Isolation of persistent air leaks and placement of intrabronchial valves

Bronchoscopic management in persistent air leak: a narrative review

Background and Objective

Persistent air leak (PAL) represents a challenging medical condition characterized by prolonged air leak from the lung parenchyma into the pleural cavity, often associated with alveolar-pleural fistula or bronchopleural fistula (BPF). The objective of this narrative review is to explore the causes, clinical implications, and the evolving landscape of bronchoscopic treatment options for PAL.

Methods

The literature search for this review was conducted using databases such as PubMed/MEDLINE, and Scopus databases. Articles published from inception until 28th August, 2023, focusing on studies that discussed the causes, diagnosis, and management strategies for PAL were included. Keywords included bronchoscopic management, bronchopleural fistula, endobronchial valve, sealant, blood patch pleurodesis, spigot, air leak, PAL, management, comparative study.

Key Content and Findings

PAL commonly arises from secondary spontaneous pneumothorax, necrotizing pneumonia, barotrauma induced by mechanical ventilation, chest trauma, or postoperative complications. Understanding the underlying etiology is crucial for tailoring effective management strategies. While conventional intercostal drainage resolves the majority of pneumothorax cases, PAL is diagnosed when the air leak persists beyond 5 to 7 days. Prolonged PAL can lead to worsening pneumothorax, respiratory distress, and increased morbidity. Early identification and intervention are essential to prevent complications. Conservative approaches involve close monitoring and supplemental oxygen therapy. These strategies aim to promote natural healing and resolution of the air leak without invasive interventions. Bronchoscopic techniques, such as endobronchial valves (EBVs), sealants, and autologous blood patch (ABP), have emerged as promising alternatives for refractory PAL. These interventions offer a targeted and minimally invasive approach to seal the fistulous connection, promoting faster recovery and reducing the need for surgical interventions.

Conclusions

PAL is a clinical challenge, and their management requires a tailored approach based on the underlying cause and severity. Bronchoscopic interventions have shown efficacy in cases of refractory PAL. Early recognition, multidisciplinary collaboration, and a personalized treatment plan are essential for optimizing outcomes in patients with PAL.

Advancements in the Management of Postoperative Air Leak following Thoracic Surgery: From Traditional Practices to Innovative Therapies

Background: Postoperative air leak (PAL) is a frequent and potentially serious complication following thoracic surgery, characterized by the persistent escape of air from the lung into the pleural space. It is associated with extended hospitalizations, increased morbidity, and elevated healthcare costs. Understanding the mechanisms, risk factors, and effective management strategies for PAL is crucial in improving surgical outcomes. Aim: This review seeks to synthesize all known data concerning PAL, including its etiology, risk factors, diagnostic approaches, and the range of available treatments from conservative measures to surgical interventions, with a special focus on the use of autologous plasma. Materials and Methods: A comprehensive literature search of databases such as PubMed, Cochrane Library, and Google Scholar was conducted for studies and reviews published on PAL following thoracic surgery. The selection criteria aimed to include articles that provided insights into the incidence, mechanisms, risk assessment, diagnostic methods, and treatment options for PAL. Special attention was given to studies detailing the use of autologous plasma in managing this complication. Results: PAL is influenced by a variety of patient-related, surgical, and perioperative factors. Diagnosis primarily relies on clinical observation and imaging, with severity assessments guiding management decisions. Conservative treatments, including chest tube management and physiotherapy, serve as the initial approach, while persistent leaks may necessitate surgical intervention. Autologous plasma has emerged as a promising treatment, offering a novel mechanism for enhancing pleural healing and reducing air leak duration, although evidence is still evolving. Conclusions: Effective management of PAL requires a multifaceted approach tailored to the individual patient's needs and the specifics of their condition. Beyond the traditional treatment approaches, innovative treatment modalities offer the potential to improve outcomes for patients experiencing PAL after thoracic surgery. Further research is needed to optimize treatment protocols and integrate new therapies into clinical practice.

Interventional bronchoscopy in pediatric pulmonary tuberculosis

INTRODUCTION

Lymphobronchial tuberculosis (TB) is common in children with primary TB and enlarged lymph nodes can cause airway compression of the large airways. If not treated correctly, airway compression can result in persistent and permanent parenchymal pathology, as well as irreversible lung destruction. Bronchoscopy was originally used to collect diagnostic samples; however, its role has evolved, and it is now used as an interventional tool in the diagnosis and management of complicated airway disease. Endoscopic treatment guidelines for children with TB are scarce.

AREAS COVERED

The role of interventional bronchoscopy in the diagnosis and management of complicated pulmonary TB will be discussed. This review will provide practical insights into how and when to perform interventional procedures in children with complicated TB for both diagnostic and therapeutic purposes. This discussion incorporates current scientific evidence and refers to adult literature, as some of the interventions have only been done in adults but may have a role in children. Limitations and future perspectives will be examined.

EXPERT OPINION

Pediatric pulmonary TB lends itself to endoscopic interventions as it is a disease with a good outcome if treated correctly. However, interventions must be limited to safeguard the parenchyma and prevent permanent damage.

Evaluation and management of persistent air leak

INTRODUCTION

Persistent air leaks (PAL) represent a challenging clinical problem for which there is not a clear consensus to guide optimal management. PAL is associated with significant morbidity, mortality, and increased length of hospital stay. There are a variety of surgical and non-surgical management options available.

