Treatment of tracheomalacia: eight years' experience

A New Removable Helical Metallic Stent for the Treatment of Tracheomalacia in Children: Study in Pathological Animal Model

BACKGROUND

Congenital tracheomalacia is a pathology with no consensus of medical or surgical approach. The permanent nature and the major complications associated with metallic stents have limited their use over the years. The purpose of this study was to evaluate the feasibility of a helical stent design removal.

METHODS

Ten dogs diagnosed with tracheal collapse and treated with the helical stent were involved in the study. Animals were classified into three groups depending on stent indwelling time. Prior to the removal, endoscopic evaluation was performed to assess endothelization grade, mucous accumulation, and the presence of stenosis. During the removal, bleeding, fracture, or impossibility of removal were noted. After the removal, all macroscopic mucosal changes were recorded.

RESULTS

Technical success was 100%, without any complications. Complete epithelization of the stent was visualized in 7/10 animals. The removal procedure duration ranged from 2-12 min. At post-removal endoscopy, bleeding or epithelial damage, was visualized in any case. Stent fracture during removal occurred in one animal.

CONCLUSIONS

The removal of a metallic stent with spiral geometry is feasible, simple, and without complications, regardless of the degree of neo-epithelialization.

Cleft-lip-plate patient with tracheobronchomalacia: A case report and review of the literature in Japan

Background

Tracheobronchomalacia (TBM) is a severe life-threatening perioperative complication. It is a rare condition caused by congenital and developmental anomalies of the trachea and/or the bronchus. It is often difficult to diagnose TBM before surgery as this congenital disease presents very few symptoms preoperatively and most often appears postoperatively.

Case presentation and Review

The study describes a case of cleft-lip-plate (CL/P) in a 7-month-old Japanese female with TBM and Tetralogy of Fallot syndrome. Before undergoing cleft-lip surgery, her TBM was not fully elucidated by preoperative examinations, and the operation was completed uneventfully. After the surgery, however, she started showing severe respiratory distress and developed hypoxia and bradycardia in the operating room. CPR was performed successfully, but a bronchoscopy revealed a severely collapsed airway, and the pathological condition was diagnosed as TBM occurred postoperatively. Eight months later, she died of sudden respiratory failure similar to that of the postoperative event caused by TBM. A literature review was conducted on the complications of CL/P from 1990 to 2017 in Japan.

Conclusions

It was hypothesized that CL/P with congenital heart disease (CHD) and TBM with CHD may crossover in relatively high rates. Currently, there are very few solutions available to treat severe airway obstruction related to TBM. This highlights the need for preoperative diagnosis of TBM as an important step in overcoming severe airway complications.

Aortopexy for the treatment of tracheobronchomalacia in 100 children: a 10-year single-centre experience

OBJECTIVES

Our study describes and analyses the results from aortopexy for the treatment of airway malacia in children.

METHODS

Demographic data, characteristics and preoperative, operative and outcome details, including the need for reintervention, were collected for children undergoing aortopexy between 2006 and 2016.

RESULTS

One hundred patients [median age 8.2 months, interquartile range (IQR) 3.3-26.0 months] underwent aortopexy. Sixty-four (64%) patients had tracheomalacia (TM) only, 24 (24%) patients had TM extending into their bronchus (tracheobronchomalacia) and 11 (11%) patients had bronchomalacia. Forty-one (41%) children had gastro-oesophageal reflux disease, of which 17 (41%) children underwent a Nissen fundoplication. Twenty-eight (28%) children underwent a tracheo-oesophageal fistula repair prior to aortopexy (median 5.7 months, IQR 2.9-17.6 months). The median duration of follow-up was 5.3 years (IQR 2.9-7.5 years). Thirty-five (35%) patients were on mechanical ventilatory support before aortopexy. Twenty-seven (77%) patients could be safely weaned from ventilator support during the same admission after aortopexy (median 2 days, IQR 0-3 days). Fourteen patients required reintervention. Overall mortality was 16%. Multivariable analysis revealed preoperative ventilation (P = 0.004) and bronchial involvement (P = 0.004) to be adverse predictors of survival. Only bronchial involvement was a predictor for reintervention (P = 0.012).

CONCLUSIONS

Aortopexy appears to be an effective procedure in the treatment of children with severe airway malacia. Bronchial involvement is associated with adverse outcome, and other procedures could be more suitable. For the treatment of severe airway malacia with isolated airway compression, we currently recommend aortopexy to be considered.

3D-printed, externally-implanted, bioresorbable airway splints for severe tracheobronchomalacia

OBJECTIVES/HYPOTHESIS

To report the clinical safety and efficacy of three-dimensional (3D)-printed, patient-specific, bioresorbable airway splints in a cohort of critically ill children with severe tracheobronchomalacia.

STUDY DESIGN

Case series.

METHODS

From 2012 to 2018, 15 subjects received 29 splints on their trachea, right and/or left mainstem bronchi. The median age at implantation was 8 months (range, 3-25 months). Nine children were female. Five subjects had a history of extracorporeal membrane oxygenation (ECMO), and 11 required continuous sedation, six of whom required paralytics to maintain adequate ventilation. Thirteen were chronically hospitalized, unable to be discharged, and seven were hospitalized their entire lives. At the time of splint implantation, one subject required ECMO, one required positive airway pressure, and 13 subjects were tracheostomy and ventilator dependent, requiring a median positive end-expiratory pressure (PEEP) of 14 cm H₂ O (range, 6-20 cm H₂ 0). Outcomes collected included level of respiratory support, disposition, and splint-related complications.

