Efficacy and safety of intrapleural instillation of alteplase in the management of complicated pleural effusion or empyema

Targeting the PAI-1 Mechanism with a Small Peptide Increases the Efficacy of Alteplase in a Rabbit Model of Chronic Empyema

The incidence of empyema is increasing and associated with a mortality rate of 20% in patients older than 65 years. Since 30% of patients with advanced empyema have contraindications to surgical treatment, novel, low-dose, pharmacological treatments are needed. A Streptococcus pneumoniae-induced rabbit model of chronic empyema recapitulates the progression, loculation, fibrotic repair, and pleural thickening of human disease. Treatment with single chain (sc) urokinase (scuPA) or tissue type (sctPA) plasminogen activators in doses 1.0-4.0 mg/kg were only partially effective in this model. Docking Site Peptide (DSP; 8.0 mg/kg), which decreased the dose of sctPA for successful fibrinolytic therapy in acute empyema model did not improve efficacy in combination with 2.0 mg/kg scuPA or sctPA. However, a two-fold increase in either sctPA or DSP (4.0 and 8.0 mg/kg or 2.0 and 16.0 mg/kg sctPA and DSP, respectively) resulted in 100% effective outcome. Thus, DSP-based Plasminogen Activator Inhibitor 1-Targeted Fibrinolytic Therapy (PAI-1-TFT) of chronic infectious pleural injury in rabbits increases the efficacy of alteplase rendering ineffective doses of sctPA effective. PAI-1-TFT represents a novel, well-tolerated treatment of empyema that is amenable to clinical introduction. The chronic empyema model recapitulates increased resistance of advanced human empyema to fibrinolytic therapy, thus allowing for studies of muti-injection treatments.

Retrospective review comparing intrapleural fibrinolytic therapy (alteplase) and surgical intervention in complex pleural effusion

Background

Intrapleural fibrinolytic therapy (IPFT) is one of the treatment options for complex pleural effusion. In this study, the IPFT agent used was alteplase, a tissue plasminogen activator (t-PA). This study aims to determine the difference in the outcome of patients with complex pleural effusion between IPFT and surgery in terms of radiological improvement, inflammatory parameters, length of stay, and post-intervention complications.

Methods

A retrospective review of patients with complex pleural effusion treated at Universiti Kebangsaan Malaysia Medical Center from January 2012 to August 2020 was performed. Patient demographics, chest imaging, drainage chart, inflammatory parameters, length of hospital stay, and post-intervention and outcome were analyzed.

Results

Fifty-eight patients were identified (surgical intervention, n = 18; 31% and IPFT, n = 40, 69%). The mean age was 51.7 ± 18.2 years. Indication for surgical intervention was pleural infection (n = 18; 100%), and MPE (n = 0). Indications for IPFT was pleural infection (n = 30; 75%) and MPE (n = 10; 25%). The dosages of t-PA were one to five doses of 2–50 mg. The baseline chest radiograph in the IPFT group was worse than in the surgical intervention group. (119.96 ± 56.05 vs. 78.19 ± 55.6; p = 0.029) At week 1, the radiological success rate for IPFT and surgical intervention were 27% and 20%, respectively, and at weeks 4–8, the success rate was 56% and 80% respectively. IPFT was associated with lesser complications; fever (17.5%), chest pain (10%), and non-life-threatening bleeding (5%).

Conclusion

IPFT was comparable to surgery in radiological outcome, inflammatory parameters, and length of stay with lesser reported complications.

Evaluation of intrapleural fibrinolytic therapy and dosing strategies used for complicated pleural effusions

OBJECTIVES

Compare the use of Tissue Plasminogen Activator (t-PA) and t-PA + Dornase (DNase) for the management of complicated pleural effusions, and to determine if a dose-response relationship exists for t-PA.

METHODS

Retrospective cohort study that examined all adult patients at a large academic medical center who received intrapleural t-PA or t-PA + DNase for the management of a complicated pleural effusions. Outcomes were success of therapy [defined as avoidance of secondary interventions (i.e. VATSD or thoracotomy)], chest tube output pre- and post-administration, radiographic findings, t-PA dose and frequency, and bleeding complications.

RESULTS

Thirty-five patients were enrolled: 25 received t-PA and 10 received t-PA + DNase. Successful pharmacologic treatment occurred in 88% of patients receiving t-PA and 100% of patients receiving t-PA + DNase (p = 0.54). In the t-PA group, chest tube output increased from 75 ml/12 h to 538 ml/12 h after administration of t-PA (p = 0.001), and from 103 ml/12 h to 502 ml/12 h (p = 0.001) in the t-PA + DNase group. Radiographic improvement occurred in 84% of t-PA patients and 90% of t-PA + DNase patients (p = 0.99). In the t-PA group, a successful response occurred in 92% of patients receiving a cumulative dose of ≤10 mg (n = 13) and 83% of patients receiving a cumulative dose of >10 mg (n = 12), p = 0.43. Patients who received a single t-PA dose compared to those who received multiple doses also had similar success rates (p = 1). There was one instance of bleeding following drug administration.

CONCLUSION

Both t-PA and t-PA + DNase were highly effective for reducing a patient's need for surgical intervention. Higher cumulative doses or more frequency administrations did not appear to provide additional benefit.

