Impact of preoperative respiratory distress on outcomes of slide tracheoplasty

OBJECTIVES

Children with congenital tracheal stenosis born in the developing world face a high risk of mortality due to limited access to proper treatment. Patients who required preoperative respiratory support were suspected to have poor survival after slide tracheoplasty; however, this was not clearly demonstrated in the previous studies. This study aims to investigate the impact of preoperative respiratory conditions on outcomes of slide tracheoplasty.

METHODS

From 2016 to 2022, children who underwent slide tracheoplasty were retrospectively reviewed. Patients with respiratory distress requiring emergency operations (group A) were compared with patients in stable condition who were scheduled for surgery (group B).

RESULTS

Perioperative results revealed that group A (n = 43) had a longer bypass time (P < 0.001), operation time (P = 0.01), postoperative ventilation time (P < 0.001) and length of intensive care unit stay (P = 0.00125) than group B (n = 60). The early mortality rate was 7.8%, and the actuarial 5-year survival rate was 85.3%. The cumulative incidence test revealed that group A was highly significant for overall mortality [sudistribution (SHR) 4.5; 95% confidence interval (CI) 1.23-16.4; P = 0.023]. Risk factors for overall mortality were prolonged postoperative ventilation time (hazard ratio 3.86; 95% CI 1.20-12.48; P = 0.024), bronchial stenosis (hazard ratio 5.77; 95% CI 1.72-19.31; P = 0.004), and preoperative tracheal mucositis (hazard ratio 5.67; 95% CI 1.51-21.31; P = 0.01). Four patients needed reintervention during a follow-up of 28.4 months (interquartile range 15.3-47.3).

CONCLUSIONS

Preoperative respiratory distress negatively affected the outcomes of patients who required slide tracheoplasty. Therefore, early detection of congenital tracheal stenosis and aggressive slide tracheoplasty are crucial and obligatory to enhance long-term survival in this lethal congenital airway disease.

Slide tracheoplasty for congenital tracheal stenosis: A systematic review

INTRODUCTION

Slide tracheoplasty has become the gold standard surgery for congenital tracheal stenosis (CTS). This condition is rare and the surgery can be challenging and is performed by experienced surgeons in tertiary centers. A few reports involving relatively small cohorts have been published. The aim of this review is to evaluate the post-operative mortality and morbidity of pediatric slide tracheoplasty for CTS.

METHODS

A systematic literature review was performed according to PRISMA guidelines. The Medline and EMBASE databases were screened using a search strategy defined in collaboration with a librarian. We included articles reporting the post-operative mortality rate of slide tracheoplasties for treatment of CTS in children, when at least 10 patients were included.

RESULTS

A total of 932 articles were reviewed, and 15 studies were eligible with a total of 845 patients. The overall post-operative mortality rate was 9.3 %, and most deaths were airway related. The open revision surgery rate after surgery was 2.8 % and the endoscopic revision rate was 27.6 %.

DISCUSSION

This study highlights key factors to consider before the surgery and helps anticipate post-operative follow-up considerations for children with CTS. Several factors were identified as predictors of mortality including young age, weight at the time of surgery and association with lung hypoplasia or aplasia.

CONCLUSION

Although slide tracheoplasty has gained popularity in recent years due to better outcomes, it remains a major surgery with mortality risk and the need for multidisciplinary management.

Outcomes of not using tracheoplasty in asymptomatic tracheal stenosis found during open-heart surgery

OBJECTIVES

We aimed to review the outcomes of treating incidentally encountered asymptomatic airway stenosis during open-heart surgery conservatively without the use of tracheoplasty.

METHODS

Between January 2002 and October 2022, 25 patients were incidentally diagnosed with tracheal stenosis during open-heart surgery. Intraoperative bronchoscopy and/or laryngoscopy revealed tracheal stenosis; however, this was not consistent with the findings of the preoperative computed tomography. Patients who were diagnosed with a pulmonary artery or vascular sling or had moderate-to-severe respiratory symptoms before open-heart surgery were excluded.

RESULTS

The median age and weight of the patients at operation were 3.0 months and 5.1 kg, respectively. They were categorized as those having tracheal stenosis on preoperative computed tomography (n = 12) or not having tracheal stenosis (n = 13). The narrowest diameter was significantly smaller in the former group (3.0 vs 5.8 mm, P < 0.05). The rates of reintubation and the tracheostomy, and intubation days tended to be higher in former group without statistical significance. Stenotic degree improved 2 months and 1 year or more after the operation (39.3% at operation, 28.4% at 2 months, 12.5% after 1 year). All patients were Ross class 1 or 2 at follow-up (mean, 7.1 years).

