Neuromuscular blockade at the larynx, the diaphragm and the corrugator supercilii muscle: a review

To review recent findings concerning neuromuscular blockade and monitoring at the larynx, the diaphragm, and the corrugator supercilii muscle. This narrative review is based on recent publications. Neuromuscular blockade at the larynx and the diaphragm is less intense than at the adductor pollicis m...

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Bibliographic Details
Published in:Canadian journal of anesthesia 2003-10, Vol.50 (8), p.779-794
Main Authors: HEMMERLING, Thomas M, DONATI, Francois
Format: Article
Language:English
Subjects:
Anesthesia
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Biological and medical sciences
Diaphragm - anatomy & histology
Diaphragm - drug effects
Diaphragm - physiology
General anesthesia. Technics. Complications. Neuromuscular blocking. Premedication. Surgical preparation. Sedation
Humans
Laryngeal Muscles - drug effects
Laryngeal Muscles - innervation
Larynx
Larynx - anatomy & histology
Larynx - drug effects
Larynx - physiology
Medical sciences
Monitoring, Intraoperative
Neuromuscular Blockade
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Summary:To review recent findings concerning neuromuscular blockade and monitoring at the larynx, the diaphragm, and the corrugator supercilii muscle. This narrative review is based on recent publications. Neuromuscular blockade at the larynx and the diaphragm is less intense than at the adductor pollicis muscle; the onset and offset of neuromuscular blockade is more rapid. The corrugator supercilii muscle reflects better the time course of neuromuscular blockade of the larynx than the adductor pollicis muscle, is better suited to monitor the onset of neuromuscular blockade for intubation, and should give a better reflection of the time course and degree of neuromuscular blockade of the larynx or the diaphragm. Recovery of neuromuscular function at the end of any procedure is best reflected at the adductor pollicis muscle where neuromuscular transmission is last restored. Clinical monitoring of the larynx or the diaphragm is still limited by the absence of a simple method. Acceleromyography of the corrugator supercilii muscle is prone to artifacts that do not occur during monitoring of the adductor pollicis muscle. Phonomyography, a new method of monitoring that is currently being tested, is based on the phenomenon that muscle contraction creates low-frequency sound waves, which can be detected using special microphones to quantify neuromuscular blockade. This method seems promising because it can be easily used on all muscles of interest. Research during the last 15 years has greatly enhanced our knowledge about how muscles react differently to muscle relaxants and has enabled us to achieve better surgical conditions with safer use of muscle relaxants. Interesting technologies have been developed to reliably monitor neuromuscular blockade at the larynx and the diaphragm, but are currently restricted to research settings. Our increased understanding should help us in ongoing efforts to develop the "ideal" muscle relaxant and the "ideal" method of neuromuscular monitoring.
ISSN:0832-610X
1496-8975
DOI:10.1007/bf03019373