Percutaneous tracheostomy: a comprehensive review

Role of interventional pulmonology in intensive care units: A scoping review

Interventional pulmonology (IP) represents a rapidly growing and developing subspecialty within pulmonary medicine. To the intensivist, given the elaborate undertakings with respect to airway, lung and pleural disease management-IP has shown an increasing presence and remain a major ally in the care of these patients. Thus, an understanding of the different roles that IP could offer to the intensivist is of prime importance in the multi-disciplinary care of the complex patients within the intensive care units, particularly in relation to lung, airway and pleural diseases. This review article will explore the different intersections of IP in critical care and discuss the applications of this discipline within the highly complex critical care environment.

Real-time ultrasound-guided laryngeal mask assisted percutaneous dilatational tracheostomy versus bronchoscopy-guided percutaneous dilatational tracheostomy in critically ill patients: a randomized controlled trial

BACKGROUND

Percutaneous dilatational tracheostomy (PDT) is a common procedure for mechanically ventilated patients in the intensive care unit (ICU). This study compared the real-time ultrasound-guided PDT using a laryngeal mask airway (LMA) with the standard bronchoscopy-guided PDT technique in ICU patients requiring elective tracheostomy.

METHODS

This randomized controlled study was conducted at Ain Shams University Hospital's Critical Care Department from December 4th, 2021, to December 3rd, 2022. The study population included 60 critically ill patients admitted to the ICU. Thirty patients were randomly assigned to the real-time ultrasound-guided LMA-assisted group, and 30 patients were randomly assigned to the bronchoscopy-guided technique. The primary study outcome was the procedure time, and the secondary outcomes included procedure-related complications rate and cost-effectiveness.

RESULTS

The real-time ultrasound-guided LMA-assisted group had significantly shorter procedure time (median 17 [IQR: 15-20] min vs. 35 [IQR: 28-39] min, p < 0.001) and lower equipment damage (0% vs. 20%, p = 0.024) during the procedure compared to the bronchoscopy-guided group. Additionally, the cost of tracheostomy was significantly lower in the real-time ultrasound-guided LMA-assisted group (median: 300 vs. 800 USD, p < 0.001). The real-time ultrasound-guided LMA group had a lower major complications rate than the bronchoscopy-guided group (36.7%) vs. 3.3%, p = 0.002).

CONCLUSIONS

The study demonstrated that real-time ultrasound-guided LMA-assisted PDT had shorter procedure time, reduced equipment damage, lower costs, and was associated with lower complications when compared to the bronchoscopy-guided technique. These findings suggest that ultrasound guidance can enhance the efficiency and cost-effectiveness of PDT procedures.

Safety and Efficacy of Rigid Bronchoscopy-guided Percutaneous Dilational Tracheostomy: A Single-center Experience

BACKGROUND

Percutaneous dilational tracheostomy (PDT) is commonly performed by a broad spectrum of practitioners. Aside from relative contraindications such as morbid obesity, coagulopathy, and complex airway anatomy, it is preferred over surgical tracheostomy in the critically ill. Rigid bronchoscopy-guided (RBG) PDT provides a secure airway, allows for unobstructed ventilation, protects the posterior membrane from puncture, and increases suction capacity.

METHODS

This is a retrospective case series of patients who underwent RBG-PDT from 2008 to 2023 at Beth Israel Deaconess Medical Center. Electronic medical records were reviewed for preprocedural demographic data, procedural events, and postprocedural outcomes.

RESULTS

A total of 104 patients underwent RBG-PDT over a 15-year period. Median patient age was 61.95 (95% CI: 59.00-64.90), median BMI was 30.25 kg/m2 (IQR, 23.6 to 37.2) with 41.9% (32.5% to 51.3%) of patients included having a BMI over 30 kg/m2. PDT placement occurred in a mean of 13.7 days after intubation, with 70% due to prolonged mechanical ventilation resulting from ongoing respiratory failure. In all, 51.0% of patients had at least one increased bleeding risk factor, with an increased aPTT >36 seconds being the most common (36.5%). In all, 26.9% of patients underwent tracheostomy with ongoing therapeutic anticoagulation with heparin. In total, 60.6% of patients received concomitant percutaneous endoscopic gastrostomy (PEG) tube placement. No cases of pneumothorax or loss of the airway at the time of exchange of the endotracheal tube for rigid tracheoscopy were reported.

CONCLUSION

RBG-PDT is a safe and effective procedure extending the patient population appropriate for PDT when performed by an experienced Interventional Pulmonology team.

Minimally-invasive tracheostomy (MIT): A care bundle for safety improvement in high-risk critically ill patients

BACKGROUND

Detailed reports are scarce on minimally-invasive tracheostomy (MIT) techniques for critically ill patients with challenging anatomy or complex coagulopathies. In such high-risk patients, conventional percutaneous dilatational tracheostomy (PDT) may lead to severe complications.

METHODS

Aiming to broaden the scope of MIT for patients previously excluded due to high risks, we developed a new care bundle (MIT technique), specifically designed for intensive care specialists. Our study examined the outcomes of MIT in 32 high-risk patients treated in an ICU of a University Hospital with specific focus on gastrointestinal and liver diseases.

RESULTS

We have modified the conventional PDT technique by incorporating an initial skin incision, blunt dissection, diaphanoscopy-guided probe puncture, and continuous bronchoscopic monitoring. Our care bundle also introduces an anterolateral approach for tracheal entry, a significant advancement for patients with complex neck anatomy or dense vasculature, where an anterolateral trajectory avoids midline blood vessels. This enhanced method has proven to be safer than traditional PDT, with a notable absence of post-procedural hemorrhages, cannula misplacements, or infections.

CONCLUSION

The use of our refined care bundle enabled swift minimally-invasive tracheostomy in high-risk patients without the occurrence of serious complications.

Reducing Tracheostomy-Related Acquired Pressure Injury by Flipping the Ventilator Circuit Position Study

BACKGROUND

Tracheostomy-related acquired pressure injuries (TRPIs) are one of the hospital-acquired conditions. We hypothesize that an uneven ventilator circuit load, leading to non-neutral tracheostomy tube positioning in the immediate post-tracheostomy period, leads to an increased incidence of TRPIs. Does switching the ventilator circuit load daily, in addition to standard post-tracheostomy care, lead to a decreased incidence of TRPIs?

METHODS

This is a prospective quality improvement study. Study was conducted at two academic hospital sites within tertiary care hospitals at Emory University in different ICUs. Consecutive patients undergoing bedside percutaneous tracheostomy by the interventional pulmonary service were included. The flip the ventilator circuit (FLIC) protocol was designed and implemented in selected ICUs, with other ICUs as controls.