CONCLUSIONS

Patients with tracheal stenosis showed tolerable long-term outcomes without using tracheoplasty. Accordingly, if tracheal stenosis, that would cause intubation difficulty, was incidentally revealed, concomitant tracheoplasty may not be required during open-heart surgery if the stenosis did not cause considerable symptoms or signs preoperatively.

Treatment of long-segment congenital tracheal stenosis with congenital cardiovascular defects in infancy

OBJECTIVES

This study aims to evaluate the outcomes of simultaneous repair for infants with long-segment congenital tracheal stenosis (LSCTS) with congenital cardiovascular defects (CCD).

METHODS

We retrospectively reviewed the clinical data of infants aged less than 1 year with LSCTS and CCD who underwent simultaneous repair at Children's Hospital of Chongqing Medical University from January 2020 to March 2023. A systematic search of PubMed, Embase, and Cochrane Library for the relevant published studies that reported the simultaneous repair of CTS and CCD in infancy was conducted in March 2023. The inverse variance method of DerSimonian-Laird (D + L) was used for estimate synthesis.

RESULTS

A total of thirteen infants with a mean age of 5.6 ± 3.1 months and a mean weight of 6.4 ± 0.9 Kg underwent slide tracheoplasty with modified procedures and cardiovascular operations. LSCTS was diagnosed in all thirteen patients. Nine infants were ventilator dependent, and four patients were operated on due to persistent wheezing and recurrent respiratory infections. Seven patients underwent pulmonary artery sling repair, and six underwent atrial septal defect repair. All infants were repaired utilizing cardiopulmonary bypass (CPB) support. Significant complications were recorded in three patients. In-hospital deaths were seen in one case. The median tracheal minimum diameter of hospital survivors was significantly larger than the preoperative minimum diameter (p < 0.001). The mean follow-up duration was 17.1 ± 7.1 months. There was no late mortality during the follow-up. Twelve studies were included based on our search strategy. The pooled estimate of mortality in the literature was 10.9% (95%CI, 5.3%-17.7%, I2 = 0). The pooled estimate of airway re-interventions was 28.8% (95%CI, 14.5%-43.2%, I2 = 74%).

CONCLUSIONS

Simultaneous repair of LSCTS and CCD in infancy is safe and effective. Slide tracheoplasty with appropriate technical modifications may be valid for LSCTS repair without significant restenosis and reinterventions.

Sliding tracheoplasty of complete tracheal cartilage rings in children

INTRODUCTION

Complete tracheal rings are a rare malformation that occurs in 1 out of 100,000 live births. It is rare, isolated tracheal or tracheobronchial anomaly developed due to abnormal cartilage growth with formation of complete ring and often resulting in airway stenosis. Slide tracheoplasty, as it was originally described by Tsang et al. and popularized by Grillo et al., overlaps stenotic segments of trachea, shortening trachea itself, thus, doubling the circumference and diameter of the stenotic area.

MATERIALS AND METHODS

We have performed slide tracheoplasty in 12 children during the period of 2019-2021 in thoracic surgery department of our center. Median age was 15 ± 21,1 months (2 months-6 years),median weight - 8,04 ± 4,75 kg (3-20,7 kg),tracheal lumen varied from 2.5 to 3.0 mm, stenosis length - from 40 to 70% of the trachea length.

RESULTS

Slide tracheoplasty was performed using central veno-arterial extracorporeal membrane oxygenation in 7 cases and using cardiopulmonary bypass in 5 cases. Concomitant heart disease was revealed in 5 children (pulmonary artery sling in 3 cases, ventricular septal defects - 1, aberrant subclavian artery -1). 5 children underwent one-stage correction of VSD: plastic VSD -1; left pulmonary artery reimplantation - 3; subclavian artery reimplantation - 1. All patients were on mechanical ventilation for 4,3 ± 2,78 days at postoperative period. Patients were discharged 16,3 ± 5,14 days after surgery. Satisfactory result of treatment in the form of respiratory failure relief was achieved in 10 patients. It was possible to increase the trachea lumen from 1.5 to 2 times in all cases. There were 2 (16,6%) fatal cases due to sepsis and multi-organ failure development.

CONCLUSIONS

Children with complete tracheal rings are very complicated patients with various comorbidities. Despite the advances in medicine, sometimes it is impossible to save lives of these children. The use of extracorporeal circulation (ECMO and bypass) allows us to safely perform reconstructive surgery on the trachea and save the child from respiratory failure manifestations. If needed, simultaneous correction of heart and tracheal defects is possible. Slide tracheoplasty allows to increase trachea lumen at least in 1.5-2 times. Mechanical ventilation is an unfavorable predictive factor for the outcomes of congenital tracheal stenosis management.

