Clinical Trials Logo

Clinical Trial Summary

The overall objective of this research is to evaluate different laboratory-built and commercially available sensors used to measure the effects of neuromuscular blocking drugs on neuromuscular function during surgery, by measuring evoked thumb twitch response to ulnar nerve stimulation (also known as "twitch monitoring"). The specific aim is to compare mechanomyography, which is the "gold standard" laboratory measurement to assess neuromuscular blockade, to the sensors used in commercially available neuromuscular blockade monitors, such as acceleromyography and electromyography. The study endpoints are the train-of-four count (TOFC), the ratio of the height of the 4th twitch to the height of the 1st twitch (train-of-four ratio, TOFR), and the post tetanic count (PTC). The mechanomyography devices have been constructed in our laboratory and are not commercially available.


Clinical Trial Description

Twitch monitoring will be performed as described below for each device: Stimpod NMS 450 or other related Stimpod device (Xavant Technology, Pretoria, South Africa)--acceleromyography and/or electromyography. Movement of the thumb and hand will not be restricted and no artificial preload will be used. Electrodes (3M Red Dot, 3M Healthcare, St. Paul, MN, USA) will be applied over the ulnar nerve at the wrist for acceleromyography. The Stimpod acceleromyography sensor will be attached to the distal phalanx of the thumb using the supplied plastic circumferential band, reinforced with tape if necessary. The Stimpod electromyography printed electrode array will be applied as described in the manufacturer's instructions for use. TwitchView Monitor (Blink Device Company, Seattle, WA, USA)--electromyography. The TwitchView electromyography printed electrode array will be applied as described in the manufacturer's instructions for use. TetraGraph (Senzime, Sweden)--electromyography. The TetraGraph electromyography printed electrode array will be applied as described in the manufacturer's instructions for use. Nihon Kohden (Japan)--electromyography. The Nihon Kohden printed electromyography electrode array will be applied as described in the manufacturer's instructions for use. Mechanomyography. The mechanomyography monitors were built in our laboratory and consists of a force transducer, signal amplifier and analogue to digital converter held in a 3D printed wrist and hand immobilizer, or other hand immobilizer rig. The mechanomyography force transducer response is linear with precision to 5g and accuracy to 25g for measurements examined from 0 to 5kg with sensitivity to 10g within that range. A preload of 200-300g will applied to the thumb prior to data collection. Custom software using the LabVIEW package (National Instruments, Austin, Texas) was developed for data acquisition, analysis of the voltage response after the train-of-four stimulus and for counting the twitches. General experimental conditions. The amplitude of the train of four stimulus will be set at 60 mA in all cases. Skin prep with alcohol wipes will be performed prior to attaching any electrodes. Temperature homeostasis will be maintained in all patients through the use of active warming. Normocarbia will be maintained as defined by end tidal CO2 between approximately 32 and 40 mmHg. The anesthesia technique including the choice of anesthetic and neuromuscular blocking agents will be at the discretion of the anesthesia care team and may include propofol, opioids (mainly fentanyl and hydromorphone), sevoflurane, isoflurane, rocuronium and vecuronium. Data collection will be customized in each patient depending upon the availability of upper limbs for monitoring. Acceleromyography and mechanomyography cannot be tested on the same arm simultaneously because the mechanomyography restricts movement of the thumb. The electromyography electrode array does not interfere with simultaneously measuring either acceleromyography or mechanomyography. Subjective twitch count can be made on the same hand as the acceleromyography or electromyography measurement, but not on the same hand as mechanomyography since the plastic frame or other rig of the mechanomyography precludes manual palpation of thumb movement. Train-of- four count will be measured by palpation (when possible) and then by one or more of the twitch monitors (i.e. two measurements were taken within the span of about 2 minutes) approximately every 5 minutes from induction of anesthesia until just before emergence from anesthesia. Measurements will not be made for 10 minutes following administration of neuromuscular blocking drugs or reversal agents in order to avoid periods when the extent of neuromuscular blockade was changing very rapidly. When measurements were made on both arms, the train of four twitch stimulus will be administered in each arm within about 2 minutes. Not all twitch monitoring devices we be evaluated in each patient. The choice of devices to be evaluated in each patient will be made primarily on the basis of the availability of arms for monitoring and the availability of monitoring devices. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05006807
Study type Observational
Source University of Washington
Contact Lisa Flint
Phone 206 543-7817
Email lyflint@uw.edu
Status Recruiting
Phase
Start date February 1, 2022
Completion date June 30, 2024

See also
  Status Clinical Trial Phase
Recruiting NCT05558969 - The Effect of Magnesium Use in Reversal of Neuromuscular Block With Sugammadex N/A
Completed NCT03168308 - Sugammadex vs. Neostigmine for Neuromuscular Blockade Reversal in Thoracic Surgical Patients Phase 4
Not yet recruiting NCT03978780 - Erector Spinae Block vs. Placebo Block Study N/A
Completed NCT02912039 - Electromyographic Assessment of the TetraGraph in Normal Volunteers
Completed NCT02892045 - Mindray Neuromuscular Transmission Transducer
Completed NCT03427385 - Minimum Local Anesthetic Dose for Adductor Canal Block N/A
Completed NCT01450813 - The Effect of Neuromuscular Blockade on the Composite Variability Index (CVI) During Laryngoscopy N/A
Completed NCT00535496 - Relation Between TOF-Watch® SX and a Peripheral Nerve Stimulator After 4.0 mg.Kg-1 Sugammadex (P05698) Phase 3
Recruiting NCT05794503 - Postoperative Urinary Retention After Reversal of Neuromuscular Block by Neostigmine Versus Sugammadex Early Phase 1
Not yet recruiting NCT05993390 - Pharmacological Reversal of Neuromuscular Blockade in Critically Ill Patients N/A
Recruiting NCT04609410 - Bleeding in Laparoscopic Liver Surgery N/A
Terminated NCT03649672 - The Validity and Tolerability of Awake Calibration of the TOF Watch SX Monitor N/A
Completed NCT05474638 - Comparison of Mechanomyographic 100 Versus 200 Hz 5 Second Tetanic Fade Ratios During Neuromuscular Block Recovery N/A
Completed NCT05687253 - Evaluation of Intubation Conditions Following BX1000 or Rocuronium in Subjects Undergoing Surgery Phase 2
Completed NCT05120999 - Comparison of Onset of Neuromuscular Blockade With Electromyographic and Acceleromyographic Monitoring
Completed NCT03572413 - The Effect of Low Pressure Pneumoperitoneum During Laparoscopic Colorectal Surgery on Innate Immune Homeostasis. Phase 4
Completed NCT03608436 - The Effect of Low Pressure Pneumoperitoneum During Laparoscopic Colorectal Surgery on Early Quality of Recovery Phase 4
Recruiting NCT02930629 - Residual Block in Postoperative Anaesthetic Care Unit N/A
Completed NCT02932254 - Magnesium Sulfate Effect Following the Reversal of Neuromuscular Blockade Induced by Rocuronium With Sugammadex Phase 4
Completed NCT01828385 - Effect of Magnesium on the Recovery Time of Neuromuscular Blockade With Sugammadex Phase 4