Validation of the TOF Cuff Monitor® Which Measures NCT03256955

Clinical Trial Details — Status: Completed

Administrative data
NCT number	NCT03256955
Other study ID #	TofCuff Study
Secondary ID
Status	Completed
Phase	N/A
First received
Last updated
Start date	June 23, 2017
Est. completion date	May 14, 2018

Study information
Verified date	October 2019
Source	University Hospital, Geneva
Contact	n/a
Is FDA regulated	No
Health authority
Study type	Interventional

Clinical Trial Summary

Neuromuscular blocking agents (NMBAs) are frequently used in anesthesia and quantitative neuromuscular monitoring is standard care. The TOF WATCH SX® monitor is considered as one of the reference monitoring devices in clinical research and clinical practice. With this monitor the ulnar nerve is stimulated at the wrist and the force of the movement of the thumb is measured with acceleromyography. This method requires freedom of movement of the patient's thumb. Unfortunately this is not always possible due to the constraints of patient positioning during the operation. The TOF Cuff® monitor is a modified non-invasive blood pressure cuff that incorporates stimulating electrodes in its inner surface and is based on the stimulation of the peripheral nerve in the arm (brachial plexus, ulnar and median nerves principally). The evoked neuromuscular activity is recorded through the changes in pressure generated in the inner part of the cuff by the muscular activity after the stimulus. Moreover, this device can be used for non-invasive reading of the blood pressure. This device has been validated with mechanomyography, but was never been compared with acceleromyography, which is the most common used neuromuscular monitoring method.

Description:

Neuromuscular blocking agents (NMBAs) are frequently used in anesthesia for tracheal intubation, artificial ventilation, and continued muscle relaxation during surgical interventions. It is of particular importance to measure the neuromuscular block for several reasons:

1. To monitor the onset of neuromuscular block and to intubate when deep muscular relaxation is attained.

2. To choose the best antagonist and its dosage dependent of the degree of neuromuscular block (for instance sugammadex for deep neuromuscular block or neostigmine for superficial block).

3. To avoid antagonization of neuromuscular block in the case of complete recovery of neuromuscular function.

It is proven that monitoring of neuromuscular block reduces patient mortality. It avoids postoperative residual curarization, which is associated with complications such as hypoxemia, bronchoaspiration and pneumonia. Therefore the development and validation of new and efficacious neuromuscular monitoring devices is of great importance.

Neuromuscular monitoring is done by stimulating with an electric current a nerve and to measure the response of the corresponding muscle. In clinical practice acceleromyography is the most often used quantitative measurement method, because it is much easier to apply than other established quantitative neuromuscular monitoring methods such as mechanomyograpy and electromyography. Acceleromyography is based on the piezoelectric effect where mechanical forces at play on the surfaces of certain materials, such as crystals or ceramics, induce an electrical current. According to Newton's second law of motion, force equals mass times acceleration (F=m x a). At constant mass, the acceleration measured and the voltage thereby generated can be used to derive the force of the stimulated muscle. It is standard practice to stimulate the ulnar nerve at the wrist and to measure the movement of the adductor pollicis. In the research setting acceleromyography (TOF Watch SX® monitor) is an established and widely used method. This method requires freedom of movement of the patient's thumb. Unfortunately this is not always possible due to the constraints of patient positioning during the operation. The TOF Cuff® monitor is a modified non-invasive blood pressure cuff that incorporates stimulating electrodes in its inner surface and is based on the stimulation of the peripheral nerve in the arm (brachial plexus, ulnar and median nerves principally). The evoked neuromuscular activity is recorded through the changes in pressure generated in the inner part of the cuff by the muscular activity after the stimulus. Moreover, this device can be used for non-invasive reading of the blood pressure. This device has been validated with mechanomyography, but was never been compared with acceleromyography, which is the most common used neuromuscular monitoring method.

Recruitment information / eligibility
Status	Completed
Enrollment	40
Est. completion date	May 14, 2018
Est. primary completion date	May 14, 2018
Accepts healthy volunteers	No
Gender	All
Age group	18 Years to 65 Years
Eligibility	Inclusion Criteria: - Patients, age =18 to 65 years - Patient with American Society of Anesthesiology [ASA] status I or II - Patient able to read and understand the information sheet and to sign and date the consent form - Patient scheduled for elective surgery lasting at least 60 minutes Exclusion Criteria: - Patient with a history of allergy or hypersensitivity to rocuronium - Patient with pacemaker - Patients with neuromuscular disease - Patients with preoperative medications known to influence neuromuscular function (for instance aminoglycosides, phenytoin, lidocaine) - Patients with electrolyte abnormalities (for instance, hypermagnesemia) - Patients with a body mass index <19 or >30 kg m2 - Patient having participated in any clinical trial within 30 days, inclusive, of signing the informed consent form of the current trial - Patients undergoing interventions that need a continuous deep NMB (for surgical reasons).

