The association of congenital tracheobronchial stenosis and cardiovascular anomalies

Morphologic classification of tracheobronchial arborization in children with congenital tracheobronchial stenosis and the associated cardiovascular defects

Background

We sought to classify patients with congenital tracheal stenosis (CTS) according to tracheobronchial morphology and determine anatomic features associated with tracheobronchial anomalies (TBAs) and concurrent cardiovascular defects (CVDs).

Methods

We enrolled 254 patients who underwent tracheoplasty between November 1, 2009 and December 30, 2018. The anatomic features of the tracheobronchial tree and cardiovascular system were abstracted from bronchoscopy, echocardiography, computerized tomography, and operative reports.

Results

Four types of tracheobronchial morphology were identified: Type-1, which included normal tracheobronchial arborization (Type-1A, n = 29) and tracheal bronchus (Type-1B, n = 22); Type-2 (tracheal trifurcation; n = 49), and Type-3 (typical bridging bronchus; n = 47). Type-4 (bronchus with an untypical bridging pattern) was divided into Type-4A (involving bronchial diverticulum; n = 52) and Type-4B (absent bronchus; n = 55). Carinal compression and tracheomalacia were significantly more frequent in Type-4 patients than in the other patients (P < 0.01). CVDs were common in patients with CTS, especially in patients with Type-3 and Type-4 (P < 0.01). Persistent left superior vena cava was most common among patients with Type-3 (P < 0.01), and pulmonary artery sling was most frequent among those with Type-4 (P < 0.01). Outflow tract defects were most likely to occur in Type-1B. Early mortality was detected in 12.2% of all patients, and young age (P = 0.02), operation in the early era (P < 0.01), and bronchial stenosis (P = 0.03) were proven to be risk factors.

Conclusions

We demonstrated a useful morphological classification for CTS. Bridging bronchus was most closely linked with vascular anomalies, while tracheal bronchus was frequently associated with outflow tract defects. These results may provide a clue to CTS pathogenesis.

Outcomes of slide tracheoplasty for congenital tracheal stenosis in 80 children: A 22-year single-center experience

PURPOSE

The application of slide tracheoplasty (STP) in the treatment of congenital tracheal stenosis (CTS) has improved patient outcomes over the past few decades. We reviewed our experiences with the procedure, elucidated risk factors, and discussed important aspects of perioperative management to improve outcomes.

METHOD

Patients with CTS undergoing STP between July 1998 and December 2020 were enrolled. Patient characteristics, perioperative condition, management, operative details, and outcomes, including mortality and postoperative intervention, were collected from medical records.

RESULTS

Eighty patients underwent STP. Sixty-five patients (81.3%) had an associated cardiovascular anomaly. Thirteen patients (16.3%) had unilateral lung agenesis or hypoplasia. Preoperative mechanical ventilation was necessary in 54 (67.5%) patients, and extracorporeal membrane oxygenation (ECMO) was required in eight patients (10.0%). An endotracheal tube was placed before the stenotic entrance to avoid granulation. During STP, the trachea was dissected as little as possible to maintain the blood supply. The one-year survival rate was 88.8% (nine patients died). One patient (1.3%) required postoperative balloon dilation, and none required stenting or granulation removal. Of the survivors, 62 (92.5%) achieved successful extubation without tracheostomy. Multivariable analysis revealed complex cardiovascular anomaly (P = 0.05) and preoperative ECMO (P = 0.019) to be adverse predictors of survival.

CONCLUSION

Although STP can be performed successfully in CTS patients, surgeons and families should be aware of factors that may lead to a more difficult postoperative course or increase the mortality. Meticulous, perioperative positioning of the endotracheal tube and preserving the tracheal blood flow can minimize the need for postoperative intervention.

