Anesthesia Clinical Trial
Official title:
Apneic Oxygenation Using Transnasal Humidified Rapid-Insufflation Ventilatory Exchange (THRIVE) in Adult Patients Undergoing Suspension Laryngoscopy Under General Anesthesia: a Multicenter Study
Patients undergoing suspension laryngoscopy under general anaesthesia have oxygen delivered
to their lungs through different methods. Inserting a tube in the trachea is the best means
for oxygen delivery. However, it does not allow for optimal visibility of the operated area.
Other techniques can be used but have disadvantages with some being associated with serious
complications. No consensus exists regarding the best airway management technique for this
intervention.
The aim of the study is to investigate a new device that delivers oxygen at very high flow
through a nasal cannula in patients undergoing suspension laryngoscopy under general
anaesthesia. This technique allows the surgeon to have a perfect visualisation of the
laryngeal structures while allowing the delivery of oxygen for the lungs.
After informed consent, adult patients undergoing suspension laryngoscopy under general
anaesthesia in two French hospitals will receive high flow oxygen throughout the procedure.
At the end of surgery or, whenever applicable, at the time of technique failure (with a
decrease in blood oxygen saturation to less than 92%), blood will be drawn for analysis. All
patients will have a thin security catheter inserted in their trachea (the currently used
technique in both participating hospitals), allowing for rescue high frequency ventilation if
ever the study technique fails.
The safety of the device will also be assessed by analysing the blood samples for signs of
carbon dioxide accumulation and by collecting any intra or post-operative complications.
If the device shows to be effective at maintaining blood oxygenation without significant
associated risks, it could be used for other surgical situations where airway management is
expected to be difficult.
Suspension laryngoscopy is a surgical intervention for which no airway management
recommendations exist.
Many techniques are used, each having limitations. While tracheal intubation is the gold
standard of airway management, in this particular intervention, it does not allow for optimal
visualisation of the larynx. Maintaining spontaneous ventilation under general anaesthesia is
used by some teams but puts the patient at the risk of laryngospasm. Apneic oxygenation is
another option but its use is limited by the associated risk of hypercapnia. High frequency
jet ventilation allows for good surgical conditions, satisfactory blood oxygen delivery and a
low risk of hypercapnia; however, its use has been associated with severe, sometimes deadly,
complications.
Nasal High Flow oxygenation is a relatively novel technique that allows for the delivery of
heated and humidified oxygen with flow ranging up to 70l/min. It is widely used in neonatal
and adult critical care. Its use in apneic patients under general anaesthesia has been
reported to be associated with a mean of 14 minutes of desaturation-free apnea time with
limited risk of hypercapnia. Desaturation-free apnea times up to 60 minutes have been
reported. The use of nasal high flow apneic oxygenation in suspension laryngoscopy has been
reported once in the literature with encouraging results.
The aim of the study is to assess the efficacy of nasal high flow oxygen in maintaining
normal blood oxygen saturation (>95%) in apneic patients undergoing suspension laryngoscopy
under general anaesthesia.
Adult patients undergoing suspension laryngoscopy (laser surgeries and cavoscopies excluded)
in two french hospitals will be screened for eligibility by the anaesthesiologist during the
preoperative consultation. Consenting and eligible patients will be enrolled in the study.
After pre oxygenation (until etO2 >90%), general anaesthesia will be started and maintained
using TIVA propofol and remifentanil. Neuromuscular blockade will be achieved using
rocuronium.
As soon as apnea is obtained, nasal high flow oxygen will be started at 70l/min using
Simplified OptiflowTM (Fisher & Paykel Healthcare Ltd, Auckland, New Zealand) . A
transglottic high frequency jet ventilation catheter will also be placed in the trachea to
allow for emergency ventilation if high flow oxygenation fails to maintain SpO2>92%.
Oxygen saturation, blood pressure, pulse rate, BIS and neuromuscular blockade will be
monitored throughout the surgery.
At the end of surgery (maximum 30 minutes), or as soon as blood oxygen saturation falls below
92%, whichever comes first, arterial blood for blood-gas analysis (PaO2, PaCO2, pH) will be
drawn.
Neuromuscular blockade will be reversed with neostigmine or sugammadex depending on the depth
of nerve block.
If the technique is shown to be associated with a low risk of blood oxygen desaturation and
of severe hypercapnia, it could be considered for predictable difficult airway management.
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