RESULTS

Incidence of TRPI in intervention and control group were recorded at post-tracheostomy day 5. A total of 99 patients were included from October 22, 2019, to May 22, 2020. Overall, the total incidence of any TRPI was 23% at post-tracheostomy day 5. Incidence of stage I, stage II, and stages III-IV TRPIs at postoperative day 5 was 11%, 12%, and 0%, respectively. There was a decrease in the rate of skin breakdown in patients following the FLIC protocol when compared with standard of care (13% vs. 36%; p = 0.01). In a multivariable analysis, interventional group had decreased odds of developing TRPI (odds ratio, 0.32; 95% CI, 0.11-0.92; p = 0.03) after adjusting for age, albumin, body mass index, diabetes mellitus, and days in hospital before tracheostomy.

CONCLUSIONS

The incidence of TRPIs within the first week following percutaneous tracheostomy is high. Switching the side of the ventilator circuit to evenly distribute load, in addition to standard bundled tracheostomy care, may decrease the overall incidence of TRPIs.

The COVID-19 Tracheostomy Experience at a Large Academic Medical Center in New York during the First Year

Background: New York City was the epicenter of the initial surge of the COVID-19 pandemic in the United States. Tracheostomy is a critical procedure in the care of patients with COVID-19. We hypothesized that early tracheostomy would decrease the length of time on sedation, time on mechanical ventilation, intensive care unit length of stay, and mortality. Methods: A retrospective analysis of outcomes for all patients with COVID-19 who underwent tracheostomy during the first year of the COVID-19 pandemic at the Mount Sinai Hospital in New York City, New York. All adult intensive care units at the Mount Sinai Hospital, New York. Patients/subjects: 888 patients admitted to intensive care with COVID-19. Results: All patients admitted to the intensive care unit with COVID-19 (888) from 1 March 2020 to 1 March 2021 were analyzed and separated further into those intubated (544) and those requiring tracheostomy (177). Of those receiving tracheostomy, outcomes were analyzed for early (≤12 days) or late (>12 days) tracheostomy. Demographics, medical history, laboratory values, type of oxygen and ventilatory support, and clinical outcomes were recorded and analyzed. Conclusions: Early tracheostomy resulted in reduced duration of mechanical ventilation, reduced hospital length of stay, and reduced intensive care unit length of stay in patients admitted to the intensive care unit with COVID-19. There was no effect on overall mortality.

A Surgical Audit of Tracheostomy

To study the magnitude of tracheostomy, its various indications and complications. Prospective Observational Study. A Prospective Observational study was carried out on 640 patients with various indications of tracheostomy admitted in ENT or referred from other departments for tracheostomy from July 2015 to March 2022. The epidemiological data regarding their age, sex, symptoms, indication and complications of tracheostomy were recorded. Necessary interventions were done as and when required. Patients ranged from 6 months to 86 yrs. Assisted ventilation was the most common indications for tracheostomy (68.125%, n = 436). The most common complication was subcutaneous emphysema (10.625%, n = 68) followed by tube displacement (5.625%, n = 36. The complication rate was 21.25% and the mortality rate 4.375% (n = 28) with specific mortality rate 0.625% (n = 4). Tracheostomy is one of the commonest surgeries. Data was collected from this study on the various indications of tracheostomy, the epidemiological factors and various complications associated with tracheostomy. Such a data is useful to learn from the mistakes and carry forward the virtouosity.

Tracheotomy versus tracheostomy, the need for lexicographical clarification

In the healthcare field, the terms "traqueotomía" and "traqueostomía" are frequently used, often leading to confusion among professionals regarding the appropriate definition for each term or which one should be considered more correct in specific cases. A search was conducted for the terms "traqueotomía" and "traqueostomía" in general Spanish-language dictionaries such as the Dictionary of the Royal Spanish Academy (DRAE) and the Historical Dictionary of the Spanish Language of the Royal Spanish Academy (DHLE), as well as for the English terms "tracheotomy" and "tracheostomy" in English general dictionaries like the Oxford Dictionary, the Cambridge Dictionary, and the Collins English Dictionary. Additionally, searches were performed in medical dictionaries in both Spanish, specifically the Dictionary of Medical Terms of the National Academy of Medicine (DTM), and English, including the Farlex Dictionary. The terms were also explored using the Google search engine. Definitions were analyzed from both lexicographical and etymological perspectives. Definitions found in general dictionaries, in both Spanish and English, were found to be imprecise, limited, and ambiguous, as they mixed outdated indications with criteria that deviated from etymology. In contrast, definitions in medical dictionaries in both languages were more aligned with etymology. "Traqueotomía" strictly identifies the surgical procedure of creating an opening in the anterior face of the trachea. "Traqueostomía" identifies the creation of an opening that connects the trachea to the exterior, involving a modification of the upper airway by providing an additional entry for the respiratory pathway. "Traqueostomía" becomes the sole means of entry to the airway in total laryngectomies. Both terms can be used synonymously when a traqueotomía culminates in a traqueostomía. However, it is not appropriate to use the term "traqueostomía" when the procedure concludes with the closure of the planes and does not result in the creation of a stoma. Traqueostomas can be qualified with adjectives indicating permanence (temporary/permanent), size (large/small), shape (round/elliptical), or depth, without being linked to any specific disease or surgical indication. Not all permanent traqueostomas are the result of total laryngectomies, and they do not necessarily have an irreversible character systematically.

Percutaneous tracheostomy in the pediatric population: A systematic review

OBJECTIVE

Percutaneous tracheostomy is routinely performed in adult patients but is seldomly used in the pediatric population due to concerns regarding safety and limited available evidence. This study aims to consolidate the current literature on percutaneous tracheostomy in the pediatric population.

METHODS

A systematic review following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines was conducted. MEDLINE, EMBASE, CINAHL, and Web of Science were searched for studies on pediatric percutaneous tracheostomy (age ≤18). The Joanna Briggs Institute and ROBINS-I tools were used for quality appraisal.

RESULTS

Twenty-one articles were included resulting in 143 patients. Patient age ranged from 2 days to 17 years, with the largest subpopulation of patients (n = 57, 40 %) being adolescents (age between 12 and 17 years old). Main indications for percutaneous tracheostomy included prolonged ventilation (n = 6), respiratory insufficiency (n = 5), and upper airway obstruction (n = 5). One-third (n = 47) of percutaneous tracheostomies were completed at the bedside in an intensive care unit. Select studies reported on surgical time and time from intubation to tracheostomy with a mean of 13.8 (SD = 7.8) minutes (n = 27) and 8.9 (SD = 2.8) days (n = 35), respectively. Major postoperative complications included tracheoesophageal fistula (n = 4, 2.8 %) and pneumothorax (n = 3, 2.1 %). There were four conversions to open tracheostomy.

