External airway splint placement for severe pediatric tracheobronchomalacia.

OBJECTIVE: To present external airway splinting with bioabsorbable airway supportive devices (ASD) for severe, life-threatening cases of pediatric tracheomalacia (TM) or tracheobronchomalacia (TBM). METHODS: A retrospective cohort was performed for 5 pediatric patients with severe TM or TBM who underwent ASD placement. Devices were designed and 3D-printed from a bioabsorbable material, polycaprolactone (PCL). Pre-operative planning included 3-dimensional airway modeling of tracheal collapse and tracheal suture placement using nonlinear finite element (FE) methods. Pre-operative modeling revealed that triads along the ASD open edges and center were the most effective suture locations for optimizing airway patency. Pediatric cardiothoracic surgery and otolaryngology applied the ASDs by suspending the trachea to the ASD with synchronous bronchoscopy. Respiratory needs were trended for all cases. Data from pediatric patients with tracheostomy and diagnosis of TM or TBM, but without ASD, were included for discussion. RESULTS: Five patients (2 Females, 3 Males, ages 2-9 months at time of ASD) were included. Three patients were unable to wean from respiratory support after vascular ring division; all three weaned to room air post-ASD. Two patients received tracheostomies prior to ASD placement, but continued to experience apparent life-threatening events (ALTE) and required ventilation with supraphysiologic ventilator settings. One patient weaned respiratory support successfully after ASD placement. The last patient died post-ASD due to significant respiratory co-morbidity. CONCLUSION: ASD can significantly benefit patients with severe, unrelenting tracheomalacia or tracheobronchomalacia. Proper multidisciplinary case deliberation and selection are key to success with ASD. Pre-operative airway modeling allows proper suture placement to optimally address the underlying airway collapse.

Uso prolongado de cánula nasal de alto flujo en niños con problemas respiratorios / Prolonged use of high flow nasal cannula in children with respiratory problems

La cánula nasal de alto flujo (CNAF) es una modalidad ventilatoria no invasiva segura y efectiva, usada ampliamente en patología respiratoria aguda en adultos y niños. Objetivo: presentar casos clínicos pediátricos que utilizaron CNAF por tiempo prolongado por problemas respiratorios crónicos. Descripción de casos clínicos, revisión de fichas clínicas de 5 pacientes que utilizaron CNAF por más de 1 mes, entre los años 2017-2020 en el Complejo Asistencial Dr. Sótero del Río. Aprobado por Comité de Ética. Resultados: 5 pacientes varones de mediana 61 (44 a 212) días de edad al inicio del uso de CNAF. Diagnóstico de base: displasia broncopulmonar (2/5), síndrome de Treacher Collins (1/5), síndrome de cimitarra con hipoplasia pulmonar derecha (1/5) y traqueobroncomalacia severa (1/5). Todos requirieron previamente uso de ventilación invasiva o no invasiva con mediana de 59 (4 a 78) días. A todos se les realizó broncoscopia, saturometría contínua o poligrafía para diagnóstico y titulación de CNAF y oxígeno. Todos mejoraron clínicamente, la SpO2 y el número de apneas. Dos pacientes se enviaron a domicilio con uso de Airvo2 nocturno. La mediana de uso de CNAF fue 165 (34 a 445) días. Conclusiones: el uso prolongado de CNAF es útil en pacientes pediátricos seleccionados, bien tolerado y factible de utilizar en domicilio.

