Complicated parapneumonic effusion in Belgian children: increased occurrence before routine pneumococcal vaccine implementation

Paediatric thoracic empyema in the tropical North Queensland region of Australia: Epidemiological trends over a decade

AIM

The Townsville Hospital and Health Service is the regional referral centre for children in the north of Queensland. Aboriginal and Torres Strait Islander (ATSI) people make up 7-10% of the population. Increasing numbers of children with paediatric thoracic empyema (pTE) are being referred to Townsville Hospital and Health Service for management. This study aims to describe the incidence rates, epidemiology, microbiology and trends of this disease in North Queensland over a 10-year period.

METHODS

A retrospective chart review of all children (1 month to 16 years), admitted in the years 2007-2016, with community-acquired pTE was conducted. International Classification of Diseases codes were used to identify the patients. Epidemiological and microbiological data were extracted from records.

RESULTS

Of the 123 cases identified, incidence rates per 100 000 were 8.5 (95% confidence interval (CI) 8.4-8.6) in all children and much higher at 19.8 (95% CI: 19.5-21.9) in ATSI children. The under 5 years age group had the highest rate (24.5; 95% CI: 24.4-24.6). There was a progressive rise in incidence during the 10-year period, with the highest incidence of 15.2 (95% CI: 15.1-15.2) occurring in 2016. A pathogen was isolated in 76% of cases. Non-multi-resistant methicillin-resistant Staphylococcus aureus was the most common pathogen isolated in 22 of 64 ATSI children (34%), while Streptococcus pneumoniae was the most common pathogen isolated in 27 of 59 non-ATSI children (46%).

CONCLUSIONS

A high and increasing incidence of pTE in North Queensland is being observed. ATSI children have higher incidence rates and are more likely to have non-multi-resistant methicillin-resistant Staphylococcus aureus as a causative agent.

Pneumococcal Vaccination and Pneumonia Associated With Pleural Effusion in a Pediatric Population

OBJECTIVE

The aim was to assess the effect of the nonsystematic pneumococcal conjugate vaccine (PCV) on incidence of pneumonia associated with parapneumonic pleural effusion (PPE) in vaccinated and unvaccinated children.

METHODS

Cases were patients <15 years of age who had been diagnosed with pneumonia associated with PPE in a tertiary hospital in Navarra (Spain) between 1995 and 2014. The population <15 years of age and covered by the public health service was used as reference. The vaccination status of the cases and population was obtained from computerized medical records. Logistic regression analyses included vaccination status, age group and time periods: prevaccine (1995-2001) and vaccination with PCV7 (2002-2010) and PCV13 (2011-2014).

RESULTS

A total of 321 cases of PPE were included. The risk of PPE increased between the prevaccine and PCV7 period (adjusted odds ratio [OR], 3.34; 95% confidence interval [CI]: 2.37-4.71), while vaccination with PCV7 was found to be an independent risk factor (OR, 1.44; 95% CI: 1.09-1.89) in the same analysis. In the PCV13 period, the risk of PPE returned to the prevaccination incidence level among children vaccinated with PCV13 (OR, 1.07; 95% CI: 0.56-2.04), while unvaccinated children (OR, 1.69; 95% CI: 0.96-2.98) and overall those vaccinated with PCV7 (OR, 3.64; 95% CI: 2.15-6.17) maintained an increased risk of PPE.

CONCLUSION

The nonsystematic introduction of PCV7 was followed by an increased incidence of PPE. The subsequent introduction of PCV13 was associated with a return to the incidence level in the prevaccine period, mainly in children vaccinated with PCV13.