LEVEL OF EVIDENCE

III.

Pulmonary artery sling: An overview

Pulmonary artery sling is a rare childhood vascular tracheobronchial compression syndrome that is frequently associated with tracheal stenosis. Consequently, neonates or infants may present with critical airway obstruction if there is long segment airway narrowing and complete rings. Rapid diagnosis of this cardiac vascular malformation and evaluation of the extent and severity of airway involvement is essential to plan surgery, typically a slide tracheoplasty to relieve critical airway obstruction. Long term outcome can be excellent following surgical repair of the stenosed airway and reimplantation of the left pulmonary artery. In this review we focus on the embryology, diagnostic workup, airway investigations and management for this rare but challenging congenital condition.

International Pediatric Otolaryngology Group (IPOG) consensus recommendations: Evaluation and management of congenital tracheal stenosis

OBJECTIVES

To outline an expert-based consensus of recommendations for the diagnosis and management of pediatric patients with congenital tracheal stenosis.

METHODS

Expert opinions were sought from members of the International Pediatric Otolaryngology Group (IPOG) via completion of an 18-item survey utilizing an iterative Delphi method and review of the literature.

RESULTS

Forty-three members completed the survey providing recommendations regarding the initial history, clinical evaluation, diagnostic evaluation, temporizing measures, definitive repair, and post-repair care of children with congenital tracheal stenosis.

CONCLUSION

These recommendations are intended to be used to support clinical decision-making regarding the evaluation and management of children with congenital tracheal stenosis. Responses highlight the diverse management strategies and the importance of a multidisciplinary approach to care of these patients.

Postoperative nursing care of a child with pulmonary artery displacement combined with slide tracheobronchial plasty

BACKGROUND

Generally, pulmonary artery sling operation involves the pulmonary artery transplantation to be cut off. Nursing care is focused on the postoperative pulmonary vascular anastomosis, respiratory tract, and blood pressure after surgery. We report the case of an infant who underwent pulmonary artery tracheal transposition combined with Slide keratoplasty, where the pulmonary artery transplantation was not cut off. We highlight that postoperative pulmonary artery blood flow to the unobstructed airway and airway reconstruction surgery should be focused on to help children recover and ensure successful surgery.

METHODS

To report the postoperative nursing experience of one patient with pulmonary artery sling undergoing pulmonary tracheal transposition combined with Slide arthroplasty.

RESULTS

Throughout the postoperative care, airway management should be focused on to maintain circulation stability in the early postoperative period, and corresponding measures such as posture management, atomization inhalation, and improved chest physical therapy should be applied according to the special surgical method of the case in order to reduce airway complications and to improve the surgical success rate of children with pulmonary artery sling undergoing pulmonary tracheal transposition combined with Slide arthroplasty.

CONCLUSION

In similar cases, after pulmonary tracheal transposition and Slide angioplasty, the doctors and nurses should pay attention to early circulation stability and focus on airway management through careful treatment and nursing, so as to promote the child's recovery.

A case of successful slide tracheoplasty for long-segment congenital tracheal stenosis in a neonate with a congenital diaphragmatic hernia and Fallot's tetralogy

Background

Congenital tracheal stenosis (CTS) is a rare and life-threatening airway disorder, which is often associated with cardiac malformations. Among them, neonatal symptomatic CTS with cardiac malformations has an extremely poor prognosis. In contrast to cardiac malformation, congenital diaphragmatic hernia (CDH) has rarely been associated with CTS. We report a neonatal case in which slide tracheoplasty and intracardiac repair were performed simultaneously for CTS and Fallot’s tetralogy (TOF).

Case presentation

An infant with left CDH and Fallot's tetralogy (TOF) was born by cesarean section at 38 weeks of gestation. At the time of resuscitation, a 2.5 mm (ID) endotracheal tube could only be inserted just below the vocal cords. After repairing the CDH at 3 days of age, planned extubation was performed at 7 days of age. However, the patient required re-intubation due to life-threatening episodes after 2 days of the extubation. Enhanced CT revealed a long segment CTS from the upper trachea to the right bronchus (length of stenosis: 40 mm, minimum inner diameter: 2 mm). At 24 days of age, veno-arterial extracorporeal membrane oxygenation (ECMO) was introduced due to severe respiratory failure. At 28 days of age, slide tracheoplasty and palliative right ventricular outflow tract reconstruction (RVOTR) was performed with cardiopulmonary bypass (CPB). After tracheoplasty, a 3.5 mm tracheal (ID) tube could be placed in the reconstructed trachea in a patient with CTS. ECMO was completed 7 days after the operation. On the 17th day after the operation, he was extubated successfully. He was discharged 5 months after birth with home oxygenation therapy.

