Journal List > J Dent Anesth Pain Med > v.18(5) > 1106724

Sriramka, Mallik, Khetan, and Moda: Revisiting the awake retrograde nasal intubation technique
Sir,
Retrograde intubation is an important rescue technique in difficult airway situations where flexible fibreoptic bronchoscopes are unavailable or there is a lack of skilled personnel. However, it is a blind procedure and is often associated with complications such as nasal bleeding, subcutaneous emphysema, and failure to retrieve through the nose [1]. Risk of epidural catheter coiling due to the thin pliable design and occasional ethmoidal perforation with cerebrospinal fluid leak, has also been reported [23]. Here, we describe a novel modification to the existing procedure that makes it simpler for the anesthetist and safer for the patient. A 68-year-old, ASA I male, with carcinoma of the buccal mucosa, was scheduled to undergo wide local excision. His mouth opening was one finger with no restriction of neck movements. In the absence of the fibreoptic bronchoscope, awake retrograde nasal intubation was planned. The procedure was explained and an informed consent was obtained. Pre-medication with intravenous (IV) glycopyrrolate 10 mcg/kg, midazolam 0.03 mg/kg, fentanyl 1 mcg/kg was carried out, and 4% lignocaine was used for nebulization. Oxymetazoline drops (0.5% w/v) were instilled in the nasal cavity after patency check. Superior laryngeal and glossopharyngeal nerve blocks (extra oral technique) were administered bilaterally. A nasopharyngeal airway of size 32 was inserted in the left nostril inline and secured. Under local infiltration, the cricothyroid membrane was pierced with a 16-gauge (G) IV cannula. The needle was removed following lack of resistance and the placement of cannula was confirmed with air aspiration; further intra-tracheal local infiltration was carried out subsequently. A J-tipped guide wire (Certofix, B. Braun) was inserted by Seldinger's technique with its straight end through the 16-G cannula (Fig. 1a). The guide wire was gently pushed until it was retrieved through the nasopharyngeal airway (Fig. 1b) and maximally pulled until it could be held by a hemostat at the cricothyroid end. The nasopharyngeal airway was removed and a Cook's airway exchanger was inserted over it (Fig. 1c). A cuffed flexo-metallic endotracheal tube (ETT) of internal diameter 7 mm was rail-roaded through it finally (Fig. 1d). The guide wire and airway exchanger were then removed, and the ETT was inserted to a mark of 25, where the bilateral air entry was auscultated, as confirmed by capnograph, and fixed. Anesthesia was induced with IV propofol 2 mg/kg and vecuronium 0.1 mg/kg and maintained with oxygen, nitrous oxide, and isoflurane. At the end of surgery, IV neostigmine 0.05 mg/kg and glycopyrrolate 10 mcg/kg were used for reversal, and the patient was transferred to the intensive care unit for observation. The patient was extubated after 24 h uneventfully.
In difficult airway scenarios, the non-availability of fibreoptic bronchoscopes further complicates the situation. Retrograde nasal intubation, first described by Water in 1963, is a boon to overcome such problems, and is a ‘must learn’ bailout procedure for all trainee anesthetists [4]. Nevertheless, this procedure is associated with a few iatrogenic complications such as an inadvertent puncture of the posterior tracheal wall or esophagus, and failure to retrieve the wire through the nose [1]. We made simple modifications such as using the 16-G IV cannula to pass the guide wire in place of the needle itself or the Tuohy needles. This prevents any inadvertent injury to the posterior tracheal wall during local anesthetic instillation or guide wire insertion. The nasopharyngeal airway walls off the nasopharyngeal space and acts as a perfect conduit for the guide wire. The retrieval of the guide wire is also easy and prevents any injury to the nasal cavity by its pointed ends or catheter malpositioning. This novel adaptation of the retrograde intubation technique is hence safer for the patient and simpler for the anesthetist.

Figures and Tables

Fig. 1

(a) The 16-gauge IV cannula (after the needle has been removed) used to pass the straight end of the “J tipped” guide wire, (b) Retrieval of the guide wire through the nasopharyngeal airway, (c) The tube exchanger being passed over the guide wire, (d) Passing of the endotracheal tube railroaded over the tube exchanger.

jdapm-18-315-g001

Notes

There are no financial or other issues that might lead to conflict of interest.

References

1. Loh K, Irish J. Complications of Endotracheal Intubation and Other Airway Management Procedures. Anesth Clin North Am. 2002; 20:953–969.
2. Gerenstein RI. J-wire facilitates translaryngeal guided intubation. Anesthesiology. 1992; 76:1059.
crossref
3. Raval C, Patel H, Patel P, Kharod U. Retrograde intubation in a case of ankylosing spondylitis posted for correction of deformity of spine. Saudi J Anaesth. 2010; 4:38–41.
crossref
4. Waters DJ. Guided blind endotracheal intubation: For patients with deformities of the upper airwav. Anaesthesia. 1963; 18:158–162.
TOOLS
ORCID iDs

Bhavna Sriramka
https://orcid.org/0000-0001-8439-5908

Diptimayee Mallik
https://orcid.org/0000-0003-0616-8157

Megha Khetan
https://orcid.org/0000-0002-1830-1640

Nupur Moda
https://orcid.org/0000-0003-1008-8694

Similar articles