|Year : 2016 | Volume
| Issue : 1 | Page : 106-108
Incidental finding of tracheal bronchus complicating the anesthetic management of a left video-assisted thoracoscopic procedure
Shvetank Agarwal1, Mark A Banks1, Sanjeev Dalela1, William B Bates2, Manuel R Castresana1
1 Department of Anesthesiology and Perioperative Medicine, Georgia Regents University, Augusta, Georgia, USA
2 Department of Radiology, Georgia Regents University, Augusta, Georgia, USA
|Date of Web Publication||4-Feb-2016|
Dr. Shvetank Agarwal
Department of Anesthesiology and Perioperative Medicine, Georgia Regents University, 1120 15th St, BIW-2144, Augusta, Georgia 30912
Source of Support: None, Conflict of Interest: None
Congenital abnormalities of the large airways are uncommon, but may occasionally pose significant difficulties for anesthesiologists. The tracheal bronchus is an anatomical variant in which an accessory bronchus originates directly from the trachea rather than distal to the carina, as a takeoff from the right mainstem bronchus. Anesthesiologists should be aware of this uncommon anomaly, its different variants, and its management in order to successfully establish one lung ventilation (OLV) for surgical isolation. In this article, we report the challenges encountered in establishing OLV in a patient with a previously undiagnosed aberrant right upper lobe bronchus arising directly from the trachea.
Keywords: Aberrant tracheal anatomy, lung isolation, one lung ventilation tracheal bronchus
|How to cite this article:|
Agarwal S, Banks MA, Dalela S, Bates WB, Castresana MR. Incidental finding of tracheal bronchus complicating the anesthetic management of a left video-assisted thoracoscopic procedure. J Anaesthesiol Clin Pharmacol 2016;32:106-8
|How to cite this URL:|
Agarwal S, Banks MA, Dalela S, Bates WB, Castresana MR. Incidental finding of tracheal bronchus complicating the anesthetic management of a left video-assisted thoracoscopic procedure. J Anaesthesiol Clin Pharmacol [serial online] 2016 [cited 2020 Aug 5];32:106-8. Available from: http://www.joacp.org/text.asp?2016/32/1/106/168167
| Introduction|| |
Congenital abnormalities of the large airways are rare and can pose significant difficulties for anesthesiologists. We report the challenges encountered in establishing one lung ventilation (OLV) in a patient with a previously undiagnosed aberrant right upper lobe (RUL) bronchus arising directly from the trachea. We also present a comprehensive review of the anatomy, varied clinical presentations, and principles of the airway and anesthetic management of this rare anomaly.
| Case Report|| |
A 70-year-old man was scheduled for a left video-assisted thoracoscopic surgery. No large airway anomaly was reported on the preoperative computed tomography (CT) scan. After standard uneventful induction, the patient was intubated with a single lumen endotracheal tube (SLT). Fiberoptic bronchoscopy (FOB; Olympus America Inc., Center Valley, PA, USA) was used to aid placement of a 7F Uniblocker (Fuji Systems Corp., Fukushima, Japan) inside the left mainstem bronchus (LMB) and revealed an odd configuration of central airways [Figure 1]A. The initial diagnosis was the inadvertent placement of the SLT in the right mainstem bronchus (RMB). However, after confirming the depth of the tube to be 21 cm and no change in the appearance of the tracheal anatomy on withdrawing the SLT several centimeters, it was realized that the SLT was indeed in the trachea.
|Figure 1: Fiberoptic bronchoscopic view showing a low-riding tracheal bronchus (A) and minimum intensity projection coronal reconstruction of the preoperative computed tomography showing the tracheal bronchus originating from the distal part of the trachea and dividing into two segmental bronchi (B)|
Click here to view
The FOB was advanced into the rightmost bronchus, which showed two segmental bronchi. FOB of the middle lumen showed an absence of the RUL bronchus, instead appearing to bifurcate into the right lower and middle lobes similar to the bronchus intermedius in normal patients. The leftmost lumen had the same anatomy as a normal left bronchus. After a thorough assessment of the airway anatomy, diagnosis of a low-riding tracheal bronchus (TB) versus tracheal trifurcation was made. To isolate the left lung, the bronchial blocker (BB) was placed in the leftmost lumen, and the surgery was accomplished uneventfully. After the surgery, our attempts to look for the elusive TB in the preoperative axial CT scan images and chest radiograph were not successful. Only after a radiologist performed a minimum intensity projection of coronal reconstruction, were we able to identify the TB that was missed in the preoperative reporting [Figure 1]B.
