Complications of tracheostomy in children: a systematic review

Lubianca Neto, José Faibes; Castagno, Octavia Carvalhal; Schuster, Artur Koerig

doi:10.1016/j.bjorl.2020.12.006

Abstract

Introduction:

Tracheostomy is a procedure that can be associated with several well-described complications in the literature, which can be divided into transoperative, early postoperative and late postoperative. When performed in children, these risks are more common than in adults.

Objective:

To perform a systematic review of complications, including deaths, in tracheostomized pediatric patients.

Methods:

A search was carried out for articles in the Latin American and Caribbean Health Sciences Literature and PubMed databases. Cohort studies and series reports were selected, in addition to systematic reviews, published between January 1978 and June 2020, with patients up to 18 years old, and written in English, Spanish or Portuguese.

Results:

1560 articles were found, of which 49 were included in this review. The average complication rate was 40%, which showed an association with age, birth weight, prematurity, comorbidities, and emergency procedures. The most common complications were cutaneous lesions and granulomas. Mortality related to the procedure reached up to 6% in children and was mainly related to cannula obstruction or accidental decannulation.

Conclusion:

Pediatric tracheostomy is associated with several complications. The tracheostomy-related mortality rate is low, but the overall mortality of tracheostomized patients is not negligible.

Keywords
Tracheostomy; Child; Complication; Mortality

Resumo

Introdução:

A traqueostomia é um procedimento que está associada a diversas complicações já bem descritas na literatura, que podem ser divididas em transoperatórias, pós-operatórias precoces e pós-operatórias tardias. Nas crianças, esses riscos são mais incidentes do que nos adultos.

Objetivo:

Fazer uma revisão sistemática sobre complicações, inclusive óbitos, em pacientes pediátricos traqueostomizados.

Método:

Foram pesquisados artigos nas bases de dados da Latin American and Caribbean Health Sciences Literature e PubMed. Foram selecionados coortes e relatos de séries, além de revisões sistemáticas, publicados entre janeiro de 1978 e junho de 2020, com pacientes de até 18 anos, nas línguas inglesa, espanhola ou portuguesa.

Resultados:

Foram encontrados 1.560 artigos, dos quais 49 foram incluídos nesta revisão. A taxa média de complicações foi de 40%, que mostrou associação com idade, peso ao nascimento, prematuridade, comorbidades e procedimentos feitos em caráter de emergência. As complicações mais comuns foram lesões cutâneas e granulomas. Já a mortalidade relacionada ao procedimento chegou até a 6% em crianças e esteve relacionada principalmente à obstrução da cânula ou decanulação acidental.

Conclusão:

A traqueostomia pediátrica associa-se a diversas complicações. A mortalidade relacionada à traqueostomia se mostra baixa, mas a mortalidade geral de pacientes traque-ostomizados não é desprezível.

Palavras-chave
Traqueostomia; Criança; Complicação; Mortalidade

Introduction

Tracheostomy is the term that describes the presence of an opening in the trachea, while tracheotomy refers only to the act of making an incision in the trachea. For a long time, its only indication was infectious and tumor diseases that cause upper airway obstruction.¹1 Dal’Astra APL, Quirino AV, Caixeta JAS, Avelino MAG. Tracheostomy in childhood: review of the literature on complications and mortality over the last three decades. Braz J Otorhinolaryngol. 2017;83:207–14. From the 20th century onward, the indications for tracheotomy increased. Currently, almost two thirds of tracheostomies are performed on children under 1 year of age and usually remain for longer periods, when compared to adults. The main indications in children are laryngotracheal stenoses, prolonged mechanical ventilation and the need for pulmonary hygiene maintenance.²2 Carron JD, Derkay CS, Strop GL, Nosonchuk JE, Darrow DH. Pediatric tracheostomies: changing indications and outcomes. Laryngoscope. 2000;110:1099–104.

Several techniques have been described. The main differences are usually regarding the direction of the skin incision, the incision shape in the trachea and the suture or not of the trachea in the skin, also known as “stoma maturation”. Possible surgical complications can be divided into transoperative and postoperative, which are subdivided into early and late postoperative complications. The prevalence and distribution of such complications is highly variable in the literature. This study aims to determine the possible complications of tracheostomy in children, including the mortality rate associated with the procedure, dividing them according to their temporal relationship with the time of surgery.

Methods

A systematic literature review was performed using the PubMed and Latin American and Caribbean Health Sciences Literature (LILACS) databases. Articles with original samples (cohorts and series reports) and systematic reviews published from January 1978 to June 2020 were included. The keywords used in the searches were “pediatric tracheostomy complications” and “children tracheostomy complications”. The search was limited to the pediatric age group (0–18 years old) and to articles written in English, Spanish and Portuguese.

The authors evaluated each of the titles and abstracts to insure that they met the inclusion criteria. Only articles with multiple series reports were selected, excluding case reports, non-systematic literature reviews, consensuses and guidelines. Articles that did not address the complications of the tracheostomy procedure were also eliminated, as well as those that were not found as full text or were duplicated.

The selection protocol followed the recommendations of the PRISMA (preferred reporting items for systematic reviews and meta-analyses) flow chart. Given the heterogeneity of the articles, it was not possible to perform a meta-analysis.

Results

A total of 1560 articles were screened, based on the search parameters (Fig. 1). Of this total, 5 were duplicates and 1491 were also excluded in the screening process because they did not meet the inclusion criteria. Of the 64 full texts selected, it was decided to exclude 15 because they contained redundant information compared with other selected articles. Thus, we reached a total of 49 articles included in the systematic review, containing the most relevant and current information on the topic.

Figure 1
Literature review flowchart using the PRISMA strategy.

Table 1 shows the list of analyzed articles, with the total number of patients evaluated in each study and the rates of overall mortality and mortality directly related to the tracheostomy. With the exception of a prospective cohort, ³3 Pérez-Ruiz E, Caro P, Pérez-Fnás J, Cols M, Barrio I, Torrent A, et al. Paediatric patients with a tracheostomy: a multicentre epidemiological study. Eur Respir J. 2012;40:1502–7. all the others are reports of case series or retrospective cohorts based on medical records reviews. In some articles it was possible to obtain the cause of death information for all patients. The time of follow-up evaluated in each study is heterogeneous, ranging from days to years, which limits the validity of the mortality rate analysis.

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Table 1
Description of the articles regarding authorship, year of publication, sample size, mortality related to tracheostomy and overall mortality.

Table 2 shows the total number of cases reported in the investigated literature according to each complication. Care was taken not to include in this group the number of articles analyzed in other systematic reviews that are also included in our study, to avoid duplication of data. Due to the heterogeneity of the studies, it is difficult to divide the total number of complications into early or late ones, since many studies did not bring this discrimination. Some of the complications are more accurately mentioned in some of the articles. As an example, some authors report granuloma according to its location, whereas others only use the term granuloma in a generic way. Thus, it was decided to group the reported complications under simplified terms. A considerable portion of the articles does not differentiate total complicationsfrom total children with complications, since the same child may have developed more than one complication. Therefore, it is not possible to calculate these two values precisely.

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Table 2
Tracheostomy complications reported in the analyzed articles.