The high-flow nasal cannula (HFNC) is a safe and effective non-invasive ventilation support widely used in acute respiratory pathology in adults and children. Objective: To present pediatric clinical cases that used HFNC for an extended period due to chronic respiratory disease. Description of clinical cases, review of medical records of 5 patients who used HFNC for more than 1 month, between the years 2017-2020 at Complejo Asistencial Dr. Sótero del Río. Approved by the Ethics Committee. Results: 5 male patients with a median age of 61 (44 to 212) days at the start of HFNC use. Underlying diagnoses: bronchopulmonary dysplasia (2/5), Treacher Collins syndrome (1/5), Scimitar syndrome with right pulmonary hypoplasia (1/5), and severe tracheobronchomalacia (1/5). All of them previously required invasive or non-invasive ventilation for a median of 59 (4 to 78) days. All patients underwent bronchoscopy, continuous pulse oximetry or polygraphy for diagnosis and titration of HFNC and oxygen. All showed clinical improvement, including SpO2 levels and the number of apneas. Two patients were discharged with nocturnal use of Airvo 2 at home. The median duration of HFNC use was 165 (34 to 445) days. Conclusions: Prolonged use of HFNC is useful in selected pediatric patients, well tolerated, and feasible for home use.

Tracheomalacia after thyroidectomy for retrosternal goitres requiring sternotomy- a myth or reality?

INTRODUCTION: Tracheomalacia after thyroidectomy is not well understood. Reports on tracheomalacia are conflicting, with some suggesting a high rate and other large cohorts in which no tracheomalacia is reported. The aim of our study was to assess the incidence and factors associated with tracheomalacia after thyroidectomy in patients with retrosternal goitres requiring sternotomy at a high-volume tertiary care referral centre. METHODS: A longitudinal cohort study was conducted from January 2011 to December 2019. All adult patients who underwent thyroidectomy with sternotomy were included. Tracheomalacia was considered when tracheal rings were soft compared with other parts (proximal or distal) of the trachea and required either tracheostomy or resection with anastomosis. The decision to perform a tracheostomy or to administer continuous or bilevel positive airway pressure postoperatively was made depending on the degree of tracheomalacia. Logistic regression analysis was used to assess factors associated with tracheomalacia. RESULTS: We evaluated 40 patients who underwent thyroidectomy with sternotomy. The mean age of our cohort was 48.7 ± 11.3 years and the population was predominantly female (67.5%). One patient required tracheal resection with anastomosis, and two patients required tracheostomy. Multivariable logistic regression analysis did not reveal any patient- or thyroid-related factor significantly associated with the development of tracheomalacia in our cohort. CONCLUSIONS: The incidence of tracheomalacia after thyroidectomy with sternotomy appears to be very low. However, the occurrence of tracheomalacia after thyroidectomy in cases of large goitre is possible and hence worrisome.

Airway Clearance in Tracheomalacia.

Airway clearance is an essential part of airway maintenance to ensure the airway lumen is protected against particulate and infectious insults. The mechanisms involved in airway clearance include intrinsic structural and cellular components that can be impaired or inhibited through developmental defects and surgical interventions. Tracheomalacia is a developmental defect of the airway that can contribute to the mechanical failure to clear the airway. This chapter will review the mechanisms of airway clearance and the processes that can impair this vital process.

[Treatment of tracheo(broncho)malacia in children]. / Comment je traite la trachéo(broncho)malacie de l'enfant ?

Tracheomalacia (TM) is characterized by tracheal collapse due to an intrinsic anomaly resulting in a lack of rigidity of the cartilaginous rings and/or the posterior membrane during expiration, coughing or crying. It may also be secondary to external compression or acquired during endobronchial diseases. TM is commonly associated with other syndromes or airway abnormalities. Tracheomalacia can be localized or diffused and if the main bronchi are involved, the term of tracheobronchomalacia (TBM) is used. The most common symptoms include expiratory stridor, barking cough and recurrent respiratory tract infections. If tracheal weakness is severe, Acute Life Threating Events (ALTE) or Brief Resolved Unexplained Event (BRUE) can occur. While mild forms usually do not require any treatment, severe TBM may require medical and/or surgical management. Amongst several possible treatments, including tracheostomy, noninvasive ventilation and airway stenting, the pexy surgical approach (posterior, anterior tracheopexy or aortopexy) is currently the favoured option.