RESULTS

At the time of discharge from our institution, at a median of 28 days postimplantation (range, 10-56 days), the subject on ECMO was weaned from extracorporeal support, and the subjects who were ventilated via tracheostomy had a median change in PEEP (discharge-baseline) of -2.5 cm H₂ O (range, -15 to 2 cm H₂ O, P = .022). At median follow-up of 8.5 months (range, 0.3-77 months), all but one of the 12 surviving subjects lives at home. Of the 11 survivors who were tracheostomy dependent preoperatively, one is decannulated, one uses a speaking valve, six use a ventilator exclusively at night, and three remain ventilator dependent.

CONCLUSIONS

This case series demonstrates the initial clinical efficacy of the 3D-printed bioresorbable airway splint device in a cohort of critically ill children with severe tracheobronchomalacia.

LEVEL OF EVIDENCE

4 Laryngoscope, 129:1763-1771, 2019.

Tracheobronchial stenting for airway malacia

Tracheobronchomalacia is a rare but clinically troublesome condition in paediatrics. The softening of the major airways - which can include some or all of the tracheobronchial tree can lead to symptoms ranging from the minor (harsh barking cough, recurrent chest infections) to severe respiratory difficulties including prolonged ventilator support and 'near death attacks'. The causes are broadly divided into intrinsic softening of the airway wall which is considered a primary defect (e.g. syndromes; post tracheo-oesophageal fistula repair; extreme prematurity) or secondary malacia due to external compression from vascular structures or cardiac components. These secondary changes can persist even when the external compression is relieved, for example, following the repair of a pulmonary artery sling or double aortic arch. For children with severe clinical symptoms attributed to malacia, consideration is given to possible surgical remedies such as an aortopexy for short limited areas of malacia, or long term positive pressure support with CPAP either by non invasive or tracheostomy interface. More recently the role of stenting in children is receiving attention, especially with the development of newer techniques such as bioabsorbable stents which buy time for a natural history of improvement in the malacia to occur. This paper reviews the stents available and discusses the pros and cons of stenting in paediatric airway malacia.

Official American Thoracic Society Clinical Practice Guidelines: Diagnostic Evaluation of Infants with Recurrent or Persistent Wheezing

BACKGROUND

Infantile wheezing is a common problem, but there are no guidelines for the evaluation of infants with recurrent or persistent wheezing that is not relieved or prevented by standard therapies.

METHODS

An American Thoracic Society-sanctioned guideline development committee selected clinical questions related to uncertainties or controversies in the diagnostic evaluation of wheezing infants. Members of the committee conducted pragmatic evidence syntheses, which followed the Grading of Recommendations, Assessment, Development, and Evaluation (GRADE) approach. The evidence syntheses were used to inform the formulation and grading of recommendations.

RESULTS

The pragmatic evidence syntheses identified few studies that addressed the clinical questions. The studies that were identified constituted very low-quality evidence, consisting almost exclusively of case series with risk of selection bias, indirect patient populations, and imprecise estimates. The committee made conditional recommendations to perform bronchoscopic airway survey, bronchoalveolar lavage, esophageal pH monitoring, and a swallowing study. It also made conditional recommendations against empiric food avoidance, upper gastrointestinal radiography, and gastrointestinal scintigraphy. Finally, the committee recommended additional research about the roles of infant pulmonary function testing and food avoidance or dietary changes, based on allergy testing.

CONCLUSIONS

Although infantile wheezing is common, there is a paucity of evidence to guide clinicians in selecting diagnostic tests for recurrent or persistent wheezing. Our committee made several conditional recommendations to guide clinicians; however, additional research that measures clinical outcomes is needed to improve our confidence in the effects of various diagnostic interventions and to allow advice to be provided with greater confidence.

External stenting: A reliable technique to relieve airway obstruction in small children

OBJECTIVE

Airway obstruction in children may be caused by conditions such as vascular compression and congenital tracheobronchomalacia. Obstructive pulmonary vascular disease may be a detrimental sequel for patients with congenital heart disease. We evaluate our own original external stenting technique as a treatment option for these patients.

METHODS

Ninety-eight patients underwent external stenting (1997-2015). Cardiovascular anomalies were noted in 82 (83.7%). Nine patients had hypoplastic left heart syndrome and 6 had other types of single-ventricular hearts.

RESULTS

The median age at the first operation was 7.2 months (range, 1.0-77.1 months). The mechanisms were tracheobronchomalacia with (n = 46) or without (n = 52) vascular compression. Patients underwent 127 external stentings for 139 obstruction sites (62 trachea, 55 left bronchus, and 22 right bronchus). The stent sizes varied from 12 to 16 mm. There were 14 (8 in the hospital and 6 after discharge) mortality cases. Nine required reoperation for restenosis and 3 required stent removal for infection. The actuarial freedom from mortality and any kind of reoperation was 74.7% ± 4.6% after 2.8 years. The negative pressure threshold to induce airway collapse for congenital malacia (n = 58) improved from -15.9 to -116.0 cmH₂O. A follow-up computed tomography scan (>2.0 years interval from the operation; n = 23) showed the mean diameter of the stented segment at 88.5% ± 13.7% (bronchus) and 94.5% ± 8.2% (trachea) of the reference.