Conclusions

We reported the successful simultaneous correction of slide tracheoplasty and palliative RVOTR for a neonate with CDH. ECMO was used for respiratory management before and after surgery.

Supplementary Information

The online version contains supplementary material available at 10.1186/s40792-022-01422-9.

Surgical Treatment of Patients with Full Tracheal Rings: Our Experience

Introduction: Complete tracheal rings are a rare pathology occurring in 1 out of 100,000 live births. It is rare isolated tracheal or tracheobronchial anomaly resulting from abnormal cartilage growth, forming a complete ring, and leading to airway stenosis. A sliding tracheoplasty, primarily described by Tsang et al. and later widely presented by Grillo et al., overlaps the tracheal stenosing segments and shortens the trachea itself, and thus increases the diameter and circumference of the stenosing area double up. Materials and Methods: We have performed four slide tracheoplasties in the period between February 2019 and December 2020 in children who underwent medical treatment in the department of thoracic surgery in our center. Median age was 10 ± 5.5 months (2 months-1 year 6 months). Median weight was 6.9 ± 1.9 kg (4.5-9 kg). Slide tracheoplasty was performed using central venoarterial extracorporeal membrane oxygenation in 3 cases and using cardiopulmonary bypass in 1 case. Results: Patients were on artificial lung ventilation for 2-6 days in the postoperative period. Patients were discharged 14-18 days after the surgery. There were no lethal outcomes in our study. Discussion: Long segment congenital tracheal stenosis is an often and serious life-threatening anatomical malformation that bounded the length of trachea >50%. There is no unique treatment strategy for patients with such pathology. Sliding tracheoplasty can be recommended for all, but not for the shortest segments of stenosis, as it creates permissible voltage fluctuations during tracheal anastomosis. Excellent results in management of such severe patients can be achieved only through the collaboration of multidisciplinary team of specialists sharing organized and consistent patient-oriented approach.

Slide Tracheoplasty for Congenital Tracheal Stenosis Repair: A Systematic Review and Meta-Analysis

OBJECTIVES

Congenital tracheal stenosis (CTS) is a rare but life-threatening condition in children. At present, slide tracheoplasty has been advocated as the preferred technique for most cases of CTS. However, the morbidity and mortality subsequent to slide tracheoplasty need further elaboration. Therefore, a meta-analysis was performed on the outcomes of slide tracheoplasty in children with CTS.

STUDY DESIGN

Systematic review and meta-analysis.

METHODS

Electronic databases, including PubMed, Embase, and Cochrane Library CENTRAL, were systematically searched for the period from January 1990 to March 2021 for literature that reported clinical outcomes of slide tracheoplasty for children with CTS. Meta-regression and subgroup analyses were performed to determine the risk factors for in-hospital mortality and airway reinterventions.

RESULTS

A total of 25 studies involving 577 patients were included. For children with CTS, in-hospital and overall mortality after slide tracheoplasty was 6.1% (95% CI = 4.2%-8.0%) and 9.7% (95% CI = 7.3%-12.1%), respectively. The incidence of airway reinterventions was 23.0% (95% CI = 15.6%-30.5%). The length of postoperative ventilation and hospital stay was 6.8 days (95% CI = 5.1-8.4 days) and 19.2 days (95% CI = 15.8-22.7 days), respectively. Postoperative complications occurred in 46.6% (95% CI = 35.8%-57.4%) of all patients. Meta-regression analysis showed that a higher proportion of the recently published studies reported significantly better in-hospital survival (coefficient -0.011, P = .021).

CONCLUSIONS

In conclusion, in-hospital mortality after slide tracheoplasty is 6.1%, and the incidence of airway reinterventions is 23.0%. In-hospital mortality after slide tracheoplasty has decreased chronologically.

LEVEL OF EVIDENCE

NA Laryngoscope, 2021.

Successful repair of critical bronchial stenosis with coexisting bronchomalacia and congenital heart defects in infants by slide bronchoplasty

Isolated bronchial stenosis in infancy is rare, difficult to manage and becomes more complex when associated with congenital heart defects. Given the small luminal diameter and the proximity of the lung parenchyma to the bronchial lesion in infants, reconstruction of the bronchial stenosis is surgically challenging. We present 2 infant cases having isolated critical bronchial obstruction with congenital heart defects, which were successfully managed by primary one-stage slide bronchoplasty with concomitant heart repair. Both cases had excellent results after the surgery and did well at home without requiring respiratory support.