La trachéomalacie (TM) est caractérisée par un collapsus trachéal plus ou moins important durant l'expiration, lors des efforts de toux ou des pleurs. Elle peut être due à une anomalie intrinsèque, par manque de rigidité des anneaux cartilagineux et/ou de la membrane postérieure. Elle peut aussi avoir une origine extrinsèque, soit secondaire à une compression externe, soit acquise dans le cadre de pathologies endo-bronchiques. Elle peut enfin être associée à certains syndromes ou malformations des voies respiratoires. La TM peut être localisée ou généralisée, et si les bronches principales sont atteintes, on parlera de trachéobronchomalacie (TBM). Les symptômes les plus courants sont : un stridor expiratoire, une toux aboyante, et des infections respiratoires récurrentes. Dans les cas les plus sévères, des événements menaçant la vie de l'enfant (Acute Life-Threatening Event «ALTE¼ ou Brief Resolved Unexplained Event «BRUE¼) peuvent survenir. Alors que les formes légères ne requièrent généralement pas de traitement, la TBM sévère peut nécessiter une prise en charge médicale et/ou chirurgicale. Parmi les divers choix thérapeutiques, incluant notamment la trachéostomie, la ventilation non invasive et les stents trachéaux, l'approche chirurgicale par pexie (aortopexie, trachéopexie postérieure ou antérieure) est actuellement l'option favorite.

Traqueomalacia: diagnóstico y alternativas terapéuticas / Tracheomalacia: diagnosis and treatment options

La traqueomalacia (TM) consiste en una excesiva colapsabilidad traqueal debida a una anomalía estructural del cartílago y/o de la pared membranosa posterior. Cuando se extiende a uno o ambos bronquios principales se denomina traqueobroncomalacia (TBM). Considerando diferentes clasificaciones, la mayoría de las TM son adquiridas, localizadas e intratorácicas. El diagnóstico clínico es difícil porque los síntomas son inespecíficos y se superponen con los de otras enfermedades respiratorias crónicas. Los síntomas más frecuentes incluyen estridor espiratorio, tos perruna e infecciones respiratorias recurrentes, en los casos más graves se presentan episodios de dificultad respiratoria severa, cianosis e incluso muerte súbita. La fibrobroncoscopía sigue siendo el método diagnóstico estándar de oro, complementándose con la tomografía computarizada que es esencial en la visualización de las estructuras adyacentes a la vía aérea. En los casos leves el tratamiento es conservador, considerando la resolución espontánea de la mayoría de los casos hacia los 2 años de edad. En los pacientes más sintomáticos la estrategia terapéutica se debe evaluar caso a caso, siendo la presión positiva contínua en vía aérea (no invasiva o invasiva por traqueostomía) el tratamiento más utilizado. En las TM-TBM más severas, entre posibles tratamientos que incluyen cirugía traqueal y prótesis en la vía aérea, lo más usado es aortoarteriopexia y traqueopexia, a la espera de resultados promisorios de mallas endoluminales biodegradables y prótesis reabsorbibles personalizadas impresas en 3D.

Tracheomalacia (TM) is defined as an increased collapsibility of the trachea due to structural anomalies of the cartilaginous rings and/or the posterior membrane. When the main bronchi is also affected this condition is termed as tracheobronchomalacia (TBM). According classifications TM is mostly acquired, localized and intrathoracic. Diagnosing TM is challenging because symptoms are nonspecific and overlap with those of other chronic respiratory disorders. The most common symptoms include expiratory stridor, barking cough and recurrent respiratory tract infections, in severe cases, severe respiratory distress episodes and acute life threatening events can occur. While flexible bronchoscopy is still considered as the gold standard diagnostic method, computed tomography is essential in assessing the surrounding structures. Conservative therapy is preferred in milder cases since the outcome is usually favorable within the first 2 years of life. Treatment of more symptomatic children should be discussed on an individual basis, continuous positive airway pressure (non invasive o invasive via tracheostomy) being the most widely used therapy. For more severe TM-TBM, amongst possible treatments including tracheal surgery and airway stenting, aortoarteriopexy and tracheopexy are mostly used, nevertheless absorbable stent and 3D printed customed prosthesis are being developed with promising results.

