View clinical trials related to Neuromuscular Blockade.
Filter by:Colon and rectal surgery is associated with high cost, long length of stay, high postoperative surgical site infection rate, high incidence of postoperative nausea and vomiting, and a high rate of hospital readmission. Return of bowel function is of utmost importance in avoiding patient discomfort, morbidity, and mortality after colorectal surgery. All patient having colorectal surgery receive neuromuscular paralysis, which is reversed at the end of surgery with either glycopyrrolate and neostigmine, or sugammadex. Glycopyrrolate and neostigmine both affect bowel function. Sugammadex has no effect on bowel function. The purpose of this study is to determine if a strategy of neuromuscular reversal with sugammadex, instead of glycopyrrolate and neostigmine, may increase gastric emptying after surgery and lead to less postoperative complications.
Patients suffering from critical illnesses who are admitted to the Intensive Care Unit (ICU) are often affected by multiple organ failure. Among those dysfunctions, it is very important to mention the neuromuscular system failure, known as Intensive Care Unit-Acquired Weakness (ICU-AW). In non-cooperative patients, the simplified electromyography (called Peroneal Nerve Test, PENT) allows diagnosing the Critical Illness Polyneuropathy (CIP) and/or the Critical Illness Myopathy (CIM), which are two causes of ICU-AW. The ICU-AW can involve both nerves and muscles, but so far there has been no evidence about the involvement of the third element of the neuromuscular system: the neuromuscular junction (NMJ). The gold standard technique to study the function of the NMJ is the Desmedt test, a particular type of Electroneurography (ENG); the Single Fiber Electromyography (SF-EMG ) might be a valid and more sensitive technique for this analysis. The spreading use of Neuromuscular Blocking Agents (NMBAs) has led to the introduction of the Train-Of-Four acceleromyography (TOF) monitoring in ICU; however, there is a lack of information on its reliability in critically ill patients. Some conditions related to critical illness, like the ICU-AW, could make TOF monitoring unreliable. The aims of the study are: 1. To estimate the prevalence of NMJ disorders acquired during critical illnesses using SF-EMG. 2. To assess the reliability of TOF in critically ill patients. The study will evaluate patients with critical illnesses hospitalised in the General Intensive Care Unit (UOC Anestesia e Rianimazione 2, Spedali Civili di Brescia). To diagnose CIP and/or CIM, PENT will be performed after 72 hours from the admission in the ICU and every 72 hours. To evaluate NMJ disorders, SF-EMG will be performed in patients with an abnormal PENT. To evaluate the reliability of TOF, the test will be performed before, during and after NMBAs treatment and in all studied patients, independently from NMBAs administration; the presence of neuromuscular blockade will be evaluated clinically and/or using instrumental tests like Desmedt test. Statistical analysis will be performed to represent the prevalence of NMJ disorders in the general intensivistic population and the reliability of TOF in terms of specificity and sensitivity for the diagnosis of the neuromuscular blockade.
Muscle relaxants are administered to most patients undergoing general anesthesia in order to facilitate the placement of an endotracheal tube and improve operating conditions. Despite routine reversal of these agents, many patients arrive in the recovery room with evidence of residual muscle weakness. Many studies have demonstrated that residual neuromuscular blockade (weakness) is a common occurrence after surgery. The only method of reliably detecting the presence of perioperative neuromuscular blockade is through the use of quantitative neuromuscular monitors. These devices measure and quantify the degree of muscle weakness and display the results on a screen. When using train-of-four (TOF) nerve stimulation, the ratio of the fourth muscle contraction (twitch) to the first twitch will be displayed; when this ratio is 90% (or 0.9) or greater, full recovery of muscle strength is present, and the endotracheal tube can be safely removed. At the present time, there is only one commercially-available stand-alone quantitative monitor available in the United States -the TOF-Watch (an acceleromyography device). It is not used by many clinicians because it requires experience to obtain accurate results, is expensive, and is subject to interference by factors in the operating room. The aim of this investigation is to examine a new quantitative monitor, the TOFscan (a new three dimensional acceleromyography device). In order to study the accuracy of this new device, the TOFscan will be compared to the current "clinical gold standard", the TOF-Watch-SX.