Costs of treating children with complicated pneumonia: a comparison of primary video-assisted thoracoscopic surgery and chest tube placement

Probabilistic Graphical Models for Evaluating the Utility of Data-Driven ICD Code Categories in Pediatric Sepsis

Electronic health records (EHRs) are information systems designed to collect and manage clinical data in order to support various clinical activities. They have emerged as valuable sources of data for outcomes research, offering vast repositories of patient information for analysis. Definitions for pediatric sepsis diagnosis are ambiguous, resulting in delayed diagnosis and treatment, highlighting the need for precise and efficient patient categorizing techniques. Nevertheless, the use of EHRs in research poses challenges. Although EHRs were originally created to document patient encounters, the medical coding was designed to satisfy billing requirements. As a result, EHR data may lack granularity, potentially leading to misclassification and incomplete representation of patient conditions. We compared data-driven ICD code categories to chart review using probabilistic graphical models (PGMs) due to their ability to handle uncertainty and incorporate prior knowledge. Overall, this paper demonstrates the potential of using PGMs to address these challenges and improve the analysis of ICD codes for sepsis outcomes research.

Infective Pleural Effusions-A Comprehensive Narrative Review Article

Infective pleural effusions are mainly represented by parapneumonic effusions and empyema. These conditions are a spectrum of pleural diseases that are commonly encountered and carry significant mortality and morbidity rates reaching upwards of 50%. The causative etiology is usually an underlying bacterial pneumonia with the subsequent seeding of the infectious culprit and inflammatory agents to the pleural space leading to an inflammatory response and fibrin deposition. Radiographical evaluation through a CT scan or ultrasound yields high specificity and sensitivity, with features such as septations or pleural thickening indicating worse outcomes. Although microbiological yields from pleural studies are around 56% only, fluid analysis assists in both diagnosis and prognosis by evaluating pH, glucose, and other biomarkers such as lactate dehydrogenase. Management centers around antibiotic therapy for 2-6 weeks and the drainage of the infected pleural space when the effusion is complicated through tube thoracostomies or surgical intervention. Intrapleural enzymatic therapy, used to increase drainage, significantly decreases treatment failure rates, length of hospital stay, and surgical referrals but carries a risk of pleural hemorrhage. This comprehensive review article aims to define and delineate the progression of parapneumonic effusions and empyema as well as discuss pathophysiology, diagnostic, and treatment modalities with aims of broadening the generalist's understanding of such complex disease by reviewing the most recent and relevant high-quality evidence.

From Bedside to the Bench—A Call for Novel Approaches to Prognostic Evaluation and Treatment of Empyema

Empyema, a severe complication of pneumonia, trauma, and surgery is characterized by fibrinopurulent effusions and loculations that can result in lung restriction and resistance to drainage. For decades, efforts have been focused on finding a universal treatment that could be applied to all patients with practice recommendations varying between intrapleural fibrinolytic therapy (IPFT) and surgical drainage. However, despite medical advances, the incidence of empyema has increased, suggesting a gap in our understanding of the pathophysiology of this disease and insufficient crosstalk between clinical practice and preclinical research, which slows the development of innovative, personalized therapies. The recent trend towards less invasive treatments in advanced stage empyema opens new opportunities for pharmacological interventions. Its remarkable efficacy in pediatric empyema makes IPFT the first line treatment. Unfortunately, treatment approaches used in pediatrics cannot be extrapolated to empyema in adults, where there is a high level of failure in IPFT when treating advanced stage disease. The risk of bleeding complications and lack of effective low dose IPFT for patients with contraindications to surgery (up to 30%) promote a debate regarding the choice of fibrinolysin, its dosage and schedule. These challenges, which together with a lack of point of care diagnostics to personalize treatment of empyema, contribute to high (up to 20%) mortality in empyema in adults and should be addressed preclinically using validated animal models. Modern preclinical studies are delivering innovative solutions for evaluation and treatment of empyema in clinical practice: low dose, targeted treatments, novel biomarkers to predict IPFT success or failure, novel delivery methods such as encapsulating fibrinolysin in echogenic liposomal carriers to increase the half-life of plasminogen activator. Translational research focused on understanding the pathophysiological mechanisms that control 1) the transition from acute to advanced-stage, chronic empyema, and 2) differences in outcomes of IPFT between pediatric and adult patients, will identify new molecular targets in empyema. We believe that seamless bidirectional communication between those working at the bedside and the bench would result in novel personalized approaches to improve pharmacological treatment outcomes, thus widening the window for use of IPFT in adult patients with advanced stage empyema.