Care recommendations for the respiratory complications of esophageal atresia-tracheoesophageal fistula.

Tracheoesophageal fistula (TEF) with esophageal atresia (EA) is a common congenital anomaly that is associated with significant respiratory morbidity throughout life. The objective of this document is to provide a framework for the diagnosis and management of the respiratory complications that are associated with the condition. As there are no randomized controlled studies on the subject, a group of experts used a modification of the Rand Appropriateness Method to describe the various aspects of the condition in terms of their relative importance, and to rate the available diagnostic methods and therapeutic interventions on the basis of their appropriateness and necessity. Specific recommendations were formulated and reported as Level A, B, and C based on whether they were based on "strong", "moderate" or "weak" agreement. The tracheomalacia that exists in the site of the fistula was considered the main abnormality that predisposes to all other respiratory complications due to airway collapse and impaired clearance of secretions. Aspiration due to impaired airway protection reflexes is the main underlying contributing mechanism. Flexible bronchoscopy is the main diagnostic modality, aided by imaging modalities, especially CT scans of the chest. Noninvasive positive airway pressure support, surgical techniques such as tracheopexy and rarely tracheostomy are required for the management of severe tracheomalacia. Regular long-term follow-up by a multidisciplinary team was considered imperative. Specific templates outlining the elements of the clinical respiratory evaluation according to the patients' age were also developed.

Montgomery T-tube for management of tracheomalacia: Impact on voice-related quality of life.

INTRODUCTION: Tracheostomy is a common procedure for management of tracheomalacia. However, the limitation to speak related to tracheostomy cannula could affect the quality of life. OBJECTIVES: we reported a new minimally invasive procedure to replace tracheostomy cannula with Montgomery T-tube to improve the ability of speaking. METHODS: This is a single center study including all consecutive patients undergoing the replacement of standard tracheostomy cannula with T-tube for management of tracheomalacia. The end-points were to evaluate (a) the changes in Voice-related quality of Life (V-RQOL) before and after T-tube placement; and (b) the complications related to T-tube. RESULTS: Eleven patients were included in the study. T-tube was placed using flexible bronchoscopy and laryngeal mask airway. A suture was inserted through the proximal end of T-tube. Once the stent was introduced with a clamp into the trachea, a traction was applied on the suture to facilitate the alignment of the upper end of the stent. The comparison of V-RQOL values before and after T-tube insertion showed a significant improvement in social/emotional (39.2 ± 6.1 vs 66.8 ± 1.9; P = .0001); physical functioning (21 ± 5.7 vs 56.4 ± 5.3; P = 0.0001) and total V-RQOL scores (33.9 + 5.4 vs 61.3 + 6.1; P = 0.0001). No complications were seen during the insertion of the stent. In two patients, T-tube was obstructed by mucus that resolved with aspiration using flexible bronchoscopy (mean follow-up: 18 ± 10 months). CONCLUSIONS: Our technique is simple and safe, not needing specific skills and/or cumbersome devices. The replacement of tracheostomy cannula with T-tube seems to improve the quality of voice without adding major complications.

The use of expandable metallic airway stent in a baby with tracheomalacia: A case report.

Tracheobronchomalacia is a rare condition in the pediatric age group which may be life-threatening when it occurs. The common form of tracheomalacia is congenital, presenting with wheezing and cough. We report a case of a 65-day-old baby who was treated with non-invasive mechanical ventilation due to respiratory distress since the day of birth. Tracheomalacia was diagnosed based on the physical examination and the thorax computerized tomography (CT) findings. Patient was initially treated with noninvasive positive pressure ventilation and thereafter, fitted with a tracheobronchial conical fully-covered self-expandable nitinol stent. After stent insertion and the respiratory situation of the patient improved, ventilatory weaning and extubation were possible. A careful selection of suitable patients, appropriate stent type and the site, where it has to be placed is mandatory for successful airway stenting. Also, children must be adequately followed-up to prevent the possible life-threatening complications after stent insertion.

