Airway Obstruction Clinical Trial
Official title:
Evaluation of the Use of Tracheal Intubation Through a Laryngeal Tube to Intubate Anesthetized Patients
Failed intubation is currently one of the most important factors leading to morbidity and
mortality in anesthesia.
The development of supraglottic airway devices (SGDs), such as the intubating laryngeal tube,
has revolutionized airway management, as these devices allow adequate ventilation and
oxygenation in situations where ventilation and/or intubation via conventional means pose a
challenge. Several publications describe the usefulness of such devices for salvaging
ventilation in patients that cannot be intubated with direct laryngoscopy or who cannot be
ventilated with a facemask. In these salvage situations, SGDs are highly effective in
achieving adequate patient oxygenation.
Achieving effective oxygenation with an SGD and completely isolating the airway by intubation
at the same time. This is now possible thanks to the so called supraglottic intubation
devices (SGIDs). For that reason, we believe it is necessary to conduct a study that allows
evaluation of the performance of this device in the context of daily clinical practice.
Its design characteristics, its capacity to be used in intubation applications, its soft and
atraumatic materials as well as its disposability augur this product a significant expansion
in the next few years. Nonetheless, no data are available on the success of intubation when
the intubating laryngeal tube suction device (ILTSD) is used. The idea behind this study is
to assess the possibilities to use the ITLSD device to intubate patients in regular
anesthetic practice.
The development of supraglottic airway devices (SGDs), such as the intubating laryngeal tube,
has revolutionized airway management, as these devices allow adequate ventilation and
oxygenation in situations where ventilation and/or intubation via conventional means pose a
challenge. It would seem ideal to be able to unify both techniques in one single device; in
other words, achieving effective oxygenation with an SGD and completely isolating the airway
by intubation at the same time. This is now possible thanks to the so-called supraglottic
intubation devices (SGIDs). For that reason, we believe it is necessary to conduct a study
that allows evaluation of the performance of this device in the context of daily clinical
practice.
LOCATION: The study will be conducted at operating rooms serving inpatients at the Valencia
Clinical University Hospital. Investigators will be anesthesiologists with long experience in
fibroscopy and in the management of supraglottic devices used for intubation.
METHODOLOGY: Prospective observational study aimed at evaluating the success of intubation
through an I-LTSD device in regular clinical practice.
Research population: The study population will be made up of adult patients undergoing
elective surgery who require general anesthesia and endotracheal intubation. Patients will be
included in a consecutive manner provided that selection criteria are met. All patients will
be required to sign an informed consent form.
Study variables: Information on the following variables will be gathered:
- Demographic variables: age, gender, weight, height
- Clinical variables: American Society Anaesthesiology status
- Concomitant conditions: presence of cardiovascular or respiratory conditions, liver or
renal failure, history of gastroesophagic reflux.
- Type of surgery to be performed
- Difficult airway parameters:
- Mallampati score
- Thyromental distance
- Degree of cervical mobility
- Interdental distance (in mm)
- Anesthetic agents used, including dose administered: propofol, fentanyl, others
- Number of attempted laryngeal mask insertions
- Repositioning maneuvers
- Insertion time (in seconds)
- Change for a different number
- Expired tidal volume > 6-7 ml.kg-1,
- Expired CO2 < 45 mm Hg
- Seal pressure
- Fiberoptic visualization
- Ease of passage of nasogastric tube
- Number and duration of intubation attempts through laryngeal mask
- Presence of blood on removal of the device
- Soreness of throat, painful swallowing /intensity (mild-moderate-severe)
- Total anesthesia time
- Baseline hemodynamic parameters (SpO2, E-T-CO2) and BIS value at pre-insertion
(following induction of anesthesia), at 3 minutes after insertion of I-LTSD device,
pre-intubation and immediately following tube removal.
PATIENT RECRUITMENT Once it has been ascertained that inclusion criteria are met, patients
will be informed about the study and they will be invited to participate. If they agree, they
will be asked to sign an informed consent form either in the pre-anesthesia unit or in the
ward. This must be done well before the patient is taken to the operating room.
OPERATION ROOM PROCEDURE (OR) Once the patient is in the OR standard monitoring is performed
(3-lead ECG, non invasive blood pressure measurements every 5 minutes and peripheral O2
saturation). In addition, anesthetic depth will also be monitored using a bispectral index
(BIS) monitor (BIS-VISTAâ„¢ Monitoring System, Aspect Medical System Inc. USA). Pre-oxygenation
with 100% oxygen will be performed through a facemask with the patient breathing normally
(normal tidal volume).
Subsequently the anesthesiologist in charge will carry out induction of anesthesia following
the standard procedure, using neuromuscular blocking agents at standard doses (preferably
rocuronium at a dose of 0.6 mg/kg of ideal weight). A record will be kept of the dosage used
for each of the drugs administered during anesthesia induction. Once the patient has lost
consciousness, manual ventilation will be applied through a facemask until the device is
inserted.
According to airway management clinical guidelines,, anesthetic depth is considered adequate
for insertion of a supraglottic device when the following conditions are met: absence of
palpebral reflex, absence of response to jaw subluxation and BIS value below 40. If on
insertion of the I-LTSD device the patient reacts with avoidance movements, the dose of
propofol (or of the hypnotic agent the anesthetist in change has decided to use) should be
augmented in 50 mg-bolus increments until the anesthetic status of the patient is appropriate
for insertion of the device. A record will be kept of the total number of additional boluses
required (if any).
