% (95% CrI: 22.2, 49.8) of the etiologic contribution to pneumonia among the 98 CXR+ cases was due to RSV and 10.4% (95% CrI: 1.6, 25.6) was due to TB. The etiologic contribution of other pathogens at the Thailand site is less clear due to the small number of cases, and the large 95% credible intervals reflect the uncertainty in the results. RSV NP/OP positivity in community controls was rare, lending credibility that RSV detection in cases provided strong evidence for RSV-associated pneumonia. In a previous evaluation of hospitalized ALRI cases in these same provinces, 20% had RSV detected in the NP (25% of CXR+ cases), 11 similar to the 23% in PERCH severe and very severe pneumonia cases (31% in CXR+ cases). RSV remains a leading cause of ALRI hospitalizations in Thailand, including clinically severe cases. The dominance of RSV was consistent across all PERCH sites in both Africa and Asia, providing compelling evidence for the importance of RSV across regions with varying access to care, overall disease burden and socioeconomic status. 15 We estimated that TB accounted for 10% (95% CI: 1.6, 26) of CXR+ severe and very severe pneumonia cases among children <5 years old in Thailand. This is higher than the observed 2% (n = 2) that tested positive by induced sputum culture, because the integrated analysis accounts for imperfect sensitivity of TB testing, by assuming 3.3-10 additional TB cases for every case of TB detected. The etiologic fraction of cases attributed to TB in other PERCH sites ranged from 1.8% (Kenya) to 14% (South Africa). 15 In routine care conditions, it is very unlikely that the 2 TB-positive cases would have been identified because the systematic collection of induced sputum and TB culture are not routinely done. Underdiagnosis of TB among adults has been demonstrated previously in this population, 42 and given the substantial difficulties with TB diagnosis among young children, 43 we presume even more so among children. In the cases with TB isolated, we cannot confirm whether TB was the cause of the acute pneumonia event, or an underlying infection predisposing to disease caused by another pathogen, since the cases were also NP/OP-positive for M. pneumoniae or RSV. Regardless of the role of TB in acute pneumonia, our findings support evaluation for TB among children hospitalized with respiratory illness in high-burden TB settings like Thailand. 44, 45 Rhinovirus had a low (4.5%; 95% CrI: <0.01-15.7) etiologic fraction estimate among CXR+ cases, but it was higher (16%; 95% CrI: 7.7-26) among all PERCH cases in these Thai sites, though credible intervals are overlapping. Detection of rhinovirus in the NP/ OP in children <5 years in PERCH (all cases: 19%; CXR+ cases: 15%) was similar to that in our prior work in this population where rhinovirus was detected in 18%-29% of children hospitalized with ALRI but also commonly detected among controls (12%-14%). 10, 11 Findings from PERCH and from previous studies indicate that rhinovirus may have a role in hospitalized respiratory illness in young Thai children but a less prominent role in radiographically confirmed pneumonia. 11 The PERCH case-control study design limits our ability to elucidate fully the potential causal role for rhinovirus. The NP/OP prevalence of parainfluenza and HMPV among cases in Thailand was lower than in most other PERCH sites (lower than all other sites for CXR+ cases). Previous work in this population found a slightly higher prevalence of parainfluenza virus among ALRI cases <5 years of age than we found in PERCH (serotypes 1-3: 9.1% vs. 5%) and similar prevalence of HMPV. Lower prevalence of both pathogens among outpatient controls in the previous work resulted in higher ORs compared with PERCH results. 11, 46 The higher parainfluenza and HMPV prevalence among PERCH controls may be attributable to increased sensitivity of newer PCR testing and the choice of control group. Influenza was uncommonly detected at any of the PERCH sites, including Thailand, but this contrasts with previous work in Thailand that identified influenza as a leading pathogen among ALRI cases. 46 It is important to note that our previous work was not limited to severe pneumonia or CXR+ pneumonia. Further, parainfluenza activity is cyclical, 47 and influenza activity varies substantially from year to year 8 ; influenza surveillance revealed relatively low activity from 2011 through 2013 in Thailand. 48, 50 Given there were only 98 CXR+ severe or very severe pneumonia cases in the 2-year study period, precise estimation of the etiologic fraction for individual bacteria was not possible. The observed 2%-3% blood culture positivity was consistent with previously reported positivity of 1.8% (145/7975) among children <5-years-old hospitalized with ALRI. 11 Among those ALRI cases, S. pneumoniae, nontyphoid Salmonella species, H. influenzae, Escherichia coli, Acinetobacter baumannii and S. aureus were the most common bacterial bloodstream infections. 11 However, positive blood cultures in the current study identified pathogens less commonly associated with childhood pneumonia, but inference from this finding is limited by small numbers; 3 of the 5 positive cultures occurred in children with comorbidities or prematurity. M. catarrhalis bacteremia, identified in 2 cases who were also positive for RSV or influenza B, has been described, albeit infrequently, in children with acute respiratory illness, including pneumonia. 