Traqueomalacia pediátrica / Pediatric tracheomalacia

RESUMEN La malacia de la vía aérea central puede afectar la tráquea y/o los bronquios, haciéndola susceptible al colapso de sus paredes durante el ciclo respiratorio. Puede clasificarse como primaria o secundaria y clínicamente se manifiesta por síntomas respiratorios recurrentes o persistentes (especialmente en espiración), infecciones recurrentes y en casos severos, episodios de hipoventilación con cianosis. El diagnóstico se establece mediante broncoscopía flexible o rígida. Los estudios de imágenes se consideran complementarios, siendo especialmente útiles en casos de duda diagnóstica, estudio de causas secundarias o para la planificación preoperatoria. Su tratamiento depende de distintos factores como la severidad de los síntomas, su etiología, ubicación y extensión. En casos leves, una observación activa y tratamiento médico en espera de la resolución espontánea en los primeros 2 años, suelen ser suficientes. En casos moderados, la ventilación a presión positiva podría ser de utilidad. En casos severos está indicado el tratamiento quirúrgico, mediante distintas técnicas que buscan dar soporte a la estructura traqueobronquial debilitada, incluyendo traqueostomía, suspensiones directas (traqueopexias) o indirectas (aortopexia), tutores externos o stents intraluminales. En este articulo se revisarán las principales causas y tratamientos disponibles para la traqueomalacia pediátrica. Ya que su diagnóstico y manejo son complejos, es fundamental el trabajo de equipos médicos multidisciplinarios familiarizados con esta patología.

ABSTRACT Central airway malacia can affect the trachea and/or the main bronchi, making their walls susceptible to collapse during the respiratory cycle. It can be classified as primary or secondary, and clinically presents with recurrent or persistent respiratory symptoms (especially on expiration), recurrent infections and in severe cases, episodes of hypoventilation with cyanosis. The diagnosis is established by flexible or rigid bronchoscopy; imaging studies are considered as complementary, especially in cases of unclear diagnosis, secondary causes or for preoperative planning. Treatment depends on different factors such as the severity of the symptoms, their etiology, location and extension. In mild cases, active observation and medical treatment waiting for spontaneous resolution may be enough, which usually occurs in the first 2 years of age. In moderate cases, positive pressure ventilation could be useful. In severe cases, surgical treatment is indicated. Different techniques aiming to provide support to the weakened tracheobronchial structures are available, including tracheostomy, direct (tracheopexies) or indirect suspensions (aortopexy), external splints and intraluminal stents. In this article we present the main etiologies and available treatments for pediatric tracheomalacia. Given that diagnosis and management of these patients is complex, the work of multidisciplinary teams familiar with this pathology is of paramount importance.

ERS statement on tracheomalacia and bronchomalacia in children.

Tracheomalacia and tracheobronchomalacia may be primary abnormalities of the large airways or associated with a wide variety of congenital and acquired conditions. The evidence on diagnosis, classification and management is scant. There is no universally accepted classification of severity. Clinical presentation includes early-onset stridor or fixed wheeze, recurrent infections, brassy cough and even near-death attacks, depending on the site and severity of the lesion. Diagnosis is usually made by flexible bronchoscopy in a free-breathing child but may also be shown by other dynamic imaging techniques such as low-contrast volume bronchography, computed tomography or magnetic resonance imaging. Lung function testing can provide supportive evidence but is not diagnostic. Management may be medical or surgical, depending on the nature and severity of the lesions, but the evidence base for any therapy is limited. While medical options that include bronchodilators, anti-muscarinic agents, mucolytics and antibiotics (as well as treatment of comorbidities and associated conditions) are used, there is currently little evidence for benefit. Chest physiotherapy is commonly prescribed, but the evidence base is poor. When symptoms are severe, surgical options include aortopexy or posterior tracheopexy, tracheal resection of short affected segments, internal stents and external airway splinting. If respiratory support is needed, continuous positive airway pressure is the most commonly used modality either via a face mask or tracheostomy. Parents of children with tracheobronchomalacia report diagnostic delays and anxieties about how to manage their child's condition, and want more information. There is a need for more research to establish an evidence base for malacia. This European Respiratory Society statement provides a review of the current literature to inform future study.