Discussion

The incidence of tracheostomy complications ranges from 0% to 90% of the cases, with an average close to 40% in the numerous reported series.⁴4 Coln CE, Purdue GF, Hunt J. Tracheostomy in the young pediatric burn patient. Arch Surg. 1998;133:537–9., ⁵5 Citta-Pietrolungo TJ, Alexander MA, Cook SP, Padman R. Complications of tracheostomy and decannulation in pediatrics and young patients. Arch Phys Med Rehabil. 1993;74:905–9. There has been a downward trend over the past three decades.¹1 Dal’Astra APL, Quirino AV, Caixeta JAS, Avelino MAG. Tracheostomy in childhood: review of the literature on complications and mortality over the last three decades. Braz J Otorhinolaryngol. 2017;83:207–14. These complications vary in severity, ranging from intraoperatively controllable bleeding to death by decannulation or cannula obstruction.

There are some described risk factors associated with a higher frequency of complications, with age, birth weight and prematurity being some of them.⁶6 Mahida JB, Asti L, Boss EF, Shah RK, Deans KJ, Minneci PC, et al. Tracheostomy placement in children younger than 2-years: 30-day outcomes using the national surgical quality improvement program pediatric. JAMA Otolaryngol Head Neck Surg. 2016;142:241–6., ⁷7 Kenna M, Reilly JS, Stool SE. Tracheostomy in preterm infant. Ann Otol Rhinol Laryngol. 1987;96:68–71., ⁸8 Gianoli GJ, Miller RH, Guarisco JL. Tracheotomy in the first year of life. Ann Otol Rhinol Laryngol. 1990;99:896–901. The factors that can explain this higher occurrence in young children range from the need for prolonged tracheostomy use in this age group, through associated comorbidities, and finally the small diameter of the airway and of the cannula itself.⁸8 Gianoli GJ, Miller RH, Guarisco JL. Tracheotomy in the first year of life. Ann Otol Rhinol Laryngol. 1990;99:896–901. There is scientific evidence showing that the incidence of complications associated with tracheostomy is higher in children than in adults.⁹9 Kremer B, Botos-Kremer AI, Schlondorff G. Indications, complications, and surgical techniques for pediatric tracheostomies -– an update. J Pediatr Surg. 2002;37:1556–62. A tracheostomy performed in emergency situations significantly increases the risk of complications in relation to a controlled elective procedure; from 0.05% to 20%, with the main one being pneumothorax.¹⁰10 Greenberg JS, Sulek M, de Jong A, Friedman EM. The role of postoperative chest radiography in pediatric tracheostomy. Int J Pediatr Otorhinolaryngol. 2001;60:41–7. Baseline disease and previous intubation (for mechanical ventilation) are also related to an increased risk.⁷7 Kenna M, Reilly JS, Stool SE. Tracheostomy in preterm infant. Ann Otol Rhinol Laryngol. 1987;96:68–71. Patients with bronchopulmonary dysplasia, a comorbidity frequently associated with prematurity, have more abundant and viscous secretion, which increases the risk of obstructive complications.¹¹11 Schlessel JS, Harper RG, Rappa H, Kenigsberg K, Khanna S. Tracheostomy: acute and long-term mortality and morbidity in very low birth weight premature infants. J Pediatr Surg. 1993;28:873–6. Presence of intraventricular hemorrhage and risky cardiac alterations also independently increase the chance of a major tracheostomy complication.⁶6 Mahida JB, Asti L, Boss EF, Shah RK, Deans KJ, Minneci PC, et al. Tracheostomy placement in children younger than 2-years: 30-day outcomes using the national surgical quality improvement program pediatric. JAMA Otolaryngol Head Neck Surg. 2016;142:241–6. Finally, in a retrospective multivariate cohort analysis of 502 tracheostomized children, those aged 1–4 years were 4 times more likely to have complications than those aged 13 or older; those with complex chronic conditions had a 3.3-fold greater risk to have complications than those without such conditions; and those with gastrostomy or peritoneal ventricle shunt, in addition to tracheostomy, had a 2-fold greater risk of complications than those without it (p < 0.01 for all comparisons).¹²12 Watters K, O’Neill M, Zhu H, Graham RJ, Hall Matthew, Berry J. Two-year mortality, complications, and healthcare use in children with medicaid following tracheostomy. Laryngoscope. 2016;126:2611–7.

As for temporality, some authors consider early postoperative complications as the ones that occur within 72 h after the procedure,¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41. while others consider a period within 7 days.⁵5 Citta-Pietrolungo TJ, Alexander MA, Cook SP, Padman R. Complications of tracheostomy and decannulation in pediatrics and young patients. Arch Phys Med Rehabil. 1993;74:905–9., ⁷7 Kenna M, Reilly JS, Stool SE. Tracheostomy in preterm infant. Ann Otol Rhinol Laryngol. 1987;96:68–71. The Zurich classification was not used (perioperative complications are those occurring within 48 h of the tracheostomy and postoperative ones are those occurring after that),¹⁴14 Trey L, Niedermann E, Ghelfi D, Gerber A, Gysin C. Pediatric tracheotomy: a 30-year experience. J Pediatr Surg. 2013;48:1470–5. as it does not discriminate between events occurring in the transoperative period from those occurring in the early postoperative period, making comparisons with other articles difficult. Table 3 shows a summary of the main complications, according to their temporality.

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Table 3
Tracheostomy complications in children according to their temporality.

Transoperative complications

Complications that occur during surgery are usually related to the presence of interstitial air (pneumothorax, pneumomediastinum, subcutaneous emphysema). The reported incidence ranges from 0 or close to zero¹1 Dal’Astra APL, Quirino AV, Caixeta JAS, Avelino MAG. Tracheostomy in childhood: review of the literature on complications and mortality over the last three decades. Braz J Otorhinolaryngol. 2017;83:207–14., ¹⁴14 Trey L, Niedermann E, Ghelfi D, Gerber A, Gysin C. Pediatric tracheotomy: a 30-year experience. J Pediatr Surg. 2013;48:1470–5., ¹⁵15 Carr MM, Pje CP, Kingston L, Kielma D, Heard C. Complication in pediatric tracheostomies. Laryngoscope. 2001;111:1925–8., ¹⁶16 Genther DJ, Thorne MC. Utility of routine postoperative chest radiography in pediatric tracheostomy. Int J Pediatr Otorhinolaryngol. 2010;12:1397–400., ¹⁸18 Syed KA, Naina P, Pokharel A, John M, Varghese AM. Paediatric tracheostomy: a modified technique and its outcomes, results from a South Indian tertiary care. Int J Pediatr Otorhinolaryngol. 2019;118:6–10. to 28%.⁹9 Kremer B, Botos-Kremer AI, Schlondorff G. Indications, complications, and surgical techniques for pediatric tracheostomies -– an update. J Pediatr Surg. 2002;37:1556–62. Of these, the most common one is pneumomediastinum. The most plausible explanation is the child’s higher location of the pleural dome, which can sometimes reach the cervical region. Careful dissection technique, avoiding dissections performed laterally to the trachea, is the best way to avoid them. In small, asymptomatic pneumothorax and pneumomediastinum, the management is conservative. Pleural drainage may be necessary in larger ones. Subcutaneous emphysema can occur due to the closing of the edges of the postoperative wound with tight sutures or by making a very compressive dressing around the cannula. Neither measure is indicated. If it occurs, the opening of sutures and replacing the compressive dressing by a looser one are indicated.