CONCLUSION

Percutaneous tracheostomy had a similar risk of complications to open surgical tracheostomy in children and adolescents and can be performed at the bedside in a select group of patients if necessary. However, we feel that consideration must be given to the varying anatomical considerations in children and adolescents compared with adults, and therefore suggest that this procedure be reserved for adolescent patients with a thin body habitus and clearly demarcated and palpable anatomical landmarks who require a tracheostomy. When performed, we strongly support using endoscopic guidance and a surgeon who has the ability to convert to an open tracheostomy if required.

Comparison of Mechanical Forces used in Open Tracheotomy versus Percutaneous Tracheotomy Techniques

OBJECTIVE

To understand the etiology of tracheotomy-induced tracheal stenosis by comparing the differences in techniques and mechanical force applied with open tracheotomy (OT) versus percutaneous tracheotomy (PCT) placement.

METHODS

This study is an unblinded, experimental, randomized controlled study in an ex-vivo animal model. Simulated tracheostomies were performed on 10 porcine tracheas, 5 via a tracheal window technique (OT) and 5 using the Ciaglia technique (PCT). The applied weight during the simulated tracheostomy and the compression of the trachea were recorded at set times during the procedure. The applied weight during tracheostomy was used to calculate the tissue force in Newtons. Tracheal compression was measured by anterior-posterior distance compression and as percent change.

RESULTS

Average forces for scalpel (OT) versus trocar (PCT) were 2.6 N and 12.5 N (p < 0.01), with the dilator (PCT) it was 22.02 N (p < 0.01). The tracheostomy placement with OT required an average force of 10.7 N versus 23.2 N (p < 0.01) with PCT. The average change in AP distance when using the scalpel versus trocar was 21%, and 44% (p < 0.01), with the dilator it was 75% (p < 0.01). The trach placement with OT versus PCT had an average AP distance change of 51% and 83% respectively (p < 0.01).

CONCLUSION

This study demonstrated that PCT required more force and caused more tracheal lumen compression when compared to the OT technique. Based on the increased force required for PCT, we suspect there could also be an increased risk for tracheal cartilage trauma.

LEVEL OF EVIDENCE

NA Laryngoscope, 134:103-107, 2024.

Does Cuff Design Impact Insertion and Removal Force of Tracheostomy Tubes? A Bench Model

INTRODUCTION

Percutaneous dilatational tracheostomy is a commonly performed procedure in intensive care units. Unrecognized tracheal ring fracture has been suggested as a possible factor for tracheal stenosis. The degree of tracheal compression relates to the amount of force required to cannulate the trachea. The objective of this study was to determine the force required to insert two types of tracheostomy tubes with different cuff designs.

MATERIALS AND METHODS

This bench model measured the insertion and removal force of two tracheostomy tubes; one with a barrel-shaped, high-volume, low-pressure cuff (traditional Shiley tracheostomy tube) and another with a taper-shaped, low-volume, low-pressure cuff (Shiley flexible tracheostomy tube). Three sizes of tracheostomy tubes either with a barrel- or taper-shaped cuff were tested (Jackson sizes 4, 6, and 10, corresponding to 6.5-, 7.5-, and 10-mm ISO sizes, respectively). A model representing the tissue that the tube traverses to enter the tracheal lumen was designed, and the tracheostomy tube was mounted on a universal testing machine to measure the force necessary to insert and remove the tube.

RESULTS

Across all tracheostomy tubes' sizes tested, significantly less force was required to insert the Shiley flexible tracheostomy tube compared to the traditional Shiley tracheostomy tube. Significantly less force was also required to remove the flexible tracheostomy tube compared to the traditional tracheostomy tube.

CONCLUSIONS

This model suggests that less force is required to insert the Shiley flexible tracheostomy tube, which could result in less tracheal compression. This may be because of the smaller taper-shaped cuff that, when deflated, occupies less volume compared to the barrel-shaped cuff. As a result, less tracheal injury may occur when using the Shiley flexible tracheostomy tube during percutaneous tracheostomy procedures.

Foreign Body Misdiagnosed as Mucus Plugging After Percutaneous Tracheostomy

We report a case of a 59-year-old male who presented with a persistent cough for a year after being discharged from critical care following a subarachnoid haemorrhage. As part of his initial critical care management and in order to allow full neurological assessment, the patient required a period of prolonged mechanical ventilation, which necessitated a percutaneous tracheostomy. Following recovery and subsequent discharge, the patient presented on multiple occasions with cough, undergoing serial computed tomography (CT) scans which reported mucus plugging as a possible cause of the cough. As his symptoms continued to worsen, a flexible bronchoscopy was carried out, which identified a foreign body in the trachea. This object was later recognised as a retained part of the guiding catheter, part of the percutaneous tracheostomy tube dilator. After the object was retrieved, the patient reported a complete resolution of symptoms. Percutaneous tracheostomy is a common procedure within critical care units, and early complications such as bleeding or airway obstruction are typically recognised immediately after insertion. This report documents a late complication caused by the retention of a foreign object from insertion, which was misdiagnosed on serial CT scans, leading to persistent cough over a period of months.

A Retrospective Review of 589 Percutaneous Tracheostomies in a Canadian Community Teaching Hospital

OBJECTIVE

The primary objective of this study was to review the complication rate of percutaneous tracheostomies performed by a single surgeon in a community teaching hospital.

METHODS

This retrospective study reviewed the patients who underwent percutaneous tracheostomy with bronchoscopic guidance in a community hospital setting between 2009 and 2017. Patients older than the age of 18 requiring percutaneous tracheostomy were chosen for this retrospective study. Patients who were medically unstable, had no palpable neck landmarks, and inadequate neck extension were excluded. Indications for percutaneous tracheostomy included patients who had failed to wean from mechanical ventilation, required pulmonary toileting, or in whom airway protection was required.

RESULTS

Of the 600 patients who received percutaneous tracheostomy, 589 patients were included in the study. Intraoperative complication (2.6%) and postoperative complication rates (11.4%) compared similarly to literature reported rates. The most common intraoperative complications were bleeding, technical difficulties, and accidental extubation. Bleeding, tube obstruction, and infection were the most common postoperative complications. Overall burden of comorbidity, defined by Charlson Comorbidity Index, and coagulopathy were also found to be associated with higher complication rates. The decannulation rate at discharge was 46.3%.

