Pilot Study on the Pharmacodynamics of Sugammadex in Morbidly Obese Patients: Reversal of Deep Neuromuscular Blockade — MOS  

Neuromuscular Blockade Clinical Trial

Official title: Pilot Study on the Pharmacodynamics of Sugammadex in Morbidly Obese Patients: Reversal of Deep Neuromuscular Blockade

Status Recruiting

Clinical Trial Summary

Should the dose of sugammadex in morbid obese patients be calculated on the real body weight or the ideal body weight?

To study the pharmacodynamics of sugammadex in morbidly obese patients by comparing 1 mg/kg IBW versus 1 mg/kg TBW versus placebo.

Clinical Trial Description

Background of the study:

Morbidly obese patients selected for elective bariatric surgery have major anesthetic concerns. The risks include a difficult airway, difficult mask ventilation, hypoxemia, pre-existent restrictive and obstructive lung disease and residual anesthetics postoperatively due to their body habitus. In this research the investigators will focus on reversal of neuromuscular blockade to give the patient full muscle strength. Sugammadex is a A-cyclodextrin designed to encapsulate rocuronium bromide, a frequently used non-depolarizing neuromuscular blocking agent. Sugammadex provides rapid reversal of neuromuscular blockade by this encapsulation. Based on the available literature, it can be concluded that limited information is available on the use of sugammadex in morbidly obese patients. While the degree of obesity varies within the available studies, in general, the studied patients are less obese compared to the population that is currently undergoing bariatric surgery. The pharmaceutical company that produces sugammadex states that it should be dosed based on the total body weight (TBW) in all adults, regardless of the presence of obesity. However, rocuronium bromide in morbidly obese patients is dosed on ideal body weight (IBW). Therefore, the investigators hypothesize that sugammadex can be dosed based on ideal body weight instead of total body weight in morbidly obese patients. This is also relevant in economic perspective since the costs of sugammadex are high.

Objective of the study:

To study the pharmacodynamics of sugammadex in morbidly obese patients by comparing 1 mg/kg IBW versus 1 mg/kg TBW versus placebo

Study design:

This is a double-blind randomized, placebo controlled study which will be performed in morbidly obese patients with a BMI > 40 kg/m2 undergoing bariatric surgery . Patients about to undergo bariatric surgery will be approached and asked to participate. Before induction of anesthesia, a neuromuscular train-of-four (NMT)(type M-NMT-00=00, Datex Engstrom) will be applied over the ulnar nerve by use of surface electrodes. By placing two electrodes over the nervus ulnaris and giving four pulses of 0,2 ms duration delivered at a frequency of 2 Hz every 15 seconds it will give a muscle twitch. With the Train-of-four (TOF) the investigators can measure the neuromuscular response of the adductor pollicis muscle and calculate the neuromuscular blockade over time ( TOF percentage). The TOF percentage will be measured from induction of anesthesia until the end of surgery. According to a standardized anesthesia protocol, propofol (2.5 mg kg-1) and fentanyl 250microgram will be given for induction of anesthesia, upon which the NMT will be calibrated and the resultant force of contraction of the adductor pollicis muscle is recorded. This is followed by rocuronium 0,6 mg/kg based on IBW and after the TOF ratio has come 0%, tracheal intubation will take place and mechanical ventilation will be initiated by the attending anesthesiologist. Patients then receive either sugammadex 1 mg/kg based on ideal body weight (IBW) or 1mg/kg based on total body weight (TBW) or placebo 0,9% NaCl as a bolus injection in a double blind fashion. During surgery, the attending blinded anesthesiologist is allowed to give additional bolus of 10 mg atracurium whenever the neuromuscular block is inadequate in his opinion or the TOF ratio exceeds 50%. Atracurium is not a aminosteroidal neuromuscular blocking agent and can still be used in patients within unlimited hours after use of sugammadex, as it will not be encapsulated by sugammadex. Until two hours after the sugammadex dose the patient will be observed in a usual manner in the PACU.

Study population:

25 morbidly obese patients with a Body Mass Index > 40 kg/m2 who are undergoing bariatric surgery will be included (laparoscopic gastric banding, or -bypass surgery or sleeve-gastrectomy) Inclusion criteria: - Body Mass Index > 40 kg/m2 - 18-65 years old - American Society of Anaesthesiologists (ASA) physical status II to III Exclusion criteria: - Renal insufficiency identified by GFR < 60 ml/min/1.73m2 - Use of sevoflurane since this can enhance neuromuscular blockade - Previous succinylcholine use in the last 24 hours - Use of other medication that can enhance neuromuscular blockade such as aminoglycoside- and polypeptide-antibiotics, lincosamide, acylamino-penicilline-antibiotics, tetracycline, high dose of metronidazol, M.A.O.-inhibitors, kinidine, magnesium, calcium channel blockers, lithium. - Use of other medication that can decrease the neuromuscular blockade such as neostigmine, pyridostigmine, aminopyridinederivates, chronic use of corticosteroids, phenytoïne or carbamazepine, noradrenaline, azathioprine, theofylline, calciumchloride, kaliumchloride. - hypersensitivity (allergic) to sugammadex or any of the preservatives. - Known ejection fraction of less than 35% - Liver failure ( > 3 times the upper limit of normal values) - Pregnancy or breastfeeding

Intervention:

After intubation of the patient either sugammadex or placebo will be given in a double blind fashion. Placebo or sugammadex 1 mg/kg based on IBW or 1 mg/kg based on TBW will be given and the TOF will be measured every 15 second until a ratio of 50% is achieved.

Primary study parameters/outcome of the study:

• Time to TOF 50%

Secondary study parameters/outcome of the study:

• Time to TOF 5% and 25% • Time course of TOF • Relation between TOF% and covariates (TBW, IBW, age, gender etc) • Quality of surgical conditions from muscle relaxation point of view.

Nature and extent of the burden and risks associated with participation, benefit and group relatedness: ugammadex is a drug that has been approved to be used in Europe since 2008. Safety data indicates that sugammadex was well tolerated up to the licensed dose of 16 mg/kg. The investigators will give 1 mg/kg based on ideal or total body weight. The use of sugammadex after induction of anesthesia in this dose may lead to insufficient neuromuscular blockade; by using sugammadex, either 1 mg/kg based on IBW or TBW the neuromuscular blockade will be shortened between 7-22 minutes or 5-15 minutes respectively. For the placebo group it is shown that 0,6 mg/kg rocuronium based on ideal body weight will give neuromuscular blockade until a TOF of 50% for 20-40 minutes. As the TOF is continuously measured, the attending anaesthesiologist will monitor neuromuscular blockade using TOF and/or other standard criteria and can consider at any time to administer atracurium to increase neuromuscular blockade during surgery. The perioperative use of the TOF monitor can be considered standard practice ;

Study Design

Allocation: Randomized, Endpoint Classification: Pharmacodynamics Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator)

Related Conditions & MeSH terms

• Neuromuscular Blockade

• NCT number: NCT01855217
• Study type: Interventional
• Source: St. Antonius Hospital
• Contact: A PI Houwink, MD
• Phone: ~3130-609-2304
• Email: alettahouwink@gmail.com
• Status: Recruiting
• Phase: Phase 3
• Start date: April 2013
• Completion date: April 2014