The routine indication of chest radiography after tracheostomy has been discussed. In the literature, it seems that some services always require radiography.¹⁰10 Greenberg JS, Sulek M, de Jong A, Friedman EM. The role of postoperative chest radiography in pediatric tracheostomy. Int J Pediatr Otorhinolaryngol. 2001;60:41–7., ¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41., ¹⁹19 Pereira KD, McGregor AR, Mitchell RB. Complications of neonatal tracheostomy: a 5-year review. Otolaryngol Head Neck Surg. 2004;131:810–3. In asymptomatic and non-preterm patients, however, the current trend is that of non-indication, ¹⁶16 Genther DJ, Thorne MC. Utility of routine postoperative chest radiography in pediatric tracheostomy. Int J Pediatr Otorhinolaryngol. 2010;12:1397–400. as there is a progressive decrease in the complications described in the previous paragraph.¹⁴14 Trey L, Niedermann E, Ghelfi D, Gerber A, Gysin C. Pediatric tracheotomy: a 30-year experience. J Pediatr Surg. 2013;48:1470–5., ¹⁵15 Carr MM, Pje CP, Kingston L, Kielma D, Heard C. Complication in pediatric tracheostomies. Laryngoscope. 2001;111:1925–8. Moreover, except when symptomatic, such complications do not require an intervention. It should be noted that cases of late pneumothorax, associated with the closure of tracheocutaneous fistula, have been described, ²2 Carron JD, Derkay CS, Strop GL, Nosonchuk JE, Darrow DH. Pediatric tracheostomies: changing indications and outcomes. Laryngoscope. 2000;110:1099–104. in addition to those well known to be associated to mechanical ventilation with inadequate parameters.

Excessive bleeding during the surgical procedure may be due to injury to large cervical vessels or anomalous vessels, in addition to injuries to the thyroid gland and eventually the innominate artery. Again, the best prophylaxis is a careful dissection and the treatment is the ligation or cauterization of the vessel or bleeding point, respectively. Bleeding was ranked as the 3rd most frequent intraoperative complication in two studies, after pneumomediastinum and pneumothorax, in that order (in one study it occurred in 5% of children under 1 year and in 7% of older ones, and in the other, in 1.6% of cases).⁹9 Kremer B, Botos-Kremer AI, Schlondorff G. Indications, complications, and surgical techniques for pediatric tracheostomies -– an update. J Pediatr Surg. 2002;37:1556–62., ¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41. A study reporting 37 years of experience in a Turkish service reported a 0.7% rate of intraoperative bleeding in 282 tracheostomies. A Brazilian study and an Indian study found no cases of transoperative bleeding.¹⁷17 Schweiger C, Manica D, Becker CF, Abreu LSP, Manzini M, Sekine L, et al. Tracheostomy in children: a ten-year experience from a tertiary center in southern Brazil. Braz J Otorhinolaryngol. 2017;83:627–32., ¹⁸18 Syed KA, Naina P, Pokharel A, John M, Varghese AM. Paediatric tracheostomy: a modified technique and its outcomes, results from a South Indian tertiary care. Int J Pediatr Otorhinolaryngol. 2019;118:6–10.

Injury to recurrent nerves due to lateral dissections in the trachea, esophageal puncture due to poor cannula placement, cricoid incision in the case of very high tracheostomies and the false passage due to inadequate cannula insertion and positioning may all result from poor surgical technique and are not common. A North American series depicts this low frequency, finding an incidence of 0.8% of tracheoesophageal fistula.¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41. A Portuguese study reporting a 25year experience with tracheostomy evaluated 27 patients and found a case of transoperative tracheoesophageal fistula (3.7%).²¹21 Nobre S, Roda J, Félix M, Estêvão MH. Traqueostomia em idade pediátrica – experiência de um quarto de século. Acta Pediatr Port. 2011;42:269–75. The false passage is not so uncommon and can occur in 7% of preterm babies²²22 Perrotta RJ, Schley WS. Pediatric tracheotomy. A Five-year comparison study. Arch Otolaryngol. 1978;104:318–21. and in 0.8%¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41. to 16% of older children.²³23 Newlands WJ, McKerrow WS. Paediatric tracheostomy. Fifty-seven operations on fifty-three children. J Laryngol Otol. 1987;101:929–35. It can also occur in the postoperative period, after accidental decannulation and an inaccurate attempt to reposition the cannula, usually by family members and even health professionals who are not appropriately trained. It is a frequent cause of return to the hospital after discharge.²⁴24 Shay S, Shapiro NL, Bhattacharyya N. Revisits after pediatric tracheotomy: airway concerns result in returns. Int J Pediatr Otorhinolaryngol. 2018;104:5–9.

Selective intubation usually occurs in preterm infants or even older children in the case of lower neck tracheostomies, where cannulas with adequate diameters, but very long, are chosen.

Finally, cardiorespiratory arrest during tracheostomy is extremely rare, described at a frequency of 0.8%.¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41.

Early postoperative complications

Bleeding in the immediate postoperative period of the stoma construction has a relatively low prevalence, ranging from 1.8%¹⁹19 Pereira KD, McGregor AR, Mitchell RB. Complications of neonatal tracheostomy: a 5-year review. Otolaryngol Head Neck Surg. 2004;131:810–3. to 5.2% of children.²⁵25 Douglas CM, Poole-Cowley J, Morrissey S, Kubba H, Clement WA, Wynne D. Pediatric tracheostomy – an 11-year experience at a Scottish paediatric tertiary referral centre. Int J Pediatr Otorhinolaryngol. 2015;79:1673–6. In general, it is the result of inadequate hemostasis during the procedure and can be significant for a neonate. Surgical revision may be necessary.¹⁹19 Pereira KD, McGregor AR, Mitchell RB. Complications of neonatal tracheostomy: a 5-year review. Otolaryngol Head Neck Surg. 2004;131:810–3.

