Anesthesia Clinical Trial
Official title:
Nitrous Oxide and Inhalational Agent Pharmacokinetics During Anaesthetic Induction and Emergence
Nitrous oxide is the oldest anaesthetic agent still in routine use today. Despite huge
changes in the pharmacology of volatile anaesthetic agents and intravenous anaesthetics, the
unique properties of nitrous oxide have maintained its place in modern practice, where it is
used in combination with other, more powerful inhaled agents, such as sevoflurane. It has
useful analgesic properties, unlike the other agents used today, and its inclusion reduces
the concentration of other agents required to maintain an adequate depth of anaesthesia for
surgery.
In particular, its low solubility in body tissues gives it a unique pharmacokinetic profile,
with rapid washin and washout from the body. It has been shown to have a similar effect on
the speed of uptake of accompanying agents like sevoflurane (the "second gas effect"), which
have much slower pharmacokinetics. A recent study by us suggested that this promotes faster
and smoother onset of anaesthesia, as measured using the standard monitor of depth of
anaesthesia (the BIS monitor). This finding requires confirmation prospectively in a larger
group of patients. The investigators further hypothesise that a similar effect also exists
on washout of sevoflurane at the end of the procedure, promoting quicker recovery
(emergence) from anaesthesia. This has never been previously demonstrated. This information
will help better define the place of nitrous oxide in achieving optimal outcomes in modern
anaesthetic practice. The investigators propose to conduct a simple study to measure the
effects of nitrous oxide washin and washout on exhaled concentrations of accompanying
sevoflurane during both induction of anaesthesia and emergence, and identify any
accompanying effect on the rate of change in depth of anaesthesia using BIS. The
investigators hypothesise that the rate of fall of exhaled sevoflurane concentration at the
end of anaesthesia will be more rapid in the group of patients breathing a gas mixture
containing nitrous oxide, and that the rate of fall of BIS on induction and the rate of rise
of BIS on emergence will be faster in the nitrous oxide group.
Nitrous oxide is the oldest anaesthetic agent still in routine use today. Despite huge
changes in the pharmacology of volatile anaesthetic agents and intravenous anaesthetics, the
unique properties of nitrous oxide have maintained its place in modern practice, where it is
used in combination with other, more powerful inhaled agents, such as sevoflurane. It has
useful analgesic properties, unlike the other agents used today, and its inclusion reduces
the concentration of other agents required to maintain an adequate depth of anaesthesia for
surgery. In particular, its low solubility in body tissues gives it a unique pharmacokinetic
profile, with rapid washin and washout from the body. It has been shown to have a similar
effect on the speed of uptake of accompanying agents like sevoflurane (the "second gas
effect"), which have much slower pharmacokinetics.
A recent study by us suggested that this promotes faster and smoother onset of anaesthesia,
as measured using the standard monitor of depth of anaesthesia (the BIS monitor). This
finding requires confirmation prospectively in a larger group of patients.
We further hypothesise that a similar effect also exists on washout of sevoflurane at the
end of the procedure, promoting quicker recovery (emergence) from anaesthesia. This has
never been previously demonstrated. This information will help better define the place of
nitrous oxide in achieving optimal outcomes in modern anaesthetic practice.
We propose to conduct a simple study to measure the effects of nitrous oxide washin and
washout on exhaled concentrations of accompanying sevoflurane during both induction of
anaesthesia and emergence, and identify any accompanying effect on the rate of change in
depth of anaesthesia using BIS.
Consenting adult participants will be recruited who are undergoing general anaesthesia for
elective surgery anticipated to take a minimum of 1 hour and where an arterial line is
considered appropriate for monitoring of blood pressure.
As, in normal practice, the decision whether to include of nitrous oxide in the anaesthetic
mixture is largely discretionary on the part of the anaesthetist, and therefore allocation
to either arm of the protocol is consistent with routine practice, it is intended that the
patients will be approached for consent on admission to hospital for their surgery. Standard
patient monitoring will be used including BIS and a 2 mL sample of blood will be taken to
assess blood gas content lung function and optimise lung ventilation.
Following induction of anaesthesia, participants will receive an inhaled gas mixture
containing standard concentrations of sevoflurane. They will be randomised to a treatment
group where a standard concentration of nitrous oxide is included in this mixture, or a
control group where nitrous oxide is not included. Monitoring and recording of exhaled gas
concentrations will be made by continuous sampling of gas from the breathing circuit and
computer storage. We hypothesise that the rate of fall of exhaled sevoflurane concentration
at the end of anaesthesia will be more rapid in the group of patients breathing a gas
mixture containing nitrous oxide, and that the rate of fall of BIS on induction and the rate
of rise of BIS on emergence will be faster in the nitrous oxide group.
;
Allocation: Randomized, Endpoint Classification: Pharmacokinetics Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Subject), Primary Purpose: Treatment
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Active, not recruiting |
NCT04580030 -
Tricuapid Annular Plane Sistolic Excursion Before General Anesthesia Can Predict Hypotension After Induction
|
||
| Active, not recruiting |
NCT04279054 -
Decreased Neuraxial Morphine After Cesarean Delivery
|
Early Phase 1 | |
| Completed |
NCT03640442 -
Modified Ramped Position for Intubation of Obese Females.
|
N/A | |
| Recruiting |
NCT04099693 -
A Prospective Randomized Study of General Anesthesia Versus Anesthetist Administered Sedation for ERCP
|
||
| Terminated |
NCT02481999 -
Pre- and Postoperative EEG-Monitoring for Children Aged From 0,5 to 8 Years
|
||
| Completed |
NCT04235894 -
An Observer Rating Scale of Facial Expression Can Predict Dreaming in Propofol Anesthesia
|
||
| Recruiting |
NCT05525104 -
The Effect of DSA on Recovery of Anaesthesia in Children (Het Effect Van DSA op Het Herstel na Anesthesie Bij Kinderen).
|
N/A | |
| Recruiting |
NCT05024084 -
Desflurane and Sevoflurane Minimal Flow Anesthesia on Recovery and Anesthetic Depth
|
Phase 4 | |
| Completed |
NCT04204785 -
Noise in the OR at Induction: Patient and Anesthesiologists Perceptions
|
N/A | |
| Completed |
NCT03277872 -
NoL, HR and MABP Responses to Tracheal Intubation Performed With MAC Blade Versus Glidescope
|
N/A | |
| Terminated |
NCT03940651 -
Cardiac and Renal Biomarkers in Arthroplasty Surgery
|
Phase 4 | |
| Terminated |
NCT02529696 -
Measuring Sedation in the Intensive Care Unit Using Wireless Accelerometers
|
||
| Completed |
NCT05346588 -
THRIVE Feasibility Trial
|
Phase 3 | |
| Terminated |
NCT03704285 -
Development of pk/pd Model of Propofol in Patients With Severe Burns
|
||
| Recruiting |
NCT05259787 -
EP Intravenous Anesthesia in Hysteroscopy
|
Phase 4 | |
| Completed |
NCT02894996 -
Does the Response to a Mini-fluid Challenge of 3ml/kg in 2 Minutes Predict Fluid Responsiveness for Pediatric Patient?
|
N/A | |
| Completed |
NCT05386082 -
Anesthesia Core Quality Metrics Consensus Delphi Study
|
||
| Terminated |
NCT03567928 -
Laryngeal Mask in Upper Gastrointestinal Procedures
|
N/A | |
| Recruiting |
NCT06074471 -
Motor Sparing Supraclavicular Block
|
N/A | |
| Completed |
NCT04163848 -
CARbon Impact of aNesthesic Gas
|