Pediatric empyemas - Has the pendulum swung too far?

BACKGROUND

The management of childhood empyemas has transformed over the past decade, with current trends favoring chest tube placement and intrapleural fibrinolytic therapy. Although this strategy often avoids the need for video-assisted thoracoscopic surgery (VATS), hospital length of stay can be long.

METHODS

To characterize national trends and outcomes associated with empyema management, the Pediatric Health Information System (PHIS) database was queried to identify children (2 months-18 years) treated for an empyema between January 2010 and December 2017. The cohort was divided into those treated with primary VATS and those treated with chest tube and intrapleural fibrinolysis. Number of chest radiographic studies obtained, frequency of pediatric intensive care unit (PICU) admission, mechanical ventilation requirements, and length of hospitalization were compared between groups.

RESULTS

A total of 3,365 otherwise healthy children met inclusion criteria. Among them, 523 (16%) were managed with primary VATS and 2,842 (84%) were managed with chest tube and fibrinolytic therapy. Of those who were treated with chest tube and fibrinolysis, 193 (6.8%) subsequently underwent VATS. The percentage of children treated with chest tube and fibrinolysis increased from 65% in 2010 to 95% in 2017 (p<0.001). After adjusting for age, race, ethnicity, payer, and region, children who underwent primary VATS received fewer chest radiographic studies, were less likely to be admitted to the PICU or require mechanical ventilation and had a shorter PICU and hospital length of stay compared to those who were treated with chest tube and fibrinolytic therapy (p<0.001 for all analyses).

DISCUSSION

Although national trends favor chest tube and fibrinolysis, primary VATS are associated with a shorter hospital and PICU length of stay and a lower requirement for mechanical ventilation. Future studies should aim to risk stratify children who may suffer from a protracted course with the goal to offer primary VATS to this subset of children and return them to normal life more expeditiously.

LEVEL OF EVIDENCE

III.

American Thoracic Society 2019 Pediatric Core Curriculum

The American Thoracic Society Pediatric Core Curriculum updates clinicians annually in pediatric pulmonary disease in a 3 to 4 year recurring cycle of topics. The 2019 course was presented in May during the Annual International Conference. An American Board of Pediatrics Maintenance of Certification module and a continuing medical education exercise covering the contents of the Core Curriculum can be accessed online at www.thoracic.org.

Trends in Hospital Treatment of Empyema in Children in the United States

OBJECTIVE

To evaluate trends in procedures used to treat children hospitalized in the US with empyema during a period that included the release of guidelines endorsing chest tube placement as an acceptable first-line alternative to video-assisted thoracoscopic surgery.

STUDY DESIGN

We used National Inpatient Samples to describe empyema-related discharges of children ages 0-17 years during 2008-2014. We evaluated trends using inverse variance weighted linear regression and characterized treatment failure using multivariable logistic regression to identify factors associated with having more than 1 procedure.

RESULTS

Empyema-related discharges declined from 3 in 100 000 children to 2 in 100 000 during 2008-2014 (P = .04, linear trend). There was no significant change in the proportion of discharges having 1 procedure (66.1% to 64.1%) or in the proportion having 2 or more procedures (22.1% to 21.6%). The proportion coded for video-assisted thoracoscopic surgery as the only procedure declined (41.4% to 36.2%; P = .03), and the proportions coded for 1 chest tube (14.6% to 20.9%; P = .04) and 2 chest tube procedures (0.9% to 3.5%; P < .01) both increased. The median length of stay for empyema-related discharges remained unchanged (9.3 days to 9.8 days; P = .053). Having more than 1 procedure was associated with continuous mechanical ventilation (adjusted OR, 2.7; 95% CI, 1.8-4.1) but not with age, sex, payer, chronic conditions, transfer admission, hospital size, or census region.

