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Title: Recovery from neuromuscular block in dogs: restoration of spontaneous ventilation does not exclude residual blockade. Author: Martin-Flores M, Sakai DM, Campoy L, Gleed RD. Journal: Vet Anaesth Analg; 2014 May; 41(3):269-77. PubMed ID: 24754501. Abstract: OBJECTIVE: To evaluate if return of spontaneous ventilation to pre-relaxation values indicates complete recovery from neuromuscular blockade. STUDY DESIGN: Prospective, with each individual acting as its own control. ANIMALS: Ten healthy adult female Beagle dogs weighing 6.2-9.4 kg. METHODS: Dogs were anesthetized with propofol, dexemedetomidine and isoflurane. Spontaneous ventilation was assessed by measuring end-tidal CO2 , expired tidal volume, peak inspiratory flow, respiratory rate and minute ventilation. Vecuronium 25 μg kg(-1) IV was administered and neuromuscular block was evaluated by measuring the train-of-four (TOF) ratio with acceleromyography in the hind limb. During spontaneous recovery from neuromuscular block, the TOF ratio when each ventilatory variable returned to baseline was recorded. RESULTS: This dose of vecuronium produced moderate neuromuscular block in all dogs, with TOF ratio values of 0-18% at maximal block. Expired tidal volume, peak inspiratory flow and minute ventilation returned to pre-relaxation values when the median TOF ratio was ≤ 20%. The median TOF ratio was 42% when the end-tidal CO2 returned to pre-relaxation values. CONCLUSIONS AND CLINICAL RELEVANCE: Significant residual neuromuscular block could be measured at the hind limb with acceleromyography when ventilation had spontaneously returned to pre-vecuronium values. Monitoring spontaneous ventilation, including end-tidal CO2 , expired tidal volume, peak inspiratory flow or minute ventilation cannot be used as a surrogate for objective neuromuscular monitoring, and this practice may increase the risk of postoperative residual paralysis.[Abstract] [Full Text] [Related] [New Search]