Clinical consensus statement: tracheostomy care

Airway decision making in major head and neck surgery: Irish multicenter, multidisciplinary recommendations

Major head and neck surgery poses a threat to perioperative airway patency. Adverse airway events are associated with significant morbidity, potentially leading to hypoxic brain injury and even death. Following a review of the literature, recommendations regarding airway management in head and neck surgery were developed with multicenter, multidisciplinary agreement among all Irish head and neck units. Immediate extubation is appropriate in many cases where there is a low risk of adverse airway events. Where a prolonged definitive airway is required, elective tracheostomy provides increased airway security postoperatively while delayed extubation may be appropriate in select cases to reduce postoperative morbidity. Local institutional protocols should be developed to care for a tracheostomy once inserted. We provide guidance on decision making surrounding airway management at time of head and neck surgery. All decisions should be agreed between the operating, anesthetic, and critical care teams.

Subglottic Stenosis After Pediatric Tracheostomy

OBJECTIVES

To determine the incidence of subglottic stenosis (SGS) in children after tracheostomy and identify risk factors for development.

STUDY DESIGN

Retrospective cohort.

METHODS

All patients (<18 years) undergoing tracheostomy at a tertiary children's hospital between 2015 and 2020 were included. Patients with a direct laryngoscopy (DL) concurrent with tracheostomy and a subsequent DL were included. Medical records, including operative reports, were reviewed to identify subglottic stenosis and associated risk factors.

RESULTS

A total of 140 patients were included with mean age at tracheostomy of 2.4 years (standard deviation [SD]: 4.3) (median: 0.5 years, interquartile range [IQR]: 0.3-1.5 years) and gestational age of 33.8 weeks (SD: 5.9) (median: 36 weeks, IQR: 28-39 weeks). At initial DL, 24% (N = 34) had subglottic injury and 26% (N = 37) developed SGS. The incidence of SGS after tracheostomy was 11.5 cases per 100 patients per year. At tracheostomy, lower birth weight (1.8 vs. 2.3 kg, p = 0.005), shorter gestational age (31.8 vs. 34.6 weeks, p = 0.01), younger age (0.8 vs. 2.9 years, p = 0.01), lower weight (5.8 vs. 14.7 kg, p = 0.01), and subglottic injury (44% vs. 21%, p = 0.01) were associated with the development of SGS. Multivariable logistic regression analysis associated birth weight (odds ratio [OR]: 0.49, 95% confidence interval [CI]: 0.31-0.75, p = 0.001) and early subglottic injury (OR: 3.22, 95% CI: 1.31-7.88, p = 0.01) with SGS development.

CONCLUSIONS

The incidence of SGS after pediatric tracheostomy is estimated at 11.5 cases per 100 patients per year. Low birth weight and subglottic injury at the time of tracheostomy were associated with SGS in this vulnerable population of children.

LEVEL OF EVIDENCE

3 Laryngoscope, 2024.

Safety of Percutaneous Dilatational Tracheostomy in Critically Ill Adults With Obesity: A Retrospective Cohort Study

OBJECTIVE

This study aimed to assess the safety and efficacy of endoscopic percutaneous dilatational tracheostomy (PDT) in obese and nonobese critically ill adults.

METHODS

A retrospective study of all cases of PDT performed at two academic health centers between 2016 and 2023 was conducted. Primary outcomes included peri- and postoperative complications stratified by both timing and severity. body mass index (BMI) data were stratified according to the World Health Organization classification (class I obesity defined as BMI ≥ 30, class II obesity ≥35 and <40, class 3 obesity ≥40).

RESULTS

Totally 336 patients underwent a PDT, 279 of whom had available BMI data: 193 (69.2%) patients had a normal BMI, 56 (20.1%) had class I obesity, 15 (5.4%) class II obesity, and 15 (5.4%) class III obesity. The overall complication rates for the class I, II, and III obesity were 8.9%, 13.3%, and 13.3%, respectively. All procedures were successfully completed at the bedside (no conversions to an open approach), and there was no procedure-related mortality. The only accidental decannulation event was in a patient with class III obesity. There was no difference in overall complication rates between patients without obesity and patients with obesity (7.3% vs. 10.5%, respectively, p = 0.370).

CONCLUSION

This study significantly expands the current literature and represents one of the largest studies to date reporting on PDT in patients with obesity.

LEVEL OF EVIDENCE

3 Laryngoscope, 2024.

Preventing pediatric accidental decannulation events: A quality improvement initiative

OBJECTIVE

To describe a quality improvement (QI) method to decrease pediatric accidental decannulation (AD) in the early postoperative period for children under age 3.

METHODS

A retrospective chart review was conducted on children under age 3 who underwent tracheostomy at Duke University Health System from August 1, 2013 to May 1, 2023 (n = 104). A root cause analysis was used to assess factors associated with AD following pediatric tracheostomy. Based on the factors identified by the research team, retrospective data was collected before (8/1/13 - 1/31/22) and after (2/1/22 - 5/1/23) a single practice change was implemented: using twill neck ties, rather than foam neck ties, to secure newly-placed tracheostomy tubes. Twill ties were applied intraoperatively as a visual cue to signal a recent tracheostomy for the interdisciplinary care team. The primary outcome in the pre-intervention and post-intervention period was measured as 30-day incidence of AD per 10 tracheostomy cases.

RESULTS

Prior to the intervention, a total of 11 ADs occurred in 9 patients across 93 pediatric tracheostomies (1.18 AD per 10 cases). Afterward, 0 ADs occurred across 11 pediatric tracheostomies (0 AD per 10 cases).

CONCLUSION

This data suggests that the twill tie intervention may prevent AD and the associated morbidity. With the twill tie initiative, we describe 11 ADs and associated risk factors and present a QI intervention that may help prevent AD and improve patient safety in the early postoperative period.

Caregiver education before hospital discharge for children on home-invasive mechanical ventilation

Children on home invasive mechanical ventilation necessitate specialized equipment, continuous monitoring, and multidisciplinary care. Transitioning these children from hospital to home care is complex, demanding careful planning. Guidelines and observational studies emphasize the importance of a standardized, comprehensive, and staged educational approach for caregiver education in discharge planning, yet program variations persist, lacking standardized checklists. This review aims to offer insights into crucial factors for a successful transition from hospital to home care for children using home-invasive mechanical ventilation while also developing comprehensive caregiver checklists to ensure high-quality care, taking into account families' socioeconomic status.

Tracheostomy care of non-ventilated patients and COVID considerations: A scoping review of clinical practice guidelines and consensus statements

BACKGROUND

The purpose of this study is to examine and evaluate the existing clinical practice guidelines and consensus statements regarding tracheostomy care for non-mechanically ventilated patients.

METHODS

A systematic search of databases, and professional organisations was conducted from inception to 19 March 2023. Two appraisers evaluated each guideline using the Appraisal of Guidelines for Research & Evaluation II (AGREE II) and the Joanna Briggs Institute (JBI) Critical Appraisal Checklist for Text and Opinion Papers.

RESULTS

No specific clinical guidelines exist on airway management in non-mechanically ventilated patients. Of 6318 articles identified, we included 12 clinical practice guidelines, and 9 consensus statements, which were from China, the US, the UK, South Korea, Australia, France and Belgium. The AGREE II scores in six domains are (1) the scope and purpose, 70.30%; (2) stakeholder involvement, 37.61%; (3) rigor of development, 33.97%; (4) clarity of presentation, 68.16%; (5) applicability, 44.23% and (6) editorial independence, 40.06%. The overall quality of evidence was level B. The summarised recommendations for clinical practice encompass the following six areas: airway humidification, management of the trach cuff, management of inner cannula, tracheostoma care, tracheostomy suctioning and management and prevention of common post-operative complications.

CONCLUSIONS

The overall quality of the clinical guidelines on non-ventilated tracheostomy care was moderate, and further improvements are needed in domains of stakeholder involvement, applicability, clarity of presentation and editorial independence. Recommendations on non-ventilated tracheostomy care are often embedded in the guidelines on ventilated tracheostomy. Specific clinical guidelines are needed to provide a standardised approach to tracheostomy care for non-ventilated patients.

RELEVANCE TO CLINICAL PRACTICE

Patients with non-ventilated tracheostomy need specialised airway management. Improving patient outcomes requires standardised protocols, patient involvement, quality evaluation, and interdisciplinary approaches.