AREAS COVERED

This narrative review describes the current evidence for PAL management including surgical approach, autologous blood patch pleurodesis, chemical pleurodesis, endobronchial valves, and one-way valves. Additionally, emerging topics such as drainage-dependent air leak and intensive care unit management are described.

EXPERT OPINION

There has been considerable progress in understanding the pathophysiology of PAL and growing evidence to support the various non-surgical treatment modalities. Increased recognition of drainage-dependent persistent air leaks offers the opportunity to decrease the number of patients requiring additional invasive treatment. Randomized control trials are needed to guide optimal management.

From plugging air leaks to reducing lung volume: a review of the many uses of endobronchial valves

INTRODUCTION

One-way endobronchial valve treatment improves lung function, exercise capacity, and quality of live in patients with severe emphysema and hyperinflation. Other areas of therapeutic application include treatment of persistent air leak (PAL), giant emphysematous bullae, native lung hyperinflation, hemoptysis, and tuberculosis.

AREAS COVERED

In this review, we will assess the clinical evidence and safety of the different applications of one-way endobronchial valves (EBV).

EXPERT OPINION

There is solid clinical evidence for the use of one-way EBV for lung volume reduction in emphysema. Treatment with one-way EBV can be considered for the treatment of PAL. The application of one-way EBV for giant bullae, post lung transplant native lung hyperinflation, hemoptysis, and tuberculosis is under investigation and more research is required to investigate the efficacy and safety of these applications.

Progress Report on Interventional Treatment for Bronchopleural Fistula

Objectives

Bronchopleural fistula (BPF) is a serious and life-threatening complication. Following the advent of interventional radiology, subsequent treatment methods for BPF have gradually diversified. Therefore, this article provides an overview of the present scenario of interventional treatment and research advancements pertaining to BPF.

Methods

Relevant published studies on the interventional treatment of BPF were identified from the PubMed, Sci-Hub, Google Scholar, CNKI, VIP, and Wanfang databases. The included studies better reflect the current status of and progress in interventional treatments for BPF with representativeness, reliability, and timeliness. Studies with similar and repetitive conclusions were excluded.

Results

There are many different interventional treatments for BPF that can be applied in cases of BPF with different fistula diameters.

Conclusion

The application of interventional procedures for bronchopleural fistula has proven to be safe, efficacious, and minimally invasive. However, the establishment of comprehensive, standardized treatment guidelines necessitates further pertinent research to attain consensus within the medical community. The evolution of novel technologies, tools, techniques, and materials specifically tailored to the interventional management of bronchopleural fistula is anticipated to be the focal point of forthcoming investigations. These advancements present promising prospects for seamless translation into clinical practice and application, thereby potentially revolutionizing patient care in this field.

[The role of the intensive care unit after thoracic surgery]

Lung (bronchial) cancer is the leading cause of cancer-related death in Western countries today. Thoracic surgery represents a major therapeutic strategy and the various advances made in recent years have made it possible to develop less and less invasive techniques. That said, the postoperative period may be lengthy, post-surgical approaches need to be more precisely codified, and it matters that the different interventions involved be supported by sound scientific evidence. To date, however, there exists no evidence that preventive postoperative admission to intensive care is beneficial for patients having undergone lung resection surgery without immediate complications. A stratification of the risk of complications taking into consideration the patient's general state of health (e.g., nutritional status, degree of autonomy, etc.), comorbidities and type of surgery could be a useful predictive tool regarding the need for postoperative intensive care. However, serious post-operative complications remain relatively frequent and post-operative management of these intensive care patients is liable to become complex and long-lasting. In the aftermath of the validation of "enhanced recovery after surgery" (ERAS) in thoracic surgery, new protocols are needed to optimize management of patients having undergone pulmonary resection. This article focuses on the main postoperative complications and more broadly on intensive care patient management following thoracic surgery.

Shortness of Breath on Day 1 After Surgery Alerting the Presence of Early Respiratory Complications After Surgery in Lung Cancer Patients

PURPOSE

Patient-reported outcome (PRO)-based symptom assessment with a threshold can facilitate the early alert of adverse events. The purpose of this study was to determine whether shortness of breath (SOB) on postoperative day 1 (POD1) can inform postoperative pulmonary complications (PPCs) for patients after lung cancer (LC) surgery.

METHODS

Data were extracted from a prospective cohort study of patients with LC surgery. Symptoms were assessed by the MD Anderson Symptom Inventory-lung cancer module (MDASI-LC) before and daily after surgery. Types and grades of complications during hospitalization were recorded. SOB and other symptoms were tested for a possible association with PPCs by logistic regression models. Optimal cutpoints of SOB were derived, using the presence of PPCs as an anchor.

RESULTS

Among 401 patients with complete POD1 MDASI-LC and records on postoperative complications, 46 (11.5%) patients reported Clavien-Dindo grade II-IV PPCs. Logistic regression revealed that higher SOB score on POD1 (odds ratio [OR]=1.13, 95% CI=1.01-1.27), male (OR=2.86, 95% CI=1.32-6.23), open surgery (OR=3.03, 95% CI=1.49-6.14), and lower forced expiratory volume in one second (OR=1.78, 95% CI=1.66-2.96) were significantly associated with PPCs. The optimal cutpoint was 6 (on a 0-10 scale) for SOB. Patients reporting SOB < 6 on POD1 had shorter postoperative length of stay than those reporting 6 or greater SOB (median, 6 vs 7, P =0.007).