CONCLUSIONS

The use of video-assisted thoracoscopic surgery to treat children in the US hospitalized with empyema seems to be decreasing without associated increases in length of stay or need for additional drainage procedures.

Videothoracoscopic surgery before and after chest tube drainage for children with complicated parapneumonic effusion

OBJECTIVES

To evaluate the effectiveness of videothoracoscopic surgery in the treatment of complicated parapneumonic pleural effusion and to determine whether there is a difference in the videothoracoscopic surgery outcome before or after the chest tube drainage.

METHODS

The medical records of 79 children (mean age 35 months) undergoing videothoracoscopic surgery from January 2000 to December 2011 were retrospectively reviewed. The same treatment algorithm was used in the management of all patients. Patients were divided into two groups: in group 1, videothoracoscopic surgery was performed as the initial procedure; in group 2, videothoracoscopic surgery was performed after previous chest tube drainage.

RESULTS

Videothoracoscopic surgery was effective in 73 children (92.4%); the other six (7.6%) needed another procedure. Sixty patients (75.9%) were submitted directly to videothoracoscopic surgery (group 1) and 19 (24%) primarily underwent chest tube drainage (group 2). Primary videothoracoscopic surgery was associated with a decrease of hospital stay (p=0.05), time to resolution (p=0.024), and time with a chest tube (p<0.001). However, there was no difference between the groups regarding the time until fever resolution, time with a chest tube, and the hospital stay after videothoracoscopic surgery. No differences were observed between groups regarding the need for further surgery and the presence of complications.

CONCLUSIONS

Videothoracoscopic surgery is a highly effective procedure for treating children with complicated parapneumonic pleural effusion. When videothoracoscopic surgery is indicated in the presence of loculations (stage II or fibrinopurulent), no difference were observed in time of clinical improvement and hospital stay among the patients with or without chest tube drainage before videothoracoscopic surgery.

Parapneumonic pleural effusion: early versus late thoracoscopy

Objective:

To evaluate the best time to perform thoracoscopy for the treatment of complicated parapneumonic pleural effusion in the fibrinopurulent phase in patients ≤ 14 years of age, regarding the postoperative evolution and occurrence of complications.

Methods:

This was a retrospective comparative study involving patients with parapneumonic pleural effusion presenting with septations or loculations on chest ultrasound who underwent thoracoscopy between January of 2000 and January of 2013. The patients were divided into two groups: early thoracoscopy (ET), performed by day 5 of hospitalization; and late thoracoscopy (LT), performed after day 5 of hospitalization.

Results:

We included 60 patients, 30 in each group. The mean age was 3.4 years; 28 patients (46.7%) were male; and 47 (78.3%) underwent primary thoracoscopy (no previous simple drainage). The two groups were similar regarding gender, age, weight, and type of thoracoscopy (p > 0.05 for all). There was a significant difference between the ET and the LT groups regarding the length of the hospital stay (14.5 days vs. 21.7 days; p < 0.001). There were also significant differences between the groups regarding the duration of fever in days; the total number of days from admission to the initiation of drainage; and the total number of days with the drain in place. Eight patients (13.6%) had at least one post-thoracoscopy complication, there being no difference between the groups. There were no deaths.

Conclusions:

Performing ET by day 5 of hospitalization was associated with shorter hospital stays, shorter duration of drainage, and shorter duration of fever, although not with a higher frequency of complications, requiring ICU admission, or requiring blood transfusion.

Complicated community acquired pneumonia in childhood: Different types, clinical course, and outcome

The incidence of pediatric community acquired complicated pneumonia (PCACP) is increasing. Questions addressed: Are different types of PCACP one disease? How do different treatment protocols affect the outcome?

METHODS

Retrospective analysis of medical records of PCACP hospitalizations in the three major hospitals in Jerusalem in the years 2001-2010 for demographics, clinical presentation, management, and outcome.

