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Clinical Trial Summary

This prospective study will take place at Harborview Medical Center (HMC) and the University of Washington Medical Center (UWMC), and will enroll adult patients undergoing abdominal surgery. The purpose of this study is to identify if the use of a specific plan to managing muscle relaxants will help decrease the risk of muscle weakness after general anesthesia with muscle relaxation in a population of patients undergoing abdominal surgery.


Clinical Trial Description

80 patients will be enrolled in this prospective study. The first 40 patients will serve as controls and will not have an intervention.

Patients who have surgery and receive general anesthesia often receive muscle relaxants called neuromuscular blocking drugs or NMBDs. NMBDs facilitate anesthesiologists' performance of tracheal intubation, provide muscle relaxation during surgery, and are sometimes administered to prevent movement. After surgery, an anesthesiologist monitors how the muscle relaxants wear off, and gives a drug to help reverse the effect of the NMBDs before the tracheal breathing tube is removed and a patient is awakened and taken to the postoperative care area (PACU).

A patient who receives NMBDs for their routine care can experience a leftover effect of the drug after their general anesthesia wears off. This condition is called Residual Neuromuscular Blockade. The management of NMBDs in patients for routine care vary by anesthesia provider. This study will explore if the use of a specific plan to managing muscle relaxants will help decrease the risk of muscle weakness after general anesthesia. Anesthesiologists routinely use peripheral nerve stimulators to assess the degree of muscle relaxation. Very commonly a series of 4 electrical stimulations are given over 2 seconds and each stimulation result in a twitch of the thumb when the ulnar nerve is stimulated at the wrist. This is called train-of-four (TOF) monitoring. When the patient is deeply relaxed, then all twitches are not present but as the drug effect diminishes over time, the twitches return. When 4 twitches are present, an exact measurement of the so-called TOF ratio can be calculated if an objective monitor is used. The ratio is the strength of the fourth twitch divided by the strength of the first twitch. The most commonly used reversal drug is neostigmine and it is known from previous research that it works more effectively if the muscle relaxation is not profound. In the intervention group, the investigators will confirm that the neuromuscular blockade has spontaneously recovered to a level where all 4 thumb twitches are present before neostigmine is administered.

All patients will have objective measurements obtained using the FDA approved monitor TOF-Watch SX. This monitor will be applied at the beginning of each case and will be calibrated immediately after induction of anesthesia. This is a simple automated process that takes less than 1 minute. The investigators will also obtain a TOF ratio measurement at the beginning of the case, before a muscle relaxant has been administered. This initial measurement allows for normalization of postoperative measurements. Measurement will be obtained again at the time of extubation, i.e. the removal of the breathing tube, which usually occurs in the operating room as the patient is awakened after surgery. Patients are routinely transferred to the post-anesthesia care unit (PACU) within minutes of being extubated and shortly after arrival to the PACU, the anesthesiologists transfers the care to PACU RNs. The investigators will obtain one more TOF-ratio measurement when the patient has just arrived to the post-anesthesia care unit (PACU). ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02660398
Study type Interventional
Source University of Washington
Contact
Status Completed
Phase Phase 4
Start date January 2016
Completion date January 2017

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