The anesthesiologist will then insert the I-LTSD device in accordance with the manufacturer's
instructions to ensure optimal placement:
- The size of the device is selected depending on the patient's ideal weight. Size 4-5 is
recommended for adult patients (both males and females). A smaller size should be used
in individuals whose weight or height is lower than the ideal value. .
- The anteroposterior and lateral surfaces of the I-LTSD device should be previously
lubricated. Integrity of the device is checked by using the fingers to compress its
distal portion (the area over the cuff). The device can be inserted with the head and
neck placed in different positions, although the sniffing position is the most
appropriate one.
- The device must be grasped with the dominant hand, with the thumb, index and middle
fingers holding the base of the ventilation channel. Pressure is exerted posteriorly and
caudally on the tube. The tube is inserted into the mouth passing the hard palate first
and the soft palate later until it reaches its final position on the upper esophagic
sphincter. Proper positioning of the device is indicated by resistance to its further
advancement. Once the device is in place, soft manual ventilation must be performed to
confirm it is in the proper position.
- Proper functioning of the I-LTSD device is confirmed by the absence of leakages, an
initial tidal volume of 6-7 ml.kg-1, correct ventilatory chest movements and a normal
expired CO2 curve. Should ventilation be ineffective, the anesthesiologist must
reposition the device with maneuvers of the head, neck and jaw.
Once the I-LTSD device has been inserted:
- Airway quality is classified into: free, partially obstructed and fully obstructed. The
existence of partial leaks will also be investigated. A maximum of three attempts will
be allowed and, if necessary, recourse will be made to a different device or to standard
intubation.
- The anatomical position of the I-LTSD device will be evaluated by fiberoptic
visualization through the pneumatic cannel. Grade 1 corresponds to situations where the
anterior epiglottis blocks visualization of the glottis or where laryngeal structures
are absent. Grade 2 refers to cases where the anterior epiglottis and the vocal cords
are visible. Grade 3 includes cases where the posterior epiglottis and the vocal cords
can be seen. In grade 4 cases, full visualization of the vocal cords is possible. This
assessment will be conducted by a different anesthesiologist from the one performing the
intubation protocol.
- Seal pressure will be calculating in accordance with the methodology described above:
the expiratory valve of the circle system must be closed at a constant fresh gas flow of
3 L/min, adjusting the pressure limiting valve to 40 cm H2O. Pressure in the circuit
rises until equilibrium is reached and a leak is induced. That is the so-called seal
pressure. Seal pressure will be determined 3-5 minutes after insertion, when it is
functioning in a stable way. Audible leaks in the mouth, or reaching equilibrium, will
determine the degree of seal pressure of the system.
- A record will be made of ease of passage of a 16 french nasogastric tube through the
gastric channel (which will be previously lubricated and inserted only when the
laryngeal tube is already in its final position).
- Once the laryngeal tube is in the ideal position, intubation can begin. An endotracheal
tube (ETT) of the size recommended by the manufacturer will be used (a nr 7.5 ETT for a
4-5 I-LTSD device; a 7 ETT for a 2.5-3 I-LTSD device). If blind insertion of the ETT
fails after two attempts and after correction maneuvers indicated by the
anesthesiologist (removal a few centimeters of the laryngeal tube, rotating the ETT,
anterior cervical movements,...), then intubation will be performed with a flexible
fibroscope/endoscope and the study will be finalized.
Use of the fibroscope to facilitate endotracheal intubation is based on previous experience
with these kinds of devices.
Training of the investigators in the procedures of the study:
The study will be carried out by physicians specializing in the fields of anesthesia and
resuscitation who are in the habit of applying general anesthesia to patients undergoing
surgery, and who routinely perform airway control by means of endotracheal intubation. They
will also have used supraglottic devices for intubation in over 80 cases.
ESTIMATION SAMPLE SIZE& DATA ANALYSIS: According to published data, the success rate for
other supraglottic devices ranges between 84 and 90% at the first attempt and between 95-100%
overall. Considering that the upper limit of the 95% confidence interval acceptable for
supraglottic devices should be lower than 2.5%, the required size of our sample should be of
30 patients. To compensate for potential losses to follow up, the total number of patients to
be included will be 34.
The descriptive analysis of the data collected will be made by drawing up frequency tables
for the nominal variables, and calculating measures of central tendency and dispersion for
continuous variables. 95% confidence intervals will be estimated (95% CI) for the latter. For
the clinical variables, Student's T test will be used for data related with quantitative
variables if parameters show a normal distribution. If the distribution of parameters is
abnormal the Mann-Whitney U test will be performed.
DURATION: The data recording period will be 5 months. Patients will be recruited
consecutively provided that they comply with the inclusion criteria, they do not meet the
exclusion criteria described above and they agree to participate in the study and sign the
required informed consent form.
ETHICAL: The study will be conducted in accordance with the ethical requirements laid down in
the Helsinki Declaration, revised in Edinburgh, Scotland in October 2000, in terms of human
experimentation, as well as in accordance to Spanish Royal Decree 223 of 1 May 2004.
CONFIDENTIALITY: The study will be carried out within the framework of the Spanish Data
Protection Law (Act 15 of 13 December 1999).
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