CONCLUSIONS

External stenting is a reliable method to relieve airway compression for small children, allowing an age-proportional growth of the airway.

Pediatric tracheomalacia

Tracheomalacia (TM) is defined as an increased collapsibility of the trachea due to structural anomalies of the tracheal cartilage and/or posterior membrane. Tracheomalacia has a wide range of etiologies but is most commonly present in children born with esophageal atresia and tracheal esophageal fistula. Clinical symptoms can range from minor expiratory stridor with typical barking cough to severe respiratory distress episodes to acute life-threatening events (ALTE). Although the majority of children have mild-to-moderate symptoms and will not need surgical intervention, some will need life-changing surgical treatment. This article examines the published pediatric literature on TM, discusses the details of clinical presentation, evaluation, diagnosis, and a variety of treatments.

Tracheobronchial stents in children

Tracheobronchial obstruction is infrequent in children and still remains a challenging matter of concern. Management alternatives vary from conservative treatment to complex surgical techniques or endoscopic interventional procedures. Airway stenting in children is relatively recent and follows the trail of the experience in adult patients. Nevertheless, there are basic differences between both age groups like the benign nature of most obstructions and the small size of the pediatric airway. These specific features raise the issues of the precise role of tracheobronchial stenting in children and the selection of the most adequate device. Stents fall into four main categories according to the material they are made of: metallic, plastic, hybrid, and biodegradable. Each type has its own advantages and drawbacks so the ideal stent is not yet available. Despite increasing experience with stenting, definite clinical criteria for their use in children are yet to be established. Even so, there seems to be a basic general agreement that stents may play a role in particular clinical settings in which there are no other therapeutic options.

External stabilization for severe tracheobronchomalacia using separated ring-reinforced ePTFE grafts is effective and safe on a long-term basis

PURPOSE

Tracheobronchomalacia is a respiratory disorder that results from abnormal cartilage development. Since 2003, we have performed external stabilization for severe tracheobronchomalacia using separated ring-reinforced expanded polytetrafluoroethylene (ePTFE) grafts. The aim of this study was to analyze the short- and long-term outcomes of our procedure.

METHODS

We reviewed the charts of patients who underwent external tracheobronchial stabilization from January 2003 through December 2012. Separated ring-reinforced ePTFE grafts were fixed to the anterior and posterior lesions of malacia independently, with confirmation of a well-opened lumen by bronchoscopy.

RESULTS

Five children with severe tracheobronchomalacia underwent six operations. The median follow-up period was 43 months (range 11-109 months). There was no operative mortality associated with the procedure. One patient required removal of a section of the graft owing to the development of bronchial granulation tissue at the site of fixation. All patients showed improved respiratory function, and tracheal growth was confirmed by follow-up computed tomography.

CONCLUSIONS

External stabilization with separated ring-reinforced ePTFE grafts for severe tracheobronchomalacia is effective, less invasive than alternatives and preserves the growth potential of the affected airway segment.

Tracheobronchomalacia in children: review of diagnosis and definition

Tracheobronchomalacia is characterised by excessive airway collapsibility due to weakness of airway walls and supporting cartilage. The standard definition requires reduction in cross-sectional area of at least 50% on expiration. However, there is a paucity of information regarding the normal range of central airway collapse among children of varying ages, ethnicities and genders, with and without coexisting pulmonary disease. Consequently, the threshold for pathological collapse is considered somewhat arbitrary. Available methods for assessing the airway dynamically--bronchoscopy, radiography, cine fluoroscopy, bronchography, CT and MR--have issues with reliability, the need for intubation, radiation dose and contrast administration. In addition, there are varying means of eliciting the diagnosis. Forced expiratory manoeuvres have been employed but can exaggerate normal physiological changes. Furthermore, radiographic evidence of tracheal compression does not necessarily translate into physiological or functional significance. Given that the criteria used to make the diagnosis of tracheobronchomalacia are poorly validated, further studies with larger patient samples are required to define the threshold for pathological airway collapse.

Aortopexy as treatment for tracheo-bronchomalacia in children: an 18-year single-center experience

OBJECTIVES

To define the factors influencing the outcome of aortopexy as management of tracheo-bronchomalacia.

DESIGN

A retrospective, single-center, observational, cohort study.

SETTINGS

Surgical services in a tertiary care hospital.

PATIENTS

One hundred five children who underwent an aortopexy for tracheo-bronchomalacia between 1990 and 2008.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

Comorbidity (categorized into three groups), surgical approach, and location of malacia were reviewed and analyzed in relation to mortality, need for a second intervention, complications, time to extubation after surgery, intensive care unit stay, and clinical improvement. Median age at surgery was 24 wks (1 wk-541 wks). Two surgical approaches were used: median sternotomy (n = 46) and left anterior parasternal (n = 59). Long-term (>2 yrs) follow-up was available for 73 patients (median = 7.0 yrs [2-18 yrs]); 73% were asymptomatic, 18% had minor symptoms, and 9% needed either ventilation or tracheostomy. The overall mortality rate was 9%, of which one-third was airway-related. Multivariable analysis revealed that major comorbidities were a significant risk factor both for mortality and the need for further procedures (re-do surgery, tracheostomy, internal stents) in contrast to surgical approach and involvement of the bronchus. Intensive care unit stay and days of ventilation after surgery were also significantly higher in patients with major comorbidities.

