Image-guided percutaneous drainage of thoracic empyema: can sonography predict the outcome?

Ultrasound-guided interventional radiology procedures in the chest

Ultrasonography is a very good tool for guiding different interventional procedures in the chest. It is the ideal technique for managing conditions involving the pleural space, and it makes it possible to carry out procedures such as thoracocentesis, biopsies, or drainage. In the lungs, only lesions in contact with the costal pleura are accessible to ultrasound-guided interventions. In this type of lung lesions, ultrasound is as effective as computed tomography to guide interventional procedures, but the rate of complications and time required for the intervention are lower for ultrasound-guided procedures.

The Use of a Novel Quantitative Marker of Echogenicity of Pleural Fluid in Parapneumonic Pleural Effusions

Background

Thoracic ultrasound is an essential tool in the daily clinical care of pleural effusions and especially parapneumonic pleural effusions (PPEs), in terms of diagnosis, management, and follow-up. Hypoechogenicity index (HI) is a quantitative marker of pleural fluid echogenicity. We aimed to examine associations of HI with pleural inflammation in patients with PPE.

Methods

All patients included underwent a thoracic ultrasound with HI determination at the first day of their admission for a PPE. Thoracentesis was performed in all patients. Demographics, laboratory measurements, and clinical data were collected prospectively and recorded in all subjects.

Results

Twenty-four patients with PPE were included in the study. HI was statistically significantly correlated with intensity of inflammation as suggested by pleural fluid LDH (p < 0.001, r = −0.831), pleural fluid glucose (p=0.022, r = 0.474), and pleural fluid pH (p < 0.001, r = 0.811). HI was correlated with ADA levels (p=0.005, r = −0.552). We observed a statistically significant correlation of HI with pleural fluid total cell number (p < 0.001, r = −0.657) and polymorphonuclears percentage (p=0.02, r = −0.590), as well as days to afebrile (p=0.046, r = −0.411), duration of chest tube placement (p < 0.001, r = −0.806), and days of hospitalization (p=0.013, r = −0.501). Discussion. HI presents a fast, easily applicable, objective, and quantitative marker of pleural inflammation that reliably reflects the intensity of pleural inflammation and could potentially guide therapeutic management of PPE.

Paediatric empyema: worsening disease severity and challenges identifying patients at increased risk of repeat intervention

OBJECTIVE

Empyema is the most common complication of pneumonia. Primary interventions include chest drainage and fibrinolytic therapy (CDF) or video-assisted thoracoscopic surgery (VATS). We describe disease trends, clinical outcomes and factors associated with reintervention.

DESIGN/SETTING/PATIENTS

Retrospective cohort of paediatric empyema cases requiring drainage or surgical intervention, 2011-2018, admitted to a large Australian tertiary children's hospital.

RESULTS

During the study, the incidence of empyema increased from 1.7/1000 to 7.1/1000 admissions (p<0.001). We describe 192 cases (174 CDF and 18 VATS), median age 3.0 years (IQR 1-5), mean fever duration prior to intervention 6.2 days (SD ±3.3 days) and 50 (26%) cases admitted to PICU. PICU admission increased during the study from 18% to 34% (p<0.001). Bacteraemia occurred in 23/192 (12%) cases. A pathogen was detected in 131/192 (68%); Streptococcus pneumoniae 75/192 (39%), S. aureus 25/192 (13%) and group A streptococcus 13/192 (7%). Reintervention occurred in 49/174 (28%) and 1/18 (6%) following primary CDF and VATS. Comparing repeat intervention with single intervention cases, a continued fever postintervention increased the likelihood for a repeat intervention (OR 1.3 per day febrile; 95% CI 1.2 to 1.4, p<0.0001). Younger age, prolonged fever preintervention and previous antibiotic treatment were not associated with initial treatment failure (all p>0.05).

CONCLUSION

We report increasing incidence and severity of empyema in a large tertiary hospital. One in four patients required a repeat intervention after CDF. Neither clinical variables at presentation nor early investigations were able to predict initial treatment failure.