CONCLUSION

SOB on POD1 can inform the onset of PPCs in patients after lung cancer surgery. PRO-based symptom assessment with a clinically meaningful threshold could alert clinicians for the early management of PPCs.

Persistent air leak management in critically ill patients

Persistent air leak (PAL) is a challenging clinical entity, particularly in the setting of critical illness. It is a significant cause of morbidity, health care expenditure, and resource utilization. Data on its prevalence in the critically ill patient population are limited. Unique patient factors often necessitate an individualized approach. Guidelines on this subject are antiquated and do not specially address patients on mechanical ventilation. Critically ill patients may not be able to tolerate surgical intervention. Treatment in this population relies upon lung protective ventilation, various anecdotal modalities, chemical pleurodesis, autologous blood patching, and bronchoscopic insertion of endobronchial valves. Ventilation strategies center on rapid weaning and reduction of airway pressures. Anecdotal methods include implantable devices and chemical agents. Data on these modalities are limited to case reports. None have United States Food and Drug Administration (FDA) approval. The Spiration Valve System is FDA approved as a Humanitarian Device Exemption. Data on endobronchial valves are based on large case series, and only one small case series has focused exclusively on critically ill patients. The majority of valves in critically ill mechanically ventilated patients are used for non-FDA approved indications. Updated guidelines are desperately needed to ensure a standardized approach to this common clinical situation.

Bronchoscopic lung volume reduction procedures for emphysema: A network meta-analysis

Bronchoscopic lung volume reduction (BLVR) offers alternative novel treatments for patients with emphysema. Comprehensive evidence for comparing different BLVR remains unclear. To estimate the effects of different BLVR on patients with emphysema. PubMed, EMBASE, Cochrane Library, and Web of Science databases from January 2001 to August 2017 were searched. Randomized clinical trials evaluated effects of BLVR on patients with emphysema. The relevant information was extracted from the published reports with a predefined data extraction sheet, and the risk of bias was assessed with the Cochrane risk of bias tools. Pair-wise metaanalyses were made using the random-effects model. A random-effects network meta-analysis was applied within a Bayesian framework. The quality of evidence contributing to primary outcomes was assessed using the GRADE framework. 13 trials were deemed eligible, including 1993 participants. The quality of evidence was rated as moderate in most comparisons. Medical care (MC)was associated with the lowest adverse events compared with intrabronchial valve (IBV)(-2.5,[-4.70 to -0.29]), endobronchial valve (EBV) (-1.73, [-2.37 to -1.09]), lung volume reduction coils (LVRC) (-0.76, [-1.24 to -0.28]), emphysematous lung sealant (ELS) (-1.53, [-2.66 to -0.39]), and airway bypass(-1.57, [-3.74 to 0.61]). Adverse events in LVRC were lower compared with ELS (-0.77,[-2.00 to 0.47]). Bronchoscopic thermal vapor ablation (BTVA) showed significant improvement in FEV1 compared with MC (0.99, [0.37 to 1.62]), IBV (1.25, [0.25 to 2.25]), and LVRC (0.72, [0.03 to 1.40] ). Six  minute walking distance (6 MWD) in ELS was significantly improved compared with other four BLVR, sham control, and MC (-1.96 to 1.99). Interestingly, MC showed less improvement in FEV1 and 6MWDcompared with EBV (-0.45, [-0.69 to -0.20] and -0.39, [-0.71 to -0.07], respectively). The mortality in MC and EBV was lower compared with LVRC alone (-0.38, [-1.16 to 0.41] and -0.50, [-1.68 to 0.68], respectively). BTVA and EBV led to significant changes in St George's respiratory questionnaire (SGRQ) compared with MC alone (-0.74, [-1.43 to -0.05] and 0.44, [0.11 to 0.78], respectively). BLVR offered a clear advantage for patients with emphysema. EBV had noticeable beneficial effects on the improvement of forced expiratory volume 1, 6MWD and SGRQ, and was associated with lower mortality compared with MC in different strategies of BLVR.

Optimal management of postoperative parenchymal air leaks

Air leaks are the most common complication after pulmonary resection. Enhanced recovery after surgery (ERAS) programs must be designed to manage parenchymal air leaks. ERAS programs should consider two components when creating protocols for air leaks: assessment and management. Accurate assessment of air leaks using traditional analogues devices, newer digital drainage systems, portable devices and chest X-rays (CXR) are reviewed. Published data suggests that digital drainage systems result in a more confident assessment of air leaks. The literature regarding the management of postoperative air leaks, including the number of chest tubes, the role of applied external suction, invasive maneuvers and discharge with a portable device is reviewed. The key findings are that a single chest drain is adequate in the majority of cases to manage an air leak, the use of applied external suction is unlikely to prevent or prolong an air leak, autologous blood patch pleurodesis may potentially shorten postoperative air leaks and there is sufficient data to support that patients can safely be discharged with a portable drainage system. There is also literature to support the design of protocols for management of postoperative air leaks. Standardization of postoperative care through ERAS programs will allow for the design of larger RCTs to better understand some of the controversies around the management of postoperative air leaks.

Assessment of Fissure Integrity in Patients With Intrabronchial Valves for Treatment of Prolonged Air Leak

BACKGROUND

Intrabronchial valves (IBVs) are a treatment alternative for persistent air leak (PAL). However, there is a paucity of evidence regarding whether the absence of collateral ventilation (CV) can predict successful treatment of PAL with IBV placement. We assessed whether absence of CV measured by fissure integrity could predict successful resolution of PAL with IBV placement.