| Discussion|| |
Sandifort first described TB in 1785. His original description was of an RUL bronchus originating from the trachea. ,, The term "TB" is now a mixed bag involving a variety of bronchial anomalies originating from the trachea or main bronchus and finally merging into the upper lobe. ,, Although a normal variant in pigs,  the incidence of "pig bronchus" (bronchus suis) in humans is somewhere in the range of 0.1% and 5%. ,,,,
Although a TB can originate anywhere between the carina and cricoid cartilage, it is most frequently seen within 2 cm of the carina (commonly described as bronchial trifurcation). ,,, It also may arise as high as 6 cm above the carina with a predilection for the rightside. ,,
Clinical implications and management
Challenges with airway due to the presence of TB have been reported for both thoracic and nonthoracic surgeries, as well as ventilation in the intensive care unit. ,,,,,, Due to its varied presentation, an undiagnosed TB during thoracic surgeries may interfere with lung isolation and/or ventilation depending on the surgical site and type of OLV device used.  We present a comprehensive description of the management of various clinical scenarios in patients with TB. Since left-sided TB is very rare, our discussion will be restricted to the management of the much more common right-sided TB.
Surgeries involving the right hemithorax
In patients with normal central airways, right-sided surgery is usually accomplished with the use of either a BB placed in the RMB or a left-sided double lumen tube (DLT) (ventilating the left lung through the bronchial lumen) or right-sided DLT (ventilating the left lung through the tracheal lumen). Right, lung isolation can also be achieved by the use of EZ-Blocker (EZB; Teleflex Life Sciences Ltd., Athlone, Ireland) placed through an SLT. The bifid cuffs are directed into each of the main stem bronchi, and the right cuff inflated to facilitate right lung isolation.
However, in patients with TB, a right-sided DLT or a conventional BB approach will not result in adequate lung isolation. One approach would be to place a left DLT with the left lung ventilated through the bronchial lumen [Figure 2]A. , Other alternatives depend on the exact position of the TB.  For patients with tracheal trifurcation, an EZB can be passed through a conventional SLT and placed at the false carina, with one cuff in the TB and the other in the RMB; inflation of both balloons will isolate the RUL and the rest of the right lung (middle and lower lobes), respectively [Figure 2]B. For patients in whom the TB arises above the carina, it may be necessary to use two BBs. In such cases, two pediatric 5F Arndt blockers may be placed individually using a pediatric FOB through an SLT [Figure 2]C. Furthermore, a Univent (Fuji Systems Corp., Tokyo, Japan) endotracheal tube can be used in combination with a BB for lung isolation [Figure 2]D. 
|Figure 2: Depictions of one lung ventilation strategies in right-sided thoracic surgery. Ventilating the left lung through the bronchial lumen of a left-sided double lumen tube; (A) isolating the right lung with the use of the EZ-Blocker through a single lumen endotracheal tube with one cuff of the EZ-Blocker occluding the tracheal bronchus and the other occluding the bronchus intermedius; (B) isolating the right lung with the use of two Arndt bronchial blockers, one occluding the tracheal bronchus and the other occluding the bronchus intermedius; (C) and isolating the right lung with the use of a bronchial blocker through a Univent endotracheal tube with the bronchial blocker occluding the tracheal bronchus and the Univent bronchial blocker blocking the bronchus intermedius (D)|
Click here to view
Surgeries involving the left hemithorax
In patients with normal anatomy, left lung isolation is usually achieved either by the use of left-sided DLT (ventilating the right lung through the tracheal lumen), right-sided DLT (ventilating the right lung through the bronchial lumen), a conventional BB placed in the LMB, or an EZB (inflating the left bronchial cuff). In patients with TB, left lung isolation is more complex than right lung isolation but can be effectively accomplished with a conventional BB placed in the LMB, as in our patient , [Figure 3]A. A left-sided DLT may be used in those with tracheal trifurcation [Figure 3]B,  however, in those with high-riding TB, a left-sided DLT would not be appropriate, as the tracheal cuff of the DLT could obstruct the TB and may cause intraoperative hypoxemia [Figure 3]C. A right-sided DLT would be an absolute contraindication, as the bronchial lumen would have to be placed either in the TB or in the RMB and would therefore not be able to ventilate both.