NO PATIENT OR PUBLIC CONTRIBUTION

The study reviewed clinical practice guidelines and consensus statements, therefore patient or public input was not needed.

Management of respiratory problems in children on home invasive mechanical ventilation

The management of respiratory problems in children on home invasive mechanical ventilation (HIMV) is a complex and challenging task. In recent years, with appropriate family education, these patients have been able to be discharged from the hospital and continue their treatment at home. The population of pediatric patients dependent on HIMV has been increasing worldwide, presenting unique and varying care needs. Management of these patients involves addressing ventilator settings, monitoring respiratory status, ensuring airway safety, and providing continuous support and education to patients and their caregivers. Despite the completion of home settings and family education, children on HIMV may encounter various respiratory problems during home follow-up. Prevention and timely management of these complications are crucial to improving patient outcomes. This article summarizes the most significant respiratory problems in children on HIMV and the management strategies for each problem are discussed, emphasizing the importance of appropriate aspiration techniques, regular monitoring, adequate training of caregivers, and a well-prepared emergency plan.

Management of surgical problems in children on home invasive mechanical ventilation

The management of surgical problems in children on home invasive mechanical ventilation (HIMV) requires a comprehensive and multidisciplinary approach. HIMV is a critical intervention for children with chronic respiratory failure, as it allows them to live at home with their families while receiving life-sustaining ventilatory support. However, the long-term use of HIMV exposes these children to potential surgical complications related to their underlying conditions, tracheostomy tubes, ventilator devices, and gastrostomy tubes for enteral feeding. This manuscript aims to provide a detailed overview of the identification and recognition of surgical problems in children on HIMV, as well as strategies to solve these problems effectively.

A Pluridisciplinary Tracheostomy Weaning Protocol for Brain-Injured Patients, Outside of the Intensive Care Unit and Without Instrumental Assessment: Results of Pilot Study

Concurrently to the recent development of percutaneous tracheostomy techniques in the intensive care unit (ICU), the amount of tracheostomized brain-injured patients has increased. Despites its advantages, tracheostomy may represent an obstacle to their orientation towards conventional hospitalization or rehabilitation services. To date, there is no recommendation for tracheostomy weaning outside of the ICU. We created a pluridisciplinary tracheostomy weaning protocol relying on standardized criteria but adapted to each patient's characteristics and that does not require instrumental assessment. It was tested in a prospective, single-centre, non-randomized cohort study. Inclusion criteria were age > 18 years, hospitalized for an acquired brain injury (ABI), tracheostomized during an ICU stay, and weaned from mechanical ventilation. The exclusion criterion was severe malnutrition. Decannulation failure was defined as recannulation within 96 h after decannulation. Thirty tracheostomized ABI patients from our neurosurgery department were successively and exhaustively included after ICU discharge. Twenty-six patients were decannulated (decannulation rate, 90%). None of them were recannulated (success rate, 100%). Two patients never reached the decannulation stage. Two patients died during the procedure. Mean tracheostomy weaning duration (inclusion to decannulation) was 7.6 (standard deviation [SD]: 4.6) days and mean total tracheostomy time (insertion to decannulation) was 42.5 (SD: 24.8) days. Our results demonstrate that our protocol might be able to determine without instrumental assessment which patient can be successfully decannulated. Therefore, it may be used safely outside ICU or a specialized unit. Moreover, our tracheostomy weaning duration is very short as compared to the current literature.

Optimal Diagnostic and Treatment Practices for Facial Dysostosis Syndromes: A Clinical Consensus Statement Among European Experts

Facial dysostosis syndromes (FDS) are rare congenital conditions impacting facial development, often leading to diverse craniofacial abnormalities. This study addresses the scarcity of evidence on these syndromes about optimal diagnostic and treatment practices. To overcome this scarcity, European experts from ERN CRANIO collaborated to develop a clinical consensus statement through the Delphi consensus method. A systematic search of Embase, MEDLINE/PubMed, Cochrane, and Web of Science databases was conducted until February 2023. The quality of evidence was evaluated using various tools depending on the study design. Statements were subsequently formed based on literature and expert opinion, followed by a Delphi process with expert health care providers and patient representatives. In total, 92 experts from various specialties and three patient representatives were involved in the Delphi process. Over 3 voting rounds, consensus was achieved on 92 (46.9%), 58 (59.2%), and 19 (70.4%) statements, respectively. These statements cover the topics of general care; craniofacial reconstruction; the eyes and lacrimal system; upper airway management; genetics; hearing; speech; growth, feeding, and swallowing; dental treatment and orthodontics; extracranial anomalies; and psychology and cognition. The current clinical consensus statement provides valuable insights into optimal diagnostic and treatment practices and identifies key research opportunities for FDS. This consensus statement represents a significant advancement in FDS care, underlining the commitment of health care professionals to improve the understanding and management of these rare syndromes in Europe.

Established Adult Tracheostomy Tube Exchange: How Often is Enough?

Currently, there is no clinical consensus on how often adults with long-term tracheostomies should have their tubes exchanged. For high-functioning patients who are able to provide diligent tracheostomy care tubes can be exchanged every 6 months. Patients who have a difficult time with tracheostomy care should have them exchanged every 1-3 months.

Assessment of Tracheostomy Tube Placement and Late Change Practices in an Academic Tertiary Care Center

Introduction  The optimal time for tracheostomy changes is unknown. Most surgeons opt to wait until five to seven days postoperatively, while more recent studies suggest that changes occurring as early as two to three days postoperatively are also safe. Objective  To evaluate the safety of changing the tracheostomy tube later than 14 days postoperatively. Methods  The charts of patients who underwent tracheostomy placement and change at a tertiary care center from 2015 to 2019 were retrospectively reviewed, and the subjects were divided into 2 cohorts (late and very late), depending on the time of the first tracheostomy change. Results  The study included 198 patients, 53 of whom aged between 0 and 18 years, and 145, aged > 18 years. The time until the first tracheostomy change was on average of 131.1 days. The most common indication for tracheostomy tube placement was prolonged intubation. Adverse events were observed in 30.8% of the cases (the most common being the formation of granulation tissue), a rate that does not differ much from the incidence reported in the literature (of 34% to 77%) when tracheostomy tubes are changed as early as 3 to 7 days postoperatively. There was no significant difference in the incidence of complications between patients undergoing late and very late changes ( p  = 0.688), or between pediatric and adult subjects ( p  = 0.36). There were no significant correlations regarding the time of the first or second change and the incidence of complications (r = -0.014; p  = 0.84 for the first change; and r = -0.57; p  = 0.64 for the second change). Conclusion  The late first tracheostomy tube change was safe and could save resources and decrease the financial burden of frequent changes. It is always crucial to provide adequate information about home tracheostomy care for patients.

Transtracheal Pressure for Evaluation of Decannulation Readiness

BACKGROUND

Pediatric tracheostomy decannulation protocols vary among institutions and may include toleration of Passy Muir Valve (PMV), microlaryngoscopy and bronchoscopy (MLB) findings, and polysomnography evaluation. Transtracheal pressure (TTP) is an objective measurement utilized to evaluate PMV toleration. We aimed to investigate the role of TTP in decannulation candidates and compare TTP measurements with polysomnography and MLB findings.

METHODS

A retrospective cohort study of children who underwent TTP measurement during PMV trial between December 2012 and November 2022.

RESULTS

A total of 79 patients underwent TTP measurement and MLB evaluation; of these, 16 (20.3%) patients had a capped polysomnography. Twenty-eight (35.4%) patients had TTPs ≤10 cm H2O, and 51 (64.6%) patients had TTPs >10 cm H2O. The most common indication for tracheostomy was upper airway obstruction (n = 41, 51.9%), followed by a need for mechanical ventilation (n = 24, 30.4%). Twenty-five (31.6%) patients were decannulated. Patients with TTPs ≤10 cm H2O had a mean Apnea-Hypopnea Index of 0.17 ± 0.26/h compared with 6.93 ± 7.67/h in those with TTPs >10 cm H2O, p = 0.0365. Patients with TTPs >10 cm H2O were found to have a significantly higher occurrence of airway obstruction (96.1% vs. 46.4%, p < 0.0001) and multilevel airway obstruction (70.6% vs. 21.4%, p < 0.0001) on MLB. Neither TTP measured at time of PMV assessment nor capped polysomnography was associated with successful decannulation.