METHODS

A multicenter, retrospective study was performed. Patients who underwent IBV placement for PAL were identified. Chest computed tomography analysis via VIDA Diagnostics was used to assess CV. CV was present if the treated lobe was adjacent to a fissure that was <90% complete.

RESULTS

A total of 81 valves were placed in 26 patients (median, 3 per patient). A total of 16 patients without CV underwent IBV placement: 14 patients had complete resolution of PAL with a median time from IBV placement to air leak resolution of 4.5 days and 2 patients required subsequent procedures to manage the PAL. In a subset of patients without CV who underwent complete lobar occlusion with IBV (n = 8), median time to PAL resolution was 3 days, whereas in patients without CV who underwent incomplete lobar occlusion with IBV (n = 6), median time PAL resolution was 6.5 days (p = 0.045). All 10 patients with CV underwent IBV placement and complete lobar occlusion: 4 patients had complete PAL resolution with a median time from IBV placement to PAL resolution of 17.5 days and 6 patients required subsequent procedures to manage their PAL.

CONCLUSIONS

PAL treatment with IBV is more successful in patients without CV, especially when complete lobar occlusion with IBV is achieved.

Radiographic Review of Current Therapeutic and Monitoring Devices in the Chest

Chest radiographs are obtained as a standard part of clinical care. Rapid advancements in medical technology have resulted in a myriad of new medical devices, and familiarity with their imaging appearance is a critical yet increasingly difficult endeavor. Many modern thoracic medical devices are new renditions of old designs and are often smaller than older versions. In addition, multiple device designs serving the same purpose may have varying morphologies and positions within the chest. The radiologist must be able to recognize and correctly identify the proper positioning of state-of-the-art medical devices and identify any potential complications that could impact patient care and management. To familiarize radiologists with the arsenal of newer thoracic medical devices, this review describes the indications, radiologic appearance, complications, and magnetic resonance imaging safety of each device. ^©RSNA, 2018.

Bronchoscopic valve placement for the treatment of persistent air leaks

Persistent air leaks (PALs) are associated with increased morbidity, prolonged hospital stay, and increased treatment costs. Endobronchial 1-way valves have been recently used as a potential less invasive treatment option. We sought to investigate the effects of valve therapy in treating this condition. The patients with evidence of continuous air leak flow whose chest tubes remained in place for more than 7 days were treated with bronchoscopic closure using 1-way valves. The source of the air leak was identified by the Chartis system.A total of 11 patients (1 woman, 10 men; mean age, 68 years) who underwent valve placement were eligible to be enrolled from January 2015 through January 2017. Six patients had postoperative PAL, and 5 had a secondary spontaneous pneumothorax. The number of used valves varied from 1 to 3 (median 1). The resolution of the leak was complete in 8 patients (72.7%), whose mean duration of air leak before and after valve deployment was 58.5 and 4.5 days, respectively. There were no complications related to the valve deployment.Bronchoscopic placement of 1-way valves is a safe procedure that could help manage patients with prolonged PALs. A prospective randomized trial with cost-efficiency analysis is necessary to better define the role of this bronchoscopic intervention and demonstrate its effect on air leak duration.

Endobronchial one-way valves for treatment of persistent air leaks: a systematic review

Persistent air leak (PAL) is associated with significant morbidity and mortality, prolonged hospitalization and increased health-care costs. It can arise from a number of conditions, including pneumothorax, necrotizing infection, trauma, malignancies, procedural interventions and complications after thoracic surgery. Numerous therapeutic options, including noninvasive and invasive techniques, are available to treat PALs. Recently, endobronchial one-way valves have been used to treat PAL. We conducted a systematic review based on studies retrieved from PubMed, EMbase and Cochrane library. We also did a hand-search in the bibliographies of relevant articles for additional studies. 34 case reports and 10 case series comprising 208 patients were included in our review. Only 4 patients were children, most of the patients were males. The most common underlying disease was COPD, emphysema and cancer. The most remarkable cause was pneumothorax. The upper lobes were the most frequent locations of air leaks. Complete resolution was gained within less than 24 h in majority of patients. Complications were migration or expectoration of valves, moderate oxygen desaturation and infection of related lung. No death related to endobronchial one-way valves implantation has been found. The use of endobronchial one-way valve adds to the armamentarium for non-invasive treatments of challenging PAL, especially those with difficulties of anesthesia, poor condition and high morbidity. Nevertheless, prospective randomized control trials with large sample should be needed to further evaluate the effects and safety of endobronchial one-way valve implantation in the treatment of PAL.

Persistent air leaks: a review with an emphasis on bronchoscopic management

Persistent air leak (PAL) is a cause of significant morbidity in patients who have undergone lung surgery and those with significant parenchymal lung disease suffering from a pneumothorax. Its management can be complex and challenging. Although conservative treatment with chest drain and observation is usually effective, other invasive techniques are needed when conservative treatment fails. Surgical management and medical pleurodesis have long been the usual treatments for PAL. More recently numerous bronchoscopic procedures have been introduced to treat PAL in those patients who are poor candidates for surgery or who decline surgery. These techniques include bronchoscopic use of sealants, sclerosants, and various types of implanted devices. Recently, removable one-way valves have been developed that are able to be placed bronchoscopically in the affected airways, ameliorating air-leaks in patients who are not candidates for surgery. Future comparative trials are needed to refine our understanding of the indications, effectiveness, and complications of bronchoscopic techniques for treating PAL. The following article will review the basic principles of management of PAL particularly focusing on bronchoscopic techniques.