Laryngomalacia, Tracheomalacia and Bronchomalacia.

Airway malacia can occur in the larynx (larygomalacia), trachea (tracheomalacia), or bronchi (bronchomalacia). As a group these are the most common congenital abnormalities of the pediatric airway and are characterized by increased airway compliance, resulting in excessive dynamic collapse during the respiratory cycle. While a diagnosis can be suspected based on clinical history and physical examination, definitive evaluation is based of nasopharyngolaryngoscopy and/or bronchoscopy. Observation and conservative management are typically all that are required. However, surgical intervention can be necessary in the most severe cases, and can result in significant improvement in symptoms.

Patología quirúrgica de la vía aérea pediátrica / Surgical pathology of the pediatric airways

Las anomalías de la vía respiratoria en la edad pediátrica abarcan un amplio espectro de patologías, de origen congénito o adquirido, poco frecuentes en la practica clínica. el manejo adecuado de esta patología requiere de un equipo multidisciplinar, que incluye a los departamentos de pediatría (neonatólogos, pediatría general, cuidados intensivos, neumología, gastroenterología y cardiología), especialidades quirúrgicas (pediátrica, otorrinolaringología, cardiotorácica), anestesia, radiología, fisioterapeutas respiratorios y enfermería, entre otros. Habitualmente plantean un desafío para estos profesionales, dada su complejidad y la necesidad frecuente de una actuación urgente. Mediante este trabajo abordaremos los principales trastornos de las vías respiratorias pediátricas. Nos centraremos en aquélla localizada en laringe y tráquea, dejando de lado la patología de vía aérea distal

Airway anomalies in the pediatric population includes a broad spectrum of pathologies, congenital or acquired, rare in clinical practice. proper management of this pathology requires a multidisciplinary team, which includes the departments of pediatrics (neonatologists, general pediatrics, intensive care, pneumology, gastroenterology and cardiology), surgery (pediatric, otorhinolaryngology, cardiothoracic), anesthesia, radiology, respiratory physiotherapists, and nurses among others. these patients usually pose a challenge for professionals, due to their complexity and the prevalent need for urgent treatment. the goal of this paper is to present the most common pediatric airway disorders. We will focus on the larynx and trachea pathology and we will omit diseases concerning distal airway

Home high-flow nasal cannula as a treatment for severe tracheomalacia: A pediatric case report.

Tracheomalacia refers to a softness of the tracheal cartilage that makes the airway more susceptible to collapse. In contrast to milder cases where conservative therapy is preferred, severe tracheomalacia is often a life threatening condition requiring more aggressive management. For children with this condition, a variety of treatment options are available. To our knowledge, this is the first report of home high-flow nasal cannula as an alternative therapy to continuous positive airway pressure (CPAP) and surgical procedures in a pediatric patient with severe extensive tracheomalacia.

Ex vivo tracheomalacia model with 3D-printed external tracheal splint.

OBJECTIVE: To design and evaluate an ex vivo model of tracheomalacia with and without a three-dimensional (3D)-printed external tracheal splint. STUDY DESIGN: Prospective, ex vivo animal trial. METHODS: Three groups of ex vivo porcine tracheas were used: 1) control (unmanipulated trachea), 2) tracheomalacia (tracheal rings partially incised and crushed), and 3) splinted tracheomalacia (external custom tracheal splint fitted onto group 2 trachea). Each end of an ex vivo trachea was sealed with a custom-designed and 3D-printed cap; a transducer was placed through one end to measure the pressure inside the trachea. Although the negative pressure was applied to the tracheal lumen, the tracheal wall collapse was measured externally and internally using a bronchoscope. Each group had at least three recorded trials. Tracheal diameter was evaluated using ImageJ software (National Institutes of Health, Bethesda, MD) and was averaged between two raters. RESULTS: Average tracheal occlusion percentage was compared using Student t test. The average occlusion was 31% for group 1, 87.4% for group 2, and 20% for group 3. Significant differences were found between the control and tracheomalacia groups (P < 0.01) and the tracheomalacia and splinted tracheomalacia groups (P < 0.01). There was no significant difference between the control and splinted tracheomalacia groups (P = 0.13). Applied pressure was plotted against occlusion and regression line slope differed between the tracheomalacia (0.91) and control (0.12) or splinted tracheomalacia (0.39) groups. CONCLUSION: We demonstrate the potential for an ex vivo tracheomalacia model to reproduce airway collapse and show that this collapse can be treated successfully with a 3D-printed external splint. These results are promising and justify further studies. LEVEL OF EVIDENCE: N/A. Laryngoscope, 127:950-955, 2017.

