Evaluation of Optimal Operating Table Height for Successful Placement of Proseal Laryngeal Mask Airway Clinical Trial
Official title:
Evaluating Optimal Operating Table Height for ProSeal-LMA™ Insertion
Usage of LMA has gained much importance especially as a rescue device for failed intubation.
We hypothesised optimal operating table height could improve successful attempt of
ProSeal-LMA™ (P-LMA™) insertion.
The main objective of this study is to evaluate the optimal operating table height for
successful placement of P-LMA™ by comparing operating table height to operators' body
landmark.
The secondary objectives of this study are to evaluate duration required for a successful
P-LMA™ insertion and its associated complications during the attempt.
Written informed consent will be obtained by primary investigator from patients recruited
into this study. The study will be conducted by anesthesiology medical officers with more
than 3 years of anesthetic experience.
All recruited patients will be reviewed by the primary investigator prior to their operation.
Patients' demographic characteristics and airway assessment will be recorded preoperatively.
Airway assessment consists of Mallampati score, mouth opening and thyromental distance (TMD).
Mallampati score is assessed based on modified Samsoon and Young test. Mouth opening is taken
as distance between upper and lower incisor teeth when mouth is maximally opened. TMD is
measured as distance between symphysis menti and thyroid notch with the head in full
extension. Patients are required to be fasted for at least 6 hours before the scheduled
operation. They will then be randomly allocated by computer generated randomisation into one
of three groups based on height of operating table with reference to the performers'
anatomical landmark. The height of the operating table will be adjusted at levels
corresponding to the performers' umbilicus (Group U), lowest rib margin (Group R) or xiphoid
process (Group X).
In the operation theatre, standard monitoring will be applied. Operating table will be
adjusted according to the respective group randomization. Patient will be preoxygenated with
100% oxygen until end-tidal oxygen (etO2) of 85% is achieved. Following which, intravenous
(IV) anesthetic induction drugs will be given: fentanyl 1.5 mcg/kg, propofol 2.0 mg/kg. After
loss of consciousness, the attending anesthesiology medical officer will proceed with mask
ventilation with a mixture of oxygen and sevoflurane to achieve Minimum Alveolar
Concentration (MAC) of 1.0 to 1.2. If there is no difficult ventilation, IV rocuronium 0.6
mg/kg will be given and the patient will be subsequently ventilated for 3 minutes. If
unexpected difficult ventilation occurs, patient will be drop out from this study and
management of the patient will be at the discretion of attending anesthesiologist.
P-LAM™ will then be inserted by the attending anesthesiology medical officer. The size of
P-LMA™ used will be according to the manufacturer's recommendation. The P-LMA™ will be
thoroughly checked and tested as per manufacturer recommendations i.e.: visual inspection
and; inflation and deflation test. All P-LMA™ are reuse within the manufacturers'
recommendation, i.e. ≤40 usages and manufactured by The Laryngeal Mask Airway Co Ltd, Mahe,
Seychelles.
The P-LMA™ will be inserted with cuff fully deflated using introducer technique on all
attempts. Patient's head will be positioned with flexion of the neck and extension of the
head using operator's non-dominant hand. The P-LMA™ is held and inserted while pressing up
against palate and posterior pharyngeal wall until resistance is felt. P-LMA™ cuff is
inflated with a volume of air recommended by the manufacturer. The P-LMA™ cuff pressure is
then measured by a cuff pressure manometer to ensure cuff pressure achieves 60 cmH2O.
A successful insertion is determined when it fulfills both positional and performance tests.
Positional tests includes gastric tube 'bubble' test, suprasternal notch tap test and
insertion of gastric tube through its drain tube which verifies the ideal position of P-LMA™
placement. Another set of test known as performance test consists of oropharyngeal leak
pressure test and it determines how well P-LMA™ is able to perform once it is inserted. All
these tests will be done after insertion and are recorded by a second anesthesiology medical
officer who was not involved in the insertion process. General anesthesia is maintained with
a mixture of oxygen/air (50%/50%) and sevoflurane to achieve Minimum Alveolar Concentration
(MAC) of 1.0 to 1.2 intraoperatively.
Gastric tube 'bubble' test is done by sealing the drainage tube of P-LMA™ with a drop of gel
2-3 mm height followed by Intermittent Positive Pressure Ventilation (IPPV) with a tidal
volume of 8 ml/kg. If no air leak out and gel remains in the drainage tube, it suggests good
P-LMA™ placement. Suprasternal notch test is done by placing a drop of gel 2-3 mm height and
a firm pressure is applied to suprasternal notch with a finger. P-LMA™ placement is
considered good if gel column moves synchronously with the applied pressure. Successful
insertion of a 14 Fr or 16 Fr orogastric tube via drainage tube without encountering any
resistance and confirmation of its position in gastric suggests a good P-LMA™ placement.
Position of orogastric tube is verified by presence of gastric fluid aspiration and audible
gastric insufflation at the epigastrium during auscultation via stethoscope after 20 ml
injection of air.
Subsequently, to test for oropharyngeal leak pressure test, airway seal pressure is
determined by setting Adjustable Pressure Limiting (APL) valve to 30 cmH2O and fresh gas flow
at ≥3 L/min. A good oropharyngeal leak pressure is determined by its capability to record a
stable airway pressure of ≥25 cmH2O in supine position and such recording suggests a good
P-LMA™placement.
The same assistant who records the data will also record duration taken for P-LMA™ insertion
by using a standard stopwatch and it starts from the time when operator places the P-LMA™ at
the aperture of oral orifice till appearance of first end-tidal CO2 (etCO2) waveform on
capnography. Time measurement is only done during the first P-LMA™insertion.
If there is a failure of insertion or failure of placement of P-LMA™ during the first
attempt, defines as any failure of individual positional and performance tests, the patient
will be considered as failed P-LMA™ attempt and subsequently airway management will be up to
the discretion of the attending anesthesiologist. Ease of placement of P-LMA™ is evaluated by
the operator via subjective ease of insertion whereby score 1=very easy, 2=easy, 3=difficult,
4=very difficult. Presence of airway morbidity during the first attempt of P-LMA™ insertion
will be recorded. Examples of complications monitored includes oxygen desaturation of <90%,
airway obstruction, laryngospasm, bronchospasm and oropharyngeal trauma (defined as presence
of blood upon removal of P-LMA™). After the procedure is done, operating table height will be
adjusted according to surgical operation requirements.
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