Neuromuscular Blockade Clinical Trial
Official title:
Development and Validation of an Android-based Application for Anaesthesia Neuromuscular Monitoring
The present study aims to assess the accuracy of a newly developed Android Smartphone
Application in measuring the degree of Neuromuscular block in the perioperative period.
This will be achieved by comparing Train-of-four Ratio measurements using this application
with those obtained from a standard commercialized neuromuscular monitor.
Since Harold Randall Griffith pioneered by the use of curare during anaesthesia by
administering it to a young man during an appendectomy in Montreal, the practice of
anaesthesiology has completely changed and the world of Neuromuscular Blocking has been
thoroughly fine-tuned: increased knowledge and clinical experience, development of new
Neuromuscular Blocking Agents (NMBA) with fewer side-effects and well-studied pharmacokinetic
profiles, introduction of new antagonizing drugs such as Sugammadex, as well as refinement of
neuromuscular block measuring instruments. NMBAs are routinely administered to patients in a
multiplicity of anaesthetic settings, and the possibility and availability of instruments
allowing the accurate measurement of the degree of neuromuscular block has raised the
standards of their use and reversal. The absence of a residual neuromuscular blockade is now
widely considered an anesthetic must, as incomplete recovery has been long-established as a
strong contributor to post-anesthesia morbidity and mortality. Considering the proven
inconsistent, inter/intra-variable and inaccurate character of the human senses to estimate
adequate neuromuscular recovery after NMBA use, the proper assessment of neuromuscular
recovery can only be done by means of objective methods.3 For this purpose, one of the most
widely used methods is the Train of Four (TOF): transcutaneous application of a series of 4
square-wave supra-maximal electrical stimuli over the course of a nerve of choice (most
commonly the ulnar nerve). These are applied at a frequency of 2Hz, and each with a duration
of 0,2ms. These stimuli elicit a motor response on the adductor pollicis muscle, which on its
turn dictates the abduction of the thumb. The acceleration of this movement can be followed
by means of an uni/multi-directional accelerometer attached to the thumb. The ratio of the
acceleration of the 4th and 1st elicited contractions is called the TOF-Ratio, and this
TOF-ratio is a clinically and scientifically established method of assessing neuromuscular
block recovery. A value of 1 translates a full recovery of the muscular function of a
patient. In modern Anesthesia, the bar for deeming a recovery as adequate has been set at a
minimum of a TOF-Ratio of >0.9, with some authors advocating a ratio of 1 as the only
acceptable and complications-avoiding result.
Although an effective measurement of muscular recovery parameters is necessary, daily
clinical limitations dictate other practices. Medical devices are expensive and not always
available for immediate use. Some devices are also only able to deliver the electrical
impulses, but not to measure acceleromyographic parameters. These limitations often force
anaesthesiologists to undertake on-the-spot guess-practices (assuming recovery based on a
particular NMBA's half-life and its last administered dose), or "d'office" actions (standard
NMBA reversal) to determine if a patient has adequately recovered. These methods are
inherently associated with major pitfalls/iatrogenic side-effects and are major determinants
of a high post-operative morbidity and mortality.
In this study the investigators aim to assess the capability of a dedicated smartphone
application to transform and incorporate a Smartphone's accelerometric data to accurately
measure the TOF-Ratio in an anaesthesia setting and to compare it to commercially used and
established neuromuscular block measuring devices.
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