Image-guided catheter drainage in loculated pleural space collections, effectiveness, and complications

INTRODUCTION

Image-guided drainage is an established technique with a multitude of applications. The indications, techniques, and management of image-guided catheter drainage, however, continue to evolve. Image-guided drainage alone is sometimes sufficient for the treatment of a collection, but it can also act as an adjunct or temporizing measure before definitive surgical treatment. Drainage of a symptomatic collection is performed to drain pus from the cavity, working in conjunction with antibiotics. Infected collections accumulate antibiotics to a limited extent, which generally precludes effective treatment with antibiotics alone unless the collection is very small (1-3 cm). There are many indications for image-guided drainage in the chest, including pleural disease, lung parenchymal, pericardial, and mediastinal collections. Pleural collections represent a common clinical problem, for which image-guided drainage is recommended to reduce complications encountered as a result of blind drainage.

AIM AND OBJECTIVE

To evaluate the efficacy and complications of ambulatory catheter drainage system for infective and loculated pleural collection.

MATERIALS AND METHODS

The study was conducted in the department of radiodiagnosis and imaging, Sheri Kashmir Institute of Medical Sciences Srinagar 2016 to 2018. It was prospective in nature. All the patients were referred from in patient department as cases of clinically symptomatic pleural collections with image-based evidence of loculations or septations. All 30 patients referred for drainage were imaged using suitable imaging technique (USG or CT) to quantise and document presence of septations and loculations in pleural collections. Mean attenuation of pleural fluid, presence of internal echo's and associated pleural thickening (>2mm) was noted.

RESULTS

The overall success rate in our study was 77%, with recurrence in 10 % of patients and failure rate of 13 %. The outcome as per etiology was success rate of 100% in parapneumonic effusion, 70 % in TB, 50 % in malignancy and 100% in pleural collection after recent surgical intervention. The common procedure related complications noted in our study were hemothorax (3%), post procedural pain (23 %), pneumothorax (3%).

CONCLUSION

Image guided percutaneous drainage of loculated pleural space collections is an effective and safe procedure.

Thoracic ultrasound in the modern management of pleural disease

Physician-led thoracic ultrasound (TUS) has substantially changed how respiratory disorders, and in particular pleural diseases, are managed. The use of TUS as a point-of-care test enables the respiratory physician to quickly and accurately diagnose pleural pathology and ensure safe access to the pleural space during thoracentesis or chest drain insertion. Competence in performing TUS is now an obligatory part of respiratory speciality training programmes in different parts of the world. Pleural physicians with higher levels of competence routinely use TUS during the planning and execution of more sophisticated diagnostic and therapeutic interventions, such as core needle pleural biopsies, image-guided drain insertion and medical thoracoscopy. Current research is gauging the potential of TUS in predicting the outcome of different pleural interventions and how it can aid in tailoring the optimum treatment according to different TUS-based parameters.

A systematic review of comorbidities and outcomes of adult patients with pleural infection

Background

Pleural infection remains an important cause of mortality. This study aimed to investigate worldwide patterns of pre-existing comorbidities and clinical outcomes of patients with pleural infection.

Methods

Studies reporting on adults with pleural infection between 2000 and 2017 were identified from a search of Embase and MEDLINE. Articles reporting exclusively on tuberculous, fungal or post-pneumonectomy infection were excluded. Two reviewers assessed 20 980 records for eligibility.

Results

211 studies met the inclusion criteria. 134 articles (227 898 patients, mean age 52.8 years) reported comorbidity and/or outcome data. The majority of studies were retrospective observational cohorts (n=104, 78%) and the most common region of reporting was East Asia (n=33, 24%) followed by North America (n=27, 20%). 85 articles (50 756 patients) reported comorbidity. The median (interquartile range (IQR)) percentage prevalence of any comorbidity was 72% (58–83%), with respiratory illness (20%, 16–32%) and cardiac illness (19%, 15–27%) most commonly reported. 125 papers (192 298 patients) reported outcome data. The median (IQR) length of stay was 19 days (13–27 days) and median in-hospital or 30-day mortality was 4% (IQR 1–11%). In regions with high-income economies (n=100, 74%) patients were older (mean 56.5 versus 42.5 years, p<0.0001), but there were no significant differences in prevalence of pre-existing comorbidity nor in length of hospital stay or mortality.

Conclusion

Patients with pleural infection have high levels of comorbidity and long hospital stays. Most reported data are from high-income economy settings. Data from lower-income regions is needed to better understand regional trends and enable optimal resource provision going forward.

In pleural infection, patients from higher-income countries tend to be older with more comorbidities and are more likely to be referred for fibrinolytic treatment in comparison to patients from lower-income countrieshttp://bit.ly/2K2M5HL

Sonographic Indicators for Treatment Choice and Follow-Up in Patients with Pleural Effusion

Aim

The aim of this study was to evaluate the role of thoracic sonography in treatment of pleural effusions and to identify sonographic indicators for surgical intervention.

