Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-12T19:49:17.877Z Has data issue: false hasContentIssue false

Complete disruption of right main bronchus: a case report and literature review

Published online by Cambridge University Press:  01 January 2008

S. C. Ten Clay
Affiliation:
Pediatric AnesthesiaDUMCDurham, USA
W. A. Ames*
Affiliation:
Pediatric AnesthesiaDUMCDurham, USA
*
Correspondence to: Warwick Aubrey Ames, Pediatric Anesthesia, DUMC, Box 3094, Durham, NC 27710, USA. E-mail: [email protected]; Tel: +1 919 6360935; Fax: +1 919 6818357

Abstract

Type
Correspondence
Copyright
Copyright © European Society of Anaesthesiology 2007

Editor:

Trauma is the leading cause of death in children. Blunt thoracic injury accounts for 4–6% of paediatric trauma [Reference Cooper, Barlow, DiScala and String1Reference Peclet, Newman and Eichelberger3]. A rare consequence of blunt thoracic trauma in children is complete disruption of a bronchus. We report a case of an 11-yr-old male with complete disruption of the right main bronchus from the trachea.

An 11-yr old, 39 kg male presented to the emergency department after a soccer goalpost fell on his right shoulder and chest. On examination he was noted to be tachycardic and hypoxaemic with decreased breath sounds and subcutaneous emphysema over the right chest. A chest radiograph confirmed a fractured right clavicle and a large right-sided pneumothorax. A chest tube (28 G) was therefore placed and continuous suction applied. A repeat radiograph demonstrated good position of the chest tube with some reduction in size of the pneumothorax. A computed tomography study of the chest was obtained which showed a gross right pneumothorax. The patient was stabilized, given oxygen by face mask and admitted to the paediatric ICU for monitoring.

A significant air leak persisted and the patient, although stable, remained hypoxaemic (arterial blood gas on 100% oxygen via a non-rebreathing face mask: pH 7.30; PO2 63 mmHg; PCO2 45 mmHg, saturation 89%). An emergency bronchoscopy and probable thoracotomy was scheduled. As the patients’ fasting status was uncertain, a modified rapid sequence induction was planned with the intention of using a double-lumen endotracheal tube (28-G, Mallinckrodt, Hazelwood, MO, USA). The difficult airway cart was also requested.

In the operating room, standard monitors were applied. The surgeon was present. Following 2 min of preoxygenation, anaesthesia was induced with fentanyl (25 μg), propofol (120 mg) and rocuronium (40 mg). The double-lumen tube was passed with ease through the larynx into the mid trachea but mechanical ventilation was unsuccessful. A flexible fibreoptic bronchoscope (Pentax 4I-7P, 2.4 mm diameter; Pentax, Lake Success, NY, USA) was quickly advanced into the bronchial lumen by the surgeon who could only visualize blood in the airway. The patient then began to desaturate dramatically and so the bronchial lumen of the tube was passed rapidly into the left main bronchus and the tracheal and bronchial cuffs inflated. Ventilation was established to the left lung but completely absent in the right. The patient was turned to left lateral decubitus position and a right thoracotomy performed. The surgical finding was that of complete disruption of the right main bronchus, 0.5 cm distal to the carina. There was no evidence of damage to the great vessels or surrounding structures. The rupture was repaired and, following closure of the thoracotomy, the patient was transferred back to the ICU on a low-pressure ventilatory regime. He was extubated 12 h later and made a full and uneventful recovery.

The case is of interest for several reasons: the lesion in the paediatric population; the use of muscle relaxants in thoracic injury; and the difficulties of one lung ventilation in the paediatric population.

Tracheobronchial disruption is a rare and life-threatening injury. It has an incidence of only 0.7% of all blunt thoracic injury [Reference Balci, Kazez and Eren4]. There is a male predisposition, and it is more often right sided [Reference Ozdulger, Cetin and Gulhan5,Reference Baumgartner, Sheppard and de Virgilio6], perhaps because this bronchus is shorter. It is typically a main-stem bronchial injury at the carina [Reference Baumgartner, Sheppard and de Virgilio6]. In children, it can occur without apparent injury to the chest wall. This is because the thoracic cage is so compliant that mechanical forces of blunt trauma can be absorbed without skeletal injury. However, the very plasticity of the rib cage means that large amounts of kinetic energy can be applied to the internal thoracic structures [Reference Ozdulger, Cetin and Gulhan5].

When tracheobronchial disruption is complete, failure of a chest drain to resolve a pneumothorax is inevitable. A persistent air leak through the drain is apparent. A bronchoscopy is mandatory to complete the diagnosis. In adults, this can be performed awake. However, in children a ‘sedated’ or awake bronchoscopy is unlikely to be tolerated.