Percutaneous Chest Tube for Pleural Effusion and Pneumothorax

Chest tubes are placed in the pleural space to evacuate abnormal fluid or air accumulations. Various types and sizes of chest tubes are available. Imaging including ultrasound, computed tomography, and fluoroscopy should be used to guide chest tube placement. Understanding the anatomy of the pleural space, along with the etiology and classification of pleural space disease, can help optimize chest tube management. This article will review the indications, contraindications, techniques, and postprocedure follow-up of chest tube placement as well as discuss the management and prevention of complications.

Retrospective Evaluation of Intrapleural Tissue Plasminogen Activator With or Without Dornase Alfa for the Treatment of Traumatic Retained Hemothorax: A 6-Year Experience

BACKGROUND

Intrapleural fibrinolytic instillation is second-line treatment for retained hemothorax. Dornase alfa (DNase) has demonstrated efficacy in parapneumonic effusion, but the lack of deoxyribonucleoproteins limits direct extrapolation to traumatic retained hemothorax treatment.

OBJECTIVE

This study evaluated the effectiveness of intrapleural tissue plasminogen activator (tPA) with and without DNase in the treatment of retained traumatic hemothorax.

METHODS

This retrospective cohort study included patients aged 16 years and older admitted to a level 1 trauma center from January 2013 through July 2019 with retained hemothorax and one or more intrapleural tPA instillations. Exclusion criteria were tPA for other indications or concomitant empyema. The primary endpoint was treatment failure defined as the need for operative intervention.

RESULTS

Fifty patients were included (tPA alone: 28; tPA with DNase: 22). Baseline characteristics were similar between groups, including time to diagnosis (6.5 [interquartile range (IQR), 4-15.5] days vs 6 [IQR, 6.3-10.8] days, P = 0.52). Median tPA dose per treatment (6 [IQR, 6-6.4] mg vs 10 [IQR, 8.4-10] mg, P < 0.001) and cumulative tPA (18 [IQR, 6.5-24] mg vs 30 [IQR, 29.5-40], P < 0.001) dose were significantly lower in the tPA alone group. Treatment failure was similar between groups. Chest tube output, retained hemothorax reduction, and bleeding incidences were similar between groups. Multivariate logistic regression demonstrated no significant risk factors for treatment failure.

CONCLUSIONS AND RELEVANCE

Dornase alfa added to tPA may not reduce the need for operation to treat retained hemothorax. Further studies should be directed at optimal tPA dose determination and economic impact of inappropriate DNase use.

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.

Can intrapleural alteplase treatment be an alternative to videothoracoscopic deloculation and decortication in pleural empyema?

Introduction

Chest tube drainage is the first step in the management of complicated pleural effusions that have turned into empyema. In cases where adequate drainage cannot be provided or deloculation is required, intrapleural fibrinolytic therapy or surgical deloculation can be performed. Alteplase is a suitable agent for intrapleural fibrinolytic therapy. On the other hand, video-assisted surgery is an effective and minimally invasive treatment option for lung re-expansion.

Aim

The effect of intrapleural alteplase irrigation applied through the thoracic tube in the treatment of pleural empyema was investigated and whether it could be an alternative technique to video-assisted thoracoscopic surgery was evaluated.

Material and methods

The results of patients who were treated for empyema in our clinic were evaluated retrospectively. Twenty-one patients who underwent tube thoracostomy + intrapleural alteplase and 28 patients who underwent VATS deloculation were included in the study.

Results

The study included 35 male and 14 female patients. There were 21 patients in group 1, and 28 patients in group 2. The mean age was 50.6. The average length of thoracic tube stay was determined as 7.1 and 6.96 days. The duration of hospital stay in this group was 6.73 and 6.35 days. In 17 (81%) patients in group 1, the treatment was discontinued without the need for surgery.

Conclusions

VATS-D is an effective option in the treatment of pleural empyema. However, as seen in our study, intrapleural alteplase application is at least as effective as VATS-D in terms of treatment success.

Challenges in Image-Guided Drainage of Infected Pleural Collections: A Review

Infected pleural fluid collections (IPFCs) commonly occur as a part of bacterial, fungal, or tubercular pneumonia or due to involvement of pleura through hematogenous route. Management requires early initiation of therapeutic drugs, as well as complete drainage of the fluid, to relieve patients’ symptoms and prevent pleural fibrosis. Image-guided drainage plays an important role in achieving these goals and improving outcomes. Intrapleural fibrinolytic therapy (IPFT) is also a vital component of the management. The concepts of image-guided drainage procedures, IPFT, and nonexpanding lung are discussed in this review.