Materials and Methods

This study included 378 patients with pleural effusions. US characteristics of effusions as the echo structure and pleural thickening were analyzed. Regarding the US finding, the diagnostic or therapeutic procedure was performed.

Results

The study included 267 male and 111 female patients, an average of 56.7 years. Infection was the most frequent cause of effusion. Two hundred sixty-nine patients had loculated and 109 free pleural effusion. Most frequent echo structure of loculated effusion was complex septate, whereas free effusion was mostly anechoic. Successful obtaining of the pleural fluid without real-time guidance was in 88% and under real-time guidance in 99% patients (p < 0.012). There was no significant difference in success rate between free and loculated effusion and regarding the echo structure (p=0.710 and 0.126, respectively). Complete fluid removal after serial thoracentesis or drainage was achieved in 86% patients. Forty-five patients with significantly thicker pleural peel and impairment of the diaphragmatic function than remaining of the group (p < 0.001) underwent surgery. Open thoracotomy and decortication was more frequently performed in patients with completely fixed diaphragm and complex, dominantly septated effusions. There is no significant difference in US parameters comparing to patients underwent VATS, but the number of VATS is too small for valid conclusion.

Conclusion

Thoracic sonography is a very useful tool in the evaluation of clinical course and treatment options in patients with pleural effusions of a different origin.

Real-time ultrasound-guided pigtail catheter chest drain for complicated parapneumonic effusion and empyema in children - 16-year, single-centre experience of radiologically placed drains

BACKGROUND

Chest tube drainage with fibrinolytics is a cost-effective treatment option for parapneumonic effusion and empyema in children. Although the additional use of ultrasound (US) guidance is recommended, this is rarely performed in real time to direct drain insertion.

OBJECTIVE

To evaluate the effectiveness and safety of real-time US-guided, radiologically placed chest drains at a tertiary university hospital.

MATERIALS AND METHODS

This was a retrospective review over a 16-year period of all children with parapneumonic effusion or empyema undergoing percutaneous US-guided drainage at our centre.

RESULTS

Three hundred and three drains were placed in 285 patients. Treatment was successful in 93% of patients after a single drain (98.2% success with 2 or 3 drains). Five children had peri-insertion complications, but none was significant. The success rate improved with experience. Although five patients required surgical intervention, all children treated since 2012 were successfully treated with single-tube drainage only and none has required surgery.

CONCLUSION

Our technique for inserting small-bore (≤8.5 F) catheter drains under US guidance is effective and appears to be a safe procedure for first-line management of complicated parapneumonic effusion and empyema.

Correlation of pleural effusions' grayscale sonographic parameters with fluid's analysis results

BACKGROUND

Quantitative sonographic methods are used to assess pleural fluid's volume but no validated method exists for the measurement of the fluids' density and other qualitative values. We suggest a quantitative method, based on the pixel density of the pleural effusion's image, in order to evaluate the echogenicity of pleural effusion.

METHODS

Pleural ultrasound (US) was performed in 62 patients with pleural effusion. Five consequent images of the pleural effusion were retrieved through axial view between the 9^th and the 10^th rib and one from the 10^th rib through coronal view and converted into the high-resolution tagged image file format. The mean echo levels of all pixels of the pleural effusion and of the 10^th rib were counted, and the hypoechogenicity index (HI) was calculated according to the following formula: HI = mean echo level of all pixels of the rib/mean echo levels of all pixels of pleural effusion. HI greater than 1 indicates pleural effusion's hypoechogenicity. Diagnostic thoracocentesis was performed and biochemical markers were measured.

RESULTS

LDH, Cell Count, pH and Effusion Pixels (Mean) were both significantly correlated and associated with pixel ratio. Conversely, pixel ratio was not correlated with any other ultrasonography-derived parameter or biomarker.

CONCLUSIONS

This study introduced HI as new index, which could demonstrate the inflammation density of pleural effusions. Moreover, when used in combination with classical biomarkers, HI might be a useful adjunct for the discrimination of pleural transudate.

Are some children with empyema at risk for treatment failure with fibrinolytics? A multicenter cohort study

BACKGROUND

Guidelines recommend that children with empyema be treated initially with chest tube insertion and intrapleural fibrinolytics. Some patients have poor outcomes with this approach, and it is unclear which factors are associated with treatment failure.