Clinical outcome of parapneumonic empyema in children treated according to a standardized medical treatment

Treatment of parapneumonic empyema (PE) consists of intravenous antibiotics and, in case of large effusions and persisting fever, pleural chest drain (±intrapleural fibrinolytics) or video-assisted surgical intervention. We standardized the treatment for PE in our tertiary care center choosing a first-step nonsurgical approach. The aim was to evaluate the need for surgery and to collect data on disease course, outcome, and microbiology. For all children treated for PE between 2006 and 2013, data were prospectively collected concerning treatment, length of stay, duration of fever, complications, and causative agent. Of 132 children treated for PE, 20 % needed surgical intervention. Analyzed per year, the need for surgery decreased from almost 40 % in 2007 to 0 % in 2010 again increasing to 40 % although this did not reach statistical significance (p = 0.115). Median duration of "in-hospital fever" was 5 days (IQR, 3-8). The duration of fever correlated with pleural LDH (r = 0.324; p = 0.002) and pleural glucose (r = -0.248; p = 0.021) and was inversely correlated with pleural pH (r = -0.249; p = 0.046). Based on pleural PCR data, 85 % of PE were caused by Streptococcus pneumoniae (40 % serotype 1).

CONCLUSION

After introduction of a standardized primary medical approach (chest drain ± fibrinolysis) for PE in our institution, the need for surgical rescue interventions overall remained at 20 %, which is higher than in some other reports. Difference in microbiology or disease severity could not be proven.

Survey of hospital procedures for parapneumonic effusion in children highlights need for standardised management

AIM

This study sought to evaluate the initial management of children with parapneumonic effusion admitted to all French university hospitals.

METHODS

A nationwide survey of all 35 university hospitals took place in 2011 to assess practices for children with parapneumonic effusion, using a hypothetical clinical vignette and a standardised questionnaire. Two to four paediatricians per hospital were interviewed and asked about their initial management, probabilistic antibiotic therapy and its adaptation to microbiological results and subsequent course. Answers from paediatricians working in emergency departments, intensive care units and conventional paediatric units were compared.

RESULTS

Of the 100 paediatricians contacted, 95 responded. Of these, 98% would order an initial blood test, 70% would order diagnostic thoracentesis, and all would start immediate antibiotic therapy: 31% with a single drug, 67% with two drugs and 2% with three drugs. The most frequent initial choices were third-generation cephalosporin alone (17%) or combined with rifampicin (34%) or vancomycin (24%). Adaptation varied according to drug used, dose and duration, especially when the microorganism was not Streptococcus pneumoniae. Practices did not differ significantly among the different groups of paediatricians.

CONCLUSION

Standardised management of parapneumonic effusion, including routine thoracentesis and more consistent prescription of antibiotics, is needed.

Direct Streptococcus pneumoniae real-time PCR serotyping from pediatric parapneumonic effusions

Background

To determine the serotypes of Streptococcus pneumoniae responsible for pneumonia complicated by parapneumonic effusion in children, we performed real-time PCR based pneumococcal “serotyping” directly on parapneumonic fluid samples.

Methods

Specimens were collected at two children’s hospitals in Ontario, Canada from 2009 to 2011. Samples in which S. pneumoniae was detected by PCR were tested with serotype-specific 5′exonuclease PCR assays for the 13 serotypes contained in the 13-serotype pneumococcal vaccine.

Results

Thirty-five S. pneumoniae PCR-positive pleural samples were studied. Pneumococcal serotyping PCR assays were positive for 34 of 35 (97%). Serotype 3 was detected most frequently, in 19/35 (54%), followed by serotype 19A in 9/35 (26%), serotype 7 F/A in 4/35 (11%), serotype 1 in 1/35 (3%), and serotype 6A also in 1/35 (3%).

Conclusions

PCR testing demonstrated that the vast majority (97%) of S. pneumoniae parapneumonic effusions were caused by serotypes present in the 13-serotype vaccine that were not present in the original 7 serotype vaccine. This suggests that use of the 13-serotype vaccine could potentially prevent many S. pneumoniae pneumonias complicated by parapneumonic effusion in our region, provided serotype replacement does not occur.

Pediatric Pleural Empyema in the Province of Quebec: Analysis of a 10-Fold Increase Between 1990 and 2007

BACKGROUND

Although the frequency of pneumonia has decreased over time, an increase in pleural empyema has been observed in different settings worldwide. This study assessed the epidemiology of community-acquired pediatric pleural empyema in the province of Quebec through validation of cases found in a hospitalization discharge database.

