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Clinical Trial Summary

Magnesium sulfate has been applied in various situations due to actual or potential benefits related to neuroprotection, treatment of eclampsia/pre-eclampsia, arterial hypertension, adrenergic reflex under laryngoscopy/intubation and, shivering, nausea and vomiting, among others. In anesthesia it has been useful as an analgesic adjuvant; however, the method to calculate the dose of magnesium sulfate in obese population is unclear. The objective of this project is to compare two methods of dose calculation based either on the real weight or corrected ideal weight.


Clinical Trial Description

Magnesium sulfate has been applied in various situations due to actual or potential benefits related to neuroprotection, treatment of eclampsia/pre-eclampsia, arterial hypertension, adrenergic reflex under laryngoscopy/intubation and, shivering, nausea and vomiting, among others. In anesthesia it has been useful as an analgesic adjuvant; however, the method to calculate the dose of magnesium sulfate in obese population is unclear. The objective of this project is to compare two methods of dose calculation based either on the real weight or corrected ideal weight. Main objective: To determine the optimum strategy to safely and effectively obtain the value of magnesium concentration in the blood of obese population. Secondary objectives: To evaluate postoperative analgesia and the pharmacokinetic profile of neuromuscular blocker used in each group. Hypothesis: The null hypothesis is that no matter which method we use to calculate the magnesium sulfate dosage, the blood magnesium concentration will be the same. The alternative hypothesis is that magnesium sulfate dosage based on the patient's actual weight generates higher concentrations of magnesium than that required for postoperative analgesia, as compared with dosage based on that corrected ideal weight of the patient. Trial design: this is a prospective, controlled, randomized and double-blind clinical trial. Study setting This study will be conducted at Beneficence Portuguese Society, Santos, an academic hospital, in São Paulo, Brazil. A sample of 75 participants will be recruited from a population of obese patients scheduled to undergo cholecystectomy or bariatric surgery through laparoscopy. Interventions In the first phase of the trial, 10 patients with body mass index 20-30 kg/m² will be administered magnesium sulphate 40 mg/kg at anesthetic induction. In all patients, blood collection will be conducted before administration of magnesium sulfate, and at 15, 30, 60, 120 and 240 minutes after administration of magnesium sulfate. In the second phase of the trial, from among obese patients scheduled to undergo cholecystectomy or bariatric surgery through laparoscopy at our institute, 75 patients will be invited to participate in the trial. Participants will be assigned to three groups by electronic randomization process as follow: Placebo group (PG) without administration of magnesium sulfate; real weight group (RWG) administration of magnesium sulfate at 40 mg/kg of the patient's actual weight; corrected ideal weight group (CWG) administration of magnesium sulphate at 40 mg/kg of patient's corrected ideal weight. The corrected ideal weight will be calculated using the following formulas: Ideal weight Man = height (cm) - 100 Woman = height (cm) - 105 Corrected ideal weight = Ideal weight + (0,4 x difference between the real and ideal weight) The participants will not be administered any sedative agent before anesthetic induction. At arrival in the operating room, all patients will undergo electrocardiography, noninvasive blood pressure measurement, pulse oximetry, monitoring of neuromuscular function, and that of the level of consciousness. Venous access and hydration will be achieved according to the anesthesiologist's judgment. At the time of puncture of the vein, the first 2-ml blood sample will be collected to establish the basal concentration of magnesium in the blood. Within 10 min after collection of the blood, dosage will be calculated according to the following chart (Figure 1). In all participants, infusion of treatment solution will be performed by a blinded investigator, and ketoprofen 100 mg, clonidine 2 µg/kg, cefazolin 2 g, dexamethasone 4 mg, ranitidine 50 mg and lidocaine 1,5 mg/kg will be administered simultaneously. At the end of infusion participants will undergo pre-oxygenation with 100% O2 for 3 to 5 min, followed by propofol through target controlled infusion with initial target of 4 µg/ml according to Marsh's pharmacokinetic model, under monitoring for the level of hypnoses. At the time of adequate level of hypnoses, revealed by the hypnoses monitor (SedLine® Brain Function Monitoring) calibration of the monitor of neuromuscular function (train-of-four - TOF) will be performed; subsequently, cisatracurium 0.15 mg/kg will be administered, and target-controlled infusion of remifentanil (Minto's pharmacokinetic model) at initial target concentration of 5 ng/ml will be conducted. Under hypnoses monitoring, 0.03 mg/kg cisatracurium will be administered if TOF ≥ 2 is observed or on surgical demand. Remifentanil infusion will be conducted according to the patient's hemodynamics, such that systolic pressure is maintained within 30% limits from the baseline value, or maximum value of 130 mmHg and minimum value of 90 mmHg are achieved. During the last 20 minutes' period of surgery, cisatracurium will be withheld, when possible. At the end of surgery, at TOF > 2, atropine 20 µg/kg and neostigmine 40 µg/kg will be administered. Before extubation, the patients in both groups will be administered morphine 0,05 mg/kg and dipyrone 30 mg/kg. Five minutes after extubation and after each 30 minutes' interval, repeat dose of morphine will be administered at pain-score of > 3 (0 to 10) of the patient. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04003688
Study type Interventional
Source University of Sao Paulo General Hospital
Contact
Status Completed
Phase N/A
Start date August 26, 2019
Completion date November 12, 2020

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