METHODS

Possible risk factors were identified through a review of the literature. Treatment failure was defined as need for repeat pleural drainage and/or total length of stay greater than 2weeks.

RESULTS

We retrospectively identified 314 children with empyema treated with fibrinolytics at The Hospital for Sick Children (2000-2013, n=195), Children's Hospital, London Health Sciences Centre (2009-2013, n=39), and McMaster Children's Hospital (2007-2014, n=80). Median length of stay was 11days (range 5-69days). Thirteen percent of children required repeat drainage procedures, and 34% experienced treatment failure. There were no deaths. White blood cell count, erythrocyte sedimentation rate, C-reactive protein, albumin, urea to creatinine ratio, and signs of necrosis on initial chest x-ray were not associated with treatment failure. Multivariable logistic regression demonstrated increased risk with positive blood culture (odds ratio=2.7), immediate admission to intensive care (odds ratio=2.6), and absence of complex septations on baseline ultrasound (odds ratio=2.1). Male gender and platelet count were associated with treatment failure in the univariate analysis but not in the multivariable model.

CONCLUSIONS

Predicting which children with empyema are at risk for treatment failure with fibrinolytics remains challenging. Risk factors include positive blood culture, immediate admission to intensive care, and absence of complex septations on ultrasound. Routine blood work and inflammatory markers have little prognostic value.

Interventional procedures in the chest

Many thoracic conditions will require an interventional procedure for diagnosis and/or treatment. For this reason, radiologists need to know the indications and the technique for each procedure. In this article, we review the various interventional procedures that radiologists should know and the indications for each procedure. We place special emphasis on the potential differences in the diagnostic results and complications between fine-needle aspiration and biopsy. We also discuss the indications for radiofrequency ablation of lung tumors and review the concepts related to the drainage of pulmonary abscesses. We devote special attention to the management of pleural effusion, covering the indications for thoracocentesis and when to use imaging guidance, and to the protocol for pleural drainage. We also discuss the indications for percutaneous treatment of pericardial effusion and the possible complications of this treatment. Finally, we discuss the interventional management of mediastinal lesions and provide practical advice about how to approach these lesions to avoid serious complications.

Ultrasound of the pleurae and lungs

The value of ultrasound techniques in examination of the pleurae and lungs has been underestimated over recent decades. One explanation for this is the assumption that the ventilated lungs and the bones of the rib cage constitute impermeable obstacles to ultrasound. However, a variety of pathologies of the chest wall, pleurae and lungs result in altered tissue composition, providing substantially increased access and visibility for ultrasound examination. It is a great benefit that the pleurae and lungs can be non-invasively imaged repeatedly without discomfort or radiation exposure for the patient. Ultrasound is thus particularly valuable in follow-up of disease, differential diagnosis and detection of complications. Diagnostic and therapeutic interventions in patients with pathologic pleural and pulmonary findings can tolerably be performed under real-time ultrasound guidance. In this article, an updated overview is given presenting not only the benefits and indications, but also the limitations of pleural and pulmonary ultrasound.

[Parapneumonic pleural effusions: Epidemiology, diagnosis, classification and management]

Parapneumonic pleural effusions represent the main cause of pleural infections. Their incidence is constantly increasing. Although by definition they are considered to be a "parapneumonic" phenomenon, the microbial epidemiology of these effusions differs from pneumonia with a higher prevalence of anaerobic bacteria. The first thoracentesis is the most important diagnostic stage because it allows for a distinction between complicated and non-complicated parapneumonic effusions. Only complicated parapneumonic effusions need to be drained. Therapeutic evacuation modalities include repeated therapeutic thoracentesis, chest tube drainage or thoracic surgery. The choice of the first-line evacuation treatment is still controversial and there are few prospective controlled studies. The effectiveness of fibrinolytic agents is not established except when they are combined with DNase. Antibiotics are mandatory; they should be initiated as quickly as possible and should be active against anaerobic bacteria except for in the context of pneumococcal infections. There are few data on the use of chest physiotherapy, which remains widely used. Mortality is still high and is influenced by underlying comorbidities.

Iterative thoracentesis as first-line treatment of complicated parapneumonic effusion

Rationale

Optimal management of complicated parapneumonic effusions (CPPE) remains controversial.

Objectives

to assess safety and efficacy of iterative therapeutic thoracentesis (ITTC), the first-line treatment of CPPE in Rennes University Hospital.