METHODS

We used the national administrative database of hospitalization to identify children (6 months-14 years) hospitalized for pleural empyema or pleural effusion with drainage from January 1990 until December 2007 and reviewed their medical charts. Patients with pleural effusion secondary to chest trauma, thoracic surgery, malignancies, cardiac failure, or metabolic disorders were excluded.

RESULTS

Predictive positive value (PPV) of empyema code in any position among discharge diagnostics in the administrative database was 86.5% (95% confidence interval: 81.9%-90.3%). After chart revision, 292 met the inclusion criteria. Age-adjusted incidence of pleural empyema in the pediatric population increased from 0.23 in 1990 to 4.01/100,000 person-years in 2007. A bacterial pathogen was identified in 46.5%; Streptococcus pneumoniae (Sp) (42%) and S pyogenes (30%) were most frequent. There was no obvious change in the PPV and proportions of children with chronic disease or asthma and in identified pathogens over time, but an increase in pre-admission respiratory symptoms duration (from 3.8 days to 5.7) and nonsteroidal anti-inflammatory drug use (from 0% to 19%) was observed.

CONCLUSIONS

From 1990 to 2007, we observed a 10-fold increase in the incidence of pediatric hospitalizations associated with pleural empyema. This increase preceded the introduction of a pneumococcal conjugated vaccine program in Quebec. Sp remained the major pathogen identified.

The increasing incidence of empyema

PURPOSE OF REVIEW

The aim of this review is to highlight recent changes concerning the incidence of empyema. In this article we have focused on community-acquired empyema

RECENT FINDINGS

The incidence of empyema seems to have been increasing both in children and adults worldwide in the past decades, mainly in healthy young adults and in older patients. The bacteriology of pleural infection is changing as well. In children, the most common microorganism that causes empyema continues to be Streptococcus pneumoniae. Interestingly, the widespread use of the seven valent conjugate vaccine has produced a replacement phenomenon with the emergence of some pneumococcal serotypes such as serotypes 1, 3 and 19A, which have a higher propensity to cause empyema. Moreover increases in the incidence of empyema due to Staphylococcus aureus have also been observed. In adults, increases in the rate of empyema due to Streptococcus milleri group and S. aureus have been reported.

SUMMARY

Continued surveillance in the epidemiology of empyema is needed. Progress in new strategies of prevention, such as a new generation of conjugate pneumococcal vaccines and protein-based vaccines, could become an important step in the control of this important complication.

Why some children hospitalized for pneumonia do not consult with a general practitioner before the day of hospitalization

BACKGROUND

Early consultation in primary care may provide an opportunity for early intervention in children developing pneumonia, but little is known about why some children do not consult a general practitioner (GP) before hospitalization.

OBJECTIVES

To identify differences between children who consulted a GP and children who did not consult a GP before the day of hospital presentation with pneumonia or empyema.

METHODS

Carers of children aged six months to 16 years presenting to hospital with pneumonia or empyema completed a questionnaire, with a subset participating in an interview to identify physical, organizational and psychological barriers to consultation. Responses from those who had consulted a GP before the day of hospital presentation were compared with those who had not on a range of medical, social and environmental variables.

RESULTS

Fifty seven (38%) of 151 participants had not consulted a GP before the day of hospital presentation. On multivariate analysis, illness duration ≥ 3 days (odds ratio [OR] 4.36, 95% confidence interval [CI]: 1.67-11.39), prior antibiotic use (OR: 10.35, 95% CI: 2.16-49.55) and home ownership (OR: 3.17, 95% CI: 1.07-9.37) were significantly associated with early GP consultation (P < 0.05). Interviews with 28 carers whose children had not seen a GP before the day of presentation revealed that most had not considered it and/or did not think their child's initial symptoms were serious or unusual; 11 (39.3%) had considered consulting a GP but reported barriers to access.

CONCLUSION

Lack of early GP consultation was strongly associated with rapid evolution of pneumonia.

The burden of childhood pneumonia in the developed world: a review of the literature

BACKGROUND

Estimates of the disease burden from childhood pneumonia are available for most developed countries, but they are based mainly on models. Measured country-specific pneumonia burden data are limited to a few nations and differ in case definitions and case ascertainment methods. This review describes pneumonia disease burden in developed countries.