CONCLUSIONS

TTP measurements at time of PMV evaluation are associated with polysomnography and MLB findings. One-time PMV measurements were not indicative of decannulation success.

LEVEL OF EVIDENCE

4 Laryngoscope, 134:3377-3383, 2024.

Single-Stage Bronchoscopy-Guided Protocol for Tracheostomy Decannulation in Adult Patients

INTRODUCTION

Tracheostomy decannulation is a routine procedure in airway management. There is no standard decannulation method; however, the two commonly practiced approaches are tracheostomy downsizing and intermittent capping, which are both accompanied by multiple visits to the clinic and increase patient discomfort. Herein, we explore fiberoptic bronchoscopy application in a novel single-stage decannulation protocol.

METHODS

We conducted a retrospective study on tracheostomy patients eligible for decannulation. Fiberoptic bronchoscopy was performed on patients with spontaneous ventilation for ≥48 h, age ≥18, hemodynamic stability, normal chest X-ray, adequate swallowing, effective cough, adequate consciousness, patent speaking valve, and absent history of recurrent aspiration. Tracheostomy removal occurred after evaluating the airway and ruling out tracheomalacia, tracheitis with stenosis, obstructive granulation tissue, and moderate-to-severe stenosis. We documented patients' demographic and clinical information, along with details of their post-decannulation course.

RESULTS

Out of 58 patients admitted for tracheostomy removal, we excluded six patients (10.3%) from the study because, despite clinical indications for successful weaning, they exhibited abnormalities that interrupted the decannulation process. Of the remaining 52 patients, 50 (96.1%) were successfully weaned off, while two needed reinsertion during their hospital course. Bronchoscopy findings were unremarkable in 33 (63.5%) patients, and the most frequently observed abnormalities were paucity of vocal cord movement in 5 (9.6%) patients and granulation tissue formation in 5 (9.6%) patients. No further airway management was necessary after discharge.

CONCLUSIONS

Our study introduces the innovative approach of single-stage bronchoscopic decannulation as a potentially beneficial tool for immediate decannulation. Based on our experience, we achieved a relatively satisfactory outcome following single-stage tracheostomy decannulation with bronchoscopy. The approach shows promise in providing valuable airway insights and predicting possible decannulation failures. Further research is needed to evaluate its impact on stress reduction for patients and surgeons, its superiority compared to traditional techniques, its long-term effects on healthcare, and its potential cost-effectiveness.

Update on pediatric tracheostomy

Pediatric tracheostomy has been widely performed since the 1800s, and in recent years, with advances in neonatal medicine, it has been performed at younger ages, starting at 0. In addition, advances in surgical techniques and postoperative tube management have reduced complications. This review will discuss the entire process of pediatric tracheostomy, starting with the history of tracheostomy and ending with indications, contraindications, techniques (slit, Björk, EXIT), complications, tube management, and decannulation. Pediatric tracheostomy patients require long-term care and management as they grow after the surgery itself, so otolaryngologists and pediatric tracheostomists are particularly involved in tube management and decannulation. We believe that sharing this information with all healthcare professionals will lead to better care for children with tracheostomies.

Cost-effectiveness of ambroxol in the treatment of Gaucher disease type 2

Objective

Our aim was to compare the costs and efficacy of ambroxol in combination with imiglucerase with the costs and efficacy of imiglucerase only in the treatment of Gaucher disease type 2 (GD2) in the socio-economic settings of the Republic of Serbia, an upper-middle-income European economy.

Methods

The perspective of the Serbian Republic Health Insurance Fund was chosen for this study, and the time horizon was 6 years. The main outcomes of the study were quality-adjusted life years gained with ambroxol + imiglucerase and comparator, and direct costs of treatment. The study was conducted through the generation and simulation of the Markov chain model. The model results were obtained after Monte Carlo microsimulation of a sample with 1,000 virtual patients.

Results

Treatment with ambroxol in combination with imiglucerase was cost-effective when compared with imiglucerase only and was associated with positive values of net monetary benefit regardless of the onset of the disease. Such beneficial result for ambroxol and imiglucerase combination is primarily driven by the low cost of ambroxol and its considerable clinical effectiveness in slowing the progression of neural complications of GD2.

Conclusion

If ambroxol and imiglucerase are used in combination for the treatment of GD2, it is more cost-effective than using imiglucerase alone.

Time considerations and outcomes in pediatric tracheostomy decannulation

OBJECTIVE

The study objective is to identify factors that impact the time to decannulation in pediatric patients ages 0 through 18 years who are tracheostomy-dependent.

METHODS

This retrospective chart review from January 1, 2005 through December 31, 2020 identified pediatric tracheostomy patients at a single pediatric institution. Data extracted included demographic, socioeconomic factors, and clinical characteristics. Multivariate regression and survival analysis were used to identify factors associated with successful decannulation and decreased time with tracheostomy.

RESULTS

Of the 479 tracheostomy-dependent patients identified, 162 (33.8%) were decannulated. Time to decannulation ranged from 0.5 months to 189.2 months with median of 24 months (IQR 12.91-45.71). In the multivariate analysis, patients with bronchopulmonary dysplasia (p = 0.021) and those with Passy-Muir® Valve at discharge (p = 0.015) were significantly associated with decannulation. In contrast, neurologic comorbidities (p = 0.06), presence of gastrostomy tube (p < 0.001), or discharged on a home ventilator (p < 0.001) were associated with indefinite tracheostomy. When adjusting for age, sex, race, ethnicity, and insurance status, for every one month delay in establishment of outpatient otolaryngology care, time to decannulation was delayed by 0.5 months (p = 0.010). For each additional outpatient otolaryngology follow-up visit, time to decannulation increased by 3.36 months (p < 0.001).

CONCLUSIONS

Decannulation in pediatric tracheostomy patients is multifactorial. While timely establishment of outpatient care did correlate with quicker decannulation, factors related to medical complexity may have a greater impact on time to decannulation. Our results can help guide institutional decannulation protocols, as well as provide guidance when counseling families regarding tracheostomy expectations.

Risk factors for postoperative adverse airway events in patients with primary oral cancer undergoing reconstruction without prophylactic tracheostomy

OBJECTIVE

To identify risk factors associated with adverse airway events (AAEs) in primary oral cancer patients undergoing tumor ablation followed by free tissue transfer without prophylactic tracheostomy.

METHODS

We retrospectively collected primary oral cancer patients who underwent tumor ablation surgery following free-tissue transfer without prophylactic tracheostomy during February 2017 to June 2019 in Chang Gung Memorial Hospital, Linkou Medical Center, Taiwan. 379 patients were included. Data were analysed from 2020 to 2021. Demographics, comorbidities, intraoperative variables and postoperative respiration profile were obtained from the medical record. Main outcome was postoperative AAEs, including requirement of endotracheal intubation after extubation and tracheostomy after prolonged intubation.

RESULTS

Of the 379 patients, postoperative AAEs happened in 29 patients (7.6 %). In reintubation group, patients were older with more diabetes mellitus, hypertension and cerebrovascular disease. These patients had lower preoperative hemoglobin, creatinine, and albumin level with more intraoperative blood transfusion. In postoperative respiration profile, rapid shallow breathing index (RSBI) and PaO2/FiO2 (PF) ratio were poorer. On multivariate analysis, patient's age, tumor location, and cross-midline segmental mandibulectomy and a lower PF ratio were independent risk factors for postoperative AAEs.

CONCLUSIONS

In head and neck cancer patients that underwent tumor ablation followed by free tissue transfer without prophylactic tracheostomy, patient's age, tumor location, cross-midline segmental mandibulectomy and P/F ratio are associated with postoperative AAEs.