Biodegradable airway stents in infants - Potential life-threatening pitfalls.

OBJECTIVE: The solution of severe tracheobronchial obstructions in early childhood means a great challenge. Biodegradable stents were intended to be a minimally invasive temporary solution which may decrease the number of interventions and limit the possible complications of stenting procedures. However, our first experiences have brought out a new, - especially in childhood - potentially life-threatening complication of this concept. METHODS: Five SX-ELLA biodegradable polydioxanone stents was applied in three patients because of severe tracheobronchial obstruction: congenital tracheomalacia (7 day-old), acquired tracheomalacia (10 month-old), and congenital trachea-bronchomalacia (10 month-old). RESULTS: The breathing of all children improved right after the procedure. We observed degradation of the stent from the 5th postoperative week which resulted in large intraluminar fragments causing significant airway obstruction: one patient died of severe pneumonia, the other baby required urgent bronchoscopy to remove the obstructing 'foreign body' from the trachea. In the third case repeated stent placements successfully maintained the tracheal lumen. CONCLUSIONS: Polydioxanone stents may offer an alternative to metallic or silastic stents for collapse or external compression of the trachea in children; however, large decaying fragments mean a potential risk especially in the small size pediatric airway. The fragmentation of the stent, which generally starts in the 4-6 postoperative weeks, may create large sharp pieces. These may be anchored to the mucosa and covered by crust leading to obstruction. As repeated interventions are required, we do not consider the application of biodegradable stents unambiguously advantageous.

Successful conservative management of a rare complication of tracheostomy; extensive posterior tracheal false pouch.

INTRODUCTION: With the advent of improved neonatal and pediatric intensive care management, tracheostomy is increasingly performed in children requiring prolonged ventilation. Even though tracheostomy is generally a safe procedure, there remains mortality and morbidity associated with it. OBJECTIVE: We report a rare complication of a tracheostomy tube resulting in extensive erosion and posterior tracheal false pouch secondary to a large tracheostomy tube and high positive end expiratory pressure in a 12-month-old infant. This was managed successfully with conservative treatment. RESULTS: A former 34-week premature infant was transferred to our pediatrics intensive care unit (PICU) with recurrent episodes of cardiopulmonary arrests due to suspected severe tracheobronchomalacia. The patient has bronchopulomonary dysplasia, severe restrictive lung disease and thoracic insufficiency from skeletal dysplasia requiring tracheostomy tube (TT) at two-month-old and mechanical ventilation. The 3.5 NEO TT was gradually upsized to a 5. The PEEP setting at transfer was 18cmH2O. The direct laryngoscopy and bronchoscopy showed moderate tracheomalacia at the innominate artery with a false pouch in the posterior tracheal wall that was 1.1cm below the tracheostomy stoma. A multi-disciplinary discussion including otolaryngology, PICU, Pulmonary Medicine, and Pediatric Surgery decided on conservative management. The false pouch healed and she was transferred back to referring PICU after a 46-day. CONCLUSION: Tracheal wall erosion resulting in a pouch formation is a rare complication, but it should be considered in patients with long term tracheostomy with difficulty ventilation and oxygenation with positional change. DLB is a useful tool in its diagnosis and conservative management can be successful.

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.