CONCLUSION

Percutaneous tracheostomy is a safe alternative to open tracheostomies in the community setting for appropriately selected patients.

Early Evaluation of a New French Surgery Course in the Best Practice of Dealing With Major Incidents and Mass Casualty Events

OBJECTIVE

The main objective of this study is to evaluate the impact of a nationwide 5-month course aimed to prepare surgeons for Major Incidents through the acquisition of key knowledge and competencies. Learners' satisfaction was also measured as a secondary objective.

DESIGN

This course was evaluated thanks to various teaching efficacy metrics, mainly based on Kirkpatrick's hierarchy in medical education. Gain in knowledge of participants was evaluated by multiple-choice tests. Self-reported confidence was measured with 2 detailed pre and post training questionnaires.

SETTING

Creation in 2020 of a nationwide, optional and comprehensive Surgical Training in War and Disaster Situation as part of the French surgery residency program. In 2021, data was gathered regarding the impact of the course on participants' knowledge and competencies.

PARTICIPANTS

The study included 26 students in the 2021 cohort (13 residents and 13 practitioners).

RESULTS

Mean scores were significantly higher in the post-test compared to the pre-test, showing significant increase in participants' knowledge during the course: 73,3% vs. 47,3% respectively (p ≤ 0.001). Average learners' confidence scores to perform technical procedures showed at least a +1-point increase on the Likert scale for 65% of items tested (p ≤ 0.001). 89% of items showed at least a +1-point increase on the Likert scale when it came to average learners' confidence score on dealing with complicated situations (p ≤ 0.001). Our post-training satisfaction survey showed that 92% of all participants have noticed the impact of the course on their daily practice.

CONCLUSION

Our study shows that the third level of Kirkpatrick's hierarchy in medical education was reached. This course therefore appears to be meeting the objectives set by the Ministry of Health. Being only 2 years old, it is on the road to gathering momentum and further development.

Percutaneous tracheostomy: Comparison of three different methods with respect to tracheal cartilage injury in cadavers—Randomized controlled study

Background: Performing tracheostomy improves patient comfort and success rate of weaning from prolonged invasive mechanical ventilation. Data suggest that patients have more benefit of percutaneous technique than the surgical procedure, however, there is no consensus on the percutaneous method of choice regarding severe complications such as late tracheal stenosis. Aim of this study was comparing incidences of cartilage injury caused by different percutaneous dilatation techniques (PDT), including Single Dilator, Griggs’ and modified (bidirectional) Griggs’ method.

Materials and methods: Randomized observational study was conducted on 150 cadavers underwent post-mortem percutaneous tracheostomy. Data of cadavers including age, gender and time elapsed from death until the intervention (more or less than 72 h) were collected and recorded. Primary and secondary outcomes were: rate of cartilage injury and cannula malposition respectively.

Results: Statistical analysis revealed that method of intervention was significantly associated with occurrence of cartilage injury, as comparing either standard Griggs’ with Single Dilator (p = 0.002; OR: 4.903; 95% CI: 1.834–13.105) or modified Griggs’ with Single Dilator (p &lt; 0.001; OR: 6.559; 95% CI: 2.472–17.404), however, no statistical difference was observed between standard and modified Griggs’ techniques (p = 0.583; OR: 0.748; 95% CI: 0.347–1.610). We found no statistical difference in the occurrence of cartilage injury between the early- and late post-mortem group (p = 0.630). Neither gender (p = 0.913), nor age (p = 0.529) influenced the rate of cartilage fracture. There was no statistical difference between the applied PDT techniques regarding the cannula misplacement/malposition.

Conclusion: In this cadaver study both standard and modified Griggs’ forceps dilatational methods were safer than Single dilator in respect of cartilage injury.

Percutaneous tracheostomy in the ICU: a review of the literature and recent updates

PURPOSE OF REVIEW

The following article summarizes the current available knowledge regarding tracheostomy techniques, indications, contraindications, procedure timing, use of assisted technologies and tracheostomy feasibility and safety in high-risk populations. In light of the ongoing corona virus disease (COVID-19) pandemic, a focus was placed on tracheostomy in this unique patient group.

RECENT FINDINGS

Percutaneous dilatation tracheostomy (PDT) is commonly used in the ICU setting. It has been shown to be well tolerated and feasible in a diverse patient population including those regarded to be at high risk such as the obese, coagulopathic and acute respiratory failure patient. This patient profile presented itself frequently in the recent COVID-19 pandemic. Indeed studies showed that PDT is well tolerated in COVID-19 ICU patients leading to reduced ICU length of stay (LOS), decrease in ventilator-associated pneumonia rate (VAP) and reduced duration on invasive mechanical ventilation (IMV). Despite initial concerns, virus transmission from patient to healthcare provider (HCP) was shown to be negligible when proper precautions are taken.

SUMMARY

Bedside PDT in the ICU is a well tolerated procedure having the potential to benefit both the individual patient as well as to improve resource utilization of the healthcare system.

Reducing Tracheostomy Medical Device-Related Pressure Injury: A Quality Improvement Project

OBJECTIVE

To reduce the incidence of medical device-related pressure injuries associated with tracheostomies performed with the percutaneous dilation technique using a standardized multidisciplinary intervention.

METHODS

The intervention was developed using the Agency for Healthcare Research and Quality Preventing Pressure Injuries Toolkit. A fenestrated polyurethane foam dressing was sutured in place under the tracheostomy flange during insertion to reduce the risk of medical device-related pressure injuries. The sutures were removed in pairs over a period of 7 to 10 days.

RESULTS

Comparison of data from 2018 to 2021 demonstrated a decrease in the incidence of tracheostomy medical device-related pressure injuries from 13% to 0% in the first year, which was maintained for the following 3 years. This improvement was supported by electronic medical record audits, daily interdisciplinary rounds, weekly practice assessments, and primary nurse evaluations.

CONCLUSION

Implementation of a standardized process, supported by an interdisciplinary clinical team, can reduce medical device-related pressure injuries among patients undergoing percutaneous dilation tracheostomy.

A Cohort Study of the Surgical Risks and Prediction of Complications in Surgical Tracheostomies

BACKGROUND

Current protocols favor percutaneous tracheostomies over open procedures. We analyzed the effects of this conversion from the open approach to the percutaneous procedure in terms of relevant clinical status, complications, and mortality in surgical open tracheostomies. Relevant laboratory and clinical parameters, potentially associated with complications, were also examined.

MAIN OUTCOME MEASURES

Comparison of clinical, laboratory data and outcome of surgical tracheostomy during the two eras. Investigate potential pertinent predictive parameters associated with complications.