Treatment of tracheal stenosis with extracorporeal membrane oxygenation support in infants and newborns

Tracheal stenosis in children is a challenge for the healthcare team, since it is a rare disease. Patients usually have other clinical comorbidities, mainly previous cardiac surgical interventions. This retrospective single-center study included infants with tracheal stenosis (congenital or acquired) operated between 2016 and 2020 on venoarterial extracorporeal membrane oxygenation (VA ECMO). Five patients were operated and the median age of detection of the tracheal disease was 3.7 months, and the median age at the operation was 5 months. All patients had associated cardiac anomalies. Four patients had congenital tracheal stenosis; two with associated pig bronchus. One patient had acquired subglottic stenosis with concomitant stenosis at the carina. After the operation, the patients were referred to ICU on ECMO with an open chest. Minor ECMO-related complications occurred in two patients (hemothorax and wound infection). All patients required endoscopic evaluation during the postoperative care; median of 3.2 procedures. Two patients are currently in follow-up and three have died. Slide tracheoplasty with VA-ECMO can be successfully performed in infants with prior cardiac surgery. Nevertheless, a difficult postoperative course should be anticipated, with possible prolonged ECMO use, readmissions, and higher morbidity and mortality than in children with tracheal stenosis alone.

Biomechanical strength dependence on mammalian airway length

Background

The trachea is the uppermost respiratory airway element connecting the larynx to the bronchi Airway reconstructions in humans are often developed from animal models but there is limited knowledge comparing tracheal biomechanics between species. We aimed to assess the structure and biomechanics of porcine, canine, caprine and human airways.

Methods

Tracheas from pigs (n=15), goats (n=9) and canines (n=9) were divided into three groups (4, 6 and 8-ringswhile human left principal brochi (n=12) were divided into two groups (3and-rings). Airway structures were compared using histology and scanning electron microscopy. Biomechanical properties were measured subjecting samples to uniaxial tension and compression, recording the elastic modulus and (tensile and compressive) strengths.

Results

The structures of animal tracheal and human bronchia appeared similar. Biomechanical testing revealed that the elastic modulus of 8-ring tracheas was 1,190.48±363.68, 2,572.00±608.19 and 1,771.27±145.54 kPa, for porcine, canine and caprine samples, respectively, while corresponding tensile strengths were 437.63±191.41, 808.38±223.48 and 445.76±44.00 kPa. Comparable measures of anterior-posterior (A-P) compression strengths were 7.94±0.82, 7.54±0.07 and 8.10±1.87 N, respectively, whereas lateral compression strengths were 8.75±0.82, 14.55±2.29 and 11.12±0.40 N. Compression testing of human samples showed significant differences (P<0.05) between the 3-ring (A-P, 1.06±0.02 N; lateral, 0.55±0.06 N) and 5-ring groups (A-P, 1.08±0.64 N; lateral, 2.32±1.95 N).

Conclusions

The tensile and compressive strengths of mammalian airways show positive correlations with the cartilage ring number (length). On the basis of structural and biomechanical comparisons, porcine, canine and caprine species appear suitable models for the study of airway reconstruction in human.

Computational Evaluation of Surgical Design for Multisegmental Complex Congenital Tracheal Stenosis

Multisegmental complex congenital tracheal stenosis (CTS) is an uncommon but potentially life-threatening malformation of the airway. Staged surgery is indicated for the complex pathophysiology of the abnormal trachea. Surgical intervention to fix the stenotic segments may result in different postoperative outcomes. However, only few studies reported the design of surgical correction for multisegmental CTS. We used computer-aided design (CAD) to simulate surgical correction under different schemes to develop a patient-specific tracheal model with two segmental stenoses. Computational fluid dynamics (CFD) was used to compare the outcomes of different designs. Aerodynamic parameters of the trachea were evaluated. An obvious interaction was found between the two segments of stenosis in different surgical designs. The surgical corrective order of stenotic segments greatly affected the aerodynamic parameters and turbulence flows downstream of tracheal stenosis and upstream of the bronchus. Patient-specific studies using CAD and CFD minimize the risk of staged surgical correction and facilitate quantitative evaluation of surgical design for multiple segments of complex CTS.

Slide tracheoplasty: Predictors of outcomes and literature review

OBJECTIVE

Determine preoperative comorbidities and intraoperative parameters associated with adverse postoperative outcomes.