CONCLUSIONS

Aortopexy proved to be an effective treatment for most cases of tracheo-bronchomalacia, but major comorbidity was associated with an adverse outcome. Our data suggest that aortopexy should be considered in most cases of severe tracheo-bronchomalacia.

Reversible airway obstruction caused by changing the size and length of an endotracheal tube in a premature neonate with suspected tracheomalacia -A case report-

Tracheomalacia is a malformation of the tracheal membranosa. It is maintained during spontaneous breathing but can be altered by bronchoscopy or positive airway pressure. Tracheomalacia is associated with a high mortality and may cause prolonged intubation and ventilation. Here, the case of a 13-day-old infant with jejunoileal stenosis that had surgery is reported. During induction of general anesthesia, endotracheal intubation was attempted several times with different sized endotracheal tubes. Airway obstruction occurred after the endotracheal intubation. After the airway was maintained, the operation was completed. Tracheomalacia was diagnosed after otolaryngology evaluation postoperatively.

Tracheobronchomalacia in infants and children: multidetector CT evaluation

Tracheobronchomalacia (TBM) is the most common congenital central airway anomaly, but it frequently goes unrecognized or is misdiagnosed as other respiratory conditions such as asthma. Recent advances in multidetector computed tomography (CT) have enhanced the ability to noninvasively diagnose TBM with the potential to reduce the morbidity and mortality associated with this condition. Precise indications are evolving but may include symptomatic pediatric patients with known risk factors for TBM and patients with otherwise unexplained impaired exercise tolerance; recurrent lower airways infection; and therapy-resistant, irreversible, and/or atypical asthma. With multidetector CT, radiologists can now perform objective and quantitative assessment of TBM with accuracy similar to that of bronchoscopy, the reference standard for diagnosing this condition. Multidetector CT enables a comprehensive evaluation of pediatric patients suspected of having TBM by facilitating accurate diagnosis, determining the extent and degree of disease, identifying predisposing conditions, and providing objective pre- and postoperative assessments. In this article, the authors present a step-by-step primer of multidetector CT imaging for evaluating infants and children with suspected TBM, including clinical indications, patient preparation, multidetector CT techniques and protocols, two- and three-dimensional processing of multidetector CT data, and image interpretation. The major aim of this article is to facilitate the reader's ability to successfully employ multidetector CT imaging protocols for evaluation of TBM in infants and children in daily clinical practice.

Airway stents in children

Airway obstruction in children is a rare, but difficult clinical problem, with no clear agreement on optimal therapeutic approach. Stenting of the airway has been used successfully in adults, and is an attractive alternative in children. Fundamental differences of pediatric compared to adult use include the benign nature of most stenoses, the narrow and soft airways of children, the required long-term tolerance and adaptation to growth. These differences may significantly alter the therapeutic balance, calling into question the precise role stents play in the treatment of airway obstruction in children. Stent placement can be technically demanding but is not exceedingly difficult. Experience is necessary to select the proper size and type of stent. Metal stents usually achieve airway patency and clinical improvement in the majority of cases, while this is less frequently the case with silicone stents. Some complications such as granulation and secretion retention seem to occur in most children after stent implantation. Unfortunately, severe complications including death have been reported in a significant proportion of children. Stent related mortality can be estimated at 12.9% from published data, but these include complication centered reports. The initial euphoria for airway stents in children has largely abated and most authors agree that they should only be employed in circumstances with no good alternatives. It is crucial that all surgical and medical alternatives are considered and the decision to place a stent is not made because other options are overlooked or not available locally. Stent use in a palliative setting has also been reported and is probably reasonable. Stents will only allow limited adaptation for the growth of pediatric airways by balloon dilatation. All metal stents should be considered as potentially permanent, and removal sometimes may only be possible through a surgical and sometimes risky approach.

Tracheobronchomalacia and excessive dynamic airway collapse

Tracheobronchomalacia and excessive dynamic airway collapse are two separate forms of dynamic central airway obstruction that may or may not coexist. These entities are increasingly recognized as asthma and COPD imitators. The understanding of these disease processes, however, has been compromised over the years because of uncertainties regarding their definitions, pathogenesis and aetiology. To date, there is no standardized classification, diagnosis or management algorithm. In this article we comprehensively review the aetiology, morphopathology, physiology, diagnosis and treatment of these entities.

Tracheomalacia in esophageal atresia. Usefulness of preoperative imaging evaluation for tailored surgical correction

Tracheomalacia (TM) associated with esophageal atresia (OA) generally is located in the thoracic segment of the trachea, and the close anatomical relationships it has with the aortic arch and the other mediastinal structures play a remarkable role in the dynamic obstruction of the airways. Only correct preoperative imaging studies permit a precise anatomic description of TM, reducing the risk of incomplete treatment owing to the persistence of other undervalued problems. This report describes the usefulness of preoperative imaging by dynamic fiberoptic bronchoscopy and spiral multilayer computed tomography with 3-dimensional reconstruction in 7 symptomatic children with segmentary TM associated with esophageal atresia and treated surgically "case by case" based on dynamic fiberoptic bronchoscopy and computed tomography data.