A Simplified Protocol for Tracheostomy Decannulation in Patients Weaned off Prolonged Mechanical Ventilation

Introduction  The criteria for the removal of the tracheostomy tube (decannulation) vary from center to center. Some perform an endoscopic evaluation under anesthesia or computed tomography, which adds to the cost and discomfort. We use a simple two-part protocol to determine the eligibility and carry out the decannulation: part I consists of airway and swallowing assessment through an office-based flexible laryngotracheoscopy, and part II involves a tracheostomy capping trial. Objective  The primary objective was to determine the safety and efficacy of the simplified decannulation protocol followed at our center among the patients who were weaned off the mechanical ventilator and exhibited good swallowing function clinically. Methods  Of the patients considered for decannulation between November 1st, 2018, and October 31st, 2020, those who had undergone tracheostomy for prolonged mechanical ventilation were included. The efficacy to predict successful decannulation was calculated by the decannulation rate among patients who had been deemed eligible for decannulation in part I of the protocol, and the safety profile was defined by the protocol's ability to correctly predict the chances of risk-free decannulation among those submitted to part II of the protocol. Results  Among the 48 patients included (mean age: 46.5 years; male-to-female ratio: 3:1), the efficacy of our protocol in predicting the successful decannulation was of 87.5%, and it was was safe or reliable in 95.45%. Also, in our cohort, the decannulation success and the duration of tracheotomy dependence were significantly affected by the neurological status of the patients. Conclusion  The decannulation protocol consisting of office-based flexible laryngotracheoscopy and capping trial of the tracheostomy tube can safely and effectively aid the decannulation process.

Harnessing In Situ Simulation to Identify Human Errors and Latent Safety Threats in Adult Tracheostomy Care

BACKGROUND

Tracheostomies are associated with high rates of complications and preventable harm. Safe tracheostomy management requires highly functioning teams and systems, but health care providers are poorly equipped with tracheostomy knowledge and resources. In situ simulation has been used as a quality improvement tool to audit multidisciplinary team emergency response in the actual clinical environment where care is delivered but has been underexplored for tracheostomy care.

METHODS

From July 2021 to May 2022, the study team conducted in situ simulations of a tracheostomy emergency scenario at Montefiore Medical Center to identify human errors and latent safety threats (LSTs). Simulations included structured debriefs as well as audiovisual recording that allowed for blind rating of these human errors and LSTs. Provider knowledge deficits were further characterized using pre-simulation quizzes.

RESULTS

Twelve human errors and 15 LSTs were identified over 20 simulations with 88 participants overall. LSTs were divided into the following categories: communication, equipment, and infection control. Only 50.0% of teams successfully replaced the tracheostomy tube within the scenario's five-minute time limit. In addition, knowledge gaps were highly prevalent, with a median pre-simulation quiz score of 46% (interquartile range 36-64) among participants.

CONCLUSION

An in situ simulation-based quality improvement approach shed light on human errors and LSTs associated with tracheostomy care across multiple settings in one health system. This method of engaging frontline health care provider key stakeholders will inform the development, adaptation, and implementation of interventions.

Tracheostomy-related durable medical equipment: Insurance coverage, gaps, and barriers

PURPOSE

Tracheostomy care is supply- and resource-intensive, and airway-related adverse events in community settings have high rates of readmission and mortality. Devices are often implicated in harm, but little is known about insurance coverage, gaps, and barriers to obtaining tracheostomy-related medically necessary durable medical equipment. We aimed to identify barriers patients may encounter in procuring tracheostomy-related durable medical equipment through insurance plan coverage.

MATERIALS AND METHODS

Tracheostomy-related durable medical equipment provisions were evaluated across insurers, extracting data via structured telephone interviews and web-based searches. Each insurance company was contacted four times and queried iteratively regarding the range of coverage and co-pay policies. Outcome measures include call duration, consistency of explanation of benefits, and the number of transfers and disconnects. We also identified six qualitative themes from patient interviews.

RESULTS

Tracheostomy-related durable medical equipment coverage was offered in some form by 98.1 % (53/54) of plans across 11 insurers studied. Co-pays or deductibles were required in 42.6 % (23/54). There was significant variability in out-of-pocket expenditures. Fixed co-pays ranged from $0-30, and floating co-pays ranged from 0 to 40 %. During phone interviews, mean call duration was 19 ± 10 min, with an average of 2 ± 1 transfers between agents. Repeated calls revealed high information variability (mean score 2.4 ± 1.5). Insurance sites proved challenging to navigate, scoring poorly on usability, literacy, and information quality.

CONCLUSIONS

Several factors may limit access to potentially life-saving durable medical equipment for patients with tracheostomy. Barriers include out-of-pocket expenditures, lack of transparency on coverage, and low-quality information. Further research is necessary to evaluate patient outcomes.

Implementation of a high fidelity simulation based training program for physicians of children requiring long term invasive home ventilation: a study by ISPAT team

Introduction

The number of children requiring long-term invasive home ventilation (LTIHV) has increased worldwide in recent decades. The training of physicians caring for these children is crucial since they are at high risk for complications and adverse events. This study aimed to assess the efficacy of a comprehensive high-fidelity simulation-based training program for physicians caring for children on LTIHV.

Methods

A multimodal training program for tracheostomy and ventilator management was prepared by ISPAT (IStanbul PAediatric Tracheostomy) team. Participants were subjected to theoretical and practical pre-tests which evaluated their knowledge levels and skills for care, follow-up, and treatment of children on LTIHV. Following the theoretical education and hands-on training session with a simulation model, theoretical and practical post-tests were performed.

Results

Forty-three physicians from 7 tertiary pediatric clinics in Istanbul were enrolled in the training program. Seventy percent of them had never received standardized training programs about patients on home ventilation previously. The total number of correct answers from the participants significantly improved after the theoretical training (p < 0.001). The number of participants who performed the steps correctly also significantly increased following the hands-on training session (p < 0.001). All of the 43 participants who responded rated the course overall as good or excellent.

Conclusion

The knowledge and skills of clinicians caring for children on LTIHV can be enhanced through a comprehensive training program consisting of theoretical training combined with hands-on training in a simulation laboratory.

A deployable curriculum with 3D printed skills trainers for altered airway management

BACKGROUND

Altered Airway Anatomy (AAA), including tracheostomies and laryngectomies, may represent an area of unease for non-Otolaryngology trainees, due to a lack of exposure, structured education, or dedicated training in altered airway management. Inability to effectively stabilize an altered airway is associated with significant risk of patient morbidity and mortality. This study aims to assess the efficacy of a concise curriculum using three-dimensional (3D) printed airway models for skill training in improving Anesthesiology trainees' competency in AAA management.

METHODS

A prospective cohort of 42 anesthesiology residents at a tertiary care institution were guided through a 75-min curriculum on AAA, including case discussion, surgical video, and hands-on practice with tracheostomy and laryngectomy skills trainers. Pre- and post- course surveys assessing provider confidence (Likert scale) and knowledge (multiple choice questions) were administered. Additionally, an observed skills competency assessment was performed.

RESULTS

Self-perceived confidence improved from a summative score across all domains of 23.65/40 pre-course to 36.39/40 post-course (n = 31, p < 0.001). Technical knowledge on multiple choice questions improved from 71 to 95% (n = 29, p < 0.001). In the completed skills competency assessment, 42/42 residents completed 5/5 assessed tasks successfully, demonstrating objective skills-based competency.

CONCLUSIONS

This study demonstrates an improvement in anesthesiology resident self-assessed confidence, objective knowledge, and skills based competency surrounding management of patients with AAA following a 75-min simulation-based curriculum.

Pediatric Custom Tracheostomies: A Ten-Year Experience

OBJECTIVES

To describe the use of customized and custom tracheostomies at our institution, and to identify trends in patient presentation and tracheostomy design.

METHODS

A retrospective review was conducted for patients at our institution for whom a customized or custom tracheostomy tube was ordered between January 2011 and July 2021. Customized tracheostomy tubes allow for a small selection of alterations to trach design, such as cuff length and flange type. Custom tracheostomies have a unique design created by tracheostomy tube engineers in collaboration with the clinical provider, and are built specifically for a single patient.

RESULTS

A total of 235 patients were included, of whom 220 (93%) received customized tracheostomies and 15 custom (7%). The most common indications for customized tracheostomy were tracheal or stomal breakdown on a standard tracheostomy (n = 73, 33%) and ventilation difficulties (n = 61, 27%). The most frequent customization was shaft length (n = 126, 57%). The most common indication for custom tracheostomies was a persistent air leak on a standard or customized trach (n = 9) and the most frequent designs were custom cuffs (n = 8), flanges (n = 4), and anteriorly curved shafts (n = 4). Patients treated with a customized tracheostomy had a 5-year overall survival of 75.3%, compared to 51.4% for custom.

