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Peer-reviewed veterinary case report

Dog under anesthesia had breathing blocked by valve misplacement

By Acevedo, Alexa et al.·Published in Veterinary anaesthesia and analgesia·2025·Department of Comparative, United States·View original on PubMed

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Original publication title: Complete mechanical expiratory obstruction as a result of expiratory valve malposition in an anesthetized dog.

Species:
dog
Movement & jointsDogs

Plain-English summary

A 8-year-old female mixed-breed dog was undergoing surgery for a jaw issue when she experienced serious breathing problems during anesthesia. Despite proper setup and monitoring, the dog showed no carbon dioxide levels in her breath, indicating a major obstruction. The veterinary team quickly switched to a different anesthesia machine, which resolved the issue and allowed for normal breathing. After the surgery, they discovered that a misassembled part in the breathing system had caused the obstruction. Thankfully, the dog remained stable throughout the procedure and recovered well after the surgery.

People also search for: dog anesthesia breathing problems · mixed-breed dog surgery complications · why is my dog not breathing during surgery

Abstract

A female, mixed-breed dog, aged 8 years, presenting with left temporomandibular joint ankylosis caused by a soft tissue sarcoma was anesthetized for tracheotomy and caudal segmental mandibulectomy. After intramuscular sedation with methadone and dexmedetomidine, oxygen was delivered by face mask, and anesthesia induced and maintained with propofol. A tracheotomy was performed, and a cuffed endotracheal tube was inserted. A circle breathing system that had been leak-tested was connected to the endotracheal tube, and oxygen (2 L minute) was administered. End-expiratory carbon dioxide partial pressure was undetectable despite manual ventilation. The breathing system was disconnected and capnograph function confirmed by the anesthetist exhaling into the sampling adaptor. Correct endotracheal tube placement within the tracheal lumen and absence of kinking was confirmed by direct visualization. The breathing system was reconnected to the endotracheal tube and the lungs were auscultated during manual ventilation, verifying airflow during inhalation. A rapid increase in breathing system pressure was observed on the airway manometer despite an open adjustable pressure-limiting valve. The problem was resolved by using a second anesthetic machine: capnograph displayed a waveform and breathing system pressure was 0 cmHO. Throughout troubleshooting, saturation of arterial hemoglobin (pulse oximetry) remained > 97% and no arrhythmias were detected. A misassembled expiratory valve seat that immobilized the flutter valve was found as the cause of the problem on postanesthetic inspection of the anesthetic machine. Correcting the expiratory valve seat placement restored normal valve function. This case highlights the importance of confirming proper unidirectional valve seat assembly before anesthesia. Performing a leak test alone is insufficient to detect unidirectional valve malfunction. The lack of a safety mechanism to ensure correct valve seat placement reveals a design vulnerability that could lead to fatal anesthetic complications.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40447501/