Predictive value of infant lung function testing for airway malacia

Airway malacia is present in a small proportion of wheezing infants. The usefulness of infant lung-function testing (ILFT) in ruling out malacia in wheezy infants is unknown. We assessed the predictive value of ILFT parameters for airway malacia diagnosed by flexible bronchoscopy. Thirty-two term infants (mean (SD) age, 11.0 (4.6) months) with chronic wheeze unresponsive to asthma treatment underwent ILFT prior to bronchoscopy. Functional residual capacity measured by plethysmograph (FRCp), maximal flow at FRC (V'max(FRC)), and tidal breathing parameters were obtained. Expiratory flow-volume curves were visually examined for tidal flow limitation. Malacia was observed during bronchoscopy in 20 infants. V'max(FRC) (Z-score) was significantly lower in the group with malacia as compared with the group without malacia. Lung-function measurements had a low negative predictive value and sensitivity. While flow limitation during tidal breathing was highly predictive and 100% specific for airway malacia, only half of the infants with malacia had tidal flow limitation. In this selected group of infants, routine lung function testing could not discriminate between infants with and without airway malacia. However, the presence of tidal flow limitation was 100% predictive and specific for airway malacia.

Tracheomalacia and Tracheobronchomalacia in Children and Adults

Tracheomalacia and tracheobronchomalacia are disorders that are encountered in both pediatric and adult medicine. Despite increasing recognition of these disease processes, there remains some uncertainty regarding their identification, causes, and treatment. This article is intended to be a comprehensive review of both the adult and pediatric forms of the diseases, and includes sections on the historical aspects of the disorders, and their classification, associated conditions, histopathology, and natural history. We also review the various modalities that are used for diagnosis as well as the state of the art of treatment, including airway stent placement and surgical intervention.

Series of laryngomalacia, tracheomalacia, and bronchomalacia disorders and their associations with other conditions in children

Laryngomalacia, bronchomalacia, and tracheomalacia are commonly seen in pediatric respiratory medicine, yet their patterns and associations with other conditions are not well-understood. We prospectively video-recorded bronchoscopic data and clinical information from referred patients over a 10-year period and defined aspects of interrelationships and associations. Two hundred and ninety-nine cases of malacia disorders (34%) were observed in 885 bronchoscopic procedures. Cough, wheeze, stridor, and radiological changes were the most common symptoms and signs. The lesions were most often found in males (2:1) and on the left side (1.6:1). Concomitant malacia lesions ranged from 24% for laryngotracheobronchomalacia to 47% for tracheobronchomalacia. The lesions were found in association with other disorders such as congenital heart disorders (13.7%), tracheo-esophageal fistula (9.6%), and various syndromes (8%). Even though the understanding of these disorders is in its infancy, pediatricians should maintain a level of awareness for malacia lesions and consider the possibility of multiple lesions being present, even when one symptom predominates or occurs alone.

Surgical treatment of tracheomalacia by bronchoscopic monitored aortopexy in infants and children

BACKGROUND

Aortopexy has become an established surgical procedure for the treatment of severe tracheomalacia (TM) in infancy. However, postoperative outcome may be improved by intraoperative bronchoscopic control of the aortopexy.

METHODS

Between 1992 and 2000, 16 infants and children (2 female, 14 male) with TM were treated by pexis of the aorta via a right (15 patients) or left (1 patient) anterior thoracotomy. Patients age ranged from 4 to 122 months (mean, 26 mon). Three infants had previous surgery for esophagus atresia and tracheoesophageal fistula. Another four patients were operated for gastroesophageal reflux. In all cases, the aortopexy was monitored intraoperatively by bronchoscopy. Respiratory function was verified for each patient by comparing pre- and postoperative tidal expiratory flow values (TEF 25% in ml/sec).

RESULTS

Mean follow-up was 36 months (range, 2 to 60 mo). There was no intraoperative or postoperative mortality. 13 patients showed permanent relief of symptoms. Postoperative median TEF 25% increased significantly compared with preoperative values (81 ml/sec vs. 56 ml/sec; p = 0.016). In one patient repeat aortopexy was necessary.

CONCLUSIONS

Aortopexy through a right anterior thoracotomy is an efficient and feasible method in the surgical treatment of TM in infancy and, therefore, can improve postoperative respiratory function. Intraoperative bronchoscopy is advantageous.

Aortopexy in severe tracheal instability: short-term and long-term outcome in 29 infants and children

BACKGROUND

Tracheal instability is a hazardous situation after operation for esophageal atresia. In cases with life-threatening apneas, aortopexy is a therapeutic option. To assess efficacy, short-term and long-term outcome was analyzed retrospectively.

METHODS

Between 1985 and 2000, 29 patients (age, 1.5 months to 5.2 years) were operated on. A flaccid trachea after operation for esophageal atresia was the cause for life-threatening apneas in 27, and there was external vascular compression in 2 patients. The operative procedure consisted of ventropexy of the aortic arch to the sternum and ventral thoracic wall.

RESULTS

There was neither early nor late mortality. A reversible lesion of the phrenic nerve was observed in 2 patients, a pneumothorax in 3, and secondary wound healing in 1. In all but 1 patient symptoms improved markedly or disappeared within days or within the first 3 months postoperatively. An increased susceptibility to respiratory infections was observed in long-term follow-up.

CONCLUSIONS

Aortopexy can be performed with no mortality and low morbidity. Aortopexy is effective to prevent further life-threatening apneas, but does not prevent an increased susceptibility to respiratory infections.