Precision targeting of the plasminogen activator inhibitor-1 mechanism increases efficacy of fibrinolytic therapy in empyema

Plasminogen activator inhibitor‐1 (PAI‐1) is an endogenous irreversible inhibitor of tissue‐type (tPA) and urokinase (uPA) plasminogen activators. PAI‐1‐targeted fibrinolytic therapy (PAI‐1‐TFT) is designed to decrease the therapeutic dose of tPA and uPA, attenuating the risk of bleeding and other complications. Docking site peptide (DSP) mimics the part of the PAI‐1 reactive center loop that interacts with plasminogen activators, thereby affecting the PAI‐1 mechanism. We used DSP for PAI‐1‐TFT in two rabbit models: chemically induced pleural injury and Streptococcus pneumoniae induced empyema. These models feature different levels of inflammation and PAI‐1 expression. PAI‐1‐TFT with DSP (2.0 mg/kg) converted ineffective doses of single chain (sc) tPA (72.5 µg/kg) and scuPA (62.5 µg/kg) into effective ones in chemically induced pleural injury. DSP (2.0 mg/kg) was ineffective in S. pneumoniae empyema, where the level of PAI‐1 is an order of magnitude higher. DSP dose escalation to 8.0 mg/kg resulted in effective PAI‐1‐TFT with 0.25 mg/kg sctPA (1/8th of the effective dose of sctPA alone) in empyema. There was no increase in the efficacy of scuPA. PAI‐1‐TFT with DSP increases the efficacy of fibrinolytic therapy up to 8‐fold in chemically induced (sctPA and scuPA) and infectious (sctPA) pleural injury in rabbits. PAI‐1 is a valid molecular target in our model of S. pneumoniae empyema in rabbits, which closely recapitulates key characteristics of empyema in humans. Low‐dose PAI‐1‐TFT is a novel interventional strategy that offers the potential to improve fibrinolytic therapy for empyema in clinical practice.

Successful drainage of complex haemoserous malignant pleural effusion with a single modified low-dose intrapleural alteplase and dornase alfa

Patients with symptomatic complex malignant pleural effusion (MPE) are frequently unfit for decortication and have a poorer prognosis. Septations can develop in MPE, which may lead to failure of complete drainage and pleural infection. Intrapleural fibrinolytic therapy (IPFT) is an alternative treatment. The use of IPFT in patients with anaemia and high risk for intrapleural bleeding is not well established. We report a successful drainage of complex haemoserous MPE with a single modified low-dose of intrapleural 5 mg of alteplase and 5 mg of dornase alfa in a patient with pre-existing anaemia with no significant risk of intrapleural bleeding.

Effectiveness of Delayed Intrapleural Alteplase Instillation for Infected Residual Traumatic Hemothorax. Case Report

In thoracic trauma, many cases may present with hemothorax, and, of those, a portion can complicate in empyema. These cases can reveal themselves to be of difficult management, particularly in peripheral hospitals with complicated access to thoracic surgery. Intrapleural fibrinolytic instillation can be of use and has been widely reported, mostly in the case of empyema. In the literature, the use of fibrinolytics in hemothorax mostly pertained to the older fibrinolytics, such as streptokinase and urokinase. Recent studies describe the use of alteplase in these patients but mostly in the first days after the trauma, when it becomes clear that the first chest tube is not being effective. We report a case of residual traumatic hemothorax that could not be evacuated after multiple chest tubes placements and was finally cleared after instillation of alteplase late in the course of the disease.

Cost-Effectiveness Analysis of Fibrinolysis vs Thoracoscopic Decortication for Early Empyema

BACKGROUND

Surgical decortication is recommended by national guidelines for management of early empyema, but intrapleural fibrinolysis is frequently used as a first-line therapy in clinical practice. This study compared the cost-effectiveness of video-assisted thoracoscopic surgery (VATS) decortication with intrapleural fibrinolysis for early empyema.

METHODS

A decision analysis model was developed. The base clinical case was a 65-year-old man with early empyema treated either by VATS decortication or intrapleural tissue plasminogen activator and deoxyribonuclease. The likelihood of key outcomes occurring was derived from the literature. Medicare diagnosis-related groups and manufacturers' drug prices were used for cost estimates. Successful treatment was defined as complete or nearly complete resolution of empyema on imaging. Effectiveness was defined as health utility 1 year after empyema.

RESULTS

Intrapleural tissue plasminogen activator and deoxyribonuclease were more cost-effective than VATS decortication for treating early empyema for the base clinical case. Surgical decortication had a slightly lower cost than fibrinolysis ($13,345 vs $13,965), but fibrinolysis had marginally higher effectiveness at 1 year (health utility of 0.80 vs 0.71). Therefore, fibrinolysis was the more cost-effective option. Sensitivity analyses found that fibrinolysis as the initial therapy was more cost-effective when the probability of success was greater than 60% or the initial cost was less than $13,000.

CONCLUSIONS

Surgical decortication and intrapleural fibrinolysis have nearly equivalent cost-effectiveness for early empyema in patients who can tolerate both procedures. Surgeons should consider patient-specific factors, as well as the cost and effectiveness of both modalities, when deciding on an initial treatment for early empyema.

Short-course modified regimen intrapleural alteplase and pulmozyme (DNase) in pleural infection

Pleural infection is a common clinical condition leading to hospitalisation. In the last decade, advances in pleural research have led to a paradigm shift in the treatment of complex effusion from a surgical approach to a less invasive non-surgical approach using a combination of intrapleural fibrinolytics and pulmozyme (DNase). We report 3 patients with pleural infection. Intercostal chest catheter failed to drain the complex effusion. They were subsequently treated with a modified short-course regimen of alteplase and DNase. They received 3 cycles of 16 mg alteplase with 5 mg DNase each within 24 hours and all three had a favourable outcome with no adverse effects. This modified regimen appears effective with good safety profile and adds to the current literature on the safety and effectiveness of different dose combinations of alteplase and DNase.