In-vitro evaluation of limitations and possibilities for the future use of intracorporeal gas exchangers placed in the upper lobe position

The lack of donor organs has led to the development of alternative "destination therapies", such as a bio-artificial lung (BA) for end-stage lung disease. Ultimately aiming at a fully implantable BA, general capabilities and limitations of different oxygenators were tested based on the model of BA positioning at the right upper lobe. Three different-sized oxygenators (neonatal, paediatric, and adult) were tested in a mock circulation loop regarding oxygenation and decarboxylation capacities for three respiratory pathologies. Blood flows were imitated by a roller pump, and respiration was imitated by a mechanical ventilator with different FiO₂ applications. Pressure drops across the oxygenators and the integrity of the gas-exchange hollow fibers were analyzed. The neonatal oxygenator proved to be insufficient regarding oxygenation and decarboxylation. Despite elevated pCO₂ levels, the paediatric and adult oxygenators delivered comparable sufficient oxygen levels, but sufficient decarboxylation across the oxygenators was ensured only at flow rates of 0.5 L min. Only the adult oxygenator indicated no significant pressure drops. For all tested conditions, gas-exchange hollow fibers remained intact. This is the first study showing the general feasibility of delivering sufficient levels of gas exchange to an intracorporeal BA via patient's breathing, without damaging gas-exchange hollow fiber membranes.

Management of Persistent Air Leaks

Alveolar-pleural fistulas causing persistent air leaks (PALs) are associated with prolonged hospital stays and high morbidity. Prior guidelines recommend surgical repair as the gold standard for treatment, albeit it is a solution with limited success. In patients who have recently undergone thoracic surgery or in whom surgery would be contraindicated based on the severity of illness, there has been a lack of treatment options. This review describes a brief history of treatment guidelines for PALs. In the past 20 years, newer and less invasive treatment options have been developed. Aside from supportive care, the literature includes anecdotal successful reports using fibrin sealants, ethanol injection, metal coils, and Watanabe spigots. More recently, larger studies have demonstrated success with chemical pleurodesis, autologous blood patch pleurodesis, and endobronchial valves. This manuscript describes these treatment options in detail, including postprocedural adverse events. Further research, including randomized controlled trials with comparison of these options, are needed, as is long-term follow-up for these interventions.

Intensive care in thoracic oncology

The admission of lung cancer patients to intensive care is related to postprocedural/postoperative care and medical complications due to cancer or its treatment, but is also related to acute organ failure not directly related to cancer.

Despite careful preoperative risk management and the use of modern surgical and anaesthetic techniques, thoracic surgery remains associated with high morbidity, related to the extent of resection and specific comorbidities. Fast-tracking processes with timely recognition and treatment of complications favourably influence patient outcome. Postoperative preventive and therapeutic management has to be carefully planned in order to reduce postoperative morbidity and mortality.

For patients with severe complications, intensive care unit (ICU) mortality rate ranges from 13% to 47%, and hospital mortality ranges from 24% to 65%. Common predictors of in-hospital mortality are severity scores, number of failing organs, general condition, respiratory distress and the need for mechanical ventilation or vasopressors. When considering long-term survival after discharge, cancer-related parameters retain their prognostic value.

Thoracic surgeons, anesthesiologists, pneumologists, intensivists and oncologists need to develop close and confident partnerships aimed at implementing evidence-based patient care, securing clinical pathways for patient management while promoting education, research and innovation. The final decision on admitting a patient with lung to the ICU should be taken in close partnership between this medical team and the patient and his or her relatives.

Bronchopleural Fistula Resolution with Endobronchial Valve Placement and Liberation from Mechanical Ventilation in Acute Respiratory Distress Syndrome: A Case Series

Patients who have acute respiratory distress syndrome (ARDS) with persistent air leaks have worse outcomes. Endobronchial valves (EBV) are frequently deployed after pulmonary resection in noncritically ill patients to reduce and eliminate bronchopleural fistulas (BPFs) with persistent air leak (PAL). Information regarding EBV placement in mechanically ventilated patients with ARDS and high volume persistent air leaks is rare and limited to case reports. We describe three cases where EBV placement facilitated endotracheal extubation in patients with severe respiratory failure on prolonged mechanical ventilation with BPFs. In each case, EBV placement led to immediate resolution of PAL. We believe endobronchial valve placement is a safe method treating persistent air leak with severe respiratory failure and may reduce days on mechanical ventilation.

Endobronchial valves for bronchopleural fistula: pitfalls and principles

Background:

Placement of endobronchial valves for bronchopleural fistula (BPF) is not always straightforward. A simple guide to the steps for an uncomplicated procedure does not encompass pitfalls that need to be understood and overcome to maximize the efficacy of this modality.

Objectives:

The objective of this study was to discuss examples of difficult cases for which the placement of endobronchial valves was not straightforward and required alterations in the usual basic steps. Subsequently, we aimed to provide guiding principles for a successful procedure.

Methods:

Six illustrative cases were selected to demonstrate issues that can arise during endobronchial valve placement.

Results:

In each case, a real or apparent lack of decrease in airflow through a BPF was diagnosed and addressed. We have used the selected problem cases to illustrate principles, with the goal of helping to increase the success rate for endobronchial valve placement in the treatment of BPF.

Conclusions:

This series demonstrates issues that complicate effective placement of endobronchial valves for BPF. These issues form the basis for troubleshooting steps that complement the basic procedural steps.