Evaluation of poly-L-lactic acid and polyglycolic acid resorbable stents for repair of tracheomalacia in a porcine model

Poly-L-lactic acid and polyglycolic acid (PLPG) resorbable stents may offer a potential solution to the problem of tracheomalacia. Advantages of this material include its strength, its versatile shaping characteristics, and its resorbability, which would preclude surgical removal and allow for airway growth. The purpose of this pilot study was to examine the usefulness of PLPG stents for temporary external airway stenting of tracheomalacia in a porcine model. A severe tracheomalacia was created in 6 pigs by submucosal resection of segments of tracheal cartilage from 6 consecutive rings. The PLPG stent was then shaped to recreate the tracheal contour and sutured to the underlying airway. Endoscopic photodocumentation during spontaneous ventilation was obtained before and after reconstruction. After creation of the malacic tracheal segment, all animals developed stridor, retractions, and cyanosis during spontaneous ventilation. After repair, all animals were extubated without complication. All animals survived the follow-up period of 9 to 12 weeks without evidence of respiratory distress and with rapid weight gain. Repeat bronchoscopy showed no evidence of airway collapse during spontaneous ventilation. Tracheal measurements revealed growth of the stented segment with a mild narrowing within the repaired region. Histologic examination showed preservation of respiratory epithelium. These preliminary findings suggest that PLPG stents may serve a useful role in the surgical management of tracheomalacia.

Airway obstruction in a child with asymptomatic tracheobronchomalacia

PURPOSE

To report a case of airway obstruction with hypoxia during emergence from anesthesia due to unexpected tracheobronchomalacia in a child.

CLINICAL FEATURES

In a previously healthy 22-month-old boy with no symptoms or signs of respiratory disease, general anesthesia was induced by inhalation of increasing concentrations of sevoflurane (up to 5%) in oxygen and a laryngeal mask was inserted. Partial airway obstruction persisted during surgery, but obstruction was relieved by positive-pressure ventilation. During emergence from anesthesia, airway obstruction with hypoxia occurred, necessitating tracheal intubation. Emission of carbon dioxide as well as of sevoflurane was reduced and emergence from anesthesia markedly delayed. Fibreoptic tracheoscopy showed marked collapse of the tracheobronchi during expiration, and a diagnosis of tracheobronchomalacia was made. No respiratory complications occurred postoperatively.

CONCLUSION

Asymptomatic tracheomalacia should also be suspected in case of airway obstruction during anesthesia in young children.

Pexis of the great vessels for patients with tracheobronchomalacia in infancy

BACKGROUND/PURPOSE

Aortopexy has been established as a surgical treatment for tracheobronchomalacia in infancy. However, the effects in patients with bronchial involvement remain controversial. The authors performed aortopexy and pexis of the pulmonary artery trunk (PApexy) for patients with tracheobronchomalacia.

METHODS

Between 1992 and 1997, 14 infants with tracheobronchomalacia were treated. Patients ranged in age from 4 months to 7 years (median, 3.5 years). Using patients' records, intraoperative bronchofiberscopic results and clinical outcomes were analyzed retrospectively.

RESULTS

Concerning tracheomalacia, aortopexy eliminated airway collapse as shown by intraoperative fiberscopic results and clinical outcome in 4 patients. Regarding tracheobronchomalacia, aortopexy eliminated collapse of the trachea and the right main bronchus in 3 patients but did not improve collapse of the lower half of the left main bronchus in 3 patients, which was eliminated by PApexy. Aortopexy eliminated airway collapse of the left main bronchus in 1 of 3 patients with bronchomalacia. PApexy eliminated collapse of the lower half of the left main bronchus in 1 patient.

CONCLUSIONS

These results indicate that intraoperative bronchofiberscopic results were closely correlated to the clinical outcome, and suggest that aortopexy is helpful for eliminating collapse of the right main bronchus and the proximal half of the left main bronchus and that PApexy eliminates collapse of the distal half of the left main bronchus.

Congenital anomalies of the larynx and trachea

A variety of congenital anomalies arise within the laryngeal or tracheal airway. Symptoms primarily include airway obstruction, hoarseness, and difficulty feeding. The diagnosis is typically made by a combination of clinical presentation, physical examination, and endoscopic evaluation. Definitive intervention may be necessary requiring endoscopic or open laryngeal surgery. Some of the more common congenital laryngeal and tracheal anomalies are discussed with respect to their diagnostic evaluation, clinical presentation, and management.

Advances in the management of major airway collapse: the use of airway stents

The management of major airway collapse in the pediatric age group has evolved and continues to evolve over time. Tracheobronchomalacia, either primary or secondary, is still the most frequent cause of major airway collapse. This article reviews tracheobronchomalacia and discusses several treatment options; from traditional aortopexy to the more recent introduction of tracheobronchial stenting. Various types of stents are discussed and the authors' preferences are included.

Respiratory function in childhood following repair of oesophageal atresia and tracheoesophageal fistula

AIM

To determine the relation between respiratory function in infancy and at school age in children who have undergone oesophageal atresia and tracheoesophageal fistula repair, and assess the value of infant respiratory function testing; and to examine the effect of bronchodilators.

