Despite neuromuscular transmission monitoring and pharmacological reversal allowing a train of four ratio recovery higher than 0.9, patients receiving neuromuscular blocking agent during general anesthesia have a high risk of postoperative pulmonary complications. While this train of four ratio threshold is considered as the gold standard to confirm the lack of residual paralysis, tetanus 100 Hz stimulation showed a marked fade. This result has been observed in absence of reversal agent administration. Therefore, the present study has been designed to compare the recovery of train of four stimulation, tetanus 50 Hz and tetanus 100 Hz stimulation in patient receiving rocuronium during general anesthesia and reversed by an anticholinesterase agent (neostigmine). Neostigmine will be injected once four muscular contractions of the adductor pollicis muscle will be observed after a train of four stimulation, at a dose (40 µg/kg) in accordance with the clinical practice worldwide admitted. Two questions have to be investigated. First, is this dose of neostigmine sufficient to allow a complete recovery of tetanus stimulations ? Second, due to the pharmacological properties of neostigmine, does a recurarisation phenomenon occur following repeated tetanus stimulations ? The attented results of this study will be to propose a new thinking on what we really need to make relevant progress in the safety aspects of residual paralysis outcome.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
21
Device : TOF Scan For each included patient, 2 monitorings (TOF Scan and ITF device) will be placed, one on each hand. Once 4 contractions of the adductor pollicis muscle will be observed on the TOF Scan side following train of four stimulation, 40 µg/kg neostigmine will be injected. Train of four ratio (delivered every minute) will be recorded. This sequence (tetanus 100 Hz followed by tetanus 50 Hz) will be repeated 6 times. For each tetanus stimulation, the ratio between the residual force and the maximum force generated by the adductor pollicis muscle will be recorded (this ratio illustrates the fade phenomenon). At the end of this period lasting 30 minutes after neostigmine administration, anesthetic drug delivery will be stopped and the patient wil be allowed to recover.
Device ITF For each included patient, 2 monitorings (TOF Scan and ITF device) will be placed, one on each hand. Once 4 contractions of the adductor pollicis muscle will be observed on the TOF Scan side following train of four stimulation, 40 µg/kg neostigmine will be injected. Train of four ratio (delivered every minute) will be recorded. This sequence (tetanus 100 Hz followed by tetanus 50 Hz) will be repeated 6 times. For each tetanus stimulation, the ratio between the residual force and the maximum force generated by the adductor pollicis muscle will be recorded (this ratio illustrates the fade phenomenon). At the end of this period lasting 30 minutes after neostigmine administration, anesthetic drug delivery will be stopped and the patient wil be allowed to recover.
CHU de Poitiers
Poitiers, France
To determine the delay following neostigmine administration to obtain a train of four ratio higher than 0.9 and a tetanus 100 Hz ratio higher than 0.9
Time frame: 30 minutes after neostigmine administration
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