A clinical prediction model for prolonged air leak after pulmonary resection

OBJECTIVE

Prolonged air leak increases costs and worsens outcomes after pulmonary resection. We aimed to develop a clinical prediction tool for prolonged air leak using pretreatment and intraoperative variables.

METHODS

Patients who underwent pulmonary resection for lung cancer/nodules (from January 2009 to June 2014) were stratified by prolonged parenchymal air leak (>5 days). Using backward stepwise logistic regression with bootstrap resampling for internal validation, candidate variables were identified and a nomogram risk calculator was developed.

RESULTS

A total of 2317 patients underwent pulmonary resection for lung cancer/nodules. Prolonged air leak (8.6%, n = 200) was associated with significantly longer hospital stay (median 10 vs 4 days; P < .001). Final model variables associated with increased risk included low percent forced expiratory volume in 1 second, smoking history, bilobectomy, higher annual surgeon caseload, previous chest surgery, Zubrod score >2, and interaction terms for right-sided thoracotomy and wedge resection by thoracotomy. Wedge resection, higher body mass index, and unmeasured percent forced expiratory volume in 1 second were protective. Derived nomogram discriminatory accuracy was 76% (95% confidence interval [CI], 0.72-0.79) and facilitated patient stratification into low-, intermediate- and high-risk groups with monotonic increase in observed prolonged air leaks (2.0%, 8.9%, and 19.2%, respectively; P < .001). Patients at intermediate and high risk were 4.80 times (95% CI, 2.86-8.07) and 11.86 times (95% CI, 7.21-19.52) more likely to have prolonged air leak compared with patients at low risk.

CONCLUSIONS

Using readily available candidate variables, our nomogram predicts increasing risk of prolonged air leak with good discriminatory ability. Risk stratification can support surgical decision making, and help initiate proactive, patient-specific surgical management.

Prolonged length of stay associated with air leak following pulmonary resection has a negative impact on hospital margin

Background

Protracted hospitalizations due to air leaks following lung resections are a significant source of morbidity and prolonged hospital length of stay (LOS), with potentially significant impact on hospital margins. This study aimed to evaluate the relationship between air leaks, LOS, and financial outcomes among discharges following lung resections.

Materials and methods

The Medicare Provider Analysis and Review file for fiscal year 2012 was utilized to identify inpatient hospital discharges that recorded International Classification of Diseases (ICD-9) procedure codes for lobectomy, segmentectomy, and lung volume reduction surgery (n=21,717). Discharges coded with postoperative air leaks (ICD-9-CM codes 512.2 and 512.84) were defined as the air leak diagnosis group (n=2,947), then subcategorized by LOS: 1) <7 days; 2) 7–10 days; and 3) ≥11 days. Median hospital charges, costs, payments, and payment-to-cost ratios were compared between non-air leak and air leak groups, and across LOS subcategories.

Results

For identified patients, hospital charges, costs, and payments were significantly greater among patients with air leak diagnoses compared to patients without (P<0.001). Hospital charges and costs increased substantially with prolonged LOS, but were not matched by a proportionate increase in hospital payments. Patients with LOS <7, 7–10, and ≥11 days had median hospital charges of US $57,129, $73,572, and $115,623, and costs of $17,594, $21,711, and $33,786, respectively. Hospital payment increases were substantially lower at $16,494, $16,307, and $19,337, respectively. The payment-to-cost ratio significantly lowered with each LOS increase (P<0.001). Higher inpatient hospital mortality was observed among the LOS ≥11 days subgroup compared with the LOS <11 days subgroup (P<0.001).

Conclusion

Patients who develop prolonged air leaks after lobectomy, segmentectomy, or lung volume reduction surgery have the best clinical and financial outcomes. Hospitals experience markedly lower payment-to-cost ratios as LOS increases. Interventions minimizing air leak or allowing outpatient management will improve financial performance and hospital margins for lung surgery.

Demystifying the persistent pneumothorax: role of imaging

Evaluation for pneumothorax is an important indication for obtaining chest radiographs in patients who have had trauma, recent cardiothoracic surgery or are on ventilator support. By definition, a persistent pneumothorax constitutes ongoing bubbling of air from an in situ chest drain, 48 h after its insertion. Persistent pneumothorax remains a diagnostic dilemma and identification of potentially treatable aetiologies is important. These may be chest tube related (kinks or malposition), lung parenchymal disease, bronchopleural fistula, or rarely, oesophageal-pleural fistula. Although radiographs remain the mainstay for diagnosis and follow up of pneumothorax, computed tomography (CT) is increasingly being used for problem solving. Aetiology of persistent air leak determines the optimal treatment. For some, a simple repositioning of the chest tube/drain may suffice; others may require surgery. In this pictorial review, we will briefly describe the physiology of pneumothorax, discuss imaging features of identifiable causes for persistent pneumothorax and provide a brief overview of treatment options. Specific aetiology of a persistent air leak may often not be immediately discernible, and will need to be carefully sought. Accurate interpretation of imaging studies can expedite diagnosis and facilitate prompt treatment.

Key points

• Persistent pneumothorax is defined as a leak persisting for more than 2 days.

• Radiographs can identify chest-tube-related causes of pneumothorax.

• CT is the most useful test to identify other causes.

• Penetrating thoracic injury can cause fistulous communication resulting in a persistent pneumothorax.

• Discontinuity of visceral pleura identified by CT may indicate a bronchopleural fistula.