Relationship between a Tracheal and Left Pulmonary Artery Stenosis Index and the Prognosis of Pulmonary Artery Sling with Tracheal Stenosis

Pulmonary artery sling is a rare congenital pulmonary vascular malformation, often associated with tracheal or bronchial stenosis. Surgical treatment of pulmonary artery sling with tracheal stenosis (T) has a high risk of death and a relatively poor prognosis. This study explored the relationship between the T and left pulmonary artery stenosis (P) ratio and the effects of surgery for pulmonary artery sling with tracheal stenosis. Patients undergoing surgery for pulmonary artery sling in our center from January 2010 to December 2018 were retrospectively analyzed. Routine cardiac-enhanced computed tomography (CT) was performed preoperatively, and the P and T diameters were measured on the CT image. The T/P ratio was then calculated and analyzed. Thirty cases of pulmonary artery sling combined with tracheal stenosis were operated under cardiopulmonary bypass. The mean age at operation was 13.8 ± 13.6 months (1.2-57.1 months, Q1-Q3: 5-17 months), and the mean body weight was 8.8 ± 3.5 kg (3.8-17.3 kg, Q1-Q3: 5.8-11.5 kg). Twenty-three patients survived, and seven died, with an overall survival rate of 76.7%. Twenty-four patients underwent left pulmonary artery re-implantation, six patients underwent simultaneous left pulmonary artery re-implantation and slide tracheoplasty, and patients with intracardiac malformations (ventricular septal defect (n = 6) and atrial septal defect (n = 4)) underwent concurrent repair of the intracardiac defect. All cases had different degrees of tracheal stenosis, and the most narrowed trachea occurred with compression by the left pulmonary artery sling. The T/P ratio in the tracheoplasty group was significantly higher than that in the non-tracheoplasty group. The mortality rate in the T/P ≤ 1.15 group was significantly lower than that in the T/P > 1.15 group. Pulmonary artery sling treatment has a high risk of death. Left pulmonary artery re-implantation is an effective and safe surgical method for treating pulmonary artery sling, and slide tracheoplasty is an effective surgical method to correct tracheal stenosis. Children with T > 78.4% should receive active intervention for the tracheal stenosis, and these children have a considerable postoperative survival rate. The T/P ratio can be used to compare the relative superiority of the two compressions. A T/P ratio > 1.15 can be used as a reference index for intervention in tracheal stenosis and is a risk factor for postoperative death.

Congenital Bronchial Stenosis Presenting as Neonatal Respiratory Distress: A Case Report

BACKGROUND

Neonatal respiratory distress has a broad differential that includes cardiac, pulmonary, anatomic, and infectious etiologies. Congenital stenotic lesions of the trachea and bronchus are rare and can occur anywhere along the tracheobronchial tree. Patients with tracheobronchial stenosis typically present in the neonatal period with respiratory distress.

CASE REPORT

We present a case of a 10-day-old term female who presented to the emergency department (ED) with tachypnea and increased work of breathing. She was found to have congenital bronchial stenosis of her right mainstem bronchus. She was stabilized in the ED and remained in the neonatal intensive care unit until successful slide tracheoplasty was performed. WHY SHOULD AN EMERGENCY PHYSICIAN BE AWARE OF THIS?: Congenital bronchial stenosis is a rare etiology of respiratory distress in a neonate. Anatomic lower airway abnormalities are an important cause of neonatal tachypnea and must remain on the differential. In addition to respiratory stabilization with noninvasive or invasive support, evaluation should be directed at determining the location and anatomic characteristics of the area of stenosis.

Tracheal Stenosis and Congenital Heart Disease in Trisomy 21

Tracheal rings (TR) are rare, congenital cartilaginous defect of the upper airway and are usually due to complete or near complete circumferential cartilaginous tracheal rings, with variable degrees of tracheal stenosis (TS) and shortening. Chromosomal anomalies like trisomy 21 are characteristically associated with a wide range of upper airway anomalies including TS and congenital heart disease (CHD). However, the overall prevalence of severe forms of TS is rare and reported in 1.2% of all CHD patients. Herein, we present a rare association of severe TS due to complete tracheal rings in a trisomy 21 patient with CHD and the challenges in the management.