We had elected to perform a rapid sequence induction due to uncertainty over the patient’s fasting status. A recent meal and delayed gastric emptying associated with trauma, necessitated rapid airway protection with an endotracheal tube [Reference Ronchi, Bissonette and Dalen7]. However, manual ventilation should be avoided to prevent displacement of the airway at the level of injury. This was the case with our patient during induction of anaesthesia but could have occurred at scene or in the emergency room if the emergency personnel had elected, quite understandably, to intubate the trachea of this hypoxic child. The loss of spontaneous ventilation in this patient could have been catastrophic. We were completely unable to manually ventilate the patient as mechanical breaths passed through the path of least resistance, into the pleural space.

In the post event analysis, we were concerned that a more sinister outcome could have resulted from our use of a muscle relaxant. In our review of the literature, there is indeed recommendation that mechanical ventilation be avoided to prevent separation and loss of the airway at the site of trauma [Reference Grant, Meyers, Jaffe and Johnson8]. However, other authors, who report their experience with this type of injury, have used mechanical ventilation without apparent loss of airway [Reference Ah-Young, Won-Kyoung and Kyoung-Ok9,Reference Bingol-Kologlu, Fedakar, Yagmurlu, Fitoz, Dindar and Gokcora10].

In the scenario of a persistent air leak from a chest drain following trauma, anaesthesia should incorporate a plan for one lung ventilation that is age and lung-side specific. We were then fortunate in our choice of lung isolation. The authors’ preference for endobronchial blockers was deferred preferring, instead, a double-lumen tube. Had we chosen a blocker, there would have been no place to seat it due to the proximity of the rupture to the carina. Another option would have been to try to place the straight endotracheal tube down the left main-stem bronchus with bronchoscopic guidance [Reference Grant, Meyers, Jaffe and Johnson8,Reference Ah-Young, Won-Kyoung and Kyoung-Ok9]. This may have been possible but difficult due to the anatomy of the left main stem in the setting of rapid desaturation and because our bronchoscopic view was obscured by blood. If this child had been younger, this may have been our only option as the only smaller commercially available double-lumen tube, the 26 G, is not stocked at our institution.

Finally, there are alternate management options for the management of complete tracheobronchial disruption that include jet ventilation through intrabronchial catheters [Reference Naghibi, Hashemi and Sajedi11], emergency cardiopulmonary bypass or emergency thoracotomy with direct intubation of the main-stem bronchus [Reference Grant, Meyers, Jaffe and Johnson8].

The aim of this case report is to alert colleagues to this rare and potentially life-threatening consequence of blunt chest trauma in children. Based on the literature and our experience with this case, airway management should ideally include the maintenance of spontaneous ventilation.

References

1.Cooper, A, Barlow, B, DiScala, C, String, D. Mortality and truncal injury: the pediatric perspective. J Pediatr Surg 1994; 29: 3338.CrossRefGoogle ScholarPubMed
2.Holmes, JF, Sokolove, PE, Brant, WE, Kupperman, N. A clinical decision rule for identifying children with thoracic injuries after blunt torso trauma. Ann Emerg Med 2002; 39: 492499.CrossRefGoogle ScholarPubMed
3.Peclet, MH, Newman, KD, Eichelberger, MR et al. . Thoracic trauma in children: an indicator of increased mortality. J Pediatr Surg 1990; 25: 961966.Google Scholar
4.Balci, AE, Kazez, A, Eren, S et al. . Blunt thoracic trauma in children: a review of 137 cases. Eur J Cardiothorac Surg 2004; 26: 387392.Google Scholar
5.Ozdulger, A, Cetin, G, Gulhan, SE et al. . A review of 24 patients with bronchial ruptures: is delay in diagnosis more common in children? Eur J Cardiothorac Surg 2003; 23: 379383.Google Scholar
6.Baumgartner, F, Sheppard, B, de Virgilio, C. Tracheal and main bronchial disruptions after blunt chest trauma; presentation and management. Ann Thorac Surg 1990; 50: 569574.Google Scholar
7.Ronchi, L. Emergency anesthesia and management of acutely ill patients. In: Bissonette, B, Dalen, BJ, eds. Pediatric Anesthesia: Principles and Practice, 1st edn. United States: McGraw-Hill, 2002: 615626.Google Scholar
8.Grant, WJ, Meyers, RL, Jaffe, RL, Johnson, DG. Tracheobronchial injuries after blunt chest trauma in children – hidden pathology. J Pediatr Surg 1998; 33: 17071711.Google Scholar
9.Ah-Young, OH, Won-Kyoung, K, Kyoung-Ok, K et al. . Single-lung ventilation with a cuffed endotracheal tube in a child with a left mainstem bronchus disruption. Anesth Analg 2003; 96: 696697.Google Scholar
10.Bingol-Kologlu, M, Fedakar, M, Yagmurlu, A, Fitoz, S, Dindar, H, Gokcora, IH. Tracheobronchial rupture due to blunt chest trauma: report of a case. Surg Today 2006; 36 (9): 823826.CrossRefGoogle ScholarPubMed
11.Naghibi, K, Hashemi, SL, Sajedi, P. Anaesthetic management of tracheobronchial rupture following blunt chest trauma. Acta Anaesthesiol Scand 2003; 47: 901903.Google Scholar