RESULTS

Of the 144 children (51% aged 1-4 years), 91% of Jewish origin; 40% had para-pneumonic effusion (PPE), 40% empyema (EMP), and 20% necrotizing pneumonia (NP). Bacterial origin was identified in 42% (empyema 79%, P = 0.009), most common S. pneumoniae (32%), group A streptococcus (9%). Patients with EMP, compared to PPE and NP, were less likely to receive prior antibiotic treatment (35% vs. 57% and 59%, respectively, P = 0.04). Mean hospitalization was longer in patients with NP followed by EMP and PPE (16.4 ± 10.6, 15.2 ± 7.9, and 12.7 ± 4.7 days, respectively), use of fibrinolysis was not associated with the outcome. All children had recovered to discharge regardless of antibiotic therapy or fibrinolysis.

ANSWER

NP is a more severe disease with prolonged morbidity and hospitalization in spite of prior antibiotic treatment. All types had favorable outcome regardless of treatment-protocol. Complicated pneumonia has an ethnic predominance. Pediatr Pulmonol. 2017;52:247-254. © 2016 Wiley Periodicals, Inc.

Nonsteroidal Anti-Inflammatory Drug without Antibiotics for Acute Viral Infection Increases the Empyema Risk in Children: A Matched Case-Control Study

OBJECTIVE

To investigate the risk factors of empyema after acute viral infection and to clarify the hypothesized association(s) between empyema and some viruses and/or the use of nonsteroidal anti-inflammatory drugs (NSAIDs).

STUDY DESIGN

A case-control study was conducted in 15 centers. Cases and controls were enrolled for a source population of children 3-15 years of age with acute viral infections between 2006 and 2009.

RESULTS

Among 215 empyemas, 83 cases (children with empyema and acute viral infection within the 15 preceding days) were included, and 83 controls (children with acute viral infection) were matched to cases. Considering the intake of any drug within 72 hours after acute viral infection onset and at least 6 consecutive days of antibiotic use and at least 1 day of NSAIDs exposure, the multivariable analysis retained an increased risk of empyema associated with NSAIDs exposure (aOR 2.79, 95% CI 1.4-5.58, P = .004), and a decreased risk associated with antibiotic use (aOR 0.32, 95% CI 0.11-0.97, P = .04). The risk of empyema associated with NSAIDs exposure was greater for children not prescribed an antibiotic and antibiotic intake diminished that risk for children given NSAIDs.

CONCLUSIONS

NSAIDs use during acute viral infection is associated with an increased risk of empyema in children, and antibiotics are associated with a decreased risk. The presence of antibiotic-NSAIDs interaction with this risk is suggested. These findings suggest that NSAIDs should not be recommended as a first-line antipyretic treatment during acute viral infections in children.

Lack of concordance in parapneumonic effusion management in children in central Europe

Treatment of parapneumonic effusion in children remains controversial in the literature and in clinical practice. The aim of this study was to determine whether mutual consensus exists in the diagnosis and treatment of parapneumonic effusion in Central European countries. A questionnaire was sent to all directors of pediatric respiratory units in four adjacent Central European countries (Austria, France, Germany, Switzerland). The response rate was 61.8%. Responses reflected acceptable agreement regarding initial diagnostic procedures, as most centers performed chest X-ray and biological exams, followed by ultrasound, thoracocentesis, or computed tomography. However, antibiotic regimens were very heterogeneous, and the survey revealed complete lack of agreement on the indications and effusion volume threshold for invasive procedures, such as fibrinolytic instillation and thoracoscopy. In conclusion, apart from initial diagnostic procedures, this study showed a lack of mutual consensus among the four countries regarding the management of pediatric parapneumonic effusion. Multicenter prospective trials are clearly needed to acquire more evidence on the management of childhood parapneumonic effusion, enabling the development of evidence-based algorithms that could help to avoid unnecessary examinations with potential long-term side effects, such as radiation exposure at a young age.

Quality assessment of economic evaluation studies in pediatric surgery: a systematic review

PURPOSE

To assess economic evaluation studies (EES) in pediatric surgery and to identify potential factors associated with high-quality studies.