Accidental primary decannulation is a severe complication and its incidence ranges from 0.8%¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41. and 0.9%²⁶26 Song JJ, Choi IJ, Chang H, Kim DW, Chang HW, Park GH, et al. Pediatric tracheostomy revisited: a nine-year experience using horizontal intercartilaginous incision. Laryngoscope. 2015;125:485–92. to 20%¹⁵15 Carr MM, Pje CP, Kingston L, Kielma D, Heard C. Complication in pediatric tracheostomies. Laryngoscope. 2001;111:1925–8., ²⁷27 Garcia-Urabayen D, López-Fernandez YM, Pilar-Orive J, Nieto-Faza M, Gil-Antón J, López-Bayón J, et al. Analysis of tracheostomies in a pediatric intensive care unit during the period 2003-2013. An Pediatr (Barc). 2016;84:18–23. in the literature. In the series of 25 tracheostomized patients in Barcelona, 20% had accidental decannulation, all in the first 48h (80% in the first 24h). Cardiorespiratory arrest occurred in 80% of patients who underwent decannulation, with death occurring in one.²⁷27 Garcia-Urabayen D, López-Fernandez YM, Pilar-Orive J, Nieto-Faza M, Gil-Antón J, López-Bayón J, et al. Analysis of tracheostomies in a pediatric intensive care unit during the period 2003-2013. An Pediatr (Barc). 2016;84:18–23. In a Scottish series, cannula displacement occurred in 5.2% of cases in the early postoperative period.²⁵25 Douglas CM, Poole-Cowley J, Morrissey S, Kubba H, Clement WA, Wynne D. Pediatric tracheostomy – an 11-year experience at a Scottish paediatric tertiary referral centre. Int J Pediatr Otorhinolaryngol. 2015;79:1673–6. A Brazilian series showed an accidental decannulation rate of 2.44%.¹⁷17 Schweiger C, Manica D, Becker CF, Abreu LSP, Manzini M, Sekine L, et al. Tracheostomy in children: a ten-year experience from a tertiary center in southern Brazil. Braz J Otorhinolaryngol. 2017;83:627–32. Another series, reporting 30 years of experience with pediatric tracheostomy at a university hospital in Zurich, found a 13% cannula displacement rate that occurred 48 h after the procedure, but without discriminating at what moment it occurred, making it difficult to classify it as an early or late postoperative occurrence.¹⁴14 Trey L, Niedermann E, Ghelfi D, Gerber A, Gysin C. Pediatric tracheotomy: a 30-year experience. J Pediatr Surg. 2013;48:1470–5. As the consequences of decannulation can be dramatic, a good practice is to use containment sutures on the anterior tracheal wall that exit the stoma or, according to the most current trend, to mature the stoma, ¹⁸18 Syed KA, Naina P, Pokharel A, John M, Varghese AM. Paediatric tracheostomy: a modified technique and its outcomes, results from a South Indian tertiary care. Int J Pediatr Otorhinolaryngol. 2019;118:6–10. especially in neonates and small infants, facilitating the quick and correct repositioning of the cannula in case of displacement. Another practice, less often used, is to make one or two anchoring stitches from the plastic cannula to the skin.

While cannula obstruction by a blood clot is usually an early postoperative complication, the one caused by a mucus plug is generally a later one. However, in cases with underlying disease with alterations in the quantity and quality of the secretion, especially in preterm infants, the plug may also occur early. Early cannula obstruction occurred in 4% of tracheostomized patients in a pediatric ICU²⁷27 Garcia-Urabayen D, López-Fernandez YM, Pilar-Orive J, Nieto-Faza M, Gil-Antón J, López-Bayón J, et al. Analysis of tracheostomies in a pediatric intensive care unit during the period 2003-2013. An Pediatr (Barc). 2016;84:18–23. and in 4.6% of patients up to the 4th postoperative day in a study that sought to evaluate the safety of cannula replacement on the 3rd day after tracheostomy, with no fatal cases.²⁸28 Van Buren NC, Narasimham ER, Curtis JL, Muntz HR, Meier JD. Pediatric tracheostomy: timing of the first tube change. Ann Otol Rhinol Laryngol. 2015;124:374–7. A Korean article, describing a tracheostomy technique with a vertical tracheal incision and stoma maturation, reported a cannula obstruction rate of 0.9%, with none leading to the patient’s death, ²⁶26 Song JJ, Choi IJ, Chang H, Kim DW, Chang HW, Park GH, et al. Pediatric tracheostomy revisited: a nine-year experience using horizontal intercartilaginous incision. Laryngoscope. 2015;125:485–92. as in an Indian study that also used the stoma maturation technique, but using a circular tracheal incision.¹⁸18 Syed KA, Naina P, Pokharel A, John M, Varghese AM. Paediatric tracheostomy: a modified technique and its outcomes, results from a South Indian tertiary care. Int J Pediatr Otorhinolaryngol. 2019;118:6–10. The continuous administration of humidified air until the first cannula change can reduce this type of complication. Another cause of cannula obstruction, the false passage, has been described in 3.6% of cases in a Brazilian sample.¹⁷17 Schweiger C, Manica D, Becker CF, Abreu LSP, Manzini M, Sekine L, et al. Tracheostomy in children: a ten-year experience from a tertiary center in southern Brazil. Braz J Otorhinolaryngol. 2017;83:627–32.

The local infection (cellulitis), which occurs in the earliest stages, manifests as hyperemia of the peristomal skin, and hardening and increased local heat may occur. There may be greater or lesser amounts of secretion. Infection was found in 1.6%–14.6% of tracheostomized children.¹⁷17 Schweiger C, Manica D, Becker CF, Abreu LSP, Manzini M, Sekine L, et al. Tracheostomy in children: a ten-year experience from a tertiary center in southern Brazil. Braz J Otorhinolaryngol. 2017;83:627–32., ¹⁹19 Pereira KD, McGregor AR, Mitchell RB. Complications of neonatal tracheostomy: a 5-year review. Otolaryngol Head Neck Surg. 2004;131:810–3., ²⁸28 Van Buren NC, Narasimham ER, Curtis JL, Muntz HR, Meier JD. Pediatric tracheostomy: timing of the first tube change. Ann Otol Rhinol Laryngol. 2015;124:374–7., ²⁹29 Maunsell R, Avelino M, Caixeta Alves J, Semenzati G, Lubianca Neto JF, Krumenauer R, et al. Revealing the needs of children with tracheostomies. Eur Ann Otorhinolaryngol Head Neck Dis. 2018;135:93–7. Treatment includes cannula replacement - traditionally recommended up to a maximum of 5–7 days, and can be safely removed on the 3rd day, ²⁸28 Van Buren NC, Narasimham ER, Curtis JL, Muntz HR, Meier JD. Pediatric tracheostomy: timing of the first tube change. Ann Otol Rhinol Laryngol. 2015;124:374–7. local hygiene, use of antibiotic ointments and, sometimes, oral antibiotic therapy with spectrum for the most common respiratory microorganisms. Cautery overuse in the dissection of subcutaneous tissue and infrahyoid muscles, with excessive tissue destruction, is listed as one of the potential causes.¹⁹19 Pereira KD, McGregor AR, Mitchell RB. Complications of neonatal tracheostomy: a 5-year review. Otolaryngol Head Neck Surg. 2004;131:810–3. The appearance of skin lesions such as irritation of the peri-tracheostoma skin and pressure ulcers can be minimized with the use of waterproof dressings with or without antimicrobial properties, as well as the use of Velcro fasteners instead of cotton laces, since the first ones tend to accumulate less moisture and secretion.³⁰30 Baker LR, Chorney SR. Reducing pediatric tracheostomy wound complications: an evidence-based literature review. Adv Skin Wound Care. 2020;33:324–8.

Excessive air leakage around the tracheostomy cannula is another early complication of tracheostomy and can be a problem in a tracheostomized patient who requires respiratory support with high ventilatory parameters. It can occur in up to 14.6% of preterm newborns, especially those with very low birth weight (< 1 kg).¹⁹19 Pereira KD, McGregor AR, Mitchell RB. Complications of neonatal tracheostomy: a 5-year review. Otolaryngol Head Neck Surg. 2004;131:810–3. It can also occur in infants, as demonstrated by Carr et al. in their series, with an incidence of 7% of patients before the first cannula change.¹⁵15 Carr MM, Pje CP, Kingston L, Kielma D, Heard C. Complication in pediatric tracheostomies. Laryngoscope. 2001;111:1925–8.