METHOD

Fourteen children (6 girls, and 8 boys) who had undergone respiratory function testing in infancy were retested at school age (7-12 years). Measurements included lung volume, airways resistance, peak flow, and spirometry. Clinical problems were investigated by questionnaire. Twelve children had repeat measurements after taking salbutamol.

RESULTS

Predominant complaints were non-productive cough and dysphagia, but even those children with major problems in infancy reported few restrictions at school or in sport or social activities. Respiratory function and clinical findings at school age appeared unrelated to status in infancy, such that even the patients with severe tracheomalacia requiring aortopexy did not have lung function testing suggestive of malacia at school age. Most patients showed a restrictive pattern of lung volume which would appear to result from reduced lung growth after surgery rather than being a concomitant feature of the primary congenital abnormality. Although six children reported wheeze and four had a diagnosis of asthma, only one responded to salbutamol. This suggests that a tendency to attribute all lower respiratory symptoms to asthma may have led to an overdiagnosis of this condition in this patient group.

CONCLUSION

Respiratory function testing in infancy is of limited value in medium term prognosis, but may aid management of contemporary clinical signs. In children respiratory function testing is valuable in assessing suspected asthma and effects of bronchodilators.

Tracheomalacia with esophageal atresia and tracheoesophageal fistula in fetal rats

BACKGROUND

Many patients who have esophageal atresia and tracheoesophageal fistula (EA-TEF) have associated tracheomalacia, which is thought to be one of the reasons for respiratory complications after surgical correction of the abnormality.

METHODS

In this study, tracheas from Adriamycin-induced EA-TEF fetal rats were examined histologically and relevant cross-sectional parameters of the tracheas were measured.

RESULTS

The tracheal lumen in tracheomalacia was small and irregular, losing its normal "D" shape. In most rats, the cartilaginous ring was broken into two to four segments, making the trachea lose its rigid support. The submucosa was thickened with prominent bulging of its membranous part into the tracheal lumen. The ratio of the inner luminal cross-sectional area to the outer tracheal cross-sectional area in EA-TEF rats was 15.7%, compared with a control ratio of 47.2%. In EA-TEF rats, the length of the cartilaginous ring was significantly shortened (P < .001), but not the length of membranous trachea, thus resulting in a cartilaginous/membranous (C/M) ratio of 1.55:1, markedly lower than that of normal rats (4.34:1, P < .001). The reduction of anterior-posterior diameter of the tracheal lumen was more marked than that of the transverse diameter.

CONCLUSIONS

These observations suggest that the trachea in EA-TEF rats has a smaller lumen and is more flaccid than normal, making it prone to airway obstruction. The fact that tracheomalacia developed only in fetuses who had EA-TEF indicates that the factors that result in EA-TEF also cause tracheomalacia.

External stabilization of long-segment tracheobronchomalacia guided by intraoperative bronchoscopy

BACKGROUND

Symptomatic obstruction of long-segment tracheal or bronchial portions either related to congenital instability or secondary to vascular compression are rare malformations, which remain difficult to manage. A method of external tracheal or bronchial stabilization is described.

METHODS

From July 1992 to April 1995, 7 children (age range, 4 months to 4 years; mean age, 19 months) and 1 adult (age, 46 years) were operated on for severe respiratory insufficiency. In 4 cases of congenital tracheal instability, 2 children had associated type IIIb esophageal atresia. Both children with esophageal atresia had previous operations (two and three times, respectively): 1 child had aortopexy and division of a patent ductus arteriosus and another child had distal tracheal resection elsewhere, both without relief of malacia. All children were intubated and ventilated since birth for 11 to 15 months. Secondary tracheobronchomalacia due to vascular compression was seen in 4 patients caused by double aortic arch (n = 2) and persisting ligamentum arteriosum after previous ligation of a patent ductus arteriosus (n = 2), with 1 child ventilated thereafter for 5 months. Operation was performed with the aid of extracorporeal circulation in all patients but 1, and consisted of transection of vascular rings and persistent ligamentum Botalli (n = 5), closure of multiple ventricular septal defects (n = 1) and extensive mobilization of the tracheobronchial tree as well as the great arteries. External stabilization of the severely dysplastic distal trachea (n = 6) or left main bronchus (n = 2) was achieved by suspending the malacic segment within an oversized and longitudinally opened ring-reinforced polytetrafluoroethylene prosthesis. Multiple plegeted sutures were placed extramucosally to the dysplastic tracheal wall and the dyskinetic pars membranacea, as well as to the polytetrafluoroethylene prosthesis in a radial orientation. Guided by simultaneous video-assisted bronchoscopy, reexpansion of the collapsed segments was achieved by gentle traction on the sutures while tying.

RESULTS

Stenosis-free tracheobronchial reexpansion was achieved in all patients, as seen on repeated bronchoscopies during hospitalization and thereafter. All patients were extubated within 1 to 12 days after the operation. There was one late death, unrelated to the procedure, in a 31-month-old child 20 months after the operation. All other patients are free of stridor and in excellent clinical condition 21 to 54 months (mean, 38 months) thereafter.

CONCLUSIONS

The presented method of bronchoscopically guided external tracheobronchial suspension within a ring-reinforced polytetrafluoroethylene prosthesis immediately relieves severe malacia of the trachea or main bronchi in infants as well as adults without necessitating resection. Midterm preliminary data suggest that growth potential of the affected segment exists within the oversized polytetrafluoroethylene prosthesis.