Low dose intrapleural alteplase and pulmozyme (DNase) in two post-surgical patients with pleural sepsis

Alteplase and pulmozyme (DNase) administered intrapleurally have revolutionised the management of pleural infection in the last decade. However, the use of intrapleural fibrinolytic has not been well established in high risks patients. Here, we describe 2 patients with high risk of bleeding due to recent surgery who developed empyema; successfully treated with these medications. The first patient was a 36-year-old female post oesophagectomy for oesophageal carcinoma, complicated with anastomotic leak and empyema; and the second patient was a 56-year-old female post percutaneous nephrolithotomy for right obstructive uropathy who developed right-sided empyema. Both patients were treated successfully with 3 doses of intrapleural alteplase 2.5 mg and DNase 5 mg without any major adverse effects. This case report adds to the current literature on the safety of intrapleural fibrinolytics and highlights that lower doses of alteplase in combination with pulmozyme is efficacious and may be considered in high-risk patients.

Intrapleural Tissue Plasminogen Activator for Traumatic Retained Hemothorax

Objective: To describe the efficacy, safety, dosing regimen, and administration technique of intrapleural alteplase for the treatment of retained hemothorax. Data Sources: A PubMed, EMBASE, and Google Scholar search (January 2000 to February 2019) was conducted with the search terms intrapleural, fibrinolytic, fibrinolysis, alteplase, tissue plasminogen activator, and hemothorax. Study Selection and Data Extraction: Articles were included if they described the use of intrapleural alteplase in adult patients with a retained hemothorax; single patient case reports and abstracts were excluded. Data Synthesis: A total of 6 retrospective reviews and 1 meta-analysis were identified for inclusion. A variety of dosing strategies have been defined for the administration of intrapleural alteplase ranging from 6 to 100 mg, volume of fluid from 50 to 120 mL of normal saline, and the number of total doses has ranged from 1 to 8 over the treatment course. A majority of studies showed a greater than 80% success rate and less than 7% bleeding rate. Relevance to Patient Care and Clinical Practice: Because of the paucity of data for use of alteplase in retained hemothorax and administration of a high-risk medication, this review provides dosing and administration recommendations based on reported safety and efficacy. Conclusion: Administration of intrapleural alteplase should be considered in patients with retained hemothorax as an alternative to surgical intervention. In contrast to intrapleural alteplase administration for other indications such as empyema, higher doses and volumes of alteplase are recommended for retained hemothorax.

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

Use of the Recombinant Tissue Plasminogen Activator in the Management of Complex Infected Intraperitoneal Fluid Collection

Intra-abdominal infections and infected fluid collections are the result of local infection typically involving the gastrointestinal or genitourinary tract. These infections are usually polymicrobial. The management of such patients should include source control and appropriate antimicrobial therapy. Source control is essential and can be achieved either surgically or by percutaneous drainage of intra-abdominal fluid collection. Interventional radiology drainage of intra-abdominal fluid collections may be especially important in patients with high surgical risk or in patients who refuse surgery. Below, we present a case of successful use of recombinant intraperitoneal tissue plasminogen activator use in a patient with a complex polymicrobial fluid collection.

Pleural Empyema Menagement: A Brief Review of Litterature

Pleural empyema, defined as the presence of purulent material within the pleural space, is the consequence of a suppurative process involving the serous pleural layers. Thoracic empyema is a dynamic process, inflammatory in origin and taking place within a preformed space bordered by both the visceral and parietal pleura. It is a complex clinical entity, neither a sole clinical, laboratory, nor a radiological diagnosis. The primary therapeutic aim: ‘ubi pus evacua’ — if you find pus remove it—has not changed since the age of Celsus. Therefore, treatment of the acute empyema of the pleura is directed to early and complete evacuation of empirical fluid and content, achieving full re-expansion of the lungs and eradication of the infection using appropriate surgical procedures, antibiotics and other supportive procedures. The optimum method of treating empyema should be adjusted to the condition of the patient and the stage of the disease in which the patient is located. The method of treatment depends on the etiology (pneumonic or traumatic), the general condition of the patient and the stage of disease development. By reviewing the available literature, it can be concluded that treating the pleural empyemas is a demanding procedure, in which it is necessary for the treating physician to apply all of his knowledge, and that there is good cooperation with the patient.

Low-dose intrapleural alteplase (without deoxyribonuclease) in complicated parapneumonic effusion: case series and literature reviews

This case series reviews two cases of elderly patients who presented with fever, cough and shortness of breath. Clinical examinations and initial chest radiographs confirmed unilateral pleural effusion. Thoracenteses were consistent with exudative pleural effusion. We commenced intravenous antibiotics treating for parapneumonic effusions. The first case showed persistent effusion despite drainage, and the second case had a little aspirate from pleural tapping. Subsequent ultrasound of the thorax showed multiloculated effusions. We made the decisions for intrapleural fibrinolytic therapy using low-dose alteplase 2.5 mg each time, in view of the elderly patient as sacrosanct for risk of bleeding. Furthermore, DNase was not used, as it is not yet available in our setting. Both of our patients had good clinical and radiological outcomes, without the need for surgical interventions.