Methods

Patients with CPPE were identified through our computerized database. We retrospectively studied all cases of CPPE initially managed with ITTC in our institution between 2001 and 2010. ITTC failure was defined by the need for additional treatment (i.e. surgery or percutaneous drainage), or death.

Results

Seventy-nine consecutive patients were included. The success rate was 81% (n = 64). Only 3 patients (4%) were referred to thoracic surgery. The one-year survival rate was 88%. On multivariate analysis, microorganisms observed in pleural fluid after Gram staining and first thoracentesis volume ≥450 mL were associated with ITTC failure with adjusted odds-ratios of 7.65 [95% CI, 1.44–40.67] and 6.97 [95% CI, 1.86–26.07], respectively. The main complications of ITTC were iatrogenic pneumothorax (n = 5, 6%) and vasovagal reactions (n = 3, 4%). None of the pneumothoraces required chest tube drainage, and no hemothorax or re-expansion pulmonary edema was observed.

Conclusions

Although not indicated in international recommendations, ITTC is safe and effective as first-line treatment of CPPE, with limited invasiveness.

Straightening out chest tubes: what size, what type, and when

Although chest tube placement is one of the most common procedures in managing patients with pleural disease, it is not clear what size and type of chest tube is indicated for various conditions. Chest tubes can be divided into small- (≤14 French [Fr]) and large-bore (>14 Fr) and can be placed by blunt dissection, guidewire (Seldinger), or trocar guidance. Recently a trend has been seen toward using smaller chest tubes for most indications, given their relative ease and patient comfort. This article summarizes the rationale for using different chest tubes depending on the clinical scenario.

Management of pleural effusion, empyema, and lung abscess

Pleural effusion is an accumulation of fluid in the pleural space that is classified as transudate or exudate according to its composition and underlying pathophysiology. Empyema is defined by purulent fluid collection in the pleural space, which is most commonly caused by pneumonia. A lung abscess, on the other hand, is a parenchymal necrosis with confined cavitation that results from a pulmonary infection. Pleural effusion, empyema, and lung abscess are commonly encountered clinical problems that increase mortality. These conditions have traditionally been managed by antibiotics or surgical placement of a large drainage tube. However, as the efficacy of minimally invasive interventional procedures has been well established, image-guided small percutaneous drainage tubes have been considered as the mainstay of treatment for patients with pleural fluid collections or a lung abscess. In this article, the technical aspects of image-guided interventions, indications, expected benefits, and complications are discussed and the published literature is reviewed.

Management of infectious processes of the pleural space: a review

Pleural effusions can present in 40% of patients with pneumonia. Presence of an effusion can complicate the diagnosis as well as the management of infection in lungs and pleural space. There has been an increase in the morbidity and mortality associated with parapneumonic effusions and empyema. This calls for employment of advanced treatment modalities and development of a standardized protocol to manage pleural sepsis early. There has been an increased understanding about the indications and appropriate usage of procedural options at clinicians' disposal.

Pleural controversy: optimal chest tube size for drainage

In recent years, a higher and higher percentage of patients with pleural effusions or pneumothorax are being treated with small-bore (10-14 F) chest tubes rather than large-bore (>20 F). However, there are very few randomized controlled studies comparing the efficacy and complication rates with the small- and large-bore catheters. Moreover, the randomized trials that are available have flaws in their design. The advantages of the small-bore catheters are that they are easier to insert and there is less pain with their insertion while they are in place. The placement of the small-bore catheters is probably more optimal when placement is done with ultrasound guidance. Small-bore chest tubes are recommended when pleurodesis is performed. The success of the small-bore indwelling tunnelled catheters that are left in place for weeks documents that the small-bore tubes do not commonly become obstructed with fibrin. Patients with complicated parapneumonic effusions are probably best managed with small-bore catheters even when the pleural fluid is purulent. Patients with haemothorax are best managed with large-bore catheters because of blood clots and the high volume of pleural fluid. Most patients with pneumothorax can be managed with aspiration or small-bore chest tubes. If these fail, a large-bore chest tube may be necessary. Patients on mechanical ventilation with barotrauma induced pneumothoraces are best managed with large-bore chest tubes.