METHODS

A systematic review of the literature using PubMed and Cochrane databases was conducted to identify EES in pediatric surgery published between 1 June 1993 and 30 June 2013. Assessment criteria are derived from the Drummond checklist. A high quality study was defined as a Drummond score ≥7. Logistic regression analysis was used to determine factors associated with high quality studies.

RESULTS

119 studies were included. 43.7% (n=52) of studies were full EES. Cost-effectiveness analysis was the most frequent (61.5%) type of full EES. Only 31.6% of studies had a Drummond score ≥7 and 73% of these were full EES. The factors associated with high quality were identification of costs (OR: 14.08; 95% CI: 3.38-100; p<0.001), estimation of utility value (OR: 8.13; 95% CI: 2.02-43.47; p=0.005) and study funding (OR: 3.50; 95% CI: 1.27-10.10; p=0.02).

CONCLUSION

This review shows that the number and the quality of EES are low despite the increasing number of studies published in recent years. In the current context of budget constraints, our results should encourage pediatric surgeons to focus more on EES.

[Community acquired pneumonia in children: Treatment of complicated cases and risk patients. Consensus statement by the Spanish Society of Paediatric Infectious Diseases (SEIP) and the Spanish Society of Paediatric Chest Diseases (SENP)]

The incidence of community-acquired pneumonia complications has increased during the last decade. According to the records from several countries, empyema and necrotizing pneumonia became more frequent during the last few years. The optimal therapeutic approach for such conditions is still controversial. Both pharmacological management (antimicrobials and fibrinolysis), and surgical management (pleural drainage and video-assisted thoracoscopic surgery), are the subject of continuous assessment. In this paper, the Spanish Society of Paediatric Infectious Diseases and the Spanish Society of Paediatric Chest Diseases have reviewed the available evidence. Consensus treatment guidelines are proposed for complications of community-acquired pneumonia in children, focusing on parapneumonic pleural effusion. Recommendations are also provided for the increasing population of patients with underlying diseases and immunosuppression.

Pediatric complex chronic conditions classification system version 2: updated for ICD-10 and complex medical technology dependence and transplantation

BACKGROUND

The pediatric complex chronic conditions (CCC) classification system, developed in 2000, requires revision to accommodate the International Classification of Disease 10th Revision (ICD-10). To update the CCC classification system, we incorporated ICD-9 diagnostic codes that had been either omitted or incorrectly specified in the original system, and then translated between ICD-9 and ICD-10 using General Equivalence Mappings (GEMs). We further reviewed all codes in the ICD-9 and ICD-10 systems to include both diagnostic and procedural codes indicative of technology dependence or organ transplantation. We applied the provisional CCC version 2 (v2) system to death certificate information and 2 databases of health utilization, reviewed the resulting CCC classifications, and corrected any misclassifications. Finally, we evaluated performance of the CCC v2 system by assessing: 1) the stability of the system between ICD-9 and ICD-10 codes using data which included both ICD-9 codes and ICD-10 codes; 2) the year-to-year stability before and after ICD-10 implementation; and 3) the proportions of patients classified as having a CCC in both the v1 and v2 systems.

RESULTS

The CCC v2 classification system consists of diagnostic and procedural codes that incorporate a new neonatal CCC category as well as domains of complexity arising from technology dependence or organ transplantation. CCC v2 demonstrated close comparability between ICD-9 and ICD-10 and did not detect significant discontinuity in temporal trends of death in the United States. Compared to the original system, CCC v2 resulted in a 1.0% absolute (10% relative) increase in the number of patients identified as having a CCC in national hospitalization dataset, and a 0.4% absolute (24% relative) increase in a national emergency department dataset.

CONCLUSIONS

The updated CCC v2 system is comprehensive and multidimensional, and provides a necessary update to accommodate widespread implementation of ICD-10.

Treatment trends and outcomes in US hospital stays of children with empyema

BACKGROUND

Recently published practice guidelines continue to reflect uncertainty about the comparative effectiveness of various treatments for empyema in children. We describe treatment trends and outcomes in pediatric empyema using the most current nationally representative data.

METHODS

Using survey methods and Kids' Inpatient Databases from 1997 to 2009, we evaluated hospital stays in children 0-18 years of age. We used 2009 data to compare transfer-out rates and lengths of stay across various types of treatment, after adjusting for patient and hospital factors.