METHODS

A single center retrospective case series of consecutive patients who underwent surgical tracheostomy between the years 2006-2009 ("early era") and 2016-2020 ("late era").

RESULTS

The study included 304 patients, 160 in the "early" and 144 in the "late" era. Despite a 78% increase in patient volume in the intensive care units, there was a 55% decrease in surgical tracheostomy during the "late era". Significantly more patients with structural deformities (p < 0.001), insulin dependent diabetes mellitus (p = 0.004), extreme (high and low) body weight (p = 0.006), anemia (p < 0.001) and coagulation disorders (p < 0.001), were referred for an open tracheostomy during the "late era". The complication rate was significantly higher during the "late era" (11.7 vs. 2.5%, OR 6.09 CI 95% [1.91-19.39], p = 0.001). Diabetes mellitus (p = 0.005), anemia (p = 0.033), malnutrition (p = 0.017), thrombocytopenia (p = 0.002) and poor renal function, (p = 0.008), were all significantly associated with higher complication rates.

CONCLUSIONS

Risk assessment and training programs must reflect the decrease in surgical volume of open tracheostomies and consequently reduced experience. The increase of a patient subset characterized by pertinent comorbidities should reflect this change.

Portable electronic bronchoscopy for clinical application: a multi-institutional randomized instrument validation study

OBJECTIVE

Electronic bronchoscopy is routinely used for the diagnosis and treatment of lung and bronchial disorders. However, the devices used are normally large and costly. Here, we evaluated the clinical effectiveness of a portable electronic bronchoscope produced by Zhejiang UE Medical Corp., the UE-EB.

METHODS

We conducted a multi-institutional, randomized, single-blind, non-inferiority and parallel-group controlled clinical trial. Participants were randomly assigned 1:1 to the experimental group or control group. The primary indicator was the effectiveness of the device. Safety indicators were assessed from enrollment to 3 days after the operation.

RESULTS

The UE-EB had good consistency between groups during the procedure, and the effective rate was 100.00% in both groups. The difference value (95% confidence interval) between the two groups was 0.00% (-5.45%, 5.45%), and the lower limit was greater than -10% (negative non-inferiority margin). There was also no difference between the two groups in terms safety indicators.

CONCLUSIONS

The portable electronic bronchoscope described in this study showed reliable effectiveness and safety. This device is worth promoting and applying in clinical practice.Research registry number: ZXLB20200295 (Zhejiang Medical Products Administration, China).

The Practice, Outcome and Complications of Tracheostomy in Traumatic Brain Injury Patients in a Neurosurgical Intensive Care Unit: Surgical versus Percutaneous Tracheostomy and Early versus Late Tracheostomy

BACKGROUND

The tracheostomy procedure is commonly required to wean patients off the severe traumatic brain injury (TBI). This study aimed to determine the practice, outcome and complications of two techniques: i) surgical tracheostomy (ST) versus percutaneous tracheostomy (PT) and ii) two different times of procedure: early tracheostomy (ET) versus late tracheostomy (LT).

METHODS

This was a retrospective, cross-sectional study conducted from 1 January 2013 until 31 December 2017, involving 268 severe TBI patients who required tracheostomy during neurosurgical intensive care unit (Neuro-ICU) management. The data were obtained from their medical records.

RESULTS

When based on techniques, PT displayed a significantly shorter day of tracheostomy plan (7.0 [2.5] versus 8.3 [2.6] days; P < 0.001); day of execution (7.2 [2.6] versus 8.6 [2.9] days; P < 0.001); duration of mechanical ventilation (9.8 [3.4] versus 11.3 [3.1] days; P < 0.001) and duration of ICU stay (12.3 [3.7] versus 13.8 [3.5] days; P < 0.003) than ST. If based on timing, ET showed a significantly shorter duration of mechanical ventilation (8.8 [2.1] versus 12.9 [2.9] days; P < 0.001), length of ICU stay (11.4 [2.4] versus 15.2 [3.5] days; P < 0.001) and length of hospital stay (17.1 [3.2] versus 20.0 [4.0] days; P < 0.001) than LT.

CONCLUSION

PT showed a shorter mechanical ventilation and ICU stay duration than ST. In comparison, ET showed shorter mechanical ventilation, ICU stay and hospital stay duration than LT.

“The role of a negative pressure ventilator coupled with oxygen helmet against COVID-19: a review”

Background

The coronavirus (SARS-COV-2) pandemic has provoked the global healthcare industry by potentially affecting more than 20 14 million people across the globe, causing lasting damage to the lungs, notably pneumonia, ARDS (acute respiratory distress 15 syndrome), and sepsis with the rapid spread of infection. To aid the functioning of the lungs and to maintain the blood oxygen 16 saturation (SpO₂) in coronavirus patients, ventilator assistance is required.

Materials and methods

The main purpose of this article is to outline the need 17 for the introduction of a non-invasive negative pressure ventilator (NINPV) as a promising alternative to positive pressure 18 ventilator (PPV) by elucidating the cons of non-invasive ventilators in clinical conditions like ARDS. Another motive is to 19 profoundly diminish the rate of infection spread by the employment of oxygen helmets, instead of endotracheal intubation in 20 invasive positive pressure ventilator (IPPV) or non-invasive positive pressure ventilator (NIPPV) like face masks and high-flow 21 nasal cannula (HFNC).

Result and conclusion

The integration of oxygen helmet with NPV would result in a number of notable facets including the 22 degree of comfort delivered to patients who are exposed to various ventilator-induced lung injuries (VILI) in the forms of 23 atelectasis, barotrauma, etc. Likewise, preventing the aerosol-generating procedures (AGP) diminishes the rate of nosocomial 24 infections and providing a better environment to both the patients and the healthcare professionals.

Incidence and determinants of malpositioning tracheostomy tubes in critically ill adult patients

Tracheostomy tubes are chosen primarily based on their internal diameter; however, the length of the tube may also be important. We performed a prospective clinical audit of 30 critically ill patients following tracheostomy to identify the type of tracheostomy tube inserted, the incidence of malpositioning and the factors associated with the need to change the tracheostomy tube subsequently. Anthropometric neck measurements, distance between the skin and tracheal rings and the position of the tracheostomy cuff relative to the tracheal stoma were recorded and analysed. Malpositioning of the tracheostomy tube was noted in 20%, with a high riding cuff being the most common cause of malpositioning, resulting in an audible leak and a need to change the tracheostomy tube subsequently. A high riding cuff was more common when a small tracheostomy tube (e.g. Portex (Smiths Medical Australasia, Macquarie Park, NSW) ≤8.0 mm internal diameter with length <7.5 cm) was used, with risk further increased when the patient's skin to trachea depth was greater than 0.8 cm. Identifying a high riding cuff relative to the tracheal stoma confirmed by a translaryngeal bronchoscopy strongly predicted the risk of air leak and the need to change the tracheostomy tube subsequently. Our study suggests that when a small (and short) tracheostomy tube is planned for use, intraoperative translaryngeal bronchoscopy is warranted to exclude malpositioning of the tracheostomy tube with a high riding cuff.