Late postoperative complications

Decannulation was the most frequent late complication of tracheostomy (6%) in a Canadian cohort with 30 years of follow-up. It was the cause of death in 2% of these children. A similar incidence of late decannulation was found in a Korean study (2.7%),²⁶26 Song JJ, Choi IJ, Chang H, Kim DW, Chang HW, Park GH, et al. Pediatric tracheostomy revisited: a nine-year experience using horizontal intercartilaginous incision. Laryngoscope. 2015;125:485–92. which resulted in the death of one patient at home. In a Brazilian series evaluating 58 children, decannulation occurred in 3 (5.7%) patients, one of which had cardiopulmonary arrest that was reversed, whereas the other died.³²32 Itamoto CH, Lima BT, Sato J, Fujita RR. Indicações e complicações de traqueostomia em crianças. Braz J Otorhinolaryngol. 2010;76:326–31. In another Brazilian series, the incidence was the same, occurring in 5.7%, with no fatal cases.¹⁷17 Schweiger C, Manica D, Becker CF, Abreu LSP, Manzini M, Sekine L, et al. Tracheostomy in children: a ten-year experience from a tertiary center in southern Brazil. Braz J Otorhinolaryngol. 2017;83:627–32. An Indian study found no cases of accidental decannulation.¹⁸18 Syed KA, Naina P, Pokharel A, John M, Varghese AM. Paediatric tracheostomy: a modified technique and its outcomes, results from a South Indian tertiary care. Int J Pediatr Otorhinolaryngol. 2019;118:6–10.

Obstruction by a mucus plug occurred in 10% of patients in a study carried out in Calgary, Canada.³³33 Al-Samri M, Mitchell I, Drummond DS, Bjornson C. Tracheostomy in children: a population-based experience over 17 years. Pediatr Pulmonol. 2010;45:487–93. All had cardiorespiratory arrest and there was one death. All obstructions occurred between 7 and 90 days after the tracheostomy. A lower incidence was observed in a Brazilian series (4.1% of patients),¹⁷17 Schweiger C, Manica D, Becker CF, Abreu LSP, Manzini M, Sekine L, et al. Tracheostomy in children: a ten-year experience from a tertiary center in southern Brazil. Braz J Otorhinolaryngol. 2017;83:627–32. and in a Korean series (only 1 case – 0.9%).²⁶26 Song JJ, Choi IJ, Chang H, Kim DW, Chang HW, Park GH, et al. Pediatric tracheostomy revisited: a nine-year experience using horizontal intercartilaginous incision. Laryngoscope. 2015;125:485–92. Not only the mucous plug, but also granulomas and false passage can lead to cannula obstruction. This complication can be prevented with correct care of the tracheostomy cannula since the first postoperative days, involving aspirations and periodic cannula changes. Frequent aspirations, and the instillation of saline solution to help in the humidification of mucus can also be performed, are essential to avoid obstruction by dry secretion in the cannula lumen.³⁴34 Monnier P. Pediatric airway surgery – management of laryngotracheal stenosis in infants and children. Lausanne, Switzerland: Elsevier; 2011.

Local and low respiratory infections were the most frequent complications in some studies,¹⁵15 Carr MM, Pje CP, Kingston L, Kielma D, Heard C. Complication in pediatric tracheostomies. Laryngoscope. 2001;111:1925–8. affecting up to 90% of patients.³³33 Al-Samri M, Mitchell I, Drummond DS, Bjornson C. Tracheostomy in children: a population-based experience over 17 years. Pediatr Pulmonol. 2010;45:487–93. Perhaps part of this increased incidence of infection is due to the non-differentiation between colonization and infection. Long-term tracheostomized children may become colonized by S. aureus, including those resistant to methicillin, and / or P. aeruginosa and other Gram-negative microorganisms.³⁵35 McCaleb R, Warren RH, Willis D, Maples HD, Bai S, O’Brein CE. Description of respiratory microbiology of children with long-term tracheostomies. Respir Care. 2016;61:447–52. It is necessary to differentiate between these two conditions. Colonization does not require treatment, unless there is a sign of acute infection or before reconstructive airway procedures. Surgical wound infection can occur in any surgical procedure and should be treated with a short course of oral antibiotics. The International Pediatric Otolaryngology Group in its 2016 consensus recommends the use of routine antimicrobial prophylaxis at least until the first cannula change. Tracheitis can be an early or late complication. It occurred late in 48.8% of 156 cases.³⁶36 Colman KL, Mandell DL, Simons JP. Impact of stoa maturation on pediatric tracheostomy-related complications. Arch Otolaryngol Head Neck Surg. 2010;136:471–4. In the case of tracheitis, routine cultures of the prosthesis or tracheal secretions is not recommended.³⁷37 Cline JM, Woods CR, Ervin SE, Rubin BK, Kirse DJ. Surveillance tracheal aspirate cultures do not reliably predict bacteria cultured at the time of an acute respiratory infection in children with tracheostomy tubes. Chest. 2012;141:625–31. In cases of lower airway infections (bacterial bronchitis and pneumonia), the method of choice for collecting secretions for bacterial culture is the bronchoalveolar lavage, preferably the “protected” type, carried out by a catheter that goes through the biopsy channel of the bronchoscope, preventing contamination by secretions from the upper airways.³⁸38 Afolabi-Brown O, Marcus M, Speciale P, Pagala M, Kazachkov M. Bronchoscopic and nonbronchoscopic methods of airway culturing in tracheostomized children. Respir Care. 2014;59:582–7.

Suprastomal collapse, subglottic stenosis and tracheal stenosis have similar mechanisms, resulting from damage to the mucosa and tracheal cartilage, and can progress with partial absorption of cartilage, fibrosis and scar stenosis. The suprastomal collapse results from the weakening of the anterior tracheal wall, which is generally superior to the tracheostoma, and can be prevented by fixing the tracheal wall to the tracheostoma skin at the time of the surgery. Its occurrence varied between 0.2% and 13.1% in two Brazilian studies.¹1 Dal’Astra APL, Quirino AV, Caixeta JAS, Avelino MAG. Tracheostomy in childhood: review of the literature on complications and mortality over the last three decades. Braz J Otorhinolaryngol. 2017;83:207–14., ²⁹29 Maunsell R, Avelino M, Caixeta Alves J, Semenzati G, Lubianca Neto JF, Krumenauer R, et al. Revealing the needs of children with tracheostomies. Eur Ann Otorhinolaryngol Head Neck Dis. 2018;135:93–7. Subglottic stenosis is usually secondary to an inadvertent injury to the cricoid cartilage during the procedure or injuries induced by previous intubation. A Brazilian study reported the highest incidence of subglottic stenosis found in the literature, 27.4%, associated with tracheostomy.³⁹39 Nakanishi M, Montovani JC, Nakajima V, Macharelli CA. Traqueotomia na infância. Braz J Otorhinolaryngol. 2001;67:153–8. Tracheal stenosis, on the other hand, can occur above, at the site or below the tracheostoma, as far as the tip of the cannula reaches the tracheal wall, including the carina region. It can also be secondary to tracheal injuries resulting from previous intubation or even the repeated aspirations with catheters performed using an inadequate technique. The incidence of tracheal stenosis after tracheostomy ranged from 0.4%³3 Pérez-Ruiz E, Caro P, Pérez-Fnás J, Cols M, Barrio I, Torrent A, et al. Paediatric patients with a tracheostomy: a multicentre epidemiological study. Eur Respir J. 2012;40:1502–7. to 12% of cases.⁹9 Kremer B, Botos-Kremer AI, Schlondorff G. Indications, complications, and surgical techniques for pediatric tracheostomies -– an update. J Pediatr Surg. 2002;37:1556–62.