52, 53 It is notable that no PERCH case had S. pneumoniae detected by blood culture despite the near lack of PCV use, and only 3 (0 CXR+) cases were blood positive by PCR. However, there is evidence that S. pneumoniae caused disease in children <5 years in these same provinces before, during and after the PERCH study period. Before PERCH, we observed an annual incidence of S. pneumoniae bacteremia hospitalizations of 11.1 per 100,000 persons (95% CI: 7.9, 15.1), which was likely substantially underestimated due to preculture antibiotic use. 52, 53 During PERCH (2012-2013), concurrent bloodstream infection surveillance in these provinces identified 6 cases of S. pneumoniae bacteremia in children <5 years of age, 3 of whom were screened for PERCH but did not meet the severe or very severe pneumonia criteria and 3 of whom were treated at hospitals not participating in PERCH. After PERCH ended, 10 children <5-years-old from Nakhon Phanom and Sa Kaeo provinces (8 at PERCH study hospitals) had S. pneumoniae bacteremia in 2014 and 9 in 2015, which translates to incidence rates of 11.6 and 10.5 per 100,000 for 2014 and 2015, respectively (unpublished data). Among persons ≥5 years, 121 pneumococcal bacteremia cases occurred in those 2 years in the study provinces. Similarly, there were 9 H. influenzae bacteremia cases among children <5-years-old in these provinces during the PERCH study period, but 5 were treated at other hospitals and the remaining 4 H. influenzae cases did not meet the enrollment criteria. This provides additional evidence that both S. pneumoniae and H. influenzae play important roles in pneumonia and severe disease among young children in Thailand. The lack of culture-confirmed pneumococcus among severe and very severe pneumonia cases in PERCH in Thailand is possibly due to good access to care and early antibiotic administration, which may help prevent more severe forms of pneumococcal disease. In the PERCH Study overall, antibiotic administration before blood culture collection was associated with a 45% reduction in culture yield. 38 Additionally, pneumococcal bacteremia is a relatively uncommon event in general, and given the insensitivity of blood culture, it would not be unusual to have periods with no positive cultures. It is also notable that approximately one-quarter of all Thailand cases (34% of CXR+ cases) had comorbidities, which is comparable with the 11%-34% with comorbidities at the other PERCH sites. Comorbidities were also an important contributing factor to fatalities in Thailand [78% (7/9) of fatal cases had a comorbidity; developmental delay (5/7) in particular], as was observed in other PERCH sites (range 44% in The Gambia and Zambia to 67%-80% in Mali, Kenya and Bangladesh). not allow us to delineate the order of organism acquisition or differentiate between nonpathogenic organisms that were present before symptom onset and organisms that were part of the causal chain for severe pneumonia hospitalization. Furthermore, the current PIA model estimates the contribution of single pathogens but not copathogen events. For cases with multiple organisms detected, the etiology for an individual case is distributed across the multiple organisms according to the strength of the evidence for each organism (ie, its prevalence among cases and its NP/OP PCR OR), a priori assumptions regarding sensitivity and specificity, and whether it was detected in one versus multiple specimens. 39 The etiologic contribution of some pathogens may be underestimated if they contributed to a coinfection, because the sum of the pathogen probabilities for an individual case must be 100%. In addition, although we enrolled cases over a 24-month period, there were an insufficient number of cases to evaluate seasonality for most pathogens so there is potential to under-or overestimate the importance of pathogens with periodic epidemics. Further, the 2 years of study enrollment may not have been representative of other years; in fact, Thailand, like many sites, observed fewer influenza cases than in nonstudy years. These issues apply to all PERCH Study sites, 15 but lower-than-expected enrollment in Thailand (224 enrolled vs. 500 expected) limited our ability to estimate precisely pathogen-specific etiologic fractions, especially when restricted to CXR+ or stratified by severity or age. Our expected sample size was largely based on observed numbers of hospitalized ALRI cases who received supplemental oxygen at these hospitals during prior years of pneumonia surveillance. 7 The previously observed high incidence of hospitalized ALRI (5772 per 100,000 child-years [95% CI: 5707, 5837]), 11 together with the relative infrequency of severe and very severe pneumonia and low case fatality, suggest that early access to care, including antibiotics, hospitalization and supplemental oxygen use likely results in a low proportion of children progressing to severe or very severe pneumonia. Previous healthcare utilization surveys in these provinces confirmed that the majority of children <5 years of age with ALRI were taken to hospital 7,54 and from 2006 to 2010, UNICEF estimated that 84% of Thai children <5 years of age with suspected pneumonia were taken to a health care provider. 55 In Thailand, RSV was the predominant pneumonia pathogen, as it was at all sites, accounting for approximately one-third of cases and confirming the urgent need to develop and evaluate new prevention strategies that are feasible to implement globally. The highly standardized PERCH study methods give us confidence that etiology differences are not the result of differences in study implementation practices but could be related to differences in access to care and early interventions, pathogen ecology or possibly biologic differences that increase or decrease susceptibility to certain pathogens. Despite differences, important similarities in etiology findings between Thailand and other PERCH sites suggest that global control strategies, including case management algorithms and immunization priorities, based on overall PERCH findings are relevant to Thailand and similar settings. 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