METHODS

We reviewed studies describing childhood pneumonia incidence in North America, Europe, Australia, New Zealand and Japan. Available estimates suggest that each year in developed countries there are up to 2.6 million cases of pneumonia, including 1.5 million hospitalized cases and around 3000 pneumonia deaths (compared with approximately 640 annual deaths from meningitis) in children <5 years of age.

RESULTS

Data to inform policy decisions would be improved by information on burden and etiology of severe pneumonia, population-based incidence of ambulatory visits and hospitalizations and prevalence of complications and sequelae.

Carers' perspectives on the presentation of community-acquired pneumonia and empyema in children: a case series

OBJECTIVE

To describe carers' perceptions of the development and presentation of community-acquired pneumonia or empyema in their children.

DESIGN

Case series.

SETTING

Seven hospitals with paediatric inpatient units in South Wales, UK.

PARTICIPANTS

Carers of 79 children aged 6 months to 16 years assessed in hospital between October 2008 and September 2009 with radiographic, community-acquired pneumonia or empyema.

METHODS

Carers were recruited in hospital and participated in a structured face-to-face or telephone interview about the history and presenting features of their children's illnesses. Responses to open questions were initially coded very finely and then grouped into common themes. Cases were classified into two age groups: 3 or more years and under 3 years.

RESULTS

The reported median duration of illness from onset until the index hospital presentation was 4 days (IQR 2-9 days). Pain in the torso was reported in 84% of cases aged 3 or more years and was the most common cause for carer concern in this age group. According to carer accounts, clinicians sometimes misjudged the origin of this pain. Almost all carers reported something unusual about the index illness that had particularly concerned them-mostly non-specific physical symptoms and behavioural changes.

CONCLUSIONS

Pain in the torso and carer concerns about unusual symptoms in their child may provide valuable additional information in a clinician's assessment of the risk of pneumonia in primary care. Further research is needed to confirm the diagnostic value of these features.

Parapneumonic empyema in children before the era of pneumococcal vaccination

BACKGROUND

During the past two decades, the incidence of paediatric empyema has increased in many countries.

PURPOSE

The aim of this retrospective hospital chart review was to evaluate the incidence, aetiology and clinical and laboratory characteristics of parapneumonic empyema in children.

SUBJECTS AND METHODS

Twenty-one patients were admitted to a university hospital from the area with a population of 84,000 children in 1991-2009.

RESULTS

The annual incidence of parapneumonic empyema was 1.6/100,000 children in 1991-1998, 0.2/100,000 children in 1999-2005 and 2.7/100,000 children in 2006-2009. Bacterial aetiology was identified in 52% of the cases, and pneumococcus caused 45% of the cases with bacterial aetiology detected. The clinical and laboratory findings in children with and without pleural effusion on admission were surprisingly similar. The development of empyema in hospital during antibiotic therapy was associated with persistent fever and serum C-reactive protein (CRP) >200 mg/L for 48 h after admission.

CONCLUSION

The incidence of parapneumonic empyema in children fluctuated but in the long run, increased in 1991-2009. Pneumococcus caused half of the cases with bacterial diagnosis available. Since 2010, pneumococcal vaccination has belonged to the general vaccination programme, and the effect on the incidence of empyema remains to be seen.

Pleural infection: changing bacteriology and its implications

The incidence of pleural infection continues to rise worldwide. Identifying the causative organism(s) is important to guide antimicrobial therapy. The bacteriology of pleural infection is complex and has changed over time. Recent data suggest that the bacterial causes of empyema are significantly different between adult and paediatric patients, between community-acquired and nosocomial empyemas and can vary among geographical regions of the world. Since the introduction of pneumococcal vaccines, a change has been observed in the distribution of the serotypes of Streptococcus pneumoniae in empyema. These observations have implications on therapy and vaccine strategies. Clinicians need to be aware of the local bacteriology of empyema in order to guide antibiotic treatment.