METHODS

Retrospective case series at a single tertiary care children's hospital from 2010 through 2017.

RESULTS

Twenty-six patients with median age of 6 months and median weight of 7.1 kg underwent slide tracheoplasty. Median time to extubation, length of intensive care unit admission, and length of hospitalization were 7, 27, and 30 days, respectively. Twenty-two (85%) required no additional intervention. Overall success was 87%. One (4%) patient required open revision, and 3 (11%) required tracheostomy. Concomitant cardiac surgery was associated with postoperative tracheostomy (p = 0.04). Age and weight at surgery were inversely correlated with length of intubation (p = 0.03) and length of hospital stay (p = 0.001, p = 0.002) respectively. Hospital stay was 2.2 times longer if preoperative mechanical ventilation was required (p = 0.01) and 39% longer for every 1 mm decrease in airway diameter at the narrowest portion of the stenosis (p = 0.005). There were no deaths related to persistent tracheal stenosis with a median follow-up of 24 months.

CONCLUSION

Slide tracheoplasty is safe and effective. Concomitant cardiac surgery was associated with postoperative tracheostomy. Lower age and weight at surgery were correlated with longer length of intubation and hospital stay. Preoperative mechanical ventilation and smaller airway diameter were associated with longer hospital stay. This information may be helpful in counseling families and planning future prospective studies.

Outcome of congenital tracheal stenosis in children over two decades in a national cardiothoracic surgical unit

OBJECTIVE

To assess the outcomes of congenital tracheal stenosis among children.

MATERIALS AND METHODS

A retrospective review of all children who underwent surgical repair of congenital tracheal stenosis reviewing charts, operative notes, echocardiograms, CT and MRI data from January 2002 to February 2019.

RESULTS

Twenty-six children underwent surgical treatment for tracheal stenosis. The median age was 3 months (range 0.3-35 months) and the median weight was 4.7 kg (range 2.5-13 kg) at the time of surgical intervention. Stridor was the most common presenting symptom in 17 patients (65% of patients). Twenty-one patients (81%) had concurrent cardiac anomalies, with pulmonary arterial sling being the most common, present in nine patients (34%). Extracorporeal life support was utilised in seven patients (27%) pre-operatively. Laryngeal release was required in 16 patients. In 7 patients an end-to-end anastomosis was performed, in 18 patients slide tracheoplasty, and 1 patient had a double slide tracheoplasty. The median cardiopulmonary bypass time was 106 minutes (range 25-255 minutes). The median cross-clamp time was 30 minutes (range 5-67 minutes). The median post-operative duration of ventilation was 5 days (range 0.5-16 days). The median ICU length of stay was 12.5 days (range 2-60 days). There were three hospital mortalities with 88% survival. One patient only required reintervention with balloon dilation. Twenty-two patients (85%) remained symptom-free on median follow-up at 7.6 years (range 0.2-17 years). Two patients since 2017 had 3D printed tracheas produced from CT imaging to assist surgical planning.

CONCLUSION

Congenital tracheal stenosis can be managed effectively with excellent outcomes and 3D printed models assist in planning the optimal surgical intervention.

Surgical reconstruction for congenital tracheal malformation and pulmonary artery sling

Background

Congenital tracheal malformations are less common than congenital cardiac diseases and surgical repair of these anomalies is complex. We sought to examine the surgical treatment and outcomes in cases of tracheal anomalies presenting with or without associated congenital malformations.

Methods

We retrospectively reviewed the demographic, clinical, and imaging data of 49 children who underwent surgery for congenital tracheal malformations between August 2013 and September 2017. Data were collected from the hospital records.

Results

In all, 49 patients (male, 30; female, 19) underwent surgeries at our center. The children were of ages between 3 and 36 months (average: 9.7 months). Associated congenital lesions included sling in31/49 (63%), vascularring: in 2/49; ventriculoseptaldefectin5/49; Fallot’s tetraology in 2/49 (4.1%), and imperforate anus in 3/49 (6.1%). The outcomes of surgery were excellent in 42(85.7%) cases, good in 3 cases, while mortality occurred in 4(8.1%) cases. All cases of tracheal stenosis without any change in tracheobronchial arborization, 10/12 cases of bridge carina, and all cases of tripod carina were reconstructed using the slide tracheoplasty technique. Antetracheal translocation was performed for correction of associated pulmonary sling, without reimplantation of the pulmonary artery.

Conclusions

Reconstructive surgery is a feasible treatment option for congenital tracheal malformations. Slide tracheoplasty can be safely applied in all cases for the correction of tracheal stenosis. Segment resection was not required for any portion of the trachea. Pulmonary artery translocation is safe and effective for patients with pulmonary artery sling, rather than reimplantation. Mortality was associated with severe cardiac complications.