The tracheocutaneous fistula (TCF), that is, the epithelialization of the trajectory from the skin to the trachea (mature stoma), is desirable in the early postoperative period, but it can become a long-term problem, preventing the spontaneous closure of the tracheostoma. Most tracheostomas close spontaneously through healing by secondary intention. The incidence of TCF in the series varies between 3.1% and 57.3%.¹1 Dal’Astra APL, Quirino AV, Caixeta JAS, Avelino MAG. Tracheostomy in childhood: review of the literature on complications and mortality over the last three decades. Braz J Otorhinolaryngol. 2017;83:207–14., ⁴⁰40 Ha TA, Goyal M, Ongkasuwan J. Duration of tracheostomy dependence and development of tracheocutaneous fistula in children. Laryngoscope. 2017;127:2709–12., ⁴¹41 Feehs KR, Maslan JT, Kirse DJ. Superiorly-based turnover skin flap: Pediatric tracheocutaneous fistula closure. Int J Pediatr Otorhinolaryngol. 2018;107:21–4. A study that reviewed the 14-year experience of pediatric tracheostomy in a hospital in Liverpool showed a percentage of 11.9% of need for surgical closure of the TCF. These were children with long-term tracheostomies (at least two years, with a median of 4 years) who had undergone the surgical procedure before 1 year of age.⁴²42 Tasca RA, Clarke RW. Tracheocutaneous fistula following paediatric tracheostomy – a 14-year experience at Alder Hey Children’s. Int J Pediatr Otorhinolaryngol. 2010;74:711–2. This hypothesis was also corroborated by a North-American study, which demonstrated a significantly increased relative risk of developing tracheocutaneous fistula in patients who remained tracheostomized for more than 24 months.⁴²42 Tasca RA, Clarke RW. Tracheocutaneous fistula following paediatric tracheostomy – a 14-year experience at Alder Hey Children’s. Int J Pediatr Otorhinolaryngol. 2010;74:711–2. Currently, there is a tendency among surgeons to mature the stoma early. There is a concern that this surgical approach will increase the TCF rate, mainly because with the use of some techniques in which maturation was universal, such as “starplasty”, this occurs in practically 100% of cases.⁴³43 Solares CA, Krakovitz P, Hirose K, Koltai PJ. Starplasty: revisiting a pediatric tracheostomy technique. Otolaryngol Head Neck Surg. 2004;131:717–22. However, this assertion has not been confirmed in an Israeli service experience.⁴⁴44 Schwarz Y, Muhanna N, Raveh D, Shaul C, Shahroor S, Peleg U, et al. Starplasty tracheostomy: case series and literature review. Eur Arch Otorhinolaryngol. 2017;274:2261–6. Moreover, one of the first comparative studies showed similar incidences between matured and unmatured stomas, 10.2% and 12.8%, respectively. Also, there was not a higher incidence of granulation tissue formation in the mature stoma.⁴⁵45 Park JY, Suskind DL, Prater D, Muntz HR, Lusk RP. Maturation on the pediatric tracheostomy stoma: effect on complications. Ann Otol Rhinol Laryngol. 1999;108:1115–9. Another study that compared the overall complications of tracheostomy between matured and non-matured stomas also found no statistically significant differences, including TCF.³⁶36 Colman KL, Mandell DL, Simons JP. Impact of stoa maturation on pediatric tracheostomy-related complications. Arch Otolaryngol Head Neck Surg. 2010;136:471–4. More recently, using a simple technique without the construction of flaps, with only two sutures in the inferior-lateral region of the stoma joining the subcutaneous tissue with the pretracheal fascia, the TCF rate in matured and non-matured stomas was similar (27% vs. 22%, respectively).⁴⁶46 Levi JR, Topf MC, Mostovich NK, Yoo E, Barth PC, Shah UK. Stomal maturation does not increase the rate of tracheocutaneous fistulas. Laryngoscope. 2016;126:2395–8.

A tracheo-vascular fistula with the innominate artery is a rare complication,²2 Carron JD, Derkay CS, Strop GL, Nosonchuk JE, Darrow DH. Pediatric tracheostomies: changing indications and outcomes. Laryngoscope. 2000;110:1099–104., ¹⁵15 Carr MM, Pje CP, Kingston L, Kielma D, Heard C. Complication in pediatric tracheostomies. Laryngoscope. 2001;111:1925–8. described in articles that show successful surgical repair techniques. The innominate artery injury that can occur during the transoperative period in very low tracheostomies (below the 4th tracheal ring) is even rarer and is caused by direct trauma to the artery, especially in cases of arteries located at a higher position in the neck. This bleeding should not be mistaken for recurrent bleeding, of different intensities, where the tracheostomy cannula can cause local irritation and late hemorrhage and inflammation, with bleeding secondary to the presence of granulomas, especially in the case of tracheal aspirations performed with less delicate care. The true innominate artery fistula is usually a late event (many cases are reported in the 3rd week after the tracheostomy) and may occur when the tip of a poorly positioned tracheostomy cannula (mainly metallic ones) causes friction and results in erosion and ulceration on the anterior tracheal wall and on the posterior wall of the innominate artery. Precipitating factors comprise the use of cannulas that have cuffs with excessive pressure, low tracheal incision and hyperextension of the neck. Its incidence is low, less than 1%, as demonstrated in a large Spanish multicenter cohort, in which there was only one case (0.4%).³3 Pérez-Ruiz E, Caro P, Pérez-Fnás J, Cols M, Barrio I, Torrent A, et al. Paediatric patients with a tracheostomy: a multicentre epidemiological study. Eur Respir J. 2012;40:1502–7. It must be recognized quickly as it requires emergency surgical intervention. In some cases, more temporary “sentinel” bleeds can indicate a devastating hemorrhage. A clinical team trained to stabilize the patient for emergency surgery is important in the acute phase. When unrecognized, inadequately stabilized prior to surgery and untreated surgically as an emergency case, the innominate artery fistula is associated with death in practically 100% of affected cases. However, when adequately managed in a timely manner, it can have a more favorable outcome, as demonstrated by a recent systematic review that found 38.6% of mortality in the described cases.⁴⁷47 Lee DJ, Yang W, Propst EJ, Rosenblatt SD, Hseu A, Wolter NE. Tracheo-innominate fistula in children: a systematic review of literature. Laryngoscope. 2020;130:217–24.

