To breathe or not to breathe: a review of artificial airway placement and related complications

Pre-hospital emergency medicine: a spectrum of imaging findings

The goal of emergency medical services (EMS) is to provide urgent medical care and stabilization prior to patient transport to a healthcare facility for definitive treatment. The number and variety of interventions performed in the field by EMS providers continues to grow as early management of severe injuries and critical illness in the pre-hospital setting has been shown to improve patient outcomes. The sequela of many field interventions, including those associated with airway management, emergent vascular access, cardiopulmonary resuscitation (CPR), patient immobilization, and hemorrhage control may be appreciated on emergency department admission imaging. Attention to these imaging findings is important for the emergency radiologist, who may be the first to identify a malpositioned device or an iatrogenic complication arising from pre-hospital treatment. Recognition of these findings may allow for earlier corrective action to be taken in the acute care setting. This review describes common EMS interventions and their imaging findings.

Adverse effects of non-intubated airway suctioning: a clinical data-based study

AIMS AND OBJECTIVES

The purpose of this study was to investigate the adverse effects of non-intubated suctioning.

BACKGROUND

Airway hygiene aims to maintain a patent airway to ensure adequate ventilation. Nasopharyngeal, oropharyngeal or nasotracheal suctioning may be used in patients who require airway suctioning but do not have an artificial airway. However, no studies till date provide insight into the adverse effects of non-intubated airway suctioning.

DESIGN

A clinical data-based retrospective design.

METHOD

Using institutional and clinical databases of three university hospitals in 2008-2016, we conducted a study with a propensity score matching method of 3,326 hospitalised patients who had undergone suction therapy with or without a tracheotomy. Conditional logistic regression analyses were performed to investigate the link between suctioning and the probabilities of adverse effects. STROBE checklist was used to report the current study.

RESULTS

Patients who required nasopharyngeal, oropharyngeal or nasotracheal suctioning had a higher risk of gastrointestinal ulcers than tracheotomised patients (adjusted OR 1.99; 95% CI, 1.24-3.20). Patients who received non-intubated suction had a higher risk of developing pneumonia (adjusted OR 1.59; 95% CI, 1.26-2.00), and the risk of aspiration pneumonia was three times higher than tracheotomised patients (adjusted OR 3.04; 95% CI, 1.40-6.60).

CONCLUSIONS

Non-intubated patients who require suctioning for airway clearing are more susceptible to gastrointestinal ulcers, pneumonia and aspiration pneumonia. The findings would facilitate in alerting healthcare professionals to this group of patients. However, more clinical research is needed to elucidate the mechanisms of adverse effects in non-intubated patients who require suctioning.

RELEVANCE TO CLINICAL PRACTICE

The adverse effects of suctioning can easily be overlooked in debilitated patients with no intubation. Professionals must be aware of the discomfort and risks that patients may experience.

Analysis of a Novel Nasoenteral Tube Design

Background: Tube patency is essential for patients who receive enteral nutrition via a small bore naso-enteral feeding tube. Formation of a clog within these tubes interrupts and delays delivery of nutrition. Unfortunately, current tubes are prone to clogging. A small-bore naso-enteral feeding tube that gradually increases in diameter over its length could mitigate the risk of clog formation.

Methods: Small-bore feeding tubes that increase in diameter over their length, were evaluated relative to current (constant diameter) tubes to determine if a tapered tube design could reduce the pressure required to clear an established clog in benchtop testing at pressures representative of those achieved safely in the clinical environment.

Results: Incorporating a tapered design into an 8F nasal feeding tube significantly reduced the pressure to expel an established clog by 62% (p < 0.05; 258.6 kPa vs. 710.8 kPa, respectively).

Conclusion: When compared to constant diameter tubes with the same proximal outside diameter, a tapered tube design permits clearance of an established clog at lower pressure.

CT imaging of extraglottic airway device-pictorial review

Compared to intubation with a cuffed endotracheal tube, extraglottic airway devices (EGDs), such as laryngeal mask airways, are considered less definitive ventilation conduit devices and are therefore often exchanged via endotracheal intubation (ETI) prior to obtaining CT images. With more widespread use and growing comfort among providers, reports have now described use of EGDs for up to 24 h including cases for which clinicians obtained CT scans with an EGD in situ. The term EGD encompasses a wide variety of devices with more complex structure and CT appearance compared to ETI. All EGDs are typically placed without direct visualization and require less training and time for insertion compared to ETI. While blind insertion generally results in functional positioning, numerous studies have reported misplacements of EGDs identified by CT in the emergency department or post-mortem. A CT-based classification system has recently been suggested to categorize these misplacements in six dimensions: depth, size, rotation, device kinking, mechanical blockage of the ventilation opening(s), and injury from EGD placement. Identifying the type of EGD and its correct placement is critically important both to provide prompt feedback to clinicians and prevent inappropriate medicolegal problems. In this review, we introduce the main types of EGDs, demonstrate their appearance on CT images, and describe examples of misplacements.