Use of an evidence-based algorithm for patients with traumatic hemothorax reduces need for additional interventions

BACKGROUND

Concerted management of the traumatic hemothorax is ill-defined. Surgical management of specific hemothoraces may be beneficial. A comprehensive strategy to delineate appropriate patients for additional procedures does not exist. We developed an evidence-based algorithm for hemothorax management. We hypothesize that the use of this algorithm will decrease additional interventions.

METHODS

A pre-/post-study was performed on all patients admitted to our trauma service with traumatic hemothorax from August 2010 to September 2013. An evidence-based management algorithm was initiated for the management of retained hemothoraces. Patients with length of stay (LOS) less than 24 hours or admitted during an implementation phase were excluded. Study data included age, Injury Severity Score, Abbreviated Injury Scale chest, mechanism of injury, ventilator days, intensive care unit (ICU) LOS, total hospital LOS, and interventions required. Our primary outcome was number of patients requiring more than 1 intervention. Secondary outcomes were empyema rate, number of patients requiring specific additional interventions, 28-day ventilator-free days, 28-day ICU-free days, hospital LOS, all-cause 6-month readmission rate. Standard statistical analysis was performed for all data.

RESULTS

Six hundred forty-two patients (326 pre and 316 post) met the study criteria. There were no demographic differences in either group. The number of patients requiring more than 1 intervention was significantly reduced (49 pre vs. 28 post, p = 0.02). Number of patients requiring VATS decreased (27 pre vs. 10 post, p < 0.01). Number of catheters placed by interventional radiology increased (2 pre vs. 10 post, p = 0.02). Intrapleural thrombolytic use, open thoracotomy, empyema, and 6-month readmission rates were unchanged. The "post" group more ventilator-free days (median, 23.9 vs. 22.5, p = 0.04), but ICU and hospital LOS were unchanged.

CONCLUSION

Using an evidence-based hemothorax algorithm reduced the number of patients requiring additional interventions without increasing complication rates. Defined criteria for surgical intervention allows for more appropriate utilization of resources.

LEVEL OF EVIDENCE

Therapeutic study, level IV.

A review of the management of complex para-pneumonic effusion in adults

A complex para-pneumonic effusion is a descriptive term for exudative effusions, which complicate or are likely to complicate the anatomy of the pleural space after pneumonia. We performed an online search was performed using the resources PubMed and Google Scholar to provide an update on the management of such effusions based on review of published literature. Search terms including pleural effusion (PE), parapneumonic effusion, and empyema were used. Relevant studies were identified and original articles were studied, compared and summarized. References in these articles were examined for relevance and included where appropriate. Studies involving pediatric patients were excluded. Management of para-pneumonic PE has changed tremendously over the last decade. As we accumulate more evidence in this area, approach to pleural fluid drainage is becoming more specific and guideline based. An example of a practice changing study in this aspect is the Multi-center Intrapleural Streptokinase Trial (MIST) 2 trial which demonstrated that a combination of intra-pleural tPA and DNAse improved outcomes in pleural infections compared to DNase or t-PA alone. More randomized control trials are needed to describe the role of surgical techniques like VATS (video-assisted thoracoscopic surgery) when MIST 2 protocol fails; this combination has revolutionized the management of empyema in recently.

Tissue plasminogen activator and pulmozyme for postoperative-retained hemothorax: A safe alternative to postoperative re-exploration

Successful treatment of traumatic hemothoraces is imperative to reduce morbidity and mortality among patients. Treatment modalities range from more conservative to invasive measures, including antibiotic therapy, thoracostomy tube placement, video-assisted thoracoscopic surgery, or thoracotomy. Various studies have documented success in using fibrinolytics such as tissue plasminogen activator (tPA) in conjunction with deoxyribonuclease administered through a chest tube to resolve a hemothorax. The optimal dose and frequency of fibrinolytic therapy have not yet been determined although most studies report administering therapy two times a day for 3 days. We report a successful case of a one-time dose of fibrinolytic therapy through thoracostomy tube which could support that a single dose may be ideal and sufficient enough to resolve a hemothorax. We also performed this in the acute postoperative period, which has not been well studied, and believe fibrinolytic therapy can be safe to use in this setting.

Intrapleural Fibrinolytic Therapy for Residual Coagulated Hemothorax After Lung Surgery

BACKGROUND

Many studies have described the use of intrapleural fibrinolytics for the treatment of complex pleural processes and traumatic hemothorax, but data are scarce regarding their use for hemothorax after lung surgery.

OBJECTIVE

To evaluate the utility of intrapleural fibrinolytic therapy with urokinase for residual coagulated hemothorax (blood clot accumulation in the pleural cavity) after lung surgery.

METHODS

From July 2009 to November 2013, 46 patients (33 males; mean age, 56.9 ± 10.7 years) were treated with intrapleural urokinase (250,000 IU per dose) for residual hemothorax after lung surgery. Complete response was defined as clinical improvement with complete drainage of the retained collection shown by chest X-ray, and partial response as substantial resolution with minimal residual opacity (<25 % of the thorax). Follow-up was at least 30 days.