Managing complications of percutaneous tracheostomy and gastrostomy

Percutaneous tracheostomy and gastrostomy are some of the most commonly performed procedures at bedside in the intensive care unit. While they are generally considered safe, they can be associated with numerous short and long-term complications, many of which can occur long after their placement and cause significant morbidity. Performers of these procedures should possess a comprehensive understanding of procedural indications and contraindications, and know how to recognize and manage complications that may arise. In this review, we highlight complications of percutaneous tracheostomy and describe strategies for their prevention and management, with a special focus on post-tracheostomy tracheal stenosis. Other complications reviewed include bleeding, pneumothorax and subcutaneous emphysema, posterior wall injury, tube displacement, tracheomalacia, tracheoinominate artery fistula, tracheo-esophageal fistula, and stomal cellulitis. Gastrostomy complications and their management are also discussed including bleeding, internal organ injury, necrotizing fasciitis, aspiration pneumonia, buried bumper syndrome, tumor seeding, wound infection, tube displacement, peristomal leakage, and gastric outlet obstruction. In light of the potentially serious outcomes associated with complications of percutaneous tracheostomy and gastrostomy, the emphasis should be placed on risk-reduction strategies to minimize morbidity and mortality. We therefore present detailed pragmatic and comprehensive checklists to serve as a reference for clinicians involved in performing these procedures.

Patient selection and preoperative evaluation of percutaneous dilation tracheostomy in the intensive care unit

Percutaneous dilation tracheostomy (PDT) is increasingly performed at the bedside of critically ill patients in the intensive care unit (ICU). PDT is safe overall and has a number of benefits compared to surgical tracheostomy. A tracheostomy tube has numerous advantages compared to an endotracheal tube, including decreased work of breathing, ease of connecting to a mechanical ventilator, improved patient comfort and pulmonary hygiene. Common patient populations include those unable to wean from mechanical ventilation, those requiring enhanced pulmonary hygiene, and those with progressive neuromuscular weakness. Clinicians performing this procedure should be familiar with common indications for performing tracheostomy as well as absolute and relative contraindications. Special patient populations, including those with morbid obesity, aberrant anatomic and vascular anatomy, cervical spine injury, and high ventilatory requirements, should be approached with careful planning. Pre-procedure evaluation for coagulopathy, including basic laboratory analysis and medication review, should be undertaken. Pre-procedure ultrasound may be used to more accurately identify landmarks and vascular structures. The optimal timing for performing PDT is unknown and depends on the unique characteristics of each patient, perceived natural history of the disease process being addressed and open conversations with the patient or surrogate decision maker. In this review, we identify patient populations most likely to benefit from PDT and outline data behind optimal timing, pre-procedural laboratory evaluation and patient specific factors that may influence procedural success.

Tracheostomy and Improvement in Utilization of Hospital Resources During SARS-CoV-2 Pandemic Surge

The SARS-CoV-2 pandemic has affected millions across the world. Significant patient surges have caused severe resource allocation challenges in personal protective equipment, medications, and staffing. The virus produces bilateral lung infiltrates causing significant oxygen depletion and respiratory failure thus increasing the need for ventilators. The patients who require ventilation are often requiring prolonged ventilation and depleting hospital resources. Tracheostomy is often utilized in patients requiring prolonged ventilation, and early tracheostomy in critical care patients has been shown in some studies to improve a variety of factors including intensive care unit (ICU) length of stay, ventilation weaning, and decreased sedation medication utilization. In a patient surge setting, as long as adequate personal protective equipment (PPE) is available to minimize spread to healthcare workers, early tracheostomy may be a beneficial management of these patients. Decreasing sedative medication utilization may help prevent shortages in future waves of infection and improve patient-provider communication as patients are more alert. Tracheostomy care is easier than endotracheal intubation and may have decreased viral aerosolization risk, particularly if repeat intubation is necessary after a weaning trial. Additionally, tracheostomy patients can be monitored with less staff, decreasing total healthcare worker exposure to infection. To manage risk of exposure, coordination of ventilation controlled by an anesthesiologist or a critical care physician with a surgeon during the procedure can minimize aerosolization to the team. Risk management and resource allocation is of the utmost importance in any global crisis and procedures must be appropriately planned and benefits to patients, as well as minimized exposure to healthcare providers, must be considered. Early tracheostomy could be a beneficial procedure for severe SARS-CoV-2 patients to minimize long-term virus aerosolization and exposure for healthcare workers while decreasing sedation, allowing for earlier transfer out of the ICU, and improving hospital resource utilization.

A clinical retrospective study of percutaneous dilatational tracheostomy without guide wire for critically ill patients

OBJECTIVE

This study aimed to introduce a novel tracheostomy method, the non-guide-wire percutaneous dilatational tracheostomy (NGPDT) technique, and evaluate its effectiveness for critically ill patients undergoing neurosurgery under special conditions.

METHODS

The clinical data of 48 critically ill patients who underwent NGPDT under special conditions with controlled steps were analyzed retrospectively. The patients' demographic, preoperative state of illness, and diagnosis data were collected. Moreover, their intraoperative and postoperative variables were accessed, e.g., operation times, bleeding, saturation of pulse oxygen (SPO₂), and early and late complications related to NGPDT.

RESULTS

The mean patient age was 47.7 ± 13.7 years. The mean GCS (Glasgow Coma Scale) was 8.1 ± 2.9, and the mean BMI (Body Mass Index) was 25.2 ± 5.6. There were 38 patients with an endotracheal tube. The mean duration of onset to NGPDT was 4.0 ± 1.3 days. The mean operation time was 4.2 ± 1.9 min. There were 41 patients with mild intraoperative bleeding, 5 with moderate bleeding, and 2 with severe bleeding as well as 46 with mild postoperative bleeding and 2 with moderate bleeding. Additionally, 41 patients required complete extubation after NGPDT. The mean duration of incision healing was 4.8 ± 3.1 days. There was 1 patient with a decrease of SPO₂ ≥ 10%. Three patients presented with a transient violent cough at the primary tracheostomy stage; however, no patients suffered from pneumothorax, subcutaneous emphysema, false passage, or surgery-related death during this procedure.