Study Design

Related Conditions & MeSH terms

Neuromuscular Blockade

Intervention

Device:
• Tof cuff
The Tof Cuff will be installed on one arm. After anesthesia induction the Tof Cuff will be calibrated and continuos monitoring of the neuromuscular block started until complete recovery of neuromuscular block.
• Tof Watch SX
The Tof Watch SX will be installed on the opposite arm to the Tof Cuff. After anesthesia induction the Tof Watch SX will be calibrated and continuos monitoring of the neuromuscular block started until complete recovery of neuromuscular block.

Locations
Country	Name	City	State
Switzerland	University Hospitals of Geneva	Geneva

Sponsors *(1)*
Lead Sponsor	Collaborator
Christoph Czarnetzki

Country where clinical trial is conducted

Switzerland,

References & Publications (3)

Rodiera J, Serradell A, Alvarez-Gómez JA, Aliaga L. The cuff method: a pilot study of a new method of monitoring neuromuscular function. Acta Anaesthesiol Scand. 2005 Nov;49(10):1552-8. — View Citation

Sfeir Machado E, Keli-Barcelos G, Dupuis-Lozeron E, Tramèr MR, Czarnetzki C. Assessment of spontaneous neuromuscular recovery: A comparison of the TOF-Cuff(®) with the TOF Watch SX(®). Acta Anaesthesiol Scand. 2019 Oct 8. doi: 10.1111/aas.13487. [Epub ahe — View Citation

Veiga Ruiz G, García Cayuela J, Orozco Montes J, Parreño Caparrós M, García Rojo B, Aguayo Albasini JL. Monitoring intraoperative neuromuscular blockade and blood pressure with one device (TOF-Cuff): A comparative study with mechanomyography and invasive blood pressure. Rev Esp Anestesiol Reanim. 2017 Dec;64(10):560-567. doi: 10.1016/j.redar.2017.03.013. Epub 2017 Jun 27. English, Spanish. — View Citation

Outcome
Type	Measure	Description	Time frame
Primary	Total recovery time of neuromuscular block	The total recovery time, i.e. total duration of the neuromuscular block is defined as the time in minutes from start of injection of rocuronium until a normalized TOF ratio of 90% (Dur TOF 0.9). TOF = Train of Four	60 to 120 minutes
Secondary	Onset time	time in seconds from start of injection of rocuronium until 95% depression of the first twitch (T1) of the TOF(Train of Four)	1 to 4 minutes
Secondary	Duration TOF count 1	Time (in minutes) from administration of rocuronium to emergence of the 1st twitch of the TOF (Dur TOFc1)	20 - 30 minutes
Secondary	Duration TOF 25%	Time (in minutes) from administration of rocuronium to emergence of a normalized TOF ratio of 25%	30 - 40 minutes
Secondary	Duration TOF 50%	Time (in minutes) from administration of rocuronium to emergence of a normalized TOF ratio of 50%	30 - 50 minutes
Secondary	Duration TOF 75%	Time (in minutes) from administration of rocuronium to emergence of a normalized TOF ratio of 75%	30 - 60 minutes

See also
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Completed	`NCT02892045` - Mindray Neuromuscular Transmission Transducer
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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
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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	`NCT03608436` - The Effect of Low Pressure Pneumoperitoneum During Laparoscopic Colorectal Surgery on Early Quality of Recovery	Phase 4
Completed	`NCT03572413` - The Effect of Low Pressure Pneumoperitoneum During Laparoscopic Colorectal Surgery on Innate Immune Homeostasis.	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

External Links

Thesis for the validation of the tof cuff (in spanish)

Validation of the TOF Cuff Monitor® Which Measures Neuromuscular Block on the Upper Arm

Clinical Trial Details — Status: Completed

Administrative data

Study information

Clinical Trial Summary

Description:

Recruitment information / eligibility

Study Design

Related Conditions & MeSH terms

Intervention

Locations

Sponsors (1)

Country where clinical trial is conducted

References & Publications (3)

Outcome

External Links