RESULTS

The procedure was successful in 42 patients (91.3 %), with complete response observed in 35/46 patients (76.1 %) and partial response in 7/46 (15.2 %). These 42 patients did not require re-intervention for fluid accumulation in the pleural cavity. Treatment failed in 4 patients (8.7 %): one developed bronchopleural fistula that later resolved spontaneously and three (6.5 %) required thoracoscopic drainage for pleural cavity fluid accumulation and lung collapse. No patient required thoracotomy for total decortication. Intrapleural urokinase administration was not associated with serious adverse events, including bleeding complications or allergic reactions.

CONCLUSIONS

Intrapleural fibrinolytic agents should be considered a useful therapeutic option for the treatment of postoperative residual hemothorax. This method appears to be safe and effective in >90 % of patients with postoperative hemothorax.

Dose dependency of outcomes of intrapleural fibrinolytic therapy in new rabbit empyema models

The incidence of empyema (EMP) is increasing worldwide; EMP generally occurs with pleural loculation and impaired drainage is often treated with intrapleural fibrinolytic therapy (IPFT) or surgery. A number of IPFT options are used clinically with empiric dosing and variable outcomes in adults. To evaluate mechanisms governing intrapleural fibrinolysis and disease outcomes, models of Pasteurella multocida and Streptococcus pneumoniae were generated in rabbits and the animals were treated with either human tissue (tPA) plasminogen activator or prourokinase (scuPA). Rabbit EMP was characterized by the development of pleural adhesions detectable by chest ultrasonography and fibrinous coating of the pleura. Similar to human EMP, rabbits with EMP accumulated sizable, 20- to 40-ml fibrinopurulent pleural effusions associated with extensive intrapleural organization, significantly increased pleural thickness, suppression of fibrinolytic and plasminogen-activating activities, and accumulation of high levels of plasminogen activator inhibitor 1, plasminogen, and extracellular DNA. IPFT with tPA (0.145 mg/kg) or scuPA (0.5 mg/kg) was ineffective in rabbit EMP (n = 9 and 3 for P. multocida and S. pneumoniae, respectively); 2 mg/kg tPA or scuPA IPFT (n = 5) effectively cleared S. pneumoniae-induced EMP collections in 24 h with no bleeding observed. Although intrapleural fibrinolytic activity for up to 40 min after IPFT was similar for effective and ineffective doses of fibrinolysin, it was lower for tPA than for scuPA treatments. These results demonstrate similarities between rabbit and human EMP, the importance of pleural fluid PAI-1 activity, and levels of plasminogen in the regulation of intrapleural fibrinolysis and illustrate the dose dependency of IPFT outcomes in EMP.

Enzymes approved for human therapy: indications, mechanisms and adverse effects

Research and drug developments fostered under orphan drug product development programs have greatly assisted the introduction of efficient and safe enzyme-based therapies for a range of rare disorders. The introduction and regulatory approval of 20 different recombinant enzymes has enabled, often for the first time, effective enzyme-replacement therapy for some lysosomal storage disorders, including Gaucher (imiglucerase, taliglucerase, and velaglucerase), Fabry (agalsidase alfa and beta), and Pompe (alglucosidase alfa) diseases and mucopolysaccharidoses I (laronidase), II (idursulfase), IVA (elosulfase), and VI (galsulfase). Approved recombinant enzymes are also now used as therapy for myocardial infarction (alteplase, reteplase, and tenecteplase), cystic fibrosis (dornase alfa), chronic gout (pegloticase), tumor lysis syndrome (rasburicase), leukemia (L-asparaginase), some collagen-based disorders such as Dupuytren's contracture (collagenase), severe combined immunodeficiency disease (pegademase bovine), detoxification of methotrexate (glucarpidase), and vitreomacular adhesion (ocriplasmin). The development of these efficacious and safe enzyme-based therapies has occurred hand in hand with some remarkable advances in the preparation of the often specifically designed recombinant enzymes; the manufacturing expertise necessary for commercial production; our understanding of underlying mechanisms operative in the different diseases; and the mechanisms of action of the relevant recombinant enzymes. Together with information on these mechanisms, safety findings recorded so far on the various adverse events and problems of immunogenicity of the recombinant enzymes used for therapy are presented.

Intrapleural Fibrinolysis for the Treatment of Indwelling Pleural Catheter-Related Symptomatic Loculations: A Multicenter Observational Study

BACKGROUND

Indwelling pleural catheters (IPCs) are an effective option in the management of malignant pleural effusion. Up to 14% of patients with IPCs develop symptomatic pleural loculations causing ineffective fluid drainage and breathlessness. To our knowledge, this is the first study to describe intrapleural fibrinolytic therapy for IPC-related symptomatic loculations.

METHODS

All patients who received intrapleural fibrinolytic therapy for symptomatic loculations between January 1, 2002, and June 30, 2014, in four established IPC centers were retrospectively included. Patient outcomes, treatment effectiveness, and adverse events were recorded.