|Figure 3: Depictions of one lung ventilation strategies in left-sided thoracic surgery. Isolating the left mainstem bronchus with a bronchial blocker through a single lumen endotracheal tube; (A) ventilating the right lung through the tracheal lumen of a left-sided double lumen tube; (B) and occlusion of the tracheal bronchus by the tracheal cuff of a left-sided double lumen tube causing inadequate ventilation of the tracheal bronchus (C)|
Click here to view
| Conclusion|| |
BBs for lung isolation are always placed under FOB visualization allowing diagnosis of central airway anomalies and permitting corrective action. However, an undiscovered TB after placement of a DLT can be very misleading with the potential for failure of lung isolation and/or adequate ventilation. We, therefore, recommend, during placement of a DLT, to place an FOB through the bronchial lumen immediately after the bronchial lumen is past the vocal cords, in order to assess the central airway anatomy and to identify the bronchus into which the bronchial lumen of the DLT will be sitting, and then to advance the DLT into the correct bronchus over the FOB. Furthermore, the importance of a thorough evaluation of the preoperative scans by the anesthesiologists themselves, instead of simply relying on the radiologist's reporting, cannot be over-emphasized. However, conventional radiological imaging may not be sufficient in detecting these anomalies, requiring more sophisticated and advanced reconstruction techniques.
We thank Rhonda Powell for the illustrations and Nadine Odo for help with the editing of the manuscript.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Boonsarngsuk V, Suwatanapongched T. Puzzling bronchial trifurcation. Respir Care 2011;56:1206-8.
Ghaye B, Szapiro D, Fanchamps JM, Dondelinger RF. Congenital bronchial abnormalities revisited. Radiographics 2001;21:105-19.
Wong DT, Kumar A. Case report: Endotracheal tube malposition in a patient with a tracheal bronchus. Can J Anaesth 2006;53:810-3.
Schweigert M, Dubecz A, Ofner D, Stein HJ. Tracheal bronchus associated with recurrent pneumonia. Ulster Med J 2013;82:94-6.
Zylak CJ, Eyler WR, Spizarny DL, Stone CH. Developmental lung anomalies in the adult: Radiologic-pathologic correlation. Radiographics 2002;22:S25-43.
Conacher ID. Implications of a tracheal bronchus for adult anaesthetic practice. Br J Anaesth 2000;85:317-20.
Lee DK, Kim YM, Kim HZ, Lim SH. Right upper lobe tracheal bronchus: Anesthetic challenge in one-lung ventilated patients - A report of three cases. Korean J Anesthesiol 2013;64:448-50.
Lee HL, Ho AC, Cheng RK, Shyr MH. Successful one-lung ventilation in a patient with aberrant tracheal bronchus. Anesth Analg 2002;95:492-3.
Stene R, Rose M, Weinger MB, Benumof JL, Harrell J. Bronchial trifurcation at the carina complicating use of a double-lumen tracheal tube. Anesthesiology 1994;80:1162-4.
Srivastava A, Warrier G, Trehan M, Radha AS. Tracheal bronchus: A cause of unexplained prolonged hypoxemia during ventilation. Pediatr Cardiol 2010;31:1229-31.
Ikeno S, Mitsuhata H, Saito K, Hirabayashi Y, Akazawa S, Kasuda H, et al.
Airway management for patients with a tracheal bronchus. Br J Anaesth 1996;76:573-5.
[Figure 1], [Figure 2], [Figure 3]
|This article has been cited by|
||The incidence of tracheal bronchus in thoracic patients and its implication for lung isolation: a retrospective cohort study.
| ||Lili Cheng,Shiqing Liu,Wenxu Qi,Youjing Dong |
| ||Journal of Cardiothoracic and Vascular Anesthesia. 2020; |
|[Pubmed] | [DOI]|
||Airway anomalies in cases of anomalous pulmonary venous connection – A single-center experience
| ||Anuradha Kamath,Pankaj Punetha,AdityaN Doddamane,KolliS Chalam,CS Hiremath |
| ||Annals of Cardiac Anaesthesia. 2020; 23(1): 14 |
|[Pubmed] | [DOI]|
||Tracheal bronchus: Anesthetic implications and importance of early recognition in the context of bronchial blocker use for lung isolation
| ||Pankaj Jain,Dao M Nguyen,Lilibeth Fermin,Edward Maratea,Michael Fabbro |
| ||Journal of Cardiothoracic and Vascular Anesthesia. 2019; |
|[Pubmed] | [DOI]|
||Incidental left main bronchus obstruction during left-sided double-lumen tube intubation of a patient with an unrecognized tracheal bronchus
| ||Ho Bum Cho,Hyoung June Kim,Hyung Youn Gong,Mun Gyu Kim,Sang Ho Kim |
| ||Medicine. 2016; 95(52): e5674 |
|[Pubmed] | [DOI]|