The late tracheoesophageal fistula is a rare occurrence, with an incidence of less than 1%. It occurs due to the necrosis of the posterior tracheal wall, usually secondary to the use of poorly positioned cannulas with cuffs or metallic ones. There are more reports in the literature mentioning it as a tracheostomy complication in adults. In a study that analyzed the efficacy of sliding tracheoplasty in the repair of tracheoesophageal fistulas, one of 9 cases of operated fistulas was secondary to complications caused by the tracheostomy cannula.⁴⁸48 Provenzano MJ, Rutter MJ, Von Allmen D, Manning PB, Boesch PR, Putnam PE, et al. Slide tracheoplasty for the treatment of tracheoesophageal fistulas. J Pediatr Surg. 2014;49:910–4.

It is a debatable topic in the literature whether tracheal granulation or granuloma represents an actual complication of tracheostomy, as it is often asymptomatic.¹1 Dal’Astra APL, Quirino AV, Caixeta JAS, Avelino MAG. Tracheostomy in childhood: review of the literature on complications and mortality over the last three decades. Braz J Otorhinolaryngol. 2017;83:207–14. It has an estimated frequency of 12.3% to 66% of cases.³³33 Al-Samri M, Mitchell I, Drummond DS, Bjornson C. Tracheostomy in children: a population-based experience over 17 years. Pediatr Pulmonol. 2010;45:487–93. It was the main late complication of tracheostomy in at least two studies, published in 1993 and 2018.⁵5 Citta-Pietrolungo TJ, Alexander MA, Cook SP, Padman R. Complications of tracheostomy and decannulation in pediatrics and young patients. Arch Phys Med Rehabil. 1993;74:905–9., ²⁹29 Maunsell R, Avelino M, Caixeta Alves J, Semenzati G, Lubianca Neto JF, Krumenauer R, et al. Revealing the needs of children with tracheostomies. Eur Ann Otorhinolaryngol Head Neck Dis. 2018;135:93–7. The recent series that studied ventilator-dependent institutionalized cases showed the presence of peristomal granulomas in 40.6% and suprastomal in 37.5% of children. Taking into account the low incidence of large and obstructive granulomas and the failure of the surgical excision to decrease their recurrence, it was concluded that excision was not recommended in children with non-obstructive granulomas with stable tracheostomies.⁴⁹49 Rosenfeld RM, Stool SE. Should granulomas be excised in children with long-term tracheotomy? Arch Otolaryngol Head Neck Surg. 1992;118:1323–7. However, when considering decannulating the patient, a previous endoscopy and excision of granulomas that may hinder the process is mandatory. Management can be endoscopic, using different instruments, or transtracheostoma. In the case of granulomas that are too large or firm (mature) to be removed through endoscopic techniques, or too large or firm to be removed via the stoma, open excision is indicated.

Death is a potential undesirable event in tracheostomized patients. Most of the time, it is not correlated with the procedure itself, but occurs secondary to the evolution of the underlying disease. The overall mortality rate varies between case series, and reach up to 40%, while mortality from the procedure itself can reach up to 6% in the pediatric population.⁷7 Kenna M, Reilly JS, Stool SE. Tracheostomy in preterm infant. Ann Otol Rhinol Laryngol. 1987;96:68–71., ⁹9 Kremer B, Botos-Kremer AI, Schlondorff G. Indications, complications, and surgical techniques for pediatric tracheostomies -– an update. J Pediatr Surg. 2002;37:1556–62., ¹³13 Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41. Children with heart and neurological problems have a higher overall mortality rate when compared to children with craniofacial malformations or upper respiratory obstruction.⁹9 Kremer B, Botos-Kremer AI, Schlondorff G. Indications, complications, and surgical techniques for pediatric tracheostomies -– an update. J Pediatr Surg. 2002;37:1556–62. Preterm children and extremely low-birth-weight infants also have higher mortality rates.⁵⁰50 Ward RF, Jones J, Carew JF. Current trends in pediatric tracheotomy. Int J Pediatr Otorhinolaryngol. 1995;32:233–9. A recent study showed that children under 1 year of age have a seven-fold higher risk of death when compared to children over 1 year.¹²12 Watters K, O’Neill M, Zhu H, Graham RJ, Hall Matthew, Berry J. Two-year mortality, complications, and healthcare use in children with medicaid following tracheostomy. Laryngoscope. 2016;126:2611–7. Morbidity and mortality rates significantly depend on how well trained the medical staff is and how well informed are the patients’ parents and caregivers, since the main causes of death are accidental decannulation and stoma blockage by secretion plug.¹1 Dal’Astra APL, Quirino AV, Caixeta JAS, Avelino MAG. Tracheostomy in childhood: review of the literature on complications and mortality over the last three decades. Braz J Otorhinolaryngol. 2017;83:207–14. Low rates of complications and death are also correlated to the elective procedure, in referral hospitals and by experienced, well-trained surgeons.¹⁹19 Pereira KD, McGregor AR, Mitchell RB. Complications of neonatal tracheostomy: a 5-year review. Otolaryngol Head Neck Surg. 2004;131:810–3.

Conclusion

Childhood tracheostomy is a relatively common procedure in tertiary hospitals for a variety of reasons – from neurological sequelae to cases of mechanical airway obstruction. Regardless of the reason and technique used, several complications have been described and their prevalence rates vary widely in the literature. Among the most frequent complications are granulomas, skin infections, cannula obstruction and persistence of the tracheocutaneous fistula in patients who can be decannulated. Moreover, the mortality rate from causes exclusively related to the tracheostomy is low, but the overall mortality of tracheostomy patients is considerable, and increases according to the associated comorbidities, emergency procedure, young age and low weight. Adequate training of the assistance team and support and training of parents regarding hygiene procedures and eventual repositioning of the cannula before discharge can help minimize these events.

Peer Review under the responsibility of Associação Brasileira de Otorrinolaringologia e Cirurgia Cérvico-Facial.