Intrabronchial Valve Treatment for Prolonged Air Leak: Can We Justify the Cost?

Background. Prolonged air leak is defined as an ongoing air leak for more than 5 days. Intrabronchial valve (IBV) treatment is approved for the treatment of air leaks. Objective. To analyze our experience with IBV and valuate its cost-effectiveness. Methods. Retrospective analysis of IBV from June 2013 to October 2014. We analyzed direct costs based on hospital and operating room charges. We used average costs in US dollars for the analysis not individual patient data. Results. We treated 13 patients (9 M/4 F), median age of 60 years (38 to 90). Median time from diagnosis to IBV placement was 9.8 days, time from IBV placement to chest tube removal was 3 days, and time from IBV placement to hospital discharge was 4 days. Average room and board costs were $14,605 including all levels of care. IBV cost is $2750 per valve. The average number of valves used was 4. Total cost of procedure, valves, and hospital stay until discharge was $13,900. Conclusion. In our limited experience, the use of IBV to treat prolonged air leaks is safe and appears cost-effective. In pure financial terms, the cost seems justified for any air leak predicted to last greater than 8 days.

Use of One-Way Intrabronchial Valves in Air Leak Management After Tube Thoracostomy Drainage

BACKGROUND

A persistent air leak represents significant clinical management problems, potentially affecting morbidity, mortality, and health care costs. In 2008, a unidirectional, intrabronchial valve received humanitarian device exemption for use in managing prolonged air leak after pulmonary resection. Since its introduction, numerous reports exist but no large series describe current utilization or outcomes. Our aim was to report current use of intrabronchial valves for air leaks and review outcome data associated with its utilization.

METHODS

A multicenter, retrospective review of intrabronchial valve utilization from January 2013 to August 2014 was performed at eight centers. Data regarding demographics, valve utilization, and outcomes were analyzed.

RESULTS

We identified 112 patients undergoing evaluation for intrabronchial valve placement, with 67% (75 of 112) undergoing valve implantation. Nearly three quarters of patients underwent valve placement for off-label usage (53 of 75). A total of 195 valves were placed in 75 patients (mean 2.6 per patient; range, 1 to 8) with median time to air leak resolution of 16 days (range, 2 to 156).

CONCLUSIONS

We present the largest, multicenter study of patients undergoing evaluation for intrabronchial valve use for air leak management. Our data suggest the majority of intrabronchial valve placements are occurring for off-label indications. Although the use of intrabronchial valves are a minimally invasive intervention for air leak management, the lack of rigorously designed studies demonstrating efficacy remains concerning. Prospective randomized controlled studies remain warranted.

The past, current and future of diagnosis and management of pleural disease

Pleural disease is frequently encountered by the chest physician. Pleural effusions arise as the sequelae of underlying disease processes including pressure/volume imbalances, infection and malignancy. In addition to pleural effusions, persistent air leaks after surgery and bronchopleural fistulae remain a challenge. Our understanding of pleural disease including its diagnosis and management, have made tremendous strides. The introduction of the molecular detection of organism specific infection, risk stratification and improvements in the non-surgical treatment of patients with pleural infection are all within reach and may be the standard of care in the very near future. Malignant pleural effusion management continues to evolve with the introduction of tunneled pleural catheters and procedures combining that and chemical pleurodesis. These advances in the diagnostic and therapeutic evaluation of pleural disease as well as what seems to be an increasing multidisciplinary interest in the space foretell a bright future.

ERS task force statement: diagnosis and treatment of primary spontaneous pneumothorax

Primary spontaneous pneumothorax (PSP) affects young healthy people with a significant recurrence rate. Recent advances in treatment have been variably implemented in clinical practice. This statement reviews the latest developments and concepts to improve clinical management and stimulate further research.The European Respiratory Society's Scientific Committee established a multidisciplinary team of pulmonologists and surgeons to produce a comprehensive review of available scientific evidence.Smoking remains the main risk factor of PSP. Routine smoking cessation is advised. More prospective data are required to better define the PSP population and incidence of recurrence. In first episodes of PSP, treatment approach is driven by symptoms rather than PSP size. The role of bullae rupture as the cause of air leakage remains unclear, implying that any treatment of PSP recurrence includes pleurodesis. Talc poudrage pleurodesis by thoracoscopy is safe, provided calibrated talc is available. Video-assisted thoracic surgery is preferred to thoracotomy as a surgical approach.In first episodes of PSP, aspiration is required only in symptomatic patients. After a persistent or recurrent PSP, definitive treatment including pleurodesis is undertaken. Future randomised controlled trials comparing different strategies are required.

Focus on treatment complications and optimal management surgery

Thoracic surgery comprises major procedures which may be challenging, not only from a technical point of view but also regarding anesthetic and postoperative management. Complications are common occurrences which are also related to the comorbidity of the patients. After major lung resections pulmonary and pleural complications are often encountered. In this overview more surgically related complications are discussed, focusing on postpneumonectomy pulmonary edema, thromboembolic disease including pulmonary embolism, prolonged air leak, lobar torsion, persistent pleural space, empyema and bronchopleural fistula. Prevention, timely recognition, and early adequate treatment are key points as complications initially considered to be minor, may suddenly turn into life-threatening events. To this end multidisciplinary cooperation is necessary. Preoperative smoking cessation, adequate pain control, attention to nutritional status, incentive spirometry and early mobilization are important factors to reduce the incidence of postoperative complications.

Endobronchial occlusion with one-way endobronchial valves: a novel technique for persistent air leaks in children

PURPOSE

In children, persistent air leaks can result from pulmonary infection or barotrauma. Management strategies include surgery, prolonged pleural drainage, ventilator manipulation, and extracorporeal membrane oxygenation (ECMO). We report the use of endobronchial valve placement as an effective minimally invasive intervention for persistent air leaks in children.

METHODS

Children with refractory prolonged air leaks were evaluated by a multidisciplinary team (pediatric surgery, interventional pulmonology, pediatric intensive care, and thoracic surgery) for endobronchial valve placement. Flexible bronchoscopy was performed, and air leak location was isolated with balloon occlusion. Retrievable one-way endobronchial valves were placed.

RESULTS

Four children (16 months to 16 years) had prolonged air leaks following necrotizing pneumonia (2), lobectomy (1), and pneumatocele (1). Patients had 1-4 valves placed. Average time to air leak resolution was 12 days (range 0-39). Average duration to chest tube removal was 25 days (range 7-39). All four children had complete resolution of air leaks. All were discharged from the hospital. None required additional surgical interventions.

CONCLUSION

Endobronchial valve placement for prolonged air leaks owing to a variety of etiologies was effective in these children for treating air leaks, and their use may result in resolution of fistulae and avoidance of the morbidity of pulmonary surgery.

Endobronchial valves in the treatment of persistent air leak, an alternative to surgery

INTRODUCTION

Persistent air leak is frustrating for both patients and physicians, above all leaks with a high risk of surgery. Insertion of endobronchial valves could be an alternative to surgery. The aim of this study is to describe our experience in these valves and analyse their efficacy in a series of patients with persistent air leaks.

MATERIAL AND METHODS

The valves are inserted by means of flexible bronchoscopy under conscious sedation and local anesthesia. A preliminary bronchoscopy identifies the air leak by bronchial occlusion using a balloon catheter. A successful outcome is defined as complete disappearance of the leak following removal of the chest drain, without the need for further surgery.

RESULTS

From November 2010 to December 2013, 8 patients with persistent air leaks were treated with endobronchial valves. The number of valves used ranged from 1 to 4 (median 2), with a median duration of air leak prior to placement of 15.5 days. There were no complications and the resolution of the leak was complete in 6 of 8 patients (75%). The median duration of drainage after insertion of the valves was 13 days and the median time to removal of 52.5 days.

CONCLUSIONS

Insertion of endobronchial valves is a safe and effective method for treating persistent air leaks, and a valid alternative to surgery.

Bronchoscopic treatment of complex persistent air leaks with endobronchial one-way valves

We reported a case series including 5 patients with persistent air-leaks refractory to standard treatment. All patients were unfit for surgery for the presence of co-morbidities and/or severe respiratory failure due to underlying lung diseases. They were successfully treated with bronchoscopic placement of endobronchial one-way valves. Air-leaks stopped in the first 24 h after the procedure in three patients and 3 and 5 days later, respectively, in the remaining two. No complications were observed and follow-up was uneventful in all patients but one died 25 days after the procedure for systemic sepsis due to peritonis. Patients with important, refractory air leaks having clinical repercussions and unfit for surgery should be early reviewed for bronchoscopic valves treatment.

Early reoperation performed for the management of complications in patients undergoing general thoracic surgical procedures

OBJECTIVE

To detect the rate and predisposing factors for the development of postoperative complications requiring re-operation for their control in the immediate postoperative period.

METHODS

During the time period 2009-2012, 719 patients (male: 71.62%, mean age: 54±19 years) who underwent a wide range of general thoracic surgery procedures, were retrospectively collected. Data of patients who underwent early re-operation for the management of postoperative complications were assessed for identification of the responsible causative factors.

RESULTS

Overall, 33/719 patients (4.6%) underwent early re-operation to control postoperative complications. Early re-operation was obviated by the need to control bleeding or to drain clotted hemothoraces in nine cases (27.3%), to manage a prolonged air leak in six cases (18.2%), to drain a post-thoracotomy empyema in five cases (15.2%), to revise the thoracotomy incision or an ischemic musculocutaneous flap in five cases (15.2%), to manage a bronchopleural fistula in four cases (12.1%), to manage persistent atelectasis of the remaining lung in two cases (6.1%), to cease a chyle leak in one case (3%) and to plicate the right hemidiaphragm in another one case (3%). The factors responsible for the development of complications requiring reopening of the chest for their management were technical in 17 cases (51.5%), initial surgery for lung or pleural infections in 9 (27.3%), the recent antiplatelet drug administration in 4 (12.1%) and advanced lung emphysema in 3 (9.1%). Mortality of re-operations was 6.1% (2/33) and it was associated with the need to proceed with completion pneumonectomy in the two cases with persistent atelectasis of the remaining lung and permanent parenchymal damage. The majority of complications requiring reoperation were observed after lung parenchyma resection (17 out of the 228 procedures/7.4%) or pleurectomy (7 out of the 106 procedures/6.5%). Reoperations after video-assisted thoracic surgery (VATS) were uncommon (2 out of the 99 procedures/2%).

CONCLUSIONS

The rate of complications requiring reoperation after general thoracic surgery procedures is low and it is mainly related to technical issues from the initial surgery, the recent administration of antiplatelet drugs, the presence of advanced emphysema and surgery for infectious diseases. The need to proceed with completion pneumonectomy has serious risk for fatal outcome.