Airway Improvement with Medium-Term Compression Duration after Right Pulmonary Artery Anterior Translocation

Left main bronchus compression occasionally occurs in patients with cardiac disease. A 19-month-old female patient weighing 6.7 kg was admitted for recurrent pneumonia and desaturation. She had an a trial septal defect (AS D) with a right aortic arch. Her left main bronchus had been compressed between the enlarged right pulmonary artery (RPA) and the descending thoracic aorta for 14 months. We conducted ASD closure and RPA anterior translocation via sternotomy. The left main bronchus compression was relieved despite the medium-term duration of compression.

Reconstruction of defects of the trachea

The trachea has a complex anatomy to fulfill its tasks. Its unique fibro-cartilaginous structure maintains an open conduit during respiration, and provides vertical elasticity for deglutition, mobility of the neck and speech. Blood vessels pierce the intercartilaginous ligaments to perfuse the ciliated epithelium, which ensures effective mucociliary clearance. Removal of a tracheal segment affected by benign or malignant disease requires airtight restoration of the continuity of the tube. When direct approximation of both tracheal ends is no longer feasible, a reconstruction is needed. This may occur in recurrent short-segment defects in a scarred environment, or in defects comprising more than half the length of the trachea. The resulting gap must be filled with vascularized tissue that restores the mucosal lining and supports the semi-rigid, semi-flexible framework of the trachea. For long-segment or circular defects, restoration of this unique biomechanical profile becomes even more important. Due to the inherent difficulty of creating such a tube, a tracheostomy or palliative stenting are often preferred over permanent reconstruction. To significantly improve and sustain quality of life of these patients, surgeons proposed innovative strategies for complex tracheal repair. In this review, we provide an overview of current clinical applications of tracheal repair using autologous and allogenic tissues. We look at recent advances in the field of tissue engineering, and the areas for improvement of these first human applications. Lastly, we highlight the focus of our research, in an effort to contribute to the development of optimized tracheal reconstructive techniques.

Complicated Postoperative Course after Pulmonary Artery Sling Repair and Slide Tracheoplasty

Pulmonary artery sling (PAS) is a rare congenital condition in which the left pulmonary artery (LPA) arises from the right pulmonary artery, and then passes between the trachea and the esophagus to reach the left lung, thereby forming a sling around the airway. It is often associated with intrinsic tracheal stenosis due to complete cartilaginous rings. Therapeutic management nowadays consists of one-stage reimplantation of the LPA and tracheoplasty with cardiopulmonary bypass support. Here, we present a 7-week-old boy with PAS and long-segment tracheal stenosis (LSTS) who underwent surgical intervention consisting of reimplantation of the LPA and slide tracheoplasty. Multiple respiratory and cardiovascular complications marked the postoperative course. They consisted of recurrent failed attempts in weaning off mechanical ventilation due to bronchomalacia, left vocal cord paralysis, development of granulation tissue at the anastomosis and restenosis of the trachea, and the main stem bronchi requiring balloon dilatation. The patient also developed bilateral pulmonary artery thrombosis and stenosis of the LPA. After a prolonged hospitalization, the patient is doing well without any respiratory symptoms and has a good result on follow-up bronchoscopy 1 year after the initial surgery. The stenosis of the LPA responded well to percutaneous balloon dilatation 12 months after the primary surgery. The case illustrates that even though surgical techniques are improving and are in general associated with a low morbidity and mortality, management of PAS and tracheal stenosis can still be challenging. However, good long-term outcome can be achieved if the initial postoperative phase is overcome.

Clinical equivalency of cardiopulmonary bypass and extracorporeal membrane oxygenation support for pediatric tracheal reconstruction

OBJECTIVE

Pediatric surgery for congenital tracheal stenosis continues to be a therapeutic challenge, and it often requires cardiopulmonary bypass (CPB) or extracorporeal membrane oxygenation (ECMO) for intra-operative extracorporeal cardiorespiratory support. The purpose of this study was to compare the peri-operative outcomes of CPB with ECMO in pediatric tracheal reconstruction.

METHODS

Forty-three consecutive patients who underwent tracheal reconstruction without intra-cardiac repair for congenital tracheal stenosis at Kobe Children's Hospital between January 2000 and August 2012 were enrolled in this retrospective study. They were divided into two groups according to intra-operative extracorporeal cardiopulmonary support [CPB (n = 17) or ECMO (n = 26)]. Peri-operative variables were compared between the two groups.