References

¹
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²
Carron JD, Derkay CS, Strop GL, Nosonchuk JE, Darrow DH. Pediatric tracheostomies: changing indications and outcomes. Laryngoscope. 2000;110:1099–104.
³
Pérez-Ruiz E, Caro P, Pérez-Fnás J, Cols M, Barrio I, Torrent A, et al. Paediatric patients with a tracheostomy: a multicentre epidemiological study. Eur Respir J. 2012;40:1502–7.
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Coln CE, Purdue GF, Hunt J. Tracheostomy in the young pediatric burn patient. Arch Surg. 1998;133:537–9.
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Citta-Pietrolungo TJ, Alexander MA, Cook SP, Padman R. Complications of tracheostomy and decannulation in pediatrics and young patients. Arch Phys Med Rehabil. 1993;74:905–9.
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Watters K, O’Neill M, Zhu H, Graham RJ, Hall Matthew, Berry J. Two-year mortality, complications, and healthcare use in children with medicaid following tracheostomy. Laryngoscope. 2016;126:2611–7.
¹³
Gaudet PT, Peersless A, Sasaki CT, Kirchner JA. Pediatric tracheostomy and associated complications. Laryngoscope. 1978;88:1633–41.
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¹⁸
Syed KA, Naina P, Pokharel A, John M, Varghese AM. Paediatric tracheostomy: a modified technique and its outcomes, results from a South Indian tertiary care. Int J Pediatr Otorhinolaryngol. 2019;118:6–10.
¹⁹
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²⁶
Song JJ, Choi IJ, Chang H, Kim DW, Chang HW, Park GH, et al. Pediatric tracheostomy revisited: a nine-year experience using horizontal intercartilaginous incision. Laryngoscope. 2015;125:485–92.
²⁷
Garcia-Urabayen D, López-Fernandez YM, Pilar-Orive J, Nieto-Faza M, Gil-Antón J, López-Bayón J, et al. Analysis of tracheostomies in a pediatric intensive care unit during the period 2003-2013. An Pediatr (Barc). 2016;84:18–23.
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Maunsell R, Avelino M, Caixeta Alves J, Semenzati G, Lubianca Neto JF, Krumenauer R, et al. Revealing the needs of children with tracheostomies. Eur Ann Otorhinolaryngol Head Neck Dis. 2018;135:93–7.
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³²
Itamoto CH, Lima BT, Sato J, Fujita RR. Indicações e complicações de traqueostomia em crianças. Braz J Otorhinolaryngol. 2010;76:326–31.
³³
Al-Samri M, Mitchell I, Drummond DS, Bjornson C. Tracheostomy in children: a population-based experience over 17 years. Pediatr Pulmonol. 2010;45:487–93.
³⁴
Monnier P. Pediatric airway surgery – management of laryngotracheal stenosis in infants and children. Lausanne, Switzerland: Elsevier; 2011.
³⁵
McCaleb R, Warren RH, Willis D, Maples HD, Bai S, O’Brein CE. Description of respiratory microbiology of children with long-term tracheostomies. Respir Care. 2016;61:447–52.
³⁶
Colman KL, Mandell DL, Simons JP. Impact of stoa maturation on pediatric tracheostomy-related complications. Arch Otolaryngol Head Neck Surg. 2010;136:471–4.
³⁷
Cline JM, Woods CR, Ervin SE, Rubin BK, Kirse DJ. Surveillance tracheal aspirate cultures do not reliably predict bacteria cultured at the time of an acute respiratory infection in children with tracheostomy tubes. Chest. 2012;141:625–31.
³⁸
Afolabi-Brown O, Marcus M, Speciale P, Pagala M, Kazachkov M. Bronchoscopic and nonbronchoscopic methods of airway culturing in tracheostomized children. Respir Care. 2014;59:582–7.
³⁹
Nakanishi M, Montovani JC, Nakajima V, Macharelli CA. Traqueotomia na infância. Braz J Otorhinolaryngol. 2001;67:153–8.
⁴⁰
Ha TA, Goyal M, Ongkasuwan J. Duration of tracheostomy dependence and development of tracheocutaneous fistula in children. Laryngoscope. 2017;127:2709–12.
⁴¹
Feehs KR, Maslan JT, Kirse DJ. Superiorly-based turnover skin flap: Pediatric tracheocutaneous fistula closure. Int J Pediatr Otorhinolaryngol. 2018;107:21–4.
⁴²
Tasca RA, Clarke RW. Tracheocutaneous fistula following paediatric tracheostomy – a 14-year experience at Alder Hey Children’s. Int J Pediatr Otorhinolaryngol. 2010;74:711–2.
⁴³
Solares CA, Krakovitz P, Hirose K, Koltai PJ. Starplasty: revisiting a pediatric tracheostomy technique. Otolaryngol Head Neck Surg. 2004;131:717–22.
⁴⁴
Schwarz Y, Muhanna N, Raveh D, Shaul C, Shahroor S, Peleg U, et al. Starplasty tracheostomy: case series and literature review. Eur Arch Otorhinolaryngol. 2017;274:2261–6.
⁴⁵
Park JY, Suskind DL, Prater D, Muntz HR, Lusk RP. Maturation on the pediatric tracheostomy stoma: effect on complications. Ann Otol Rhinol Laryngol. 1999;108:1115–9.
⁴⁶
Levi JR, Topf MC, Mostovich NK, Yoo E, Barth PC, Shah UK. Stomal maturation does not increase the rate of tracheocutaneous fistulas. Laryngoscope. 2016;126:2395–8.
⁴⁷
Lee DJ, Yang W, Propst EJ, Rosenblatt SD, Hseu A, Wolter NE. Tracheo-innominate fistula in children: a systematic review of literature. Laryngoscope. 2020;130:217–24.
⁴⁸
Provenzano MJ, Rutter MJ, Von Allmen D, Manning PB, Boesch PR, Putnam PE, et al. Slide tracheoplasty for the treatment of tracheoesophageal fistulas. J Pediatr Surg. 2014;49:910–4.
⁴⁹
Rosenfeld RM, Stool SE. Should granulomas be excised in children with long-term tracheotomy? Arch Otolaryngol Head Neck Surg. 1992;118:1323–7.
⁵⁰
Ward RF, Jones J, Carew JF. Current trends in pediatric tracheotomy. Int J Pediatr Otorhinolaryngol. 1995;32:233–9.

Publication Dates

Publication in this collection
05 Dec 2022
Date of issue
Nov-Dec 2022

History

Received
05 Oct 2020
Accepted
06 Dec 2020
Published
30 Dec 2020

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Peer Review under the responsibility of Associação Brasileira de Otorrinolaringologia e Cirurgia Cérvico-Facial.

Author	Year of publication	n	Tracheostomy-related mortality (%)	Overall mortality (%)
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Perrotta and Schley	1978	61	3 (4.9%)	–

Complication	Total reported (%)
Skin lesions	1245 (23.7)
Granuloma	1073 (20.4)
Tracheocutaneous fistula	497 (9.5)
Accidental decannulation	438 (8.3)
Cannula obstruction	419 (8)
Skin infection	385 (7.3)
Pneumothorax	222 (4.2)
Pneumomediastinum	179 (3.4)
Tracheitis	148 (2.8)
Tracheal stenosis	138 (2.6)
Bleeding	94 (1.8)
Tracheo-innominate fistula	78 (1.5)
Pneumonia	61 (1.2)
Subglottic stenosis	58 (1.1)
Suprastomal collapse	51 (1)
Tracheomalacia	37 (0.7)
Subcutaneous emphysema	28 (0.5)
Air leak with impact on ventilation	23 (0.4)
Sepsis	15 (0.3)
Tracheal erosion	15 (0.3)
Glottic stenosis	13 (0.3)
False passage	10 (0.2)
Aspiration	7 (0.1)
Tracheoesophageal fistula	6 (0.1)
Suture dehiscence	3 (0.06)
Tracheal rupture	2 (0.04)
Stomal keloid	2 (0.04)
Stomal stenosis	1 (0.02)
Tracheal necrosis	1 (0.02)
Cricothyroid intubation	1 (0.02)

Brasil

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Complications of tracheostomy in children: a systematic review

Abstract

Introduction:

Objective:

Methods:

Results:

Conclusion:

Resumo

Introdução:

Objetivo:

Método:

Resultados:

Conclusão:

Introduction

Methods

Results

Discussion

Transoperative complications

Early postoperative complications

Late postoperative complications

Conclusion

References

Publication Dates

History