RESULTS

From 1997 to 2009, empyema discharges steadily increased from 3.1 to 6.0 per 100,000 children (P < 0.001 for trend) and also were increasingly likely (P < 0.01) to be coded for: (1) at least 1 pleural drainage procedure (76.4-83.2%), (2) multiple drainage procedures (36.0-41.6%) and (3) home health care (8.7-15.0%). By 2009, video-assisted thoracoscopic surgery was more commonly coded than chest tube drainage and was associated with a lower transfer-out rate (0.6% vs. 10.1%, adjusted P < 0.001) but no reduction in mean length of stay [11.2 vs. 13.4 days, adjusted incidence rate ratio 0.95 (95% confidence interval: 0.88-1.04)] for children neither admitted nor discharged by transfer.

CONCLUSIONS

US hospital stays for empyema in children not only continued to increase through 2009 but were also characterized by more intense procedural management. Outcomes results in this population-based study are consistent with practice guidelines and recommendations that recently endorsed chest tube drainage as an acceptable first treatment option for most children with empyema.

VATS: first step in the parapneumonic empyema*

Pneumonia is a common cause of pediatric hospitalization and almost 50% of children hospitalized for pneumonia develops meta pneumonic pleural effusion, most of which resolve spontaneously (1). The meta pneumonic effusion remains a major source of morbidity and mortality in the pediatric population and is a complication on the rise in both the U.S. (2) and Europe (3-6). There is no uniformity of treatment of the meta pneumonic effusion in its early stages and are still questioning some aspects of proper management, remains uncertain and not always shared the operative timing (7). The treatment options are represented, in combination with antibiotic therapy, the thoracentesis (8), the positioning of one or more pleural drainage (9), fibrinolytic therapy (10), the toilet of the pleural cavity by means of video-assisted thoracoscopic surgery (VATS) (11) or "open" with thoracotomy (12) or traditional mini thoracotomy. We report our experience concerning the processing of meta pneumonic effusion, suggesting how the video thoracoscopy may be the treatment of choice in the early stages of the disease.

Management of pleural empyema with single-port video-assisted thoracoscopy

OBJECTIVE

The aim of this study was to evaluate the safety and efficacy of an original technique of single-port video-assisted thoracoscopy (S-VATS) for the minimally invasive treatment of pleural empyema in fibrinopurulent stage.

METHODS

Single-port video-assisted thoracoscopy was performed under general anesthesia and single-lung ventilation using a 2-cm incision after ultrasound localization of the projected midpoint of the pleural effusion. Through the single access, a video scope and standard thoracoscopy instruments were simultaneously introduced to perform debridement and lavage of the pleural cavity. Postoperatively, patients underwent continuous or intermittent pleural irrigation through the chest tube until microbiological confirmation of sterility of the pleural fluid.

RESULTS

Between November 2004 and December 2009, a total of 61 patients underwent S-VATS for pleural empyema in stage I (7%) or II (93%). Median age was 63.5 years (range, 22-94 years). Male-to-female ratio was 4.2. Surgery was performed 3 to 60 days after the onset of symptoms. Macroscopically complete debridement of the pleural cavity was achieved in most (98%) cases. Median operation time was 53 minutes (range, 29-90 minutes). No intraoperative complications occurred. In-hospital mortality and morbidity rates were 3% and 16%, respectively. Deaths were caused by diffuse metastatic colon cancer in one case and severe apoplectic insult in the other. Chest tube was removed after a median time of 12 days (range, 4-64 days). Four (6.5%) patients experienced a relapse of empyema; this was caused by complicated residual pleural space (two cases), persistent pleuropulmonary fistula (one case), or both (one case).

CONCLUSIONS

It seems that S-VATS is a safe and effective procedure for the treatment of pleural empyema in fibrinopurulent stage.