CONCLUSION

These are the first cohorts of pediatric patients with customized and custom tracheostomies to be described. Modifications to tracheostomies, in particular shaft length and cuff design, can address common complications of extended tracheostomy, and may help improve ventilation in the most challenging cases.

LEVEL OF EVIDENCE

4 Laryngoscope, 134:452-458, 2024.

Revisiting the Great Ormond Street Hospital protocol for ward decannulation of children with tracheostomy

INTRODUCTION

Tracheostomy decannulation is an important and final step in managing patients once the underlying issue requiring a tracheostomy resolves. However, no consensus exists on the optimal method to decannulate a paediatric patient. We revisit the Great Ormond Street Hospital (GOSH) tracheostomy decannulation protocol, a 5-day process involving downsizing the tracheostomy tube, capping, and observation, to evaluate its effectiveness and assess if changes to the protocol are required.

METHOD

This is a retrospective study, reviewing patient records between April 2018 and April 2023 from a single quaternary care centre. Data extracted include comorbidities, age at the time of decannulation, duration of tracheostomy, reason for tracheostomy insertion, whether a decannulation attempt was successful or not, and the timings of decannulation failure.

RESULTS

66 patients that met the selection criteria underwent a decannulation trial between April 2018 and April 2023. 32 patients were male, and 34 patients were female. Age at attempted decannulations ranged from 1 year to 18 years, with an average age of 6.1 years. There were a total of 93 attempts at decannulation, with 51 (54.8%) successful attempts, 35 (56.5%) first decannulation attempt successes, and 42 (45.2%) unsuccessful attempts. 17 patients had 2 attempts at decannulation, and 4 patients had 3 or more attempts at decannulation. Of the unsuccessful attempts, patients mostly failed on capping of the tracheostomy tube with 33 failures (35.5%).

CONCLUSION

The GOSH protocol achieved similar success rates to comparable protocols. The protocol's multi-step approach provides thorough evaluation and support for patients during the decannulation process, and its success on a complex patient cohort supports its continued use.

Tracheotomy in children older than two years: Analysis of discharge trends from 2015 to 2020

OBJECTIVE

In light of increasingly complex patients being discharged with tracheostomies, we aimed to evaluate discharge trends over time in pediatric tracheotomy patients. We hypothesized that there would be delays in discharge from increased focus on preparing families for at-home care of critically ill pediatric patients.

MATERIALS AND METHODS

We conducted a cross-sectional analysis of pediatric patients who underwent tracheotomy (Current Procedural Terminology code 31600) between 2015 and 2020 using the American College of Surgeons National Surgical Quality Improvement Program Pediatric database (ACS NSQIP-P). Univariate and multivariate regression analyses were performed to assess patient demographics, comorbidities, perioperative factors, postoperative complications, and discharge information. Data were analyzed using Stata 15.

RESULTS

A total of 1552 patients were identified. There were 868 (56 %) males and 684 (44 %) females with a mean age of 7.3 ± 5.7 years. At least one comorbidity was seen in 1282 (83 %) patients, with 907 (58 %) having impaired cognitive status or developmental delay. Thirty-six (2.3 %) patients experienced mortality within 30 days, while 710 (46 %) were still in the hospital at 30 days. The odds of remaining in the hospital after 30 days were positively correlated with the year (p=.001). Other factors associated with an increased likelihood of remaining in the hospital after 30 days included younger patient age (p <.001), any complication (p <.001), and a higher American Society of Anesthesiologists classification (p <.001).

CONCLUSION

As years have progressed, fewer children were discharged from the hospital after 30 days following tracheotomy. Further research may identify socioeconomic factors contributing to the increasing length of hospital stays associated with a need for tracheotomy.

Effect of Speaking Valves on Tracheostomy Decannulation

Introduction  Despite several pediatric tracheostomy decannulation protocols there remains tremendous variability in practice. The effect of tracheostomy capping on decannulation has been studied but the role of speaking valves (SVs) is unknown. Objective  Given the positive benefits SVs have on rehabilitation, we hypothesized that SVs would decrease time to tracheostomy decannulation. The purpose of the present study was to evaluate this in a subset of patients with chronic lung disease of prematurity (CLD). Methods  A retrospective chart review was performed at a tertiary care children's hospital. A total of 105 patients with tracheostomies and CLD were identified. Data collected included demographics, gestational age, congenital cardiac disease, airway surgeries, granulation tissue excisions, SV and capping trials, tracheitis episodes, and clinic visits. Statistics were performed with logistic and linear regression. Results  A total of 75 patients were included. The mean gestational age was 27 weeks (standard deviation [SD] = 3.6) and the average birthweight was 1.1 kg (SD = 0.6). The average age at tracheostomy was 122 days (SD = 63). A total of 70.7% of the patients underwent decannulation and the mean time to decannulation (TTD) was 37 months (SD = 19). A total of 77.3% of the patients had SVs. Those with an SV had a longer TTD compared to those without (52 versus 35 months; p  = 0.008). Decannulation was increased by 2 months for every increase in the number of hospital presentations for tracheitis ( p  = 0.011). Conclusion  The present study is the first, to our knowledge, to assess the effect of SVs on tracheostomy decannulation in patients with CLD showing a longer TTD when SVs are used.

Tracheostomy tube changes in patients with tracheostomy: A quality improvement project

BACKGROUND

Tracheostomy tube changes are a considerable part of the management of patients with tracheostomy and are necessary for preventing aspiration pneumonia, especially in patients with long-term tracheostomy. The process of tracheostomy tube changes in many patients may not be timely, safe or efficient.

OBJECTIVE

The objectives were to implement a quality improvement intervention that reduces the incidence of aspiration pneumonia in patients with tracheostomy, improve staff knowledge about tracheostomy tube changes and improve staff adherence to documentation.

METHODS

A pre-post intervention design was used in this quality improvement project. We created a change strategy bundle that included identification of the need for and observation determination of the timing of tube changes timing, change assessments, identification of the person and location, preparation, co-operation and maintenance. A tracheostomy tube change workflow was also created. Then, the intervention was implemented in the clinic after staff training. The incidence of aspiration pneumonia, staff knowledge and staff adherence were compared before and after the intervention.

RESULTS

Two hundred and 20 patients were enrolled (105 in the preintervention group; 115 in the postintervention group) with 88 tracheostomy tube change episodes (23 in the preintervention group; 65 in the postintervention group). Thirty-five staff members completed the training and surveys. The incidence of pneumonia decreased from 43.8% to 27.8% after the intervention (p = .013). The knowledge score of staff increased from 46.57 ± 11.10 to 88.14 ± 6.76, and the implementation rate of the audit increased to 67.32%-100%.

CONCLUSIONS

This quality improvement project regarding tracheostomy changes reduced the incidence of pneumonia, increased staff knowledge about tracheostomy tube changes and improved staff adherence.

RELEVANCE TO CLINICAL PRACTICE

A standardized tracheostomy tube change bundle, education, interprofessional collaboration and culture changes were important to ensure the best outcomes in this quality improvement project. These factors improved the timeliness, efficiency and safety of tracheostomy tube changes.

Experiences of patients' primary caregivers with tracheostomy suctioning before discharge

PURPOSE

This study aimed to determine the experiences of primary caregivers of patients with tracheostomies on the tracheostomy suctioning procedure.

METHODS

This is a semi-structured qualitative study of 11 primary caregivers of patients with tracheostomies in one university hospital in a province in northwest Turkey. Data were collected using a semi-structured interview technique with the primary caregivers of the patients and interviews were audio-recorded. The content of the audio recordings obtained during each interview was evaluated by the researchers using the content analysis method. The data were categorized, coded, and analyzed by creating themes and sub-themes.

RESULTS

The experiences of primary caregivers with tracheostomy suctioning before discharge were classified under three themes and 11 sub-themes. The study's main themes were emotional reactions, information needs, and caring responsibility. Caregivers showed either positive or negative emotions when performed tracheostomy suctioning on their patients. Insufficient information on the patient care and recovery process were mostly emphasized topic by caregivers. Such that they express the knowledge deficiency on tracheostomy suctioning and counseling provided either by nurses/physicians. Thus compete with difficulties ends up with feelings of pressure and avoidance of caring responsibility.

CONCLUSION

Caregivers lack of knowledge and poor skills on tracheostomy suctioning ends up with fear, anxiety, and obstacles on patient caring. Implementing individualized education, supporting patients and their caregivers on tracheostomy suctioning, and following up on caregivers' abilities are valuable interventions.