RESULTS

Sixty-six patients (mean age, 64.7 ± 14.2 years; 52% women) were included. Lung cancer (31.3%) and malignant pleural mesothelioma (20.3%) were the most common malignancies. Fibrinolytic instillation was performed in outpatient (61%) and inpatient settings. Tissue-plasminogen activator (n = 52), urokinase (n = 12), and streptokinase (n = 2) were used. The majority (69.7%) received only one fibrinolytic dose (range, one to six). Pleural fluid drainage increased in 93% of patients, and dyspnea improved in 83% following therapy. The median cumulative pleural fluid volume drained at 24 h posttreatment was 500 mL (interquartile range 300-1,034 mL). The area of opacity caused by pleural effusion on chest radiograph decreased from (mean, SD) 52% (14%) to 31% (21%) of the hemithorax (n = 13; P = .001). There were two cases of nonfatal pleural bleed (3%).

CONCLUSIONS

Intrapleural fibrinolytic therapy can improve pleural fluid drainage and symptoms in selected patients with IPC and symptomatic loculation, but it carries a small risk of pleural bleeding. There is significant heterogeneity in its use currently, and further studies are needed to determine patient selection and optimal dosing regimen and to define its safety profile.

Intrapleural tissue plasminogen activator and deoxyribonuclease therapy for pleural infection

Pleural infection remains a global health burden associated with significant morbidity. Drainage of the infected pleural fluid is important but can often be hindered by septations and loculations. Intrapleural fibrinolytic therapy alone, to break pleural adhesions, has shown no convincing advantages over placebo in improving clinical outcome. Deoxyribonucleoprotein from degradation of leukocytes contributes significantly to high viscosity of infected pleural fluid. Recombinant deoxyribonuclease (DNase) is effective in reducing pleural fluid viscosity in pre-clinical studies. The combination of tissue plasminogen activator (tPA) and DNase was effective in animal model experiments of empyema. The benefits were established in a randomized clinical trial: those (n=48) treated with tPA/DNase had significantly improved radiological outcomes and reduced need of surgery and duration of hospital stay. A longitudinal observational series of 107 patients further confirmed the effectiveness and safety of tPA/DNase therapy, including its use as 'rescue therapy' when patients failed to respond to antibiotics and chest tube drainage. Overall, a short course of intrapleural tPA (10 mg) and DNase (5 mg) therapy provides a cure in over 90% of patients without requiring surgery. The treatment stimulates pleural fluid formation, enhances radiographic clearance and resolution of systemic inflammation. Serious complications are uncommon; pleural bleeding requiring transfusion occurred in ~2% of cases. Pain can occur, especially with the first dose. Treatment is contraindicated in those with significant bleeding diathesis or a bronchopleural fistula. Future research is required to optimize dosing regimens and in refining patient selection.

Alteplase: pleural effusion (parapneumonic) and empyema in children

This Hospital Pharmacy feature is extracted from Off-Label Drug Facts, a publication available from Wolters Kluwer Health. Off-Label Drug Facts is a practitioner-oriented resource for information about specific drug uses that are unapproved by the US Food and Drug Administration. This new guide to the literature enables the health care professional or clinician to quickly identify published studies on off-label uses and determine if a specific use is rational in a patient care scenario. References direct the reader to the full literature for more comprehensive information before patient care decisions are made. Direct questions or comments regarding Off-Label Drug Uses to jgeneral@ku.edu.

Intrapleural hemorrhage due to alteplase use in a 6-year-old boy with pleural effusion

Background

Intrapleural fibrinolytics have been used successfully worldwide for the management of complicated pleural effusions and empyema. Bleeding complications are usually mentioned as rare side effects, but there is no clear information in the literature addressing the alarming outcome that might result following the use of alteplase as a fibrinolytic in the management of complicated parapneumonic effusions. We present a rare, if not unique, case of intrapleural hemorrhage requiring transfusion after alteplase use as a fibrinolytic in a 6-year-old male with complicated parapneumonic effusion.

Methods

A search of the PubMed database was carried out, using a combination of the following terms: alteplase, fibrinolytic, intrapleural hemorrhage, and side effects.

Results

The majority of studies found in the search concentrated on the efficacy of intrapleural fibrinolytics in the management of pleural effusion, but very few of the reports addressed the bleeding complications which may be caused by the treatment.

Conclusion

Although intrapleural and systemic hemorrhage are rare side effects of intrapleural fibrinolytic use, the health care provider must be watchful for these potentially life-threatening complications. Further studies are needed to understand not only the efficacy of fibrinolytics but also their safety, especially in children.

Intrapleural fibrinolytic therapy (IPFT) in loculated pleural effusions--analysis of predictors for failure of therapy and bleeding: a cohort study

OBJECTIVES

To assess risk factors associated with failure and bleeding in intrapleural fibrinolytic therapy (IPFT) for pleural effusions.

DESIGN

Retrospective case series.

SETTING

Two tertiary-care centres in North America.

PARTICIPANTS

We identified 237 cases that received IPFT for the treatment of pleural effusions. Data for 227 patients were compiled including demographics, investigations, radiological findings pretherapy and post-therapy and outcomes.

INTERVENTION

Fibrinolytic therapy in the form of tissue plasminogen activator (t-PA) or streptokinase.

PRIMARY AND SECONDARY OUTCOMES

Success of therapy is defined as the presence of both clinical and radiological improvement leading to resolution. Failure was defined as persistence (ie, ineffective treatment) or complications requiring intervention from IPFT. Incidence of bleeding post-IPFT, identifying factors related to failure of therapy and bleeding.