Pediatric complicated pneumonia and pneumococcal serotype replacement: trends in hospitalized children pre and post introduction of routine vaccination with Pneumococcal Conjugate Vaccine (PCV7)

Recent studies have described an increase in the incidence of complicated pneumonia in children, primarily caused by Streptococcus pneumoniae. The objective of this study was to determine if the incidence of complicated pneumonias in total and due to different pneumococcal serotypes has changed following the introduction of routine immunization with heptavalent pneumococcal conjugate vaccine (PCV7). A retrospective review of patients admitted to the Stollery Children's Hospital in Edmonton, Alberta with complicated pneumonia between July 1, 1997 and June 30, 2007 (5 years before and after the introduction of PCV7) was completed. There were 34 children in the pre- and 68 in the post-PCV7 era (14.31 and 19.91 per 10,000 discharges, respectively, p = 0.114). Patient characteristics were not significantly different, and pneumococcus was the most common organism isolated (pre: 21% (7/34); post: 26% (18/68), p = 0.515). In patients where serotype data was available, non-vaccine pneumococcal serotypes accounted for 67% (12/18) cases in the post-PVC7 era versus 14% (1/7) in the pre-PCV7 era (p = 0.031). The incidence of non-vaccine serotypes was 0.42 and 3.51 per 10,000 discharges in the pre- and post-PCV7 eras, respectively (p = 0.020). There has been a non-significant trend towards an increase in the incidence of complicated pneumonia following the introduction of PCV7. S. pneumoniae remains the predominant organism identified with non-vaccine serotypes now accounting for almost all cases. Although it is not clear if this increase is attributable to the use of PCV7, expanding pneumococcal serotype coverage has the potential to prevent complicated pneumonia.

10-valent pneumococcal nontypeable Haemophilus influenzae PD conjugate vaccine: Synflorix

The global burden of disease due to Streptococcus pneumoniae remains high. The licensed 7-valent pneumococcal conjugate vaccine (7vCRM, Prevenar/Prevnar) has successfully reduced invasive disease in the USA, but serotype coverage is incomplete and some evidence suggests that serotype replacement has occurred. Recently, a new 10-valent pneumococcal nontypeable Haemophilus influenzae (NTHi) protein D (PD) conjugate vaccine (PHiD-CV, Synflorix) has been licensed in more than 40 countries, including Europe, for the prevention of invasive disease and acute otitis media (AOM) due to pneumococcus in infants and children. PHiD-CV is immunogenic in infants when administered as a three-dose primary vaccination in a range of schedules and has a safety profile comparable to that of 7vCRM. Additional serotypes in PHiD-CV (1, 5 and 7F) increase overall serotype coverage and improve coverage in specific age groups and against specific disease syndromes. The use of the PD carrier, which provided protection against AOM caused by NTHi in a large efficacy trial testing a prototype of the final vaccine formulation, suggests that PHiD-CV will also provide some protection against AOM due to NTHi.

Clinical practice: treatment of childhood empyema

INTRODUCTION

The incidence of empyema in children is increasing. Adequate knowledge of treatment modalities is therefore essential for every pediatrician. At the university hospital of Leuven, the incidence per 100,000 admissions increased from 40 in 1993 to 120 in 2005. The treatment of choice, however, is still a matter of debate. This is mainly due to the scarcity of prospective randomized trials in children but is further complicated by the absence of uniform terminology. This review starts with clarifying definitions of empyema and complicated versus noncomplicated parapneumonic effusion. The place of different imaging techniques--ultrasound, chest X-ray, computerized tomography and magnetic resonance imaging--is illustrated. All treatment steps are evaluated starting with antibiotic choices, duration of i.v. and oral antibiotics, pleural fluid analysis, indications for chest drain placement, and fibrinolysis. As to the surgical interventions, there is at present insufficient evidence that early surgery is superior to noninvasive medical treatment. Therefore, video-assisted thoracoscopy cannot be advised as general first-line therapy.

CONCLUSION

Since the pathogenicity of empyema is a dynamic process, therapeutic strategy must be decided based on empyema stage and clinical experience. Each referral center should agree on a diagnostic and therapeutic flowchart based on current evidence and local expertise. The flow chart outlined for our center is presented.