Neuromuscular Blockade Clinical Trial
Official title:
Effect of Deep Neuromuscular Blockade on Surgical Conditions and Recovery After Robotic Radical Prostatectomy: a Prospective Randomized Study
Basic requirement for safe performance of the robotic intra-abdominal surgery is a calm and clear surgical field after the introduction of a capnoperitoneum. That can be enabled by a neuromuscular blockade. Provision of standard neuromuscular blockade is a compromise between optimal surgical conditions (sufficiently deep block) and capability to antagonize the block rapidly at the end of the surgery. With rocuronium, it is possible to maintain deep neuromuscular blockade safely until the very end of the surgery, and unlike with spontaneous recovery or reversal of the block with neostigmine, administration of sugammadex at the end of the surgery will enable quick and consistent reversal of the block. Project is focused on comparison of the parameters of deep and standard neuromuscular blockade - surgical conditions (primary endpoint), quality of recovery and turnover time (secondary endpoints).
Balanced anesthesia is an anesthetic procedure of choice for intra-abdominal surgery. Main
components of this procedure are loss of consciousness, treatment of pain and appropriate
neuromuscular blockade (NMB). Peripheral neuromuscular blocking agents (NMBA) are drugs used
for muscle relaxation during balanced anesthesia. Their use plays essential role for
tracheal intubation, orotracheal tube tolerance, introduction of mechanical ventilation and
provision of calm surgical field.
In laparoscopic procedures, introduction of capnoperitoneum for good visibility in surgical
field is necessary. From anesthetic point of view this requirement can be met by adequate
muscle relaxation. After withdrawal of capnoperitoneum at the end of the surgery the
procedure is usually terminated quickly (this phase consists only from suture of a
peritoneum and the small incisions through which instruments were inserted). Spontaneous
recovery from NMB or usual reversal of the block by neostigmine are not fast and reliable
enough at this moment. During standard neuromuscular blockade the dosage of NMBA is a
compromise between optimal surgical conditions (sufficiently deep block) and capability to
antagonize the block rapidly at the end of the surgery. Introduction of sugammadex into
clinical praxis brings the potential to change this paradigm. With rocuronium, it is
possible to maintain deep neuromuscular blockade safely until the very end of the surgery
and unlike with spontaneous recovery or reversal of the block with neostigmine,
administration of sugammadex at the end of the surgery will enable quick and consistent
reversal of the block. Data about routine use of the deep block are rare, PubMed lists with
search strategy [(deep neuromuscular blockade) AND (laparoscopic surgery OR laparoscopy)] 11
references (January 12, 2015, www.pubmed.com).
Patients undergoing robotic radical prostatectomy will be randomized to two groups differing
in muscle relaxation strategy (standard vs. deep) and the type of antagonizing drug at the
end of the surgery (neostigmine vs. sugammadex). Relevant end-points and the differences
between groups with deep and standard neuromuscular blockade will be compared. Indication
and dosage of rocuronium, neostigmine and sugammadex correspond to manufacturers'
recommendations.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver), Primary Purpose: Treatment
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