RESULTS

IPFT was used in 237 patients with pleural effusions; 163 with empyema/complicated parapneumonic effusions, 32 malignant effusions and 23 with haemothorax. Overall, resolution was achieved in 80% of our cases. Failure occurred in 46 (20%) cases. Multivariate analysis revealed that failure was associated with the presence of pleural thickening (>2 mm) on CT scan (p=0.0031, OR 3, 95% CI 1.46 to 6.57). Bleeding was not associated with any specific variable in our study (antiplatelet medications, p=0.08).

CONCLUSIONS

Pleural thickening on a CT scan was found to be associated with failure of IPFT.

Tube thoracostomy: a review for the interventional radiologist

Small-caliber tube thoracostomy is a valuable treatment for various pathologic conditions of the pleural space. Smaller caliber tubes placed under image guidance are becoming increasingly useful in numerous situations, are less painful than larger surgical tubes, and provide more accurate positioning when compared with tubes placed without image guidance. Basic anatomy and physiology of the pleural space, indications, and contraindications of small caliber tube thoracostomy, techniques for image-guided placement, complications and management of tube thoracostomy, and fundamental principles of pleurodesis are discussed in this review.

A double blind randomized cross over trial comparing rate of decortication and efficacy of intrapleural instillation of alteplase vs placebo in patients with empyemas and complicated parapneumonic effusions

AIM

A double blind randomized cross over trial to compare the rate of decortication, safety and efficacy of intrapleural instillation of Alteplase vs. Placebo in empyema and complicated parapneumonic effusions (CPE).

METHODS

Patients diagnosed with empyema or CPE and considered for surgery were given the option to enter into this trial. Intrapleural instillation of the 'Drug' was given daily for three days. Patient that failed the first arm of the trial were offered surgery or to cross over to the second arm. Failure was documented if pleural effusions did not improve by 50% on CT scans after three doses of the 'Drug' or if these effusions recurred within six weeks.

RESULTS

One hundred and eight patients were evaluated and one hundred enrolled in the trial. 32 patients were excluded, 29 for noninfectious loculated effusions, two for protocol violation and one for bleeding at chest tube site. There were 17 patients with empyema and 51 patients with CPE. 58 of the 61 patients (26 crossed over) with empyema/CPE resolved with Alteplase therapy compared to 4 of the 32 patients (one crossed over) treated with Placebo (p value <0.001). None of the patients went to surgery. Adverse events with Alteplase therapy compared to Placebo were not statistically significant, with chest pain and bleeding complications being the most common.

CONCLUSION

Intrapleural instillation of Alteplase is significantly more effective than Placebo in patients with empyema and PPE (95% vs.12%). This study demonstrates it is safe and efficacious with minimal adverse reactions.

Intrapleural hemorrhage after administration of tPA: a case report and review of the literature

OBJECTIVE

Intrapleural fibrinolytic enzymes have been used for over 60 years in the treatment of complicated pleural effusions to lyse loculations and promote resolution. Despite this extensive history of use, however, little is known about complications that may arise with the use of this therapy. Here we discuss a patient with chronic renal failure on hemodialysis who developed an intrapleural hemorrhage after the administration of intrapleural tPA to treat a complicated parapneumonic effusion. A review of the literature examines the efficacy and safety of this therapy, focusing on bleeding complications. Specific attention is paid to patients who have underlying coagulopathies or who are receiving anticoagulation.

DATA SOURCES

A review of the literature, as indexed in PubMed, was undertaken using the following search terms in combination: tPA, pleural effusion, complications of thrombolytics, and intrapleural hemorrhage. The search was inclusive of patients under the age of 18, but was limited by English language and human subjects.

STUDY SELECTION/DATA EXTRACTION

All relevant articles identified during the search were reviewed. Those studies that reported on bleeding complications, or lack thereof, were included in this review. Limitations of each article are noted in the text.

CONCLUSIONS

Multiple studies, including a 2000 ACP consensus statement and a 2008 Cochrane review, indicate the need for further investigations to evaluate the safety and efficacy of intrapleural thrombolytics for the treatment of complicated pleural effusions and empyemas. Limited studies specifically address bleeding complications, especially in subpopulations of patients receiving concurrent anticoagulant therapy.

The Administration of rt-PA (Activase®) for the Treatment of Empyema in an Adult Patient

The administration of various fibrinolytic agents for the treatment of empyema has been reported in past studies. Most of the current literature has shown favorable outcomes in terms of increased tube drainage, improved chest radiography, and reduction in surgical intervention. However, a randomized controlled trial that compared streptokinase to placebo showed no significant reduction in mortality. To date, there have been no randomized controlled trials evaluating the safety, efficacy, and administration of recombinant tissue plasminogen activator for the treatment of empyema in the adult population. The authors report the use of a 10 mg daily dose of intrapleural recombinant tissue plasminogen activator for 6 days in a 57-year-old, white, male patient with empyema that was unresponsive to antibiotic therapy and chest tube drainage. They conclude that intrapleural administration of recombinant tissue plasminogen activator in conjunction with antibiotic therapy for the treatment of empyema in this patient resulted in increased chest tube drainage and provided complete resolution of all signs and symptoms of his infection.