Although BPF after pneumonectomy is rare, it remains a severe and often fatal complication. Early fistulas without pyothorax can typically be repaired immediately by thoracotomy with bronchial stump suture; however, in the present case, the interval between the left pneumonectomy and the diagnosis of the left main bronchial fistula was 22 months, and both a pyothorax and a fibrothorax had formed, making repair of the transthoracic bronchial stump highly complicated for multiple reasons. First, the septic environment created by a pyothorax prevents successful reconstruction of the bronchial stump; second, the post-pneumonectomy hiatus is typically heavily fibrotic, causing the hilar structures to adhere tightly to each other, while the tracheal fissures are located deep within the fibrous tissue covering the mediastinum, owing to which any attempts to dissect the bronchial stump may result in the risk of potentially-fatal hemorrhage due to injury to the pulmonary arterial stump. Therefore, direct reclosure of the bronchial stump via the primary thoracic approach is challenging. For this reason, we attempted to successfully treat the patient’s left BPF using closure of the left main bronchus through the right thoracic approach with the assistance of ECMO, achieving good results.
In the present case, the approach through the right chest was an alternative approach to bronchial stump dissection through a sterile space, which is technically simple and effective, as it avoids the infected area, scar tissue from the original surgical area, and the dissected bronchus and does not interfere with the fibrothorax that has already formed. However, after two successive lobectomies, the present case had the advantage of a mediastinal shift that was not particularly severe and a sufficiently long left main bronchial stump, providing feasibility for the successful application of this surgical approach. However, one disadvantage was that the abscess remained intact because closure of the BPF was not possible while dealing with the residual abscess space. Therefore, postoperative closed drainage and negative pressure suction of the left-sided abscess chest were needed to promote closure of the left-sided residual thoracic space.
Bronchial stump repair through a sternal and pericardial approach has previously been indicated as a viable method [4–6]. However, this approach is not suitable for patients with previous cardiac surgery [5] and requires prolonged hyperoxia and single-lung high-pressure ventilation in the healthy lung, which may readily exacerbate damage to the already infected healthy lung [7, 8]. The right thoracic approach allows for minimally invasive surgery without incision of the sternum and pericardium, resulting in a smaller incision and avoidance of cardiac influence; furthermore, due to the use of VV-ECMO support, there no need to ventilate the patient, as adequate oxygenation is provided during surgery, thereby avoiding damage to the healthy lung due to prolonged high-oxygen concentration and high-pressure ventilation.
VV-ECMO support provides oxygenation assurance and time for surgical treatment of left BPF via a right thoracic approach. Although the use of ECMO may increase the likelihood of intraoperative bleeding, based on our previous experience, we generally prescribe a short-term non-anticoagulant or hypo-anticoagulant for surgical patients undergoing ECMO-assisted procedures, and the ECMO is withdrawn as soon as ventilation is stabilized to avoid the risk of complications.