Comparison of Outcomes of Early Versus Late Tracheostomy in the Treatment of Mechanically Ventilated Critically ill Patients

Comparative evaluation of early and late tracheostomy outcomes in mechanically ventilated patients. The present retrospective study was conducted in Government medical college Jammu from April 2021 to November 2022 on 111 tracheotomised patient in intensive care unit. All tracheostomies with in 10 days of intubation were grouped as early tracheostomy (ET) group and all those done after 10 days were grouped as LATE TRACHEOSTOMY (LT) group. APACHE II score at the time of intensive care unit admission of all included tracheotomised patients was noted. Data regarding mortality, duration of mechanical ventilation and length of stay in intensive care unit (ICU) was studied. Mean age of presentation was 41.5 ± 15.7 yrs, with male preponderance. Out of 111 patients, 57 patients underwent early tracheostomy and 54 underwent late TRACHEOSTOMY. In APACHE II, < 25 category-short term mortality was 4 in ET and 5 in LT; long term mortality in ET was 4 and 10 in LT; average days of mechanical ventilation were 11.2 in ET and 3 in LT; average stay in ICU was 18 days in ET and 61 days in LT. in APACHE II > 25-short term mortality was 4 in ET and 5 in LT; long term mortality in ET was 3 and 9 in LT. Average days of mechanical ventilation were 10.8 in ET and 57 in LT; average stay in ICU was 24 days in ET and 79 days in LT. Early tracheostomy is superior to late Tracheostomy in terms of mortality, number of days of mechanical ventilation and the duration of intensive care unit stay.

Pediatric tracheostomy decannulation: what's the evidence?

PURPOSE OF REVIEW

Pediatric decannulation failure can be associated with large morbidity and mortality, yet there are no published evidence-based guidelines for pediatric tracheostomy decannulation. Tracheostomy is frequently performed in medically complex children in whom it can be difficult to predict when and how to safely decannulate.

RECENT FINDINGS

Published studies regarding pediatric decannulation are limited to reviews and case series from single institutions, with varying populations, indications for tracheostomy, and institutional resources. This article will provide a review of published decannulation protocols over the past 10 years. Endoscopic airway evaluation is required to assess the patency of the airway and address any airway obstruction prior to decannulation. There is considerable variability in tracheostomy tube modification between published protocols, though the majority support a capping trial and downsizing of the tracheostomy tube to facilitate capping. Most protocols include overnight capping in a monitored setting prior to decannulation with observation ranging from 24 to 48 h after decannulation. There is debate regarding which patients should have capped polysomnography (PSG) prior to decannulation, as this exam is resource-intensive and may not be widely available. Persistent tracheocutaneous fistulae are common following decannulation. Excision of the fistula tract with healing by secondary intention has a lower reported operative time, overall complication rate, and postoperative length of stay.

SUMMARY

Pediatric decannulation should occur in a stepwise process. The ideal decannulation protocol should be safe and expedient, without utilizing excessive healthcare resources. There may be variability in protocols based on patient population or institutional resources, but an explicitly described protocol within each institution is critical to consistent care and quality improvement over time. Further research is needed to identify selection criteria for who would most benefit from PSG prior to decannulation to guide allocation of this limited resource.

Implementation of AIRVO™ System for Postoperative Tracheostomy Care in Head and Neck Free Flaps

OBJECTIVE

Effective postoperative tracheostomy management after free flap surgery is critical but can offer challenges including difficulty with humidification delivery and contraindications toward neck instrumentation. The purpose of this project was to establish a multidisciplinary team and implement the AIRVO™ tracheostomy humidification system for those undergoing free flap surgery and determine its effect on respiratory secretions and related events.

METHODS

A retrospective cohort study of head and neck free flap surgery patients prior to implementation of AIRVO™ (Jan 2021-May 2021) and after (August 2021-December 2021) were analyzed with a 2 month (June 2021-July 2021) implementation phase. Main variables analyzed included excessive tracheal secretions, necessity of supplemental oxygen above baseline for a day or greater, respiratory rapid response calls, elevation to intensive care units (ICU), and length of hospital stay.

RESULTS

A total of 82 patients (40 pre-AIRVO™ and 42 with AIRVO™) met criteria for the study. A significant reduction in excessive tracheal secretions (40% pre-AIRVO™, 11.9% with AIRVO™, P = .01) and necessity of supplemental oxygen above baseline (25% pre-AIRVO™, 7.1% with AIRVO™, P = .04) were observed. No significant difference in hospital length of stay (P = .63) was observed. No respiratory rapid responses or elevation to ICU care were seen in either groups.

CONCLUSION

The AIRVO™ system provided an efficient, portable, free of neck instrumentation, and easy to use device that resulted in a reduction in excessive tracheal secretion events and necessity of supplemental oxygenation needs in free flap tracheostomy patients.

Self-management of patients with tracheostomy in the home setting: a scoping review

PURPOSE

The aim of this study was to create a model of patient-centered outcomes with respect to self-management tasks and skills of patients with a tracheostomy in their home setting.

METHODS

A scoping review using four search engines was undertaken (Medline, CINAHL, PsycINFO, Cochrane Library) to identify studies relevant to this issue and published since 2000. The Preferred Reporting Items for Systematic Reviews and Meta-Analyses Statements for Scoping Reviews (PRISMA-ScR), the Joanna Briggs Institute (JBI) approach of conducting and reporting a scoping review, and the Participants, Concept, Context (PCC) scheme were employed. The following elements of the framework synthesis study data were screened, and presented based on the self-management model of Lorig and Holman.

RESULTS

34 publications from 17 countries met the criteria for study inclusion: 24 quantitative, 8 qualitative and 2 mixed methods designs. Regarding the dimensions of self-management, 28 articles reported on "managing the therapeutic regimen", 27 articles discussed "managing role and behavior changes", and 16 articles explored "managing emotions". A model of self-management of patients with tracheostomy was developed, which placed the patient in the center, since it is this individual who is completing the tasks and carrying out his or her skill sets.

CONCLUSION

This scoping review represents the first comprehensive overview and modeling of the complex self-management tasks and skills required of patients with tracheostomy in their home setting. The theoretical model can serve as a cornerstone for empirical intervention studies to better support this patient-centered outcome for this population in the future.

Factors influencing quality of life in children with tracheostomy with emphasis on home care visits: a multi-centre investigation

OBJECTIVE

Only a few studies have assessed the quality of life in children with tracheostomies. This study aimed to evaluate the quality of life and the factors influencing it in these children.

METHOD

This cross-sectional, two-centre study was conducted on paediatric patients living in the community with a tracheostomy by using the Pediatric Quality of Life Inventory. Clinical and demographic information of patients, as well as parents' socioeconomic factors, were obtained.

RESULTS

A total of 53 patients met our inclusion criteria, and their parents agreed to participate. The mean age of patients was 6.85 years, and 21 patients were ventilator-dependent. The total paediatric health-related quality of life score was 59.28, and the family impact score was 68.49. In non-ventilator-dependent patients, multivariate analyses indicated that social functioning and health-related quality of life were negatively affected by the duration of tracheostomy. The Quality of Life of ventilator-dependent patients was influenced by care visits and the presence of pulmonary co-morbidities.

CONCLUSION

Children with tracheostomies have a lower quality of life than healthy children do. Routine care visits by a respiratory therapist and nurses yielded significantly improved quality of life in ventilator-dependent children.

Tracheostomy in Severe Bronchopulmonary Dysplasia-How to Decide in the Absence of Evidence

Infants with the most severe forms of bronchopulmonary dysplasia (BPD) may require long-term invasive positive pressure ventilation for survival, therefore necessitating tracheostomy. Although life-saving, tracheostomy has also been associated with high mortality, postoperative complications, high readmission rates, neurodevelopmental impairment, and significant caregiver burden, making it a highly complex and challenging decision. However, for some infants tracheostomy may be necessary for survival and the only way to facilitate a timely and safe transition home. The specific indications for tracheostomy and the timing of the procedure in infants with severe BPD are currently unknown. Hence, centers and clinicians display broad variations in practice with regard to tracheostomy, which presents barriers to designing evidence-generating studies and establishing a consensus approach. As the incidence of severe BPD continues to rise, the question remains, how do we decide on tracheostomy to provide optimal outcomes for these patients?