Co-existence of posttraumatic empyema thoracis and lung abscess in a child after blunt chest trauma: a case report

Posttraumatic empyema is a rare complication of trauma with an incidence of 1.6-2.4% in trauma patients. However, it is rarely reported in children. We report the case of a 15-year-old boy who was involved in a traffic accident and diagnosed with a pulmonary contusion at a local hospital. Fourteen days after the accident, posttraumatic empyema thoracis and lung abscess developed with clinical presentations of fever, productive cough and right chest pain. He was successfully treated with computed tomography-guided catheter drainage and intravenous cefotaxime. We emphasize that posttraumatic empyema thoracis and lung abscess are very rare in children, and careful follow-up for posttraumatic lung contusion is essential. Image-guided catheter drainage can be an adjunctive tool for treating selected patients, although most complicated cases of posttraumatic empyema thoracis require decortication therapy.

Interventional management of pleural infections

Pleural infections represent an important group of disorders that is characterized by the invasion of pathogens into the pleural space and the potential for rapid progression to frank empyema. Previous epidemiologic studies have indicated that empyema is increasing in prevalence, which underscores the importance of urgent diagnosis and effective drainage to improve clinical outcomes. Unfortunately, limited evidence exists to guide clinicians in selecting the ideal drainage intervention for a specific patient because of the broad variation that exists in the intrapleural extent of infection, presence of locules, comorbid features, respiratory status, and virulence of the underlying pathogen. Moreover, many patients experience delays in both the recognition of infected pleural fluid and the initiation of appropriate measures to drain the pleural space. The present review provides an update on the pathogenesis and interventional therapy of pleural infections with an emphasis on the unique role of image-guided drainage with small-bore catheters.

The relationship between chest tube size and clinical outcome in pleural infection

BACKGROUND

The optimal choice of chest tube size for the treatment of pleural infection is unknown, with only small cohort studies reported describing the efficacy and adverse events of different tube sizes.

METHODS

A total of 405 patients with pleural infection were prospectively enrolled into a multicenter study investigating the utility of fibrinolytic therapy. The combined frequency of death and surgery, and secondary outcomes (hospital stay, change in chest radiograph, and lung function at 3 months) were compared in patients receiving chest tubes of differing size (chi(2), t test, and logistic regression analyses as appropriate). Pain was studied in detail in 128 patients.

RESULTS

There was no significant difference in the frequency with which patients either died or required thoracic surgery in patients receiving chest tubes of varying sizes ( < 10F, number dying or needing surgery 21/58 [36%]; size 10-14F, 75/208 [36%]; size 15-20F, 28/70 [40%]; size > 20F, 30/69 [44%]; chi(2)trend, 1 degrees of freedom [df] = 1.21, P = .27), nor any difference in any secondary outcome. Pain scores were substantially higher in patients receiving (mainly blunt dissection inserted) larger tubes ( < 10F, median pain score 6 [range 4-7]; 10-14F, 5 [4-6]; 15-20F, 6 [5-7]; > 20F, 6 [6-8]; chi(2), 3 df = 10.80, P = .013, Kruskal-Wallis; chi(2)trend, 1 df = 6.3, P = .014).

CONCLUSIONS

Smaller, guide-wire-inserted chest tubes cause substantially less pain than blunt-dissection-inserted larger tubes, without any impairment in clinical outcome in the treatment of pleural infection. These results suggest that smaller size tubes may be the initial treatment of choice for pleural infection, and randomized studies are now required.

TRIAL REGISTRATION

MIST1 trial ISRCTN number: 39138989.

Imaging of parapneumonic pleural effusions and empyema in children

Pleural empyema in children is increasing in incidence. The British Thoracic Society published guidelines for the management of empyema in children in 2005, including recommendations regarding imaging. In this article we review the pathophysiology, treatment options and imaging findings of complicated parapneumonic effusion and empyema in children. We also review the published evidence that supports the roles imaging is called upon to play in the management of these conditions. Imaging in the form of chest radiography and US is recommended to identify and guide drainage of complicated parapneumonic effusions. CT is recommended in special circumstances only. Imaging techniques have not been shown to accurately stage empyema, predict outcome or guide decisions regarding surgical versus medical management.

Diagnosis and management of parapneumonic effusions and empyema

Approximately 1 million patients develop parapneumonic effusions (PPEs) annually in the United States. The outcome of these effusions is related to the interval between the onset of clinical symptoms and presentation to the physician, comorbidities, and timely management. Early antibiotic treatment usually prevents the development of a PPE and its progression to a complicated PPE and empyema. Pleural fluid analysis provides diagnostic information and guides therapy. If the PPE is small to moderate in size, free-flowing, and nonpurulent (pH, >7.30), it is highly likely that antibiotic treatment alone will be effective. Prolonged pneumonia symptoms before evaluation, pleural fluid with a pH <7.20, and loculated pleural fluid suggest the need for pleural space drainage. The presence of pus (empyema) aspirated from the pleural space always requires drainage. Fibrinolytics are most likely to be effective during the early fibrinolytic stage and may make surgical drainage unnecessary. If pleural space drainage is ineffective, video-assisted thoracic surgery should be performed without delay.