RESULTS

The CPB and ECMO groups had similar patient and operative characteristics. However, the CPB group required larger priming volume and higher doses of total heparin injection. Although the ECMO group exhibited less peri-operative bleeding and lower red blood cell requirement, there were no statistically significant differences between the two groups. Compared to the ECMO group, patients in the CPB group had significantly less positive fluid balance during surgery and in the first 24 h after surgery, and exhibited a trend towards higher ratios of PO₂ to the fraction of inspired oxygen and lower PCO₂ at the time of ICU admission and on post-operative day 1.

CONCLUSIONS

Pediatric tracheal reconstruction should be performed with intra-operative CPB or ECMO, after considering the advantages of utilizing each extracorporeal cardiorespiratory support type according to the patient's specific condition and situation.

Safety and postoperative adverse events in pediatric airway reconstruction: Analysis of ACS-NSQIP-P 30-day outcomes

OBJECTIVES

Prior research has shown that airway reconstructive procedures comprise significant composite morbidity compared to the whole of pediatric otolaryngologic cases evaluated in the American College of Surgeon's National Surgery Quality Improvement Program-Pediatric (ACS-NSQIP-P) platform. We describe postoperative sequelae of pediatric airway reconstructive procedures and identify predictive factors for adverse events.

METHODS

Current procedural terminology (CPT) codes were used to identify children undergoing included procedures in the 2012 to 2014 ACS-NSQIP-P public use files (PUF). Targeted variables included patient demographics and 30-day postoperative events (reoperation, readmission, and complications). Event rates were determined and compared within subgroups. Multivariate logistic regression was performed to identify predictive factors for major adverse events.

RESULTS

In 3 years of PUF data (183,283 total cases), 198 cases (0.11%) were airway reconstructive procedures. The most common was laryngoplasty (CPT 31580, 31582; n = 111, 56.1%), followed by cervical tracheoplasty (CPT 31750; n = 47, 23.7%), tracheal resection (CPT 31780; n = 24, 12.1%), and cricoid split (CPT 31587, n = 16, 8.1%). There were 131 premature children (66.2%) and 94 children (47.5%) with history of bronchopulmonary dysplasia. Thirty-day postoperative sequelae included readmissions (n = 42, 21.2%), complications (n = 27, 13.6%), and reoperations (n = 14, 7.1%). On univariate analysis, children less than 3 years of age were more likely to undergo an unplanned reoperation. There were no significant predictive factors for readmission or complication. On multivariate analysis, there was a trend toward higher rates of unplanned reoperations in children less than 3 years of age.

CONCLUSION

The 30-day adverse event rate in pediatric airway surgery is high, with no identifiable predictors noted in the analysis of these data. Findings imply that systematic collection of variables and outcomes specific to pediatric airway surgery, in addition to standard NSQIP workflow, will be essential for NSQIP-P to truly effect quality improvement in these high-risk procedures.

LEVEL OF EVIDENCE

4. Laryngoscope, 2016 127:504-508, 2017.

Evolution of Surgical Approaches in the Management of Congenital Tracheal Stenosis

Background:

Congenital tracheal stenosis (CTS) is a serious and rare condition that often presents a complex surgical challenge. We reviewed the evolution of surgical approaches to the management of CTS at a single institution.

Methods:

We conducted a retrospective clinical review of all patients who underwent surgical repair of CTS at our institution. From January 1992 to January 2014, a total of 30 patients (median age 92 days; range 3 days-1.7 years) underwent surgery for CTS at our institution. Techniques included slide tracheoplasty (n = 16), tracheal resection (n = 10), pericardial patch tracheoplasty (n = 3), and costal cartilage tracheoplasty (n = 1). Twenty-two (73%) patients had associated intracardiac or great vessel anomalies, including 18 (60%) with left pulmonary artery sling. Five (17%) patients had associated single lung malformation. All procedures were performed via a median sternotomy with cardiopulmonary bypass.

Results:

Median postoperative length of stay was 25 days (range, 5-431 days). Late airway reintervention was required in seven (26%), including two (15%) infants after slide tracheoplasty, two (22%) posttracheal resection, and two (100%) post pericardial patch tracheoplasty. The one patient who underwent costal cartilage tracheoplasty required multiple reinterventions. Overall mortality was 13% (n = 4), two deaths occurred post slide tracheoplasty, one death occurred after tracheal resection, and one after pericardial patch tracheoplasty, respectively.

Conclusion:

Slide tracheoplasty is the procedure of choice for repair of CTS, while tracheal resection is a viable option for patients with discreet, short-segment stenosis.