Safety evaluation of a stepwise tracheostomy decannulation program in pediatric patients

PURPOSE

In the event of failed tracheostomy decannulation, patients might have a tragic course of events. We retrospectively evaluated our stepwise tracheostomy decannulation program and examined its safety.

METHODS

A 12-year retrospective study of pediatric patients was conducted. The decannulation program was performed on patients who had airway patency by laryngobronchoscopy and whose cannula could be capped during the day. A stepwise decannulation program was performed: continuous 48-h capping trial during hospitalization (Phase 1), removal of the tracheostomy tube for 48 h during hospitalization (Phase 2), and outpatient observation (Phase 3). If a persistent tracheocutaneous fistula existed, the fistula was closed by surgery (Phase 4).

RESULTS

The 77 patients in the study underwent 86 trials. The age at the first time of the decannulation program was 6.5 ± 3.6 years. Sixteen trials failed (18.6%): 8 trials in Phase 1, 2 trials in Phase 2, 4 trials in Phase 3, and 2 trials in Phase 4. Most decannulation failures were due to desaturation in Phase 1/2 and dyspnea in Phase 3/4. The time to reintubation after decannulation was 15-383 days in Phase 3/4.

CONCLUSIONS

Patients could fail at every phase of the program, suggesting that a stepwise decannulation program contributes to safety.

ExPert ConsEnsus on the management of Advanced clear-cell RenaL celL carcinoma: INDIAn Perspective (PEARL-INDIA)

In advanced Renal Cell Carcinoma (aRCC), systemic therapy is the mainstay of treatment, with no or little role for surgery in these patients. Tyrosine kinase inhibitors (TKIs) and immune-oncological (IOs) therapies, either alone or in combination, are recommended in these patients depending on patient and tumour factors. The sequencing of therapies is critical in RCC because the choice of subsequent line therapy is heavily dependent on the response and duration of the previous treatment. There are additional barriers to RCC treatment in India. Immunotherapy is the cornerstone of treatment in ccRCC, but it is prohibitively expensive and not always reimbursed, effectively putting it out of reach for the vast majority of eligible patients in India. Furthermore, in advanced RCC (particularly the clear cell variety), Indian oncologists consider the disease burden of the patients, which is particularly dependent on the quantum of the disease load, clinical symptoms, and performance status of the patient, before deciding on treatment. There are no India-specific guidelines for clear cell RCC (ccRCC) treatment or the positioning and sequencing of molecules in the management of advanced ccRCC that take these country-specific issues into account. The current consensus article provides expert recommendations and treatment algorithms based on existing clinical evidence, which will be useful to specialists managing advanced ccRCC.

Multidisciplinary bronchopulmonary dysplasia care

INTRODUCTION

Bronchopulmonary dysplasia (BPD) is a chronic respiratory disease in neonates and infants, which often presents with multisystem organ involvement, co-morbidities, and prolonged hospital stays. Therefore, a multidisciplinary chronic care approach is needed in the severest forms of BPD to optimize outcomes. However, this approach can be challenging to implement. The objective of this article is to review and synthesize the available literature regarding multidisciplinary care in infants and children with established BPD, and to provide a framework that can guide clinical practice and future research.

AREAS COVERED

A literature search was conducted using Ovid MEDLINE, CINAHL, and Embase and several components of multidisciplinary management of BPD were identified and reviewed, including chronic care, team development, team members, discharge planning, and outpatient care.

EXPERT OPINION

Establishing a core multidisciplinary group familiar with the chronicity of established BPD is recommended as best practice for this population. Acknowledging this is not feasible for all individual centers, it is important for clinical practice and future research to focus on the development and incorporation of national consulting services, telemedicine, and educational resources.

Interdisciplinary assessment of tracheostomy care knowledge: An opportunity for quality improvement

PURPOSE

A 2013 AAOHNS consensus statement called for reduced variation in tracheostomy care. Multidisciplinary approaches and standardized protocols have been shown to improve tracheostomy outcomes. This study aims to identify inconsistencies in knowledge in order to design standardized education targeting these areas to improve quality of care.

MATERIALS AND METHODS

An online, multiple-choice tracheostomy care knowledge assessment was administered to nurses and respiratory therapists in ICUs, stepdown units, and regular nursing floors, as well as residents in otolaryngology, general surgery, and thoracic surgery. The survey was administered and data were recorded using the Select Survey online platform.

RESULTS

173 nurses, respiratory therapists, and residents participated in this study. Over 75 % of respondents identified correct answers to questions addressing basic tracheostomy care, such as suctioning and humidification. Significant variation was observed in identification and management of tracheostomy emergencies, and appropriate use of speaking valves. Only 47 % of all respondents identified all potential signs of tracheostomy tube displacement. Respiratory therapists with over 20 years of experience (p = 0.001), were more likely to answer correctly than those with less. Nurses were less likely than respiratory therapists to have received standardized tracheostomy education (p = 0.006) and were less likely than others to choose the appropriate scenario for speaking valve use (p = 0.042), highlighting the need for interdisciplinary education.

CONCLUSIONS

An interdisciplinary assessment of tracheostomy care knowledge demonstrates variation, especially in identification and management of tracheostomy emergencies and appropriate use of speaking valves. Design of a standardized educational program targeting these areas is underway.

Evaluating YouTube as a source of patient information for pediatric tracheostomy care

OBJECTIVES

To evaluate YouTube's usefulness as a source of information concerning pediatric tracheostomy care.

MATERIALS AND METHODS

On August 10, 2022, the top 50 YouTube search results for "pediatric tracheostomy care" were displayed. Each video was evaluated by a jury of three otolaryngologists with at least 2 years of professional experience in pediatric otolaryngology using DISCERN, scoring system of Journal of the American Medical Association (JAMA), and the Global Quality Score (GQS).

RESULTS

After exclusion criteria 24 videos were evaluated. Fifteen of the evaluated videos were produced by health professionals, and the other nine videos were produced by independent users. The average duration of the videos were 337.5 s, varying between 82 s and 1364 s. The average Discern score of videos produced by health professionals was 38.9 ± 13, compared to 36.6 ± 14 for independent users. The mean JAMA score was 1.04 ± 0.68 for health professionals and 1.11 ± 0.94 for independent users. The GQS score was 2.82 ± 0.73 for health professionals and 3.19 ± 0.84 for independent users. There was no statistically significant difference between the two groups for Discern, JAMA, and GQS scoring.

CONCLUSION

YouTube does not seem to be a good option for parents to get useful information about pediatric tracheostomy care at this time. Health professionals should provide websites with high-quality materials to improve awareness of pediatric tracheostomy care.

Tracheostomy decannulation in children: a proposal for a structured approach on behalf of the working group chronic respiratory insufficiency within the German-speaking society of pediatric pulmonology

The number of children with tracheostomies with and without home mechanical ventilation has grown continuously in recent years. For some of these children, the need for tracheostomy resolves and the child can be weaned from the tracheal cannula. Choosing the optimal time point for decannulation after elaborated prior diagnostic work-up needs careful consideration. The decannulation process requires an interdisciplinary team; however, these specialized structures for the experienced care of these children with tracheostomy are not available in all areas. The Working Group on Chronic Respiratory Insufficiency in the German Speaking Pediatric Pneumology Society (GPP) developed these recommendations to guide through a decannulation process. Initial evaluation of decannulation feasibility starts in the outpatient clinic with a detailed history, examination, and a speaking valve trial and is followed by an inpatient workup including sleep study, airway endoscopy and possibly modifications of the tracheal cannula. Downsizing the tracheal cannula allows a stepwise controlled weaning prior to removal of the tracheal cannula. After shrinking of the tracheostomy, the final surgical closure is performed.  Conclusion: An algorithm with diagnostic and therapeutic procedures for a safe and successful decannulation process is proposed. What is Known: • In children tracheostomy decannulation is a complex process that requires careful preparation and surveillance. What is New: • This statement of the German speaking society of pediatric pulmonology provides an expert practice guidance on the decannulation procedure and the value of one-way speaking valves.

Accidental Tracheostomy Decannulations in Children-A Prospective Cohort Study of Inpatients

OBJECTIVES

To determine the incidence of tracheostomy accidental decannulations (AD) among pediatric inpatients and identify risks for these events.