Prolonged tracheal intubation in an infant with tracheomalacia secondary to a vascular ring. A useful adjunct to treatment?

We report a case in which the trachea of a 3-week-old infant with a double aortic arch and secondary tracheomalacia was intubated for nearly 10 months prior to tracheal surgery. Postoperatively no complications relating to surgery or intubation were seen.

Postpericardiotomy syndrome and chylopericardium: two unusual complications after aortopexy for tracheomalacia

In two boys (aged 10 years and 7 months), large symptomatic pericardial effusions developed after aortopexy for tracheomalacia. Both patients underwent percutaneous pericardial drainage. The delayed presentation (3 weeks postoperatively) and associated findings in the 10 year old were typical of postpericardiotomy syndrome, and he had an uneventful recovery after a course of aspirin therapy. The 7 month old had chylopericardium and was treated with pericardial drainage and a low-fat, medium-chain triglyceride diet. Both cases represent previously unreported complications of aortopexy.

Use of Gianturco Z stents in the treatment of vascular compression of the tracheobronchial tree in childhood. A feasible solution when surgery fails

Severe tracheomalacia secondary to extrinsic vascular compression following a switch operation for transposition is reported. Two attempts at surgical correction failed but successful treatment has been achieved by implantation of two endobronchial Gianturco Z stents. Nonabsorbable stenting in children should be used only in severe obstruction as a last resource, but this technique proved to be feasible in a child weighing 6.2 kg.

Tracheomalacia caused by arterial compression in esophageal atresia

After surgical repair of esophageal atresia (EA), any persistent respiratory distress unexplained by operative complications should lead to performance of tracheoscopy to evaluate the possibility of tracheomalacia. In a review of 46 cases of EA repair, 12 patients developed severe airway problems, manifested mainly by acute apneic episodes. These were related to an anterior extrinsic tracheal compression from vascular structures: the innominate artery alone in 8 patients, and in combination with the aortic arch in 4 patients. Aortopexy, evaluated by intraoperative tracheoscopy, provided good results in 10 patients with a mean follow-up of 2 years. After EA repair, respiratory symptoms, often related to feeding, should be recognized as a possible indication of severe compression of the trachea by the great vessels. The analysis of endoscopic features should allow consideration of patients as candidates for aortopexy, as long as they have resolved their symptoms after conservative therapy, and after investigation of all other possible sources of pulmonary problems. Gastroesophageal reflux must be recognized (7 cases in the series), but does not contraindicate aortopexy if the latter is deemed necessary. In selected cases, the relief of compression, controlled by intraoperative endoscopy, is considered a key component of a comprehensive program to treat children after EA repair.

Airway obstruction and gastroesophageal reflux: an experimental study on the pathogenesis of this association

Gastroesophageal reflux (GER) frequently complicates the clinical course of children suffering from conditions leading to upper airway obstruction (UAO) (choanal atresia, tracheomalacia, esophageal atresia, vascular rings, etc). In an attempt to explore whether partial airway obstruction causes changes in the normal thoracoabdominal pressure gradients, we measured end-inspiratory intrathoracic and intraabdominal pressures in anesthetized rats under spontaneous breathing conditions, after tracheostomy, and under upper airway obstruction induced by tracheal intubation with three progressively narrower cannulae (inner diameters 1.0 mm, 0.5 mm, and 0.2 mm). We also measured the lower esophageal sphincter pressure (LESP) and length (LESL) and calculated the thoracoabdominal end-inspiratory pressure gradient (TAEIPG). Neither LESP nor LESL changed significantly before or after maximal tracheal obstruction (14.3 +/- 6.2 v 18 +/- 7.6 cm H2O [P > .05] and 0.34 +/- 0.09 v 0.41 +/- 0.1 cm H2O [P > .05] respectively) but TAEIPG significantly increased from 5.58 +/- 1.34 cm H2O to 17.62 +/- 4.27 cm H2O (P < .01) under the same conditions, mainly as a result of progressively increasing negative intrathoracic pressures during inspiration. These experiments prove that the powerful thoracoabdominal pressure gradients developed after partial UAO may contribute to the pathogenesis of GER by overcoming the antireflux barrier function. This study points out the convenience of routinely screening for GER all children with airway obstructive conditions, bearing in mind that the reestablishment of normal respiratory conditions should be the primary goal of treatment.

Respiratory morbidity after repair of oesophageal atresia and tracheo-oesophageal fistula

Respiratory morbidity in 334 patients aged 1 to 37 years with repaired oesophageal atresia and tracheo-oesophageal fistula is reported. Just under half the patients were subsequently hospitalised with respiratory illness. Two thirds of admissions were before 5 years of age. Five percent were admitted on more than five occasions. Patients with gastro-oesophageal reflux and low birth weight were more likely to be admitted. Thirty one percent of patients had one or more episodes of pneumonia in the first five years of life and 5% after 15 years. The prevalence of annual bouts of bronchitis in these age groups was 74% and 41% respectively. The prevalence of wheeze was about 40% in all age groups. Patients with symptoms persisting after 15 years were more likely to have had lower respiratory tract illness in early childhood and a history of atopy. In the 12 months before review, weekly episodes of wheezing were present in one third under 5 years and 15% over 15 years. Thirty two percent of patients aged 5-10 years and 8% over 15 years missed two or more weeks of school or work in the previous year with respiratory illness.