Complete tracheal rings and hypoplastic left heart variant: a rare and fatal association

Congenital complete tracheal rings are usually associated with pulmonary slings. We report a rare association of congenital complete tracheal rings with hypoplastic left heart variant. A term infant with diagnosis of a mildly hypoplastic mitral valve, unicuspid aortic valve, and moderately hypoplastic aortic arch with severe coarctation underwent a hybrid procedure initially. Upon failing extubation attempts, complete tracheal rings were seen on direct laryngoscopy. The combination of the lesions resulted in a poor outcome. In patients with failure of extubation post-cardiac surgery, a diagnosis of complete tracheal rings should be included in the differential and a direct laryngoscopy should be considered.

Surgical management of children presenting with surgical-needed tracheal stenosis

OBJECTIVES

The purpose of this work was to assess epidemiological aspects, surgical approach, morbidity and mortality rates of patients presenting with tracheal stenosis requiring surgery, and the evolution of surgical techniques over the last years.

METHODS

We performed a retrospective observational study from 1990 to 2017 in a pediatric tertiary-care center with needing surgery for tracheal stenosis. We analyzed clinical patients' characteristics, type of stenosis, type of surgery and follow-up.

RESULTS

Twenty-eight children presented with tracheal stenosis, half of them with congenital stenosis (complete tracheal rings) and the other half with acquired stenosis (neoplasic or post intubation injury). 39.3% of these stenoses were associated with a vascular ring (61.5% in case of congenital stenosis). Depending on the extent of the stenosis and its origin, the surgery could be performed endoscopically or by an external approach. Enlargement tracheoplasty with an autograft (14.3%) was replaced by slide tracheoplasty with Cardio Pulmonary By-Pass (CPBP, 28.6%) with improved results for the treatment of long segment tracheal stenosis, involving more than 30% of the tracheal length (all were congenital in our study). Slide tracheoplasty has been performed since the late 90's in our institution. 25% of children have had a resection and anastomosis of the trachea because they had a stenosis involving less than 30% of tracheal length. Endoscopic surgery was performed for membranous stenoses, which were often seen after intubation or tracheotomy (32.1% of patients).

CONCLUSION

Effective treatment of surgical tracheal stenosis was performed in 28 children between 1990 and 2015. Surgical techniques have evolved over time, leading to a better management of this rare and serious disease.

Rapid 3D imaging of the lower airway by MRI in patients with congenital heart disease: A retrospective comparison of delayed volume interpolated breath-hold examination (VIBE) to turbo spin echo (TSE)

OBJECTIVE

When imaging the lower airway by MRI, the traditional technique turbo spin echo (TSE) results in high quality 2D images, however planning and acquisition times are lengthy. An alternative, delayed volume interpolated breath-holds examination (VIBE), is a 3D gradient echo technique that produces high spatial resolution imaging of the airway in one breath-hold. The objective of this study is to retrospectively evaluate the accuracy of lower airway measurements obtained by delayed VIBE when compared to TSE.

DESIGN

Patients with congenital heart disease who underwent a cardiac MRI (CMR) that included a delayed VIBE sequence from 5/2008 to 9/2013 were included. Standard TSE imaging was performed and delayed VIBE was acquired 5 min after gadolinium contrast administration. Airway measurements were made on both sequences by two observers in a blinded fashion to the other observer and other technique. Intraclass correlations (ICC) were calculated to assess for agreement between both techniques and the observers.

RESULTS

29 studies met inclusion criteria with a mean patient age of 8.8 years (2 months to 63 years) and mean patient weight of 30.2 kg (3.5-110). All delayed VIBE and TSE sequences were found to be of diagnostic quality. Mean acquisition time was shorter for the delayed VIBE (13.1 seconds) than TSE (949.9 seconds). Overall there was very good agreement between the delayed VIBE and TSE measurements for both observers (ICC 0.78-0.94) with the exception of the distal right bronchus (ICC 0.67) The interobserver agreement was also excellent for both TSE (ICC 0.78-0.96) and VIBE (ICC 0.85-0.96).

CONCLUSION

Delayed VIBE is rapid and at least as accurate as the alternative TSE imaging for assessment of the lower airway by MRI across a wide spectrum of patients.