Intrapleural fibrinolytics combined with image-guided chest tube drainage for pleural infection

OBJECTIVE

To present our method of treating pleural infection by using a combination of image-guided chest tube drainage and intrapleural fibrinolytics.

PATIENTS AND METHODS

We retrospectively reviewed the medical charts and radiographs of 30 consecutive patients with pleural infection who were seen at our institution from December 15, 1995, to July 1, 2006, 27 of whom received intrapleural urokinase or tissue-type plasminogen activator. End points were death, length of stay in the hospital, and percentage of patients who needed surgery.

RESULTS

Placement of chest tubes required image guidance 45.7% of the time. Three patients (10%; 95% confidence interval, 2.1%-26.5%) died of complications from pleural infection. None of the 30 patients (0%; 95% confidence interval, 0%-9.5%) required surgery for treatment of pleural infection. The median hospital length of stay was 11 days.

CONCLUSIONS

In the treatment of pleural infection, intrapleural urokinase or tissue-type plasminogen activator in combination with careful image-guided placement of chest tubes is highly effective in resolving the effusion and curing the infection.

Paediatric thoracic tumours presenting as empyema

Ultrasonography (US) is considered to be adequate for the preoperative evaluation of childhood empyema. This study was aimed to improve awareness that paediatric intra-thoracic tumours can mimic childhood post-pneumonic empyema and highlights the value of computed tomogram (CT) scan with intravenous (IV) contrast in preoperative evaluation of childhood empyema. The data were analysed on eight children (four boys and four girls) presented at the median age of 6.2 years (1.8-15 years) for the management of empyema and later confirmed to have intra-thoracic tumours. Intra-thoracic tumours in 8 (5.3%) children out of 150 cases of post-pneumonic empyema were managed during the study period. All eight had clinical features, increased white cell count, raised inflammatory markers and biochemical parameters suggestive of childhood empyema. Chest X-ray showed localised opacity in 3/8 while in other five suggested significant pleural collection with mediastinal shift. Additional investigations in referring hospital were suggestive of empyema in four children; US in three, CT scan without IV contrast in one. Referring hospital carried out non-diagnostic thoracocentesis in four children with blood stained pleural tap in two. In four children corroborative evidence suggestive of infection within pleural cavity and acute respiratory distress led to an emergency mini-thoracotomy resulting in significant intra-operative bleeding in two children. Histology on biopsy of the infected material showed primitive neuroectodermal tumour (PNET) in one, pleuropulmonary blastoma in one, metastatic malignant melanoma in one and cytology of pleural fluid diagnosed lymphoma in one. Pre-operative CT scan with IV contrast in four children correctly identified underlying intra-thoracic tumour (two benign teratoma, two PNET). In two cases CT with IV contrast was performed because chest X-ray suggested mediastinal loculated empyema while in other two high clinical index of suspicion prompted preoperative evaluation with CT scan with IV contrast. We advocate caution and increased awareness before considering therapeutic options in childhood empyema and recommend preoperative CT scan with IV contrast in some selected and unusual cases.

Therapy of parapneumonic effusions in children: video-assisted thoracoscopic surgery versus conventional thoracostomy drainage

OBJECTIVE

Controversy surrounds the optimal treatment of parapneumonic effusions. This trial of pediatric patients with community-acquired pneumonia and associated parapneumonic processes compared primary video-assisted thoracoscopic surgery with conventional thoracostomy drainage.

DESIGN

A prospective, randomized trial was conducted at DeVos Children's Hospital (Grand Rapids, MI) between November 2003 and May 2005. All of the patients under 18 years of age with large parapneumonic effusions were approached for enrollment in the study. After enrollment, each patient was randomly assigned to receive either video-assisted thoracoscopic surgery or thoracostomy tube drainage of the effusion. Subsequent therapies (fibrinolysis, imaging, and further drainage procedures) were similar for each group per protocol.