Treatment of complicated pleural effusions in 2013

The incidence of pleural infection seems to be increasing worldwide. Despite continued advances in the management of this condition, morbidity and mortality have essentially remained static over the past decade. This article summarizes the current evidence and opinions on the epidemiology, etiology, and management of complicated pleural effusions caused by infection, including empyema. Although many parallels may be drawn between children and adults in such cases, most trials, guidelines, and series regard pediatric patient groups and those more than 18 years of age as separate entities. This review focuses mainly on the treatment of adult disease.

Comparative effectiveness of pleural drainage procedures for the treatment of complicated pneumonia in childhood

OBJECTIVE

To determine the comparative effectiveness of common pleural drainage procedures for treatment of pneumonia complicated by parapneumonic effusion (ie, complicated pneumonia).

DESIGN

Multicenter retrospective cohort study.

SETTING

Forty children's hospitals contributing data to the Pediatric Health Information System.

PARTICIPANTS

Children with complicated pneumonia requiring pleural drainage.

MAIN EXPOSURES

Initial drainage procedures were categorized as chest tube without fibrinolysis, chest tube with fibrinolysis, video-assisted thoracoscopic surgery (VATS), and thoracotomy.

MAIN OUTCOME MEASURES

Length of stay (LOS), additional drainage procedures, readmission within 14 days of discharge, and hospital costs.

RESULTS

Initial procedures among 3500 patients included chest tube without fibrinolysis (n = 1762), chest tube with fibrinolysis (n = 623), VATS (n = 408), and thoracotomy (n = 797). Median age was 4.1 years. Overall, 716 (20.5%) patients received an additional drainage procedure (range, 6.8-44.8% across individual hospitals). The median LOS was 10 days (range, 7-14 days across individual hospitals). The median readmission rate was 3.8% (range, 0.8%-33.3%). In multivariable analysis, differences in LOS by initial procedure type were not significant. Patients undergoing initial chest tube placement with or without fibrinolysis were more likely to require additional drainage procedures. However, initial chest tube without fibrinolysis was the least costly strategy.

CONCLUSION

There is variability in the treatment and outcomes of children with complicated pneumonia. Outcomes were similar in patients undergoing initial chest tube placement with or without fibrinolysis. Those undergoing VATS received fewer additional drainage procedures but had no differences in LOS compared with other strategies.

Is video-assisted thoracoscopic surgery the best treatment for paediatric pleural empyema?

A best evidence topic in thoracic surgery was written according to a structured protocol. The question addressed was whether video-assisted thoracic surgery (VATS) is the best treatment for paediatric pleural empyema. Altogether 274 papers were found using the reported search, of which 15 represented the best evidence to answer the clinical question. The authors, journal, date and country of publication, patient group studied, study type, relevant outcomes and results of these papers are tabulated. We conclude that early VATS (or thoracotomy if VATS not possible) leads to shorter hospitalisation. The duration of chest tube placement and antibiotic use is variable and does not correlate with treatment method. Patients who underwent primary operative therapy had a lower aggregate in-hospital mortality rate (0% vs. 3.3%), re-intervention rate (2.5% vs. 23.5%), length of stay (10.8 days vs. 20.0 days), duration of tube thoracostomy (4.4 days vs. 10.6 days), and duration of antibiotic therapy (12.8 days vs. 21.3 days), compared with patients who underwent non-operative therapy. Similar complication rates were observed for the two groups (5% vs. 5.6%). Moreover, median hospital charges for VATS were $36,320 [interquartile range (IQR), $24,814-$62,269]. The median pharmacy and radiological imaging charges were $5884 (IQR, $3142-$11,357) and $2875 (IQR, $1703-$4950), respectively, for VATS and tube drainage. Adjusting for propensity score matching, costs for primary VATS were equivalent to primary chest tube placement. Only one article found discordant results. Ninety-five children (52%) received antibiotics alone, and 87 (45%) underwent drainage procedures (21 chest tube alone, 57 VATS/thoracotomy, and eight chest tube followed by VATS/thoracotomy); only four received fibrinolytics. Mean (standard deviation) length of stay was significantly shorter in the antibiotics alone group, 7.0 (3.5) days vs. 11 (4.0) days. The strongest predictors of undergoing pleural drainage were admission to the intensive care unit and large effusion size (>1/2 thorax filled).