Prophylaxis and management of postoperative complications after tracheobronchial surgery

Simple endoscopic estimation to predict anastomotic complications after bronchoplastic procedures

OBJECTIVES

Endoscopic evaluation of anastomosis is effective for the early detection of anastomotic complications after a bronchoplastic procedure. Herein, we aimed to clarify important findings for predicting anastomotic complications.

METHODS

This single-centre retrospective study included patients who underwent bronchoplastic surgery between April 2013 and September 2023. Only cases in which bronchoscopy was performed both 1 and 2 weeks after surgery were included. Endoscopic findings (classification by Ludwig and Stoelben, mucosa colour, oedema, slough area and colour and depression) were reviewed for all cases. The accuracy of these findings for predicting anastomotic complications was evaluated.

RESULTS

Of the 190 patients included in this study, 14 (7.4%) experienced anastomotic abnormalities, 11 had fistulas (5.8%) and 7 had stenosis (3.7%). The onsets of fistula and stenosis were 20-28 and 20-44 days after surgery, respectively. In 102 patients (53.7%), the slough worsened from the first to the second week postsurgery. Therefore, it was easier to evaluate slough 2 weeks postsurgery rather than 1-week postsurgery. The positive/negative predicted values of anastomotic complications in endoscopic findings 2 weeks postsurgery were circular slough, 34.2%/99.3%; slough with dark colour, 39.3%/98.1%; and depression, 54.2%/99.4%. The incidence of anastomotic abnormalities was 0% in cases without the 3 findings, 10% in cases with at least 1 finding and 67% in cases with all 3 findings.

CONCLUSIONS

The endoscopic findings of slough on the anastomosis 2 weeks after bronchoplasty can be easily evaluated and accurately predict complications. Three important endoscopic findings were circular slough, dark colour and depression.

Imaging findings of the postoperative chest: What the radiologist should know

Thoracic surgical procedures are increasing in recent years, and there are different types of lung resections. Postsurgical complications vary depending on the type of resection and the time elapsed, with imaging techniques being key in the postoperative follow-up. Multidisciplinary management of these patients throughout the perioperative period is essential to ensure an optimal surgical outcome. This pictorial review will review the different thoracic surgical techniques, normal postoperative findings and postsurgical complications.

[Carinal Resections]

Carinal resections are consistently described in the literature as one of the most challenging procedures in thoracic surgery. Depending on the underlying disease and its extent, different resection forms and reconstruction techniques are required. From a surgical point of view, the complex anatomy, and the technique of reconstruction of the central airway are particularly challenging. However, complex airway management and extensive postoperative follow-up demonstrate that these procedures require a multidisciplinary team effort beyond surgical expertise. This article reviews the most important pre-, intra-, and post-operative aspects of these challenging procedures.

A bioengineered trachea-like structure improves survival in a rabbit tracheal defect model

A practical strategy for engineering a trachea-like structure that could be used to repair or replace a damaged or injured trachea is an unmet need. Here, we fabricated bioengineered cartilage (BC) rings from three-dimensionally printed fibers of poly(ɛ-caprolactone) (PCL) and rabbit chondrocytes. The extracellular matrix (ECM) secreted by the chondrocytes combined with the PCL fibers formed a "concrete-rebar structure," with ECM deposited along the PCL fibers, forming a grid similar to that of native cartilage. PCL fiber-hydrogel rings were then fabricated and alternately stacked with BC rings on silicone tubes. This trachea-like structure underwent vascularization after heterotopic transplantation into rabbits for 4 weeks. The vascularized bioengineered trachea-like structure was then orthotopically transplanted by end-to-end anastomosis to native rabbit trachea after a segment of trachea had been resected. The bioengineered trachea-like structure displayed mechanical properties similar to native rabbit trachea and transmural angiogenesis between the rings. The 8-week survival rate in transplanted rabbits was 83.3%, and the respiratory rate of these animals was similar to preoperative levels. This bioengineered trachea-like structure may have potential for treating tracheal stenosis and other tracheal injuries.

Intraoperative Determination of Bronchus Stump and Anastomosis Perfusion with Hyperspectral Imaging

BACKGROUND

The intraoperative evaluation of bronchus perfusion is limited. Hyperspectral Imaging (HSI) is a newly established intraoperative imaging technique that enables a non-invasive, real-time perfusion analysis. Therefore, the purpose of this study was to determine the intraoperative perfusion of bronchus stump and anastomosis during pulmonary resections with HSI.

METHODS

In this prospective, IDEAL Stage 2a study (Clinicaltrials.gov: NCT04784884) HSI measurements were carried out before bronchial dissection and after bronchial stump formation or bronchial anastomosis, respectively. Tissue oxygenation (StO₂; upper tissue perfusion), organ hemoglobin index (OHI), near-infrared index (NIR; deeper tissue perfusion) and tissue water index (TWI) were calculated.

RESULTS

Bronchus stumps showed a reduced NIR (77.82 ± 10.27 vs 68.01 ± 8.95; P = 0,02158) and OHI (48.60 ± 1.39 vs 38.15 ± 9.74; P = <.0001), although the perfusion of the upper tissue layers was equivalent before and after resection (67.42% ± 12.53 vs 65.91% ± 10.40). In the sleeve resection group, we found both a significant decrease in StO 2 and NIR between central bronchus and anastomosis region (StO₂: 65.09% ± 12.57 vs 49.45 ± 9.94; P = .044; NIR: 83.73 ± 10.92 vs 58.62 ± 3.01; P = .0063). Additionally, NIR was decreased in the re-anastomosed bronchus compared to central bronchus region (83.73 ± 10.92 vs 55.15 ± 17.56; P = .0029).

CONCLUSIONS

Although both bronchus stumps and anastomosis show an intraoperative reduction of tissue perfusion, there is no difference of tissue hemoglobin level in bronchus anastomosis.