Incidence of Sinusitis Associated With Endotracheal and Nasogastric Tubes: NIS Database

BACKGROUND

Endotracheal and nasogastric tubes are recognized risk factors for nosocomial sinusitis. The extent to which these tubes affect the overall incidence of nosocomial sinusitis in acute care hospitals is unknown.

OBJECTIVE

To use data for 2008 through 2013 from the Nationwide Inpatient Sample database to compare the incidence of sinusitis in patients with nasogastric tubes with that in patients with an endotracheal tube alone or with both an endotracheal tube and a nasogastric tube.

METHODS

Patients' data with any of the following International Classification of Disease, Ninth Revision, Clinical Modification codes were abstracted from the database: (1) 96.6, enteral infusion of concentrated nutritional substances; (2) 96.07, insertion of other (naso-)gastric tube; or (3) 96.04, insertion of an endotracheal tube. Sinusitis was defined by the appropriate codes. Weighted and unweighted frequencies and weighted percentages were calculated, categorical comparisons were made by χ² test, and logistic regression was used to examine odds of sinusitis development by tube type.

RESULTS

Of 1 141 632 included cases, most (68.57%) had an endotracheal tube only, 23.02% had a nasogastric tube only, and 8.41% had both types of tubes. Sinusitis was present in 0.15% of the sample. Compared with patients with only a nasogastric tube, the risk for sinusitis was 41% greater in patients with an endotracheal tube and 200% greater in patients with both tubes.

CONCLUSION

Despite the low incidence of sinusitis, a significant association exists between sinusitis and the presence of an endotracheal tube, especially when a nasogastric tube is also present.

Surgical treatment of postintubation tracheal stenosis: A retrospective 22-patient series from a single center

BACKGROUND/OBJECTIVE

We aimed to present cases of postintubation tracheal stenosis (PITS), all due to long-term intubation and treated surgically in a university hospital, and to discuss them in light of the literature.

METHODS

In this retrospective study, 22 patients who were treated with tracheal resection and reconstruction due to PITS were included. Demographics, intubation characteristics, localization of stenosis, surgical technique and material, postoperative complications, and survival of patients were recorded.

RESULTS

The mean intubation duration was 16.95 days with a median of 15.00 days. Collar incision was applied in 19 cases (86.4%); in two cases (9.1%) a median sternotomy incision was used; and in the remaining case (4.5%), a right thoracotomy incision was made. The mean tracheal stenosis length was 2.14 cm (mean excision length, 2.5 cm). In 17 cases (77.3%), the anterior walls were supported with vicryl (polyglactin) suture one by one. No postoperative complications were observed in 12 cases (54.5%). No recurrence developed during the long-term follow-up of 15 of the 22 patients (68.2%). Two patients (9.1%) died in the early stages after surgery, and five patients (22.7%) had a stent inserted due to restenosis.

CONCLUSION

Tracheal resection and end-to-end anastomosis are the most efficient techniques in cases without medical contraindications, despite emerging stent or endoscopic procedures. Endoscopic interventions can be suggested as an alternative to surgery in patients for whom surgery cannot be performed or who develop recurrence.

Post-intubation tracheal stenosis after management of complicated aortic dissection: a case series

BACKGROUND

Patients undergoing total aortic arch replacement or aortic dissecting aneurysmectomy are generally managed with medications to control hypotension and blood coagulation to minimize mortality and morbidity. However, prolonged mechanical ventilation via tracheal intubation increases the risk of tracheal stenosis in such patients.

CASE PRESENTATION

We present 2 cases (a 49-year-old woman and a 62-year-old man) of post-intubation tracheal stenosis occurring after surgery for the correction of complicated aortic dissection; both cases were successfully managed by tracheal cryotherapy.

CONCLUSION

Continuous monitoring of cuff pressure and regular cuff palpation are necessary to minimize the incidence of tracheal stenosis. If the patients have concomitant local or systemic infection, adequate preventive measures should be taken to reduce the incidence of post-intubation tracheal stenosis. Tracheal cryotherapy is recommendable for the management of post-intubation tracheal stenosis.