CONCLUSION

Overall, NGPDT with controlled steps is a fast, safe, and microinvasive procedure. It mildly stimulates the trachea with a low rate of complications.

Neither Skin Sutures nor Foam Dressing Use Affect Tracheostomy Complication Rates

BACKGROUND

Tracheostomy is commonly used for managing the airway of trauma patients. Complications are common and result in increased length of stays and treatment cost. The aim of this study is to evaluate whether the utilization of skin sutures or foam barrier dressings affect tracheostomy complication rates.

MATERIALS AND METHODS

This is a single-center retrospective review of patients who underwent a tracheostomy by the trauma service between January 2014 and December 2017. Collected variables included demographics, patient history, treatment variables, complications, and outcomes. Univariate and multivariate analyses were constructed to identify significant predictors for the development of complications.

RESULTS

A total of 268 patients were included. The median age was 43.5 y, 221 (82.5%) patients were men, and the median BMI was 28 (IQR 24.6, 32.2). Most (87.3%) of the procedures were performed in the operating room and 82.5% were open. Skin sutures were used in 46.3% and 53.4% had a foam barrier dressing placed. Current smoking [OR 8.1 (95% CI 1.5, 43.6)] and BMI [OR 1.1 (95% CI 1.03, 1.2)] significantly increased the risk of developing pressure necrosis. Use of sutures or foam dressings was not associated with pressure necrosis, bleeding, or surgical site infection. There were no unexpected tracheostomy decannulations regardless of the use of skin sutures.

CONCLUSIONS

Suturing the tracheostomy or applying a foam barrier dressing was not associated with overall complications or decannulation rates. Based on our data, we suggest that skin sutures may be safely abandoned.

Pilot Study of Trans-oral Robotic-Assisted Needle Direct Tracheostomy Puncture in Patients Requiring Prolonged Mechanical Ventilation

COVID-19 can induce severe respiratory problems that need prolonged mechanical ventilation in the intensive care unit. While Open Tracheostomy (OT) is the preferred technique due to the excellent visualization of the surgical field and structures, Percutaneous Tracheostomy (PT) has proven to be a feasible minimally invasive alternative. However, PT's limitation relates to the inability to precisely enter the cervical trachea at the exact spot since the puncture is often performed based on crude estimation from anatomical laryngeal surface landmarks. Besides, there is no absolute control of the trajectory and force required to make the percutaneous puncture into the trachea, resulting in inadvertent injury to the cricoid ring, cervical esophagus, and vessels in the neck. Therefore, we hypothesize that a flexible mini-robotic system, incorporating the robotic needling technology, can overcome these challenges by allowing the trans-oral robotic instrument of the cervical trachea. This approach promises to improve current PT technology by making the initial trachea puncture from an “inside-out” approach, rather than an “outside-in” manner, fraught with several technical uncertainties.

Comparison of percutaneous dilatational tracheotomy versus open surgical technique in severe COVID-19: Complication rates, relative risks and benefits

Objective

Patients with acute respiratory failure due to COVID-19 have a high likelihood of needing prolonged intubation and may subsequently require tracheotomy. Usually, the choice of technique (percutaneous dilatational tracheotomy [PDT] versus open surgical tracheotomy [OST]) depends on the preference of surgeons and patient-related factors. In case of COVID-19, airborne spread of viral particles and limited time of apnea must be considered in the choice of the safest technique. The aim of this study is to compare the complication rates and offer an assessment of relative risks and benefits of PDT versus OST in patients with severe COVID-19.

Methods

We performed a retrospective study considering 47 consecutive patients affected by severe acute respiratory distress syndrome due to SARS-CoV-2 infection, needing invasive mechanical ventilation and subsequent tracheostomy. This study was performed at the Intensive Care Unit of our tertiary referral center. Complication rates were analyzed.

Results

Seventeen patients underwent PDT and 30 patients were submitted to OST. Twenty-six patients (55.3%) had post-operative complications (local infection, hemorrhage, subcutaneous emphysema) with no significant difference between PDT and OST.

Conclusion

PDT and OST are characterized by similar postoperative complication rates in severe COVID-19 patients. These findings suggest that OST might be preferred if expert ENT surgeons are available, as PDT could result in longer apnea and exposure to generated aerosol. However, authors recommend considering either OST or PDT at the discretion of the medical staff involved, according to the personal experience of the operators performing the procedure.

Per-cutaneous dilatation tracheostomy (PCTD) in COVID-19 patients and peri-tracheostomy care: A case series and guidelines

Background & Objective:

COVID 19 patients with severe respiratory failure may require prolonged mechanical ventilation. Placement of a tracheostomy tube often becomes necessary for such patients. The steps of tracheostomy procedure and post tracheostomy care of these patients can be classified as aerosol generating. We wish to highlight our modified technique to address these issues.

Methodology:

We performed percutaneous dilation tracheostomy in three clinically challenging COVID-19 patients in our ICU and developed guidelines aiming to minimise aerosolisation during and after the tracheostomy procedure to safeguard healthcare workers.

Results:

Percutaneous tracheostomy was performed by a team of three experienced anaesthetists and an ICU nurse.

Conclusion:

The decision of surgical or percutaneous tracheostomy should be dependent on the experience of the tracheostomy performer, health-care worker safety, resource availability, and patient-centred care. We believe our modified strategic approach of brief bronchoscopy, minimum PEEP and gas flows and step-wise planned approach for PCDT offers an extra level of safety to healthcare workers.

Outcomes after percutaneous dilatation tracheostomy: Patients view 6 years after the procedure

BACKGROUND

Percutaneous dilatational tracheostomy have been performed increasingly since its introduction in 1985, and is today one of the most commonly performed operative procedures in intensive care units. The aim of this study was to document patient-reported outcomes from percutaneous dilatational tracheostomy after hospital discharge.

METHODS

This study is based on retrospective extraction of data from the databases in the ICU at Haukeland University Hospital from 2004 to 2016. Patients alive by April 2018 and with a code for dilatation tracheostomy were sent a questionnaire about their experiences with having a tracheostomy performed. The occurrence of problems and their relations were registered.

RESULTS

Of 5769 admitted patients, 900 patients ≥ 15 years (15.7%) had a percutaneous dilatation tracheostomy performed. The median time from admission to follow-up was 6.1 years, and the 30 days mortality in those who received a tracheostomy was 315/900 (35%). Of the 441 survivors contacted, 181 answered the questionnaire and a total of 293 problems were reported. The majority of these problems were reported as no or moderate in 115 patients (78.3%). The presence of any problem was significantly associated with occurrence for other problems; however, there were no significant differences related to the elapsed time since the ICU stay. Pain and difficulties with breathing were the two single factors most often related to occurrence of other problems.