RESULTS

Eighteen patients were enrolled in the study: 10 in video-assisted thoracoscopic surgery and 8 in conventional thoracostomy. The groups were demographically similar. No mortalities were encountered in either group, and everyone was discharged from the hospital with acceptable outcomes. Yet, there were multiple variables that demonstrated statistical difference. Hospital length of stay, number of chest tube days, narcotic use, number of radiographic procedures, and interventional procedures were all less in the patients who underwent primary video-assisted thoracoscopic surgery. In addition, no patient in the video-assisted thoracoscopic surgery group required fibrinolytic therapy, which was also statistically different from the thoracostomy drainage group.

CONCLUSIONS

The outcomes of this study strongly suggest that primary video-assisted thoracoscopic surgery for evacuation of parapneumonic effusions is superior to conventional thoracostomy drainage.

Scoring system for empyema thoracis and help in management

OBJECTIVE

To evaluate the implications of a newly defined severity scoring of empyema in children for the prediction of surgical management and to compare the length of hospitalization as an outcome measure of patients treated using medical therapy, salvage video-assisted thoracoscopic surgery (VATS) vs early elective VATS.

METHODS

A retrospective chart review of parapneumonic empyema of patients below 18 years of age admitted to a tertiary children's hospital in northern Taiwan from April 1993 to December 2002 was performed. Patients were categorized into a medical group who received antibiotic therapy, needle aspirations with/without tube thoracostomy; a salvage VATS group when the patients required surgery for the relief of persistent fever > 38 degrees C, chest pains or dyspneic respirations despite initial medical therapy; an early VATS group when the patients received elective surgery early after admission. The demographic data, clinical features, laboratory findings, and duration of hospitalization were compared using a severity score of empyema (SSE).

RESULTS

Streptococcus pneumoniae was the most common infecting organism, followed by Staphylococcus aureus, Pseudomonas aeruginosa. No organisms were recovered in 39% of patients. A pleural pH < 7.1 increases the odds of requiring surgical intervention by 6 times among this cohort. Children who required decortication of empyema had a higher severity score (mean 4.8 vs 3.0, p < 0.005). The duration of hospitalization for patients having early VATS showed a shortening stay (mean 18 vs 28 days) as compared to salvage VATS.

CONCLUSION

A pleural pH < 7.1 and a newly designed clinical severity score of empyema 4 are two predictors of surgical intervention for fibrinopurulent empyema in the present study. Early elective VATS may be adopted not later than 7 days after failure of appropriate antibiotic therapy and adequate drainage of empyema to decrease the length of stay and minimize morbidity.

Real-time chest ultrasonography: a comprehensive review for the pulmonologist

This review discusses real-time pulmonary ultrasonography (US) for the practicing pulmonologist. US supplements chest radiography and chest CT scanning. Major advantages include bedside availability, absence of radiation, and guided aspiration of fluid-filled areas and solid tumors. Pulmonary vessels and vascular supply of consolidations may be visualized without contrast. US may help to diagnose conditions such as pneumothorax, hemothorax, pleural or pericardial effusion, pneumonia, and pulmonary embolism in the critically ill patient who is in need of bedside diagnostic testing. The technique of US, which is cost-effective compared to CT scanning and MRI, may be learned relatively easily by the pulmonologist.

Randomised trial of intrapleural urokinase in the treatment of childhood empyema

BACKGROUND

The role of intrapleural fibrinolytic agents in the treatment of childhood empyema has not been established. A randomised double blind placebo controlled trial of intrapleural urokinase was performed in children with parapneumonic empyema.

METHODS

Sixty children (median age 3.3 years) were recruited from 10 centres and randomised to receive either intrapleural urokinase 40 000 units in 40 ml or saline 12 hourly for 3 days. The primary outcome measure was length of hospital stay after entry to the trial.

RESULTS

Treatment with urokinase resulted in a significantly shorter hospital stay (7.4 v 9.5 days; ratio of geometric means 1.28, CI 1.16 to 1.41 p=0.027). A post hoc analysis showed that the use of small percutaneous drains was also associated with shorter hospital stay. Children treated with a combination of urokinase and a small drain had the shortest stay (6.0 days, CI 4.6 to 7.8).

CONCLUSION

Intrapleural urokinase is effective in treating empyema in children and significantly shortens hospital stay.

Radiological perspectives in empyema

Empyema is a common cause for hospital admission in children. For years, clinicians have relied on chest X-rays to aid diagnosis and monitor treatment. New imaging techniques, particularly ultrasound, have helped in planning the management of children with empyema. Other cross-sectional radiological investigations are useful in a small proportion of children with complicated disease. The mainstays of imaging in the vast majority of children with empyema are chest radiography and ultrasound.