STUDY DESIGN

Prospective cohort.

METHODS

All tracheostomy patients (≤18 years) admitted at a tertiary children's hospital between August 2018 and April 2021 were included. AD were recorded and patient harm was classified as no harm/minor, moderate, or severe. Monthly AD incidence was described as events per 1000 tracheostomy-days.

RESULTS

One-hundred seventeen AD occurred among 67 children with 33% (22/67) experiencing multiple events (median: 2.5 events, range: 2-10). Mean age at AD was 4.7 years (SD: 4.4). AD resulted from patient movement (32%, 37/117), performing tracheostomy care (27%, 31/117), repositioning or transporting (15%, 17/117), or unclear reasons (27%, 32/117). A parent or guardian was involved in 28% (33/117) of events. Nearly all AD resulted in no more than minor harm (84%, 98/117) but moderate (12%, 14/117) and severe (4%, 5/117) events did occur. There were no deaths. Tracheostomy care or repositioning were frequently responsible in acute versus subacute events (48% vs. 26%, p = 0.04). Mean monthly AD incidence was 4.7 events per 1000 tracheostomy-days (95% CI: 3.7-5.8) and after implementation of safety initiatives, the mean rate decreased from 5.9 events (95% CI: 4.2-7.7) to 3.7 events (95% CI: 2.5-5.0) per 1000 tracheostomy-days (p = 0.04).

CONCLUSIONS

AD in children occur at nearly 5 events per 1000 tracheostomy-days and often result in minimal harm. Quality initiatives targeting patient movement, provider education, and tracheostomy care might reduce the frequency of these complications.

LEVEL OF EVIDENCE

3 Laryngoscope, 133:963-969, 2023.

Mortality Among Children with a Tracheostomy

OBJECTIVES

To characterize the cause of death among children with a tracheostomy.

STUDY DESIGN

Prospective cohort.

METHODS

All pediatric patients (<18 years) who had a tracheostomy placed at a tertiary care institution between 2015 and 2020 were included. The location and cause of death were recorded along with patient demographics and age.

RESULTS

A total of 271 tracheostomies were placed with 46 mortalities reviewed for a mortality rate of 16.8%. Mean age at placement was 1.7 years (SD: 3.4) and mean age at death was 2.9 years (SD: 3.5). Most tracheostomies were placed for respiratory failure (N = 33, 72%). The mean time to death after tracheostomy was 1.2 years (SD: 1.2) and 28% (N = 13) occurred during the same admission as placement. Mean time to death after hospital discharge was 1.3 years (SD: 1.3). Etiology of death was respiratory failure (33%, N = 15), cardiopulmonary arrest (15%, N = 7), unknown (43%, N = 20), or secondary to a tracheostomy-related complication for 9% (N = 4). Location of death was in intensive care units for 41% (N = 19) and 30% died at home (N = 14). Comfort care measures were taken for 37% (N = 17). Severe neurological disability (HR: 4.06, p = 0.003, 95% CI: 1.59-10.34) and congenital heart disease (HR: 2.36, p = 0.009, 95% CI: 1.24-4.48) correlated with time to death on Cox proportional hazard modeling.

CONCLUSIONS

Nearly one-third of children with a tracheostomy who expire will do so during the same admission as tracheostomy placement. Although progression of underlying disease will lead to most deaths, 9% will be a result of a tracheostomy-related complication, which represents a meaningful target for quality improvement initiatives.

LEVEL OF EVIDENCE

3 Laryngoscope, 133:403-409, 2023.

Development of a Pictorial Patient Education Handout on Tracheostomy Care: A Mixed-Method Study

This article describes a qualitative and quantitative approach to the development and iterative revision process of producing valid, user-friendly pictorial patient education handouts (infographics) on tracheostomy care. An iterative user-centered design with health professional, patient, and family caregiver panels was used. The authors first developed a new evaluation tool for pictorial education handouts, the Perceived Infographics Usability Measurement (PIUM). The patient education handout, consisting of three A3-size posters with illustrations on key steps of daily tracheostomy care, reached a high consensus among health professional experts (88.3%) and patients and family caregivers (89.1%) on PIUM usability indexes. Patients and family caregivers expressed that the patient education handout would be an understandable teaching tool and procedure reminder, which would help alleviate fears about tracheostomy care. The PIUM demonstrated satisfactory content validity and reliability properties and was a quality tool to guide the transformation of text-based content to a pictorial patient education handout.

Impact of intraoperative wound dressing on post-tracheostomy pressure injuries

OBJECTIVE

Determine the efficacy of a team-based approach to reduce tracheostomy-related skin breakdown by creating a standardized intraoperative dressing and nursing wound care protocol.

METHODS

Prospective data collection of pediatric tracheostomy outcomes before and after interventions consisting of intraoperative wound dressing and standardized nursing wound care bundles.

RESULTS

Before intervention, the incidence of skin breakdown within the first-week post-tracheostomy was 52% (13/25). Among patients who received an intraoperative wound dressing and nursing wound care bundles, the incidence of skin breakdown was reduced to 6.1% (3/49).

CONCLUSION

The adoption of intraoperative wound dressings and nursing wound care bundles has nearly eliminated the incidence of skin breakdown in the first week post-tracheostomy among patients 0-12 years of age.

Chronic tracheostomy care of ventilator-dependent and -independent children: Clinical practice patterns of pediatric respirologists in a publicly funded (Canadian) healthcare system

OBJECTIVES

To describe the current clinical practice patterns of Canadian pediatric respirologists at pediatric tertiary care institutions regarding chronic tracheostomy tube care and management of home invasive ventilation.

METHODS

A pediatric respirologist/pediatrician with expertise in tracheostomy tube care and home ventilation was identified at each Canadian pediatric tertiary care center to complete a 59-item survey of multiple choice and short answer questions. Domains assessed included tracheostomy tube care, caregiver competency and home monitoring, speaking valves, medical management of tracheostomy complications, decannulation, and long-term follow-up.

RESULTS

The response rate was 100% (17/17) with all Canadian tertiary care pediatric centers represented and heterogeneity of practice was observed in all domains assessed. For example, though most centers employ Bivona™ (17/17) and Shiley™ (15/17) tracheostomy tubes, variability was observed around tube change, re-use, and cleaning practices. Most centers require two trained caregivers (14/17) and recommend 24/7 eyes on care and oxygen saturation monitoring. Discharge with an emergency tracheostomy kit was universal (17/17). Considerable heterogeneity was observed in the timing and use of speaking valves and speech-language assessment. Inhaled anti-pseudomonal antibiotics are employed by most centers (16/17) though the indication, agent, and protocol varied by center. Though decannulation practices varied considerably, the requirement of upper airway patency was universally required to proceed with decannulation (17/17) independent of ongoing ventilatory support requirements.

CONCLUSION

Considerable variability in pediatric tracheostomy tube care practice exists across Canada. These results will serve as a starting point to standardize and evaluate tracheostomy tube care nationally.

Early postoperative complications following tracheotomy: Does suturing technique influence outcomes?

Introduction

Tracheotomy is one of the most commonly performed procedure by otolaryngologists, but no consensus exists on the effect of suturing techniques on postoperative complications. Stay sutures and Bjork flaps are utilized frequently for securing the tracheal incision to the neck skin in order to create a tract for recannulation.

Methods

Retrospective cohort study of tracheotomies performed by Otolaryngology-Head and Neck Surgery providers (May 2014 to August 2020) was conducted to determine the effect of suturing technique on postoperative complications and patient outcomes. Patient demographics, medical comorbidities, indication for tracheostomy, and postoperative complications were analyzed with a statistical alpha set of .05.

Results

Out of 1395 total tracheostomies performed at our institution during the study period, 518 met inclusion criteria for this study. Three hundred and seventeen tracheostomies were secured by utilizing a Bjork flap, while 201 were secured with up and down stay sutures. Neither technique was noted to be more commonly associated with tracheal bleeding, infection, mucus plugging, pneumothorax, or false passage of the tracheostomy tube. One mortality was noted following decannulation during the study period.

Conclusion

Though various techniques exist; adverse outcomes are not associated with the manner in which a new tracheostomy stoma is secured. Medical comorbidities and the indications for tracheostomy likely play a more significant role in postoperative outcomes and complications.

Level of evidence

Level 3.