CONCLUSION

Although self-reported problems after percutaneous tracheostomy occurring after hospital discharge were often reported, most (78.3%) were considered by the patients to be moderate.

Percutaneous Tracheostomy With Apnea During Coronavirus Disease 2019 Era: A Protocol and Brief Report of Cases

Supplemental Digital Content is available in the text.

Objective:

To assess feasibility of modified protocol during percutaneous tracheostomy in coronavirus disease 2019 pandemic era.

Design:

A retrospective review of cohort who underwent percutaneous tracheostomy with modified protocol.

Settings:

Medical, surgical, and neurologic ICUs.

Subjects:

Patients admitted in medical, surgical, and neurologic units with prolonged need of mechanical ventilation or inability to liberate from the ventilator.

Interventions:

A detailed protocol was written. Steps were defined to be performed before apnea and during apnea. A feasibility study of 28 patients was conducted. The key aerosol-generating portions of the procedure were performed with the ventilator switched to standby mode with the patient apneic.

Measurements and Main Results:

Data including patient demographics, primary diagnosis, age, body mass index, and duration of apnea time during the tracheostomy were collected. Average ventilator standby time (apnea) during the procedure was 238 seconds (3.96 min) with range 149 seconds (2.48 min) to 340 seconds (5.66 min). Single-use (disposable) bronchoscopes (Ambu A/S [Ballerup, Denmark] or Glidescope [Verathon, Inc., Bothell, WA]) were used during all procedures except in nine. No desaturation events occurred during any procedure.

Conclusions:

Percutaneous tracheostomy performed with apnea protocol may help minimize aerosolization, reducing risk of exposure of coronavirus disease 2019 to staff. It can be safely performed with portable bronchoscopes to limit staff and minimize the surfaces requiring disinfection post procedure.

Design and Evaluation of a Low-Cost Bronchoscopy-Guided Percutaneous Dilatational Tracheostomy Simulator

Supplemental digital content is available in the text.

Introduction

Bronchoscopy-guided percutaneous dilatational tracheostomy (BG-PDT) is an invasive procedure regularly performed in the intensive care unit. Risk of serious complications have been estimated in up to 5%, focused during the learning phase. We have not found any published formal training protocols, and commercial simulators are costly and not widely available in some countries. The objective of this study was to present the design and simulator performance of a low-cost BG-PDT simulator.

Methods

A simulator was designed with materials available in a hardware store, synthetic skin pads, ex vivo bovine tracheas, and a pipe inspection camera. The simulator was tested in 8 experts and 9 novices. Sessions were video recorded, and participants were equipped with the Imperial College Surgical Device, a hand motion–tracking device. Performance was evaluated with a multimodal approach, including first attempt success rate, global success rate, total procedural time, Imperial College Surgical Device–derived proficiency parameters, and global rating scale applied blindly by 2 expert observers. A satisfaction survey was applied after the procedure.

Results

A simulator was successfully constructed, allowing multiple iterations per assembly, with a fixed cost of US $30 and $4 per use. Experts had greater global and first attempt success rate, performed the procedure faster, and with greater proficiency. It presented high user satisfaction and fidelity.

Conclusions

A low-cost BG-PDT simulator was successfully constructed, with the ability to discriminate between experts and novices, and with high fidelity. Considering its ease of construction and cost, it can be replicated in almost any intensive care unit.

Neuroanesthesiology Update

This review is intended to provide a summary of the literature pertaining to the perioperative care of neurosurgical patients and patients with neurological diseases. General topics addressed in this review include general neurosurgical considerations, stroke, neurological monitoring, and perioperative disorders of cognitive function.

Using a Laryngeal Mask Airway During Percutaneous Dilatational Tracheostomy is Safe and Obviates the Need for Paralytics

BACKGROUND

Bedside percutaneous tracheostomy (PT) placement in critically ill patients is performed in a variety of ways, largely driven by institutional preference. We have recently transitioned to primarily extubating the patient and placing a laryngeal mask airway (LMA) before tracheostomy insertion in lieu of retracting the endotracheal tube (ETT) in place. This allows for lower sedative use and provides a superior view of the operative field. Here, we seek to describe the safety and efficiency of that approach.

METHODS

This is a single-center cross-sectional study from 2014 to 2016 comparing patients who underwent PT with the ETT in place retracted to the proximal larynx versus those who were extubated and had a LMA placed. Procedural length, sedative totals, and safety outcomes were recorded.

RESULTS

In total, 125 patients underwent PT during the study period, 75 via a LMA and 50 via existing ETT. There was no difference in procedural duration (LMA: 53.5±21.4 min vs. ETT: 50.4±16.8; P=0.41), total complications (LMA: 29.3% vs. 16%; P=0.09) or major complications (4% in both groups). Cisatracurium use was significantly lower in the LMA arm (LMA: 1.0±3.6 mg vs. ETT: 11.5±5.9 mg; P<0.01).

CONCLUSION

Replacing the ETT with an LMA before PT is equally safe, does not increase total procedural duration, and all but eliminates the need for paralytic agents.

Awake Tracheostomy: Indications, Complications and Outcome

BACKGROUND

Awake tracheostomy (AT) is aimed at securing the airway of patients with upper airway obstruction when other means are not feasible or have failed. Reports on AT in the literature are scarce. The goal of this study was to review our experience with the indications, complications and outcome of AT.

METHODS

A retrospective chart review was conducted on all ATs performed between 2010 and 2016 in two university-affiliated, tertiary medical centers. Data on demographics, indications, techniques, urgency and postoperative complications were retrieved from the medical charts.

RESULTS

The 37 of the 1023 recorded tracheostomies (3.62%) that were ATs comprised the study group (mean age of the patients 60.3 years, 32 [86.5%] males). The most common indication was head and neck (HN) malignancy (oncologic group, 70.3%), with the larynx (53.8%) being the most commonly involved site. Patients in the non-oncologic group (n = 11) were significantly younger (P = 0.048) and had a significantly higher prevalence of urgent surgery compared to the oncologic group (P = 0.0009). Major postoperative complications included tube dislodgement (n = 2) and pneumothorax (n = 1) that were managed successfully. One of the two patients with severe hypoxia and arrhythmia that necessitated cardiopulmonary resuscitation died.

CONCLUSION

Whether the etiology of the AT was related to HN oncological disease or not was the most important clinical factor in our cohort. The non-oncologic group was significantly younger, suffered from more urgent events and tended to have more complications (nonsignificant). ATs had a 97.3% rate of immediate survival, a 5.4% risk of major irreversible complications and a 2.7% risk of mortality.