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Probable gas embolism during operative hysteroscopy caused by products of combustion

[Probabilité d’embolie gazeuse causée par des produits de combustion pendant l’hystéroscopie peropératoire]

From the Department of Anesthesia, Toronto Western Hospital, University Health Network, University of Toronto, Toronto, Ontario, Canada.

Address correspondence to: Dr. Ron Crago, Department of Anesthesia, Toronto Western Hospital, 399 Bathurst Street, Toronto, Ontario M5T 2S8, Canada. Phone: 416-603-5118; Fax: 416-603-6494; E-mail: ron.crago{at}uhn.on.ca

Purpose: Gas embolism is a rare but well documented entity during operative hysteroscopy, with an incidence of 10–50%. Catastrophic outcomes occur at a rate of three in 17,000 procedures. The purpose of this report is to present a non-fatal case of gas embolism probably caused by the gaseous products of combustion.

Clinical features: A 50-yr-old woman with a history of menorrhagia was scheduled for hysteroscopy and endometrial ablation and polypectomy. Fifteen minutes into the procedure, with the patient in lithotomy position, 20° head down tilt, and breathing spontaneously, a sudden oxygen desaturation occurred from 97% to 87%. The patient’s end-tidal carbon dioxide dropped from 46 mmHg to 27 mmHg. The patient’s breathing pattern remained normal, respiratory rate remained 11–12 breaths•min^-1 but amplitude of the reservoir bag movement was increased. Cardiovascular variables remained stable. She responded rapidly to 100% oxygen and made an uneventful recovery. Having ruled out other possible causes, we concluded gas embolism was responsible for the fall in oxygen saturation and end-tidal CO₂.

Conclusion: With all the precautions in place to minimize the likelihood of fluid overload and ambient air embolism occurring, we surmised that products of combustion were the cause of the gas embolism. During endometrial ablation, gaseous products of combustion, mainly carbon dioxide, accumulate. The gases may then contribute to the rise in uterine pressure that occurs as irrigation fluid enters the uterus and this rise in pressure in turn encourages passage of gas into the open venous sinuses.