Treatment of alveolar-pleural fistula with endobronchial application of synthetic hydrogel

Successful endoscopic closure of alveolar-pleural fistula due to Aspergillus empyema using a ventricular septal defect occluder

We report a patient with fever and cough for 2 months who was finally given a diagnosis of alveolar-pleural fistula due to aspergillus empyema. We successfully closed the alveolar-pleural fistula with a ventricular septal defect occluder through bronchoscopy. Endoscopic closure of an alveolar-pleural fistula with ventricular septal defect occluder is worth being explored.

Algorithm for the Bronchoscopic Diagnosis of Alveolar-Pleural Fistula

Alveolar-pleural fistulas (APF) are a clinical entity that represents a diagnostic and therapeutic challenge.

OBJECTIVE

The objective of this work is to design a diagnostic algorithm for the anatomical detection of APF in patients who are not candidates for surgical treatment.

METHOD

Prospective non-randomized study of 47 patients. Diagnostic procedures were performed: (a) prior to bronchoscopy: computed axial tomography (CT) and implantation of electronic pleural drainage system (EPD) and (b) endoscopic: endobronchial occlusion (EO) by balloon, selective endobronchial oxygen insufflation (OI) (2l) and selective bronchography (BS) (instillation of iodinated radiological contrast using continuous fluoroscopy).

RESULTS

The sample was predominantly male (81%). The diagnostic methods revealed: (a) Determination of the anatomical location of APF by CT in 15/46 patients (31.9% of sample), and variations in the pattern (intermittent or continuous air leak) and quantification after drug administration sedatives using EPD, (b) endoscopic: anatomical determination of APF was achieved in 57.1, 81 and 63.4% respectively using EO, OI and BS. The combination of the diagnostic tests allowed us to determine the anatomical location of the APF in 91.5% of the sample. No complications were recorded in 85.1% of cases.

CONCLUSIONS

The diagnosis of APF by flexible bronchoscopy is a useful method, with an adequate safety and efficacy profile. The proposed diagnostic algorithm includes the use of EPD and performing a CT scan. Regarding endoscopic diagnosis: in case of continuous air leak, the first option is OE; and if the leak is intermittent, we recommend endobronchial OI, with BS as a secondary option (respective sensitivity 81% vs 63.4% and complications 8.1% vs 7.3%).

Utility of the endobronchial Watanabe spigot for intractable cancer-related pneumothorax: a retrospective observational study

BACKGROUND

The use of endobronchial Watanabe spigots for intractable secondary pneumothorax in patients with cancer has not been adequate. This study aimed to investigate the use of endobronchial Watanabe spigots for intractable pneumothorax in patients with malignant tumors.

METHODS

Consecutive patients with malignant tumors who underwent occlusion with an endobronchial Watanabe spigot for intractable pneumothorax associated with perioperative treatment or drug therapy at our institution between January 2014 and February 2022 were reviewed.

RESULTS

Of the 32 cases in which an endobronchial Watanabe spigot was used, six were excluded; we thus evaluated 26 cases in which the chest tube was removed. Chest tubes were removed in 19 cases (73.1%) and could not be removed and required surgical treatment under general anesthesia in seven patients (26.9%), of which four (14.8%) underwent open-window thoracostomy. Half of the patients were treated with both an endobronchial Watanabe spigot and pleurodesis. Although thin-slice chest computed tomography revealed a fistula in 15 patients, the chest tube was removed in 11 (57.9%) patients. A significant difference was only observed in patients with a history of heavy smoking.

CONCLUSIONS

The chest tube removal rate was comparable to those reported in previous studies. An endobronchial Watanabe spigot may be a useful treatment option for intractable cancer-related pneumothorax.

A customized multimodality approach for prolonged air leaks (PAL) in mechanically ventilated patients

ARDS in general and severe COVID ARDS (CARDS) is particularly associated with high rates of barotrauma. Two cases with severe CARDS developed bilateral pneumothorax with persistent air leak (PAL). Conservative management with prolonged chest tube drainage did not help in PAL resolution and both patients continued to be on high-end ventilatory support. The course was further complicated by the presence of septic shock. The 1st patient was taken up for a challenging procedure after spending 23 days on the mechanical ventilator. Diagnostic pleuroscopy revealed left-sided bullae and a surgical staple bullectomy was done. The right side showed a large bronchopleural fistula (BPF) on pleuroscopy, which was occluded using a customized endobronchial silicone blocker (CESB, described in 2018). This led to the reduction and finally, resolution of the bilateral PAL with subsequent removal of chest drains and weaning off the ventilator and oxygen. The second patient was managed with 2 CESB devices for occlusion of RUL anterior and posterior segment fistulae, followed by chest drain removal. These cases highlight effective out-of-the-box multimodality treatment using a combination of interventional pulmonary techniques and surgical stapling for a life-threatening bilateral PAL secondary to CARDS.

Interventional closure of a bronchopleural fistula in a 2 year old child with detachable coils

Background

Bronchopleural fistula (BPF) is a severe complication following pneumonia or pulmonary surgery, resulting in persistent air leakage (PAL) and pneumothorax. Surgical options include resection, coverage of the fistula by video-assisted thoracoscopic surgery (VATS), or pleurodesis. Interventional bronchoscopy is preferred in complex cases and involves the use of sclerosants, sealants and occlusive valve devices.

Case presentation

A 2.5-year-old girl was admitted to our hospital with persistent fever, cough and dyspnoea. Clinical and radiological examination revealed right-sided pneumonia and pleural effusion. The child was started on antibiotics, and the effusion was drained by pleural drainage. Following removal of the chest tube, the child developed tension pneumothorax. Despite insertion of a new drain, the air leak persisted. Thoracoscopic debridement with placement of another new drain was performed after 4 weeks, without abolishment of the air leak. Bronchoscopy with bronchography revealed a BPF in right lung segment 3 (right upper-lobe anterior bronchus). We opted for an interventional approach that was performed under general anaesthesia during repeat bronchoscopy. Following bronchographic visualisation of the fistula, a 2.7 French microcatheter was placed in right lung segment 3 (upper lobe), allowing occlusion of the fistula by successive implantation of 4 detachable high-density packing volume coils, which were placed into the fistula. Subsequent bronchography revealed no evidence of residual leakage, and the chest tube was removed 2 days later. The chest X-ray findings normalized, and follow-up over 4 years was uneventful.

Conclusions

Bronchoscopic superselective occlusion of BPF using detachable high-density packing large-volume coils was a successful minimally invasive therapeutic intervention performed with minimal trauma in this child and has not been reported thus far. In our small patient, the short interventional time, localized intervention and minimal damage in the lung seemed superior to the corresponding outcomes of surgical lobectomy or pleurodesis in a young growing lung, enabling normal development of the surrounding tissue. Follow-up over 4 years did not show any side effects and was uneventful, with normal lung-function test results to date.

Supplementary Information

The online version contains supplementary material available at 10.1186/s12887-022-03298-y.

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.

Modified silicone stent for the treatment of post-surgical bronchopleural fistula: a clinical observation of 17 cases

BACKGROUND

Bronchopleural fistula is a rare but life-threatening event with limited therapeutic options. We aimed to investigate the efficacy and safety of the modified silicone stent in patients with post-surgical bronchopleural fistula.

METHODS

Between March 2016 and April 2020, we retrospectively reviewed the records of 17 patients with bronchopleural fistula and who underwent bronchoscopic placement of the Y-shaped silicone stent. The rate of initial success, clinical success and clinical cure, and complications were analyzed.

RESULTS

Stent placement was successful in 16 patients in the first attempt (initial success rate: 94.1%). The median follow-up time was 107 (range, 5-431) days. All patients achieved amelioration of respiratory symptoms. The clinical success rate was 76.5%. Of the 14 patients with empyema, the daily drainage was progressively decreased in 11 patients, and empyema completely disappeared in six patients. Seven stents were removed during follow-up: four (26.7%) for the cure of fistula, two for severe proliferation of granulomatous tissue and one for stent dislocation. No severe adverse events (i.e. massive hemoptysis, suture dehiscence) took place. Seven patients died (due to progression of malignancy, uncontrolled infection, myocardial infarction and left heart failure).

CONCLUSIONS

The modified silicone stent may be an effective and safe option for patients with post-surgical bronchopleural fistula patients in whom conventional therapy is contraindicated.

Intratracheal myiasis followed by tracheal-esophageal fistula: report of a rare case and literature review

BACKGROUND

To enhance awareness of the clinical features and prevention of endotracheal myiasis.

CASE PRESENTATION

A case of intratracheal myiasis is reported. A 61-year-old male patient with a history of laryngectomy was admitted to hospital due to tracheostomal hemorrhage of 3 h duration. Intratracheal myiasis was confirmed by bronchoscopy, and the patient underwent bronchoscopic intervention, which was complicated by a tracheal-esophageal fistula and resolved by endotracheal stenting. Twenty months after stent placement, the fistula had not healed.

CONCLUSION

Intratracheal myiasis has serious complications and is difficult to treat. For post-tracheostomy patients, healthcare providers and caregivers should pay attention to the care and monitoring of wounds and maintenance of a tidy, clean living environment to prevent intratracheal myiasis.

Development of alveolar-pleural fistula during hepatectomy - A case report

Background

An Alveolar-pleural fistula is communication between the alveoli and the pleural space that may result in intractable pneumothorax, severe infection, respiratory failure, physical weakness, and even death.

Case

A 70-year-old male underwent right hepatectomy with a cystic mass of the liver. During the operation, peak airway pressure abruptly increased and a serous fluid was regurgitated through the endotracheal tube. Lung isolation was immediately performed with a double-lumen endotracheal tube. Approximately 1,000 ml of exudate was drained through endotracheal tube. Thoracostomy was performed at right lung. Analysis of fluid from endotracheal tube and pleural effusion consistent with parapneumonic effusion.

Conclusions

We presented a case of alveolar-pleural fistula caused by pneumonia presenting with massive exudate fluid regurgitated from the endotracheal tube that was managed with bronchial suction, lung isolation, and thoracostomy and improved without surgical repair of the fistula.

Facing the challenges of perioperative air leaks using water seal in Colombia

Air leaks following thoracic surgery continue to be a significant cause of morbidity and mortality. In contemporary thoracic surgery, many aspects of post-surgical air leaks are still controversial. In developing countries like Colombia, state-of-the-art technology such as newer digital drainage systems are not always available, and surgeons rely primarily on water seal systems for air leak management. Although efforts are being made to increase the use of newer digital systems, being a third-world country has its challenges, and we emphasize the importance of following international guidelines as much as possible, especially when facing complex situations such as perioperative air leaks with limited resources.

Management of Persistent Air Leaks Using Endobronchial Autologous Blood Patch and Spigot Occlusion: A Multicentre Randomized Controlled Trial in China

BACKGROUND

Optimal management of persistent air leaks (PALs) in patients with secondary spontaneous pneumothorax (SSP) remains controversial.

OBJECTIVE

To evaluate the efficacy and safety of endobronchial autologous blood plus thrombin patch (ABP) and bronchial occlusion using silicone spigots (BOS) in patients with SSP accompanied by alveolar-pleural fistula (APF) and PALs.

METHODS

This prospective multicentre randomized controlled trial compared chest tube-attached water-seal drainage (CTD), ABP, and BOS that were performed between February 2015 and June 2017 in one of six tertiary care hospitals in China. Patients diagnosed with APF experiencing PALs (despite 7 days of CTD) and inoperable patients were included. Outcome measures included success rate of pneumothorax resolution at the end of the observation period (further 14 days), duration of air leak stop, lung expansion, hospital stay, and complications.

RESULTS

In total, 150 subjects were analysed in three groups (CTD, ABP, BOS) of 50 each. At 14 days, 60, 82, and 84% of CTD, ABP, and BOS subjects, respectively, experienced full resolution of pneumothorax (p = 0.008). All duration outcome measures were significantly better in the ABP and BOS groups than in the CTD group (p < 0.016 for all). The incidence of adverse events, including chest pain, cough, and fever, was not significantly different. All subjects in the ABP and BOS groups experienced temporary haemoptysis. Spigot displacement occurred in 8% of BOS subjects.

CONCLUSION

ABP and BOS resulted in clinically meaningful outcomes, including higher success rate, duration of air leak stop, lung expansion, and hospital stay, with an acceptable safety profile.

An Innovative Solution for Prolonged Air Leaks: The Customized Endobronchial Silicone Blocker

BACKGROUND

Prolonged air leak (PAL) is a life-threatening condition that can present either as bronchopleural fistula, or alveolar-pleural fistula (APF). Although numerous bronchoscopic treatments are described, they are either expensive, not widely available in the developing world or have limited success. We describe our experience with a novel customized endobronchial silicone blocker (CESB) for PAL treatment.

METHODS

This is a retrospective study of PAL patients who underwent CESB placement. The air leak was localized using a balloon occlusion test. The CESB was uniquely designed by molding silicone stent pieces into a conical shape, deployed with rigid bronchoscopy into the appropriate segment, and reinforced with cyanoacrylate glue to prevent migration. In patients with APF, pleurodesis was performed after leak resolution to prevent recurrence. Following this, the CESB was removed after 6 weeks.

RESULTS

Forty-nine CESBs were placed in 31 patients (25 male individuals, 6 female individuals) with mean age of 49.7±19.7 years. The PALs included APF (n=16), bronchopleural fistula (n=14), and airway-mediastinal fistula (n=1). The average diameter of the CESB used was 7.9±2.9 mm. There was resolution of the PAL in 26 of 31 patients (84%). The CESB migrated in 5 patients with no adverse events. Pleurodesis was performed in 13 of 16 patients with APF, to prevent recurrence. No other significant complications were observed.

CONCLUSIONS

CESBs represent a safe, effective, and innovative approach in the management of PAL. They should be considered in patients who are not surgical candidates, fail surgery, or those who have a recurrence following surgery.

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.

Bronchoscopic management of prolonged air leak

Bronchopleural fistula (BPF) with prolonged air leak (PAL) is most often, though not always, a sequela of lung resection. When this complication occurs post-operatively, it is associated with substantial morbidity and mortality. Surgical closure of the defect is considered the definitive approach to controlling the source of the leak, but many patients with this condition are suboptimal operative candidates. Therefore there has been active interest for decades in the development of effective endoscopic management options. Successful use of numerous bronchoscopic techniques has been reported in the literature largely in the form of retrospective series and, at best, small prospective trials. In general, these modalities fall into one of two broad categories: implantation of a device or administration of a chemical agent. Closure rates are high in published reports, but the studies are limited by their small size and multiple sources of bias. The endoscopic procedure currently undergoing the most systematic investigation is the placement of endobronchial valves. The aim of this review is to present a concise discussion on the subject of PAL and summarize the described bronchoscopic approaches to its management.

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.

Endoscopic Bronchial Occlusion with Silicon Spigots for the Treatment of an Alveolar-pleural Fistula during Anti-tuberculosis Therapy for Tuberculous Empyema

A prolonged air leak caused by pulmonary tuberculosis is difficult to treat, and little is known about optimal treatment strategies. We herein report the case of a 60-year-old man who demonstrated tuberculous empyema with a fistula. An air leak from a tuberculous cavity in his left upper lobe persisted for approximately 4 months; surgical repair could not be performed due to a poor physical status and undernourishment. However, the air leak was successfully treated with endobronchial occlusion using two silicone spigots